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KNX SYSTEM
INSTALLATION AND CONFIGURATION GUIDE
Contents
4 INTRODUCTION TO THE KNX OFFER
4 Composition
6 KNX standard architecture
7 Wiring rules
8 IP structure
9 ETS software
10 DEVICE PRESENTATION AND INSTALLATION
10 Simple controls
12 Scenario control Cat. Nos 0 784 78 and 0 791 78
13 IR remote control Cat. No. 0 882 31
13 IR/RF remote control Cat. No. 0 882 32
14 Light level cell Cat. No. 0 488 28
14 Detectors
16 Mobile configuration tool Cat. No. 0 882 30
17 KNX false ceiling controllers
19 KNX DALI modular controller Cat. No. 0 026 35
20 KNX roller blind modular controller Cat. No. 0 026 40
20 Multi-channel modular controller Cat. No. 0 026 34
21 SCS modular controllers
22 Touch control Cat. No. 0 488 84
22 IP communication module Cat. No. 0 035 43
23 USB interface Cat. No. 0 035 47
23 Line coupler Cat. No. 0 035 16
24 KNX power supply Cat. No. 0 035 12
24 KNX cable Cat. No. 0 492 91
25 Building manager viewer Cat. Nos. 0 490 00/04
25 Building manager controller Cat. No. 0 035 44
26 ARCHITECTURE
26 Architecture with false ceiling controller
27 Architecture with modular controller
28 Wiring
29 DESIGN
29 Introduction
30 Product layout (CAD)
32 Installation wiring and powering-up
33 ETS configuration
4
CONTENTS
COMPOSITION
Introduction to the KNX offer
The Legrand KNX offer is used to create flexible, open installations.The KNX lighting management system consists of the following assemblies: - Controls: these can be manual (wiring accessories) or automatic (detectors). They send commands to the various components in the system.- Controllers (also called actuators): these receive commands from the controls or automation devices in the system. They have various outputs and control the lighting, blind or shutter loads.- Automation devices: these can send commands to the various controllers in the system and/or receive commands. - Accessories: these supply power to, connect and interface the lighting management system.
PRI
SCS
035 67PRI: 220 - 240V-185 - 175mA50/60HzSCS : 27Vdc 600mA
LEARN
0026
34
100-240 V50-60 Hz
5
CONTENTS
0 488 20/22/21: false ceiling detector
0 035 44: building manager controller
0 035 43: IP communication module
0 026 34: KNX multi-channel modular controller
PRIPRI
SCS
035 67PRI: 220 - 240V-185 - 175mA50/60HzSCS : 27Vdc 600mA
LEARN
0026
34
100-240 V50-60 Hz
LEARN
0026
34
0 026 40: KNX modular controller for roller blinds
0 035 12: KNX power supply
0 488 84: touch screen
0 488 64/66/62/61: false ceiling controller
0 490 00/04: building manager viewer
0 784 75: lighting control
Controls:
Controllers:
Accessories:
Automation devices:
CONTENTS
Introduction to the KNX offer (continued)
The KNX specification is published by the KONNEX association.The KNX protocol was recognised by ISO/IEC 14543-3-x as an international standard in November 2006.
Diagram of an installation
An installation can be divided into lines and zones.A line contains a maximum of 64 participants (products).A zone comprises a maximum of 15 lines linked to the main line by line couplers.A backbone links a maximum of 15 zones via zone couplers.
KNX STANDARD ARCHITECTURE
6
Zonecontroller
Line coupler + power supply Line coupler + power supply
Modular controller
False ceiling controller
64 m
odul
es m
axim
um
15 z
ones
max
imum
Back
bone
Power supply
Zone 1
Zone 15
Main line
Maximum 15 lines Line 15
+
Zone Po e
Zone 1
mmm
odulll
es m
axim
um
Li
ppply
+
Main line
Line 15
+
ceiling controller
m64
m
ewewewpowr + perupleLine couLi wwwwpowpowr + pr + pererupleupleLine couLine cou
CONTENTS
7
The BUS must be supplied with 29 V= ±The data forming the KNX "message"is transmitted in differential serial modeat a rate of 9600 bps.A single pair (2 x 0.8 mm) cable must be used.
Maximum lengths
- Maximum distance between 2 products: 700 m- Maximum distance between a product and the KNX power supply: 350 m- Maximum BUS length: 1000 m- Termination resistors are not necessary
Modular controller
False ceilingcontroller
Power supply
350 m
700
m
WIRING RULES
CONTENTS
Introduction to the KNX offer (continued)
Wiring topologies
There are several wiring topologies. It is not necessary to have an impedance at the end of the line.
IP STRUCTURE
8
BUS/KNX
KNX IP
IP/KNX gateway Cat. No. 0 035 43
Peripheral BUS controller
Peripheral BUS controller
Detector DetectorControl Control
Control ControlDetector Detector
Line
Star
Ring
Touch screen
Tree structure Mixed topology
CONTENTS
Used to configure and set the parameters of KNX products.
ETS SOFTWARE
9
ETS configuration (see p. 33)
The products must be configured using the Konnex certified software: ETS3 and ETS4.The products are programmed using the Legrand database.
CONTENTS
10
Device presentation and installation
Flush-mounted wall installation in flush-mounting box
Wall mounted installation with support frame
40 mm min.
CLICK
CLICK
40 mmmin.
CLICKCLICK
SIMPLE CONTROLS
The control can operate in two different modes whose parameters can be set on ETS: - The first for controlling the lighting- The second for controlling blinds or shutters
Technical characteristics
• Power supply: 27 V=, wiring on the peripheral BUS• Consumption: 5 mA• Operating temperature: -5 to + 45°C• Protection index: IP 20• Dimensions: 45 x 45 x 347 mm• Installation (supplied with BUS connector
Cat. No. 0 492 22): - Flush-mounted in 2-module box - Surface mounted with 2-module frame
Cat. No. 0 802 81To be equipped with Mosaic plate Cat. No. 0 788 02 (white) or 0 790 02 (aluminium) and Batibox support Cat. No. 0 802 51
CONTENTS
11
• Lighting controls
For wiring on the peripheral BUS and controlling one controller.For ON/OFF/dimming control of the configured loads.Pushbutton control.
The Plug and Go configuration in this case is:CH1 controls channel 1 and CH2 controls the other channels.
1 way lighting controls: Cat. Nos. 0 784 75 - 0 791 752 way lighting controls: Cat. Nos. 0 784 72 - 0 791 72
Communication object
The operation of the controls is dependent on the links created on ETS• Number of communication objects: 8
Type Objects
Inputs 1 On/Off status bit1 level status byte
Outputs 1 ON/OFF bit4 Dimming bits (1 down, 9 up, 0 stop)
Communication object
The operation of the controls is dependent on the links created on ETS• Number of communication objects: 8 for lighting 6 for blinds
• Lighting
Type Objects
Inputs 1 On/Off status bit1 level status byte
Outputs 1 ON/OFF bit4 Dimming bits (1 down, 9 up, 0 stop)
• Blinds
Type Objects
Inputs 1 position byte (1%= 1, 2-100%=0)
Outputs 1 Up/Down bit1 Open/Close bit
• Lighting and roller blind controls
For wiring on the communication BUS and controlling several controllers.Used for ON/OFF/dimming control of lighting loads and raise/lower and slat orientation control of roller blinds.Switch control.
The Plug and Go configuration in this case is:CH1 controls channel 1 and CH2 controls the other channels.
1 way controls: Cat. Nos. 0 784 71 - 0 791 712 way controls: Cat. Nos. 0 784 73 - 0 791 73
CONTENTS
Communication object
Type Object
Output 1 Scenario number byte
This object is common to all the products connected to the controller
Device presentation and installation (continued)
12
SCENARIO CONTROL CAT. NOS. 0 784 78 AND 0 791 78
The scenario numbers assigned to the buttons are configured with the ETS tool.Can initiate 4 scenarios.
The Plug and Go configuration in this case is: - Pushbutton 1 = all actuator channels 40% - Pushbutton 2 = all actuator channels 60% - Pushbutton 3 = all actuator channels 100%- Pushbutton 4 = all actuator channels 0%
The control is reset by a short press followed by a long press (10 seconds) on the Learn button. The pink LED then flashes quickly.
Technical characteristics
• Power supply: 27 V=, wiring on the peripheral BUS• Consumption: 5 mA• Operating temperature: - 5 to + 45°C• Protection index: IP 20• Dimensions (H x W x D): 45 x 45 x 32.7 mm• Installation (supplied with BUS connector
Cat. No. 0 492 22): - Flush-mounted in 2-module box - Surface mounted with 2-module frame
Cat. No. 0 802 81To be equipped with Mosaic plate Cat. No. 0 788 02 (white) or 0 790 02 (aluminium) and Batibox support Cat. No. 0 802 51
4 buttons (or units) for controlling 4 scenes
Installation (see p. 10)
CONTENTS
13
The remote controls communicate with the actuators (false ceiling or modular controllers). As the controllers do not have IR technology, a detector acts as an IR gateway between the remote control and the actuator.
The scenario remote control is used for remote control of switching on/off and dimming 2 local lighting zones. The buttons can be configured on the ETS tool. The infrared (IR) control has a 10 m range.
This remote control is used to control the outputs of a single controller.
Technical characteristics
• Power supply: 2 x LR 03 1.5 V alkaline batteries (supplied)
IR REMOTE CONTROL CAT. NO. 0 882 31
The remote controls communicate with the actuators (false ceiling or modular controllers). As the controllers do not have IR technology, a detector acts as an IR gateway between the remote control and the actuator.
The scenario remote control is used for remote control of a scenario using the buttons. These numbers can be configured on the ETS tool. The infrared (IR) control has a 10 m range.
The remote control has 5 action buttons, each dedicated to one scenario.A short press on one of the 5 buttons activates a scenario that has been defined on ETS.
Technical characteristics
• Power supply: 2 x LR 03 1.5 V alkaline batteries (supplied)
Communication object
Type Object
Output 1 Scenario number byte
IR/RF REMOTE CONTROL CAT. NO. 0 882 32
Loop control is disabled when using the remote control.
1 scenario per button
CH1 controls
CH2 controls
Scenario control
CONTENTS
14
Device presentation and installation (continued)
DETECTORS
The detector controls the actuators. It has various operating modes (Manual ON/Auto OFF, etc.)
There are two possible control methods: - Closed loop control: the detector operates independently - Open loop: the detector is combined with a light level cell
The parameters are set with the ETS tool (time delay, light level threshold, sensitivity, operating mode: AUTO/MANUAL, type of control)
Used to measure the amount of light coming in from outside the installation. Internal cell for "open loop" lighting management.
It is also used to show the light level on a screen or supervision system display.
LIGHT LEVEL CELL CAT. NO. 0 488 28
The parameters of detectors associated with the loop must be set for open loop. It is essential to calibrate the detectors to ensure the control loop operates correctly.
Technical characteristics
• Power supply: 27 V=, wiring on the peripheral BUS• Operating temperature: - 5 to + 45°C• Protection index: IP 20• Consumption: 15 mA• Installation:
- Directly in false ceiling with claws (supplied) - In Batibox box, depth 50 mm Cat. No. 0 800 31
Communication object
• Number of communication objects: 1
Type Object
Output 2 light level bytes (lux)
Communication object
• Number of communication objects: 8
Type Objects
Inputs 1 On/Off value bit1 level value byte1 presence/end of presence (end of time delay) status bit2 in lux bytes1 synchronisation bit
Outputs 1 On/Off bit1 Value byte 1 presence/end of presence bit
To obtain the correct operation of the light control loops it is essential to comply with the recommended links.
For further information, please refer to the technical data sheet in the e-catalogue, www.legrand.fr
For further information, please refer to the technical data sheets in the e-catalogue, www.legrand.fr
CONTENTS
15
Technical characteristics
• Power supply: 27 V=, wiring on the peripheral BUS• Operating temperature: - 5 to + 45°C• Protection index: IP 20• Consumption on standby: 12 mA for Cat. No. 0 784 85
17 mA for Cat. No. 0 784 86• Installation (supplied with BUS connector
Cat. No. 0 492 22): - Flush-mounted in 2-module box - Surface mounted with 2-module frame Cat. No. 0 802 81
To be equipped with Mosaic plate Cat. No. 0 788 02 and Batibox support Cat. No. 0 802 51
• Flush mounting detectors
For wiring on the communication BUSRecommended fixing height: 1 mIntegrated pushbutton180° detectionOptimum distance between 2 detectors: 6 m
Infrared detection: Cat. No. 0 784 85Infrared and ultrasonic detection: Cat. No. 0 784 86
The Plug and Go configuration is used to control all the channels.
The parameters of the detectors can be set using the ETS software and the mobile configuration tool Cat. No. 0 882 30
Technical characteristics
• Power supply: 27 V=, wiring on the peripheral BUS• Operating temperature: - 5 to + 45°C• Protection index: IP 20• Consumption: 0.2 W on standby for Cat. No. 0 488 20 0.5 W on standby for Cat. Nos. 0 488 22/21Installation:- Directly in false ceiling with claws (supplied)- In Batibox box, depth 50 mm Cat. No. 0 800 31- Surface mounting on ceiling with support frameCat. No 0 488 75 For Cat. Nos. 0 488 22/21 Cat. No. 0 488 74 for Cat. No. 0 488 20
• False ceiling detectors
For wiring on the communication BUSRecommended fixing height 2.50 m360° detection
Infrared detection: Cat. No. 0 488 20Infrared and ultrasonic detection: Cat. No. 0 488 22Ultrasonic detection: Cat. No. 0 488 21
The Plug and Go configuration is used to control all the channels.
The parameters of the detectors can be set using the ETS software and the mobile configuration tool Cat. No. 0 882 30
Connection
ConnectionCat. No 0 488 72 To be ordered separately
Installation (see p. 10)
CONTENTS
Device presentation and installation (continued)
DETECTORS (CONTINUED)
16
Technical characteristics
• Power supply: 27 V=, wiring on the peripheral BUS• Operating temperature: - 5 to + 45°C• Protection index: IP 42 (except for 0 488 30 - IP 55)• Consumption on standby: 12 mA for
Cat. No. 0 488 24/25 17 mA for Cat. No. 0 488 30/23
• Installation: flush-mounted on walls (supplied with fixing plate)
• Surface mounting detectors
For wiring on the communication BUS.Recommended fixing height: 2.50 m
180° infrared detection: Cat. No. 0 488 24270° infrared detection - IP 55: Cat. No. 0 488 30140° infrared detection - special version for corridors/very high areas: Cat. No. 0 488 25180° infrared and ultrasonic detection: Cat. No. 0 488 23
The parameters of the detectors can be set using the ETS software and the mobile configuration tool Cat. No. 0 882 30
MOBILE CONFIGURATION TOOL CAT. NO. 0 882 30
Used to specify certain settings for detectors:• Time delay• Light level threshold• Sensitivity• Calibration• Digital programming to the nearest decimal place on
digital screen• Instant programming control• Option of saving a setting in the memory and
applying it to other detectors (standard preset configurations for each room (office, corridor, bedroom, bathroom, etc.) in accordance with EN 12464.
Technical characteristics
• Infrared communication technology (4 m max.)
• Operating temperature: - 5 to + 45°C• Impact resistance: IK 04• Recharging: with USB - mini USB cable
(not supplied)
Display screen
Control and navigation keys
On/Off and validation
IR transmission and reception LED
Function access keys
Mini-USB connector
CONTENTS
A false ceiling controller is a power unit or an actuator which is used to control and manage the lighting in one or more rooms.
False ceiling controllers use the same variables, the only difference is the DALI fault for DALI controllers (Cat. Nos. 0 488 64/66).
DALI false ceiling controller with 4 outputs: Cat. No. 0 488 64DALI false ceiling controller with 8 outputs: Cat. No. 0 488 66False ceiling controller for 1-10 V ballast with 4 outputs: Cat. No. 0 488 62Halogen false ceiling controller with 2 outputs: Cat. No. 0 488 61
To reset the controllers: a short press followed by a long press on the Prog & Reset button.
When a controller has been reset, all the configurations created on ETS are deleted and a Plug and Go procedure is started on all the peripherals connected to the controller.
• DALI false ceiling controllers Cat. Nos. 0 488 64/66
This device is a power unit for managing lighting loads (DALI or DSI).
KNX FALSE CEILING CONTROLLERS
17
Communication object
• Number of communication objects: 68 for Cat. No. 0 488 66 36 for Cat. No. 0 488 64
Type Object
Inputs 1 On/Off bit4 Dimming bits1 level byte1 enable/disable bit2 force/unforce bits 1 clock (for stopping all automatic control devices)1 scenario byte
Outputs 1 On/Off status bit1 Value status byte1 control BUS fault bit1 DALI fault bit1 scenario byteTechnical characteristics
• Power supply: 29 V=, wiring on BUS/KNX• Con sumption:- Off-load: 2.4 W (for Cat. Nos. 0 488 64/66)
4 W (for Cat. No. 0 488 62) 1.8 W (for Cat. No. 0 488 61)
- Max. depending on the load• Operating temperature: - 5 to + 45°C• Protection index: IP 20• Install ation:
- In false ceiling - On a suitable cable tray
KNX input
SCS output (RJ 45)
For further information, please refer to the technical data sheet in the e-catalogue, www.legrand.fr
18
CONTENTS
Device presentation and installation (continued)
• False ceiling controller for 1-10 V ballast Cat. No. 0 488 62
This device is a power unit for controlling lighting loads in switch mode (fluorescent tubes, halogen bulbs, compact fluorescent bulbs) and in dimming mode (1 - 10 V ballast).
KNX FALSE CEILING CONTROLLERS (CONTINUED)
Communication object
• Number of communication objects: 32
Type Object
Inputs 1 On/Off bit4 Dimming bits1 level byte1 enable/disable bit2 force/unforce bits 1 clock (for stopping all automatic control devices)1 scenario byte
Outputs 1 On/Off status bit1 Value status byte1 control BUS fault bit1 scenario byte
Communication object
• Number of communication objects: 17
Type Object
Inputs 1 On/Off bit4 Dimming bits1 level byte1 enable/disable bit2 force/unforce bits 1 clock (for stopping all automatic control devices)1 scenario byte
Outputs 1 On/Off status bit1 Value status byte1 control BUS fault bit1 scenario byte
• False ceiling controller for LV and ELV halogen Cat. No. 0 488 61
This device is a power unit for controlling lighting loads (incandescent bulbs, halogen bulbs, halogen bulbs with ferromagnetic transformer, halogen bulbs with separate electronic transformer).
19
CONTENTS
The DALI modular controller combines the cross-functional KNX installation BUS and the DALI BUS specifically designed for lighting control. It is thus possible to integrate luminaires with low-cost digital DALI ballasts in a global KNX architecture and control them from existing KNX devices.
DALI groups/scenes can be created locally via an LCD menu or a WEB interface.
The DALI modular controller can be used for lighting management in large areas (open spaces, ballrooms, etc.).
All the controls (switch, detector, etc.) will be connected to the inputs of the nearest controllers in the rest of the installation.
The controller can indicate 3 faults in the installation: general, group and luminaire.Each fault is specified: Ballast, BUS, Lamp.
KNX DALI MODULAR CONTROLLER CAT. NO. 0 026 35
Technical characteristics
• Power supply: 29 V=, wiring on BUS/KNX• 16 control groups• 16 scenes• 64 ballasts per group• Fault management
Communication object
Type Object
Inputs 1 On/Off bit4 Dimming bits1 level byte1 enable/disable control bit1 clock1 scenario byte
Outputs 1 On/Off status bit1 Value status byte1 lamp fault bit1 ballast fault bit1 DALI BUS fault bit
For further information, please refer to the technical data sheet in the e-catalogue, www.legrand.fr
CONTENTS
Device presentation and installation (continued)
This module can control up to four blinds or shutters.
The blind controls are available on the front panel, enabling wiring and operating tests to be carried out. This module can be configured via the ETS tool and provides a number of communication objects.
To obtain a status, it is essential to have entered the blind lowering time parameters and to have initialised the controller (raised and lowered the blinds).
KNX ROLLER BLIND MODULAR CONTROLLER CAT. NO. 0 026 40
20
Technical characteristics
• Power supply: 100-240 V - 29 V=• Operating temperature: - 5 to + 45°C• Dimensions: 4 modules
Communication object
Type Object
Inputs 1 Up/Down bit1 Open/Close bit1 Up/Down blocking bit1 Save/Restore bit1 Alarm bit
Outputs 8 Open/Close status bits8 Up/Down status bits
MULTI-CHANNEL MODULAR CONTROLLER CAT. NO. 0 026 34
PRIPRI
SCS
035 67PRI: 220 - 240V-185 - 175mA50/60HzSCS : 27Vdc 600mA
LEARN
0026
34
100-240 V50-60 Hz
LEARN
0026
34
The controller is used with other products (SCS controllers, controls).
The modular controller Cat. No. 0 026 34 is used with a power supply (supplied) to power all the connected BUS peripherals.
Technical characteristics
• Power supply: 27 V=, 600 mA (supplied)
Communication object
• Number of communication objects: 2 The number of communication objects changes according to the number of associated products
Type Object
Inputs 1 scenario byte
Outputs 1 scenario byte
Architecture with modular controller (see p. 27)
CONTENTS
21
SCS MODULAR CONTROLLERS
To be used in conjunction with the multi-channel modular controller.For connection to the peripheral BUS with accessory Cat. No. 0 488 72
For dimming:DALI modular controller with 8 outputs: Cat. No. 0 026 33Modular controller with 1-10 V ballast: Cat. No. 0 026 12Halogen modular controller with 1 output: Cat. No. 0 026 21Halogen modular controller with 2 outputs: Cat. No. 0 026 22
Technical characteristics
• Power supply: 100 - 240 VA• Consumption:- Off-load: 0.8 W for Cat. Nos. 0 026 00/01/02 0.9 W for Cat. No. 0 026 04- Max. depending on the load• Operating temperature: - 5 to + 45°C• Dimensions: 4 modules for Cat. Nos. 0 026 00/01 6 modules for Cat. No. 0 026 02 10 modules for Cat. No. 0 026 04
Communication object
• Number of communication objects: 3 for Cat. No. 0 026 00 6 for Cat. No. 0 026 01 12 for Cat. No. 0 026 02 24 for Cat. No. 0 026 04
Type Object
Inputs 1 On/Off bit1 enable/disable bit1 scenario byte
Outputs 1 On/Off status bit
For on/off lighting: 16 A modular controller with 1 output: Cat. No. 0 026 0016 A modular controller with 2 outputs: Cat. No. 0 026 0116 A modular controller with 4 outputs: Cat. No. 0 026 0216 A modular controller with 8 outputs: Cat. No. 0 026 04
Technical characteristics
• Power supply: 100 - 240 VA• Consumption:- Off-load: 0.8 W for Cat. Nos. 0 026 33/21 1.9 W for Cat. No. 0 026 12 0.9 W for Cat. No. 0 026 22- Max. depending on the load• Operating temperature: - 5 to + 45°C• Dimensions: 10 modules for Cat. Nos. 0 026 33/12 6 modules for Cat. Nos. 0 026 21/22
Communication object
• Number of communication objects: 48 for Cat. No. 0 026 33 24 for Cat. No. 0 026 12 6 for Cat. No. 0 026 21 12 for Cat. No. 0 026 22
Type Object
Inputs 1 On/Off bit4 Dimming bits1 level byte1 enable/disable bit1 scenario byte
Outputs 1 On/Off status bit1 Value status byte
CONTENTS
Device presentation and installation (continued)
The touch control is used for two operations: - To create a local supervision system - To create automatic control devicesConfiguration is carried out via the ETS tool.
Automatic control device: time programming, scene, logic function, presence simulation, display of curves.
TOUCH CONTROL CAT. NO. 0 488 84
22
Technical characteristics
• Power supply: 230 V and 29 V=• Consumption: 4.4 W• Operating temperature: - 5 to + 45°C• Fixing: in flush-mounting box suppliedSupplied complete with aluminium finishing plate and support
Communication object
Type Object
Inputs 1 On/Off bit1 Up/Down bit1 Open/Close bit4 Dimming bits1 level byte2 override bits1 scenario byte
Outputs 8 Open/Close status bits8 Up/Down status bits1 On/Off bit1 Up/Down bit1 Open/Close bit4 Dimming bits1 level byte2 override bits1 scenario byte
IP COMMUNICATION MODULE CAT. NO. 0 035 43
Enables KNX communication on the IP network, and display and control of the installation via a web page.
There can only be one client connected to the gateway at once.
Technical characteristics
• Power supply: 24-29 V=• Operating temperature: - 5 to + 45°C• Dimensions: 4 modules
Communication object
Type Object
Inputs 1 On/Off bit1 presence bit1 Up/Down bit1 Open/Close bit4 Dimming bits1 level byte2 override bits1 scenario byte
Outputs 8 Open/Close status bits1 On/Off bit4 Dimming bitsRelative value (0 to 100%)1 value byte (0…255)Real number 2 bytesReal number 4 bytes1 level byte2 override bits1 scenario byte
For further information, please refer to the technical data sheet in the e-catalogue, www.legrand.fr
CONTENTS
Used to connect a PC to the BUS/KNX system via the USB port.Can be configured on ETS.
USB INTERFACE CAT. NO. 0 035 47
23
Technical characteristics
• Power supply: Via USB connected to PC• Operating temperature: - 5 to + 45°C• Dimensions: 1 module
LINE COUPLER CAT. NO. 0 035 16
Provides galvanic isolation between lines.Required for installations with more than 64 KNX products.For use in conjunction with power supply Cat. No. 0 035 12.
Technical characteristics
• Power supply: 29 V=• Consumption: 6 mA on primary line
8 mA on secondary line• Operating temperature: - 5 to + 45°C• Dimensions: 2 modules
Communication configuration (see p. 34)KNX architecture (see p. 6)
Operating principle
Zone line
Line coupler
R 1
64
65
126
127
4
5
62
63
2
12
129
19
19
3
19
193
254
255
R R
Line Part 3
Line Part 2
Line Part 1
Line Part 0
Zone
Main line
R = Repeater
Operating principle
Controls and detectors
0 035 12
0 035 670 026 34
0 026 35
0 035 47KNX power supply
SCS power supply
*
KNX/SCS interface
KNX/DALI controller
x 64
KNX OFFER
*SCS power supply Cat. No. 0 035 67 supplied with Cat. No. 0 026 34 (KNX/SCS interface)
ETS software
Bus
/KN
X
Controls and detectors
0 488 62
KNX/1-10 V controller
+
CONTENTS
Device presentation and installation (continued)
24
Can supply 1 BUS/KNX line.Integrated filter to avoid BUS message short-circuits.Voltage: 230 VA; 29 V=; 320 mAConnection by automatic terminals.
KNX POWER SUPPLY CAT. NO. 0 035 12
Technical characteristics
• Supply voltage: 100-240 VA – 50/60 Hz• BUS output voltage: 29 V=• Operating temperature: -5 to + 45°C• Size: 4 DIN modules
Cable supplied in 500 m lengths.For indoor use.Colour RAL 6018 green.
KNX CABLE CAT. NO. 0 492 91
Technical characteristics
• Copper cable - Bare 0.5 mm² - Ø 0.80 mm.• Maximum DC resistance loop: 73.2 ohms/km• Maximum capacitance at 800 Hz: 100 nF/km• Inductance: 0.65 mH/km• Maximum DC operating voltage: 800 V• Maximum AC operating voltage (5 mins): 2500 V• Maximum AC operating voltage (1 min): 4000 V• Insulation: PE - Ø 1.6 mm.• Insulation resistance (at 500 V, 1 min): 10 Gohm km• Number of pairs: 1 pair (2 conductors/pair)• Identification of the conductor: RED/BLACK• Packaging: 1 x PET sheet• Within the shielding: wire aluminium foil-film + 0.4 mm² copper drain wire• Cable and identification rip wire: YES• Outer diameter: 5.5 mm²• Smoke density: IEC 61034-2• Corrosive fire gas emissions: IEC 60754-1/2• Outer sheath: LSFROH - Green RAL 6018• Cable marking: LEGRAND EIB BUS LSFROH 1x2/0.8, week, year, batch number and marking counter.• Operating temperature: -25 to + 70°C
CONTENTS
25
Software providing display, analysis and alarms for small commercial projects:- Display of the status of the connected systems- Simple scenario control of the systems- Display of alarms- Time programmingFor permanent installation on a dedicated PC.Integrated configuration wizard for easy creation of the project and the display screens:Legrand solutions pre-programmed (lighting management, emergency lighting, power measurement, fire alarms).When used with the building manager controller, Cat. No. 0 035 44, provides total building management.
Cat. No. 0 490 00: Up to 100 pointsCat. No. 0 490 04: Up to 2000 points
BUILDING MANAGER VIEWER CAT. NOS. 0 490 00/04
Automatic control device dedicated to automated control in commercial buildings requiring interoperability between the various connected systems:- Legrand solutions: lighting management, emergency lighting, power measurement, fire alarms- Other solutions: HVAC, etc.• Performs the following:- Collection of data from the various systems:KNX IP, MODBUS IP, BACNET IP, SCS IP- Programming of scripts (with algorithm), alarms and data logging- Exchanges of collected data between systems (for example: display of the measured power circuit consumption values on digital screen)- Inclusion of HVAC systems (air conditioning, heating)- Sending emails for alarms• For installation in the VDI cabinet with dedicated patching of the various application systems• Can be used with the building manager viewer Cat. No. 0 490 00 or 0 490 04 to display the installation• Operates with:- The measurement offer: with the RS 485/IP converter, or with communication modules used with the measurement control unit- The BUS/KNX lighting offer, with the KNX/IP converter- The BUS/SCS lighting offer with the zone controller- The BUS/SCS actimetry offer with the zone controller- The emergency lighting offer with the management interface for addressable self-contained emergency lighting units- The fire alarm offer with the RS 485/IP converter
BUILDING MANAGER CONTROLLER CAT. NO. 0 035 44
CONTENTS
Architecture
Role and operating principle
Several types of peripheral can be connected to the false ceiling controller.The false ceiling controller performs the following functions:- Supplies power to each of its peripherals- Associates one or more load(s) with each peripheral during the Plug and Go procedure- Acts as the interface between its peripherals and the rest of the KNX system (ETS3/ETS4)- Controls all the loads
ARCHITECTURE WITH FALSE CEILING CONTROLLER
26
L max = 150 m
Input
KNX
Output to controls
RESTRICTIONS
Maximum 32 products/255 objects8 control loopsMax. line length Distance between 1 component and the false ceiling controller = 150 m6 scenarios (10 max. per output)
CONTENTS
27
Role and operating principle
Several types of peripheral can be connected to the modular controller.The modular controller acts as the interface between its peripherals and the rest of the KNX system.The purpose of this architecture is to implement an installation on DIN rail. The peripherals can be connected to the controller, however it is preferable to connect the controls to the nearest false ceiling controllers.
ARCHITECTURE WITH MODULAR CONTROLLER
KNX
Modularcontroller
Modularcontroller
Modularcontroller
Detector
Control
Touchcontrol
Control
ModularModularModularcontroller
SCS
035 67PRI: 220 - 240V-
185 - 175 mA50/60 HzSCS: 27 VDC 600 mA
RESTRICTIONS
- Maximum 32 products/ 255 objects/200 mA- Maximum 4 actuators - 8 control loops- Total line length 500 m- Distance between 1 component and a power supply 250 m-16 scenarios (10 max. per output)
CONTENTS
Architecture (continued)
28
Do not use the BUS/KNX to wire the control BUS.
Cat. No. 0 488 68
Per
iphe
ral B
US
Cat. No. 0 488 72
or
WIRING
CONTENTS
29
When creating a KNX project, it is essential to follow a sequence in the work process and in the actions to be carried out. The diagram below shows these actions, and the procedure to be adopted for each of the actions is described on the following pages.
Design
INTRODUCTION
Design AUTOCAD layout
Wire and power upDesign the KNX
project
Configure the installation on ETS
Check the operation of the installation
30
CONTENTS
Design (continued)
PRODUCT LAYOUT DESIGN (CAD)
Layout diagram
In order to be able to set all the parameters of the products, it is essential to indicate the following on the layout diagram for each control point (detector, control, etc.) and each actuator: - The identifier (ID)- The catalogue number
Each of the lighting zones must be identified (zone number, name, etc.) so that the actuators concerned can be assigned to it on the wiring diagram.
NOTES:
In order to use less cable, it is logical to connect the controls (detector, switch, etc.) to the nearest actuator. It is important to connect the controls to the controller which controls the loads associated with it.
Each product has a self-adhesive label on which all the necessary information is marked. These labels must be stuck onto the diagram when the products are physically installed.
31
CONTENTS
Wiring diagram
The diagram shows all the connections of the controllers and controls on the BUS.
INFORMATION TO BE PLACED
ON THE WIRING DIAGRAM:
1 - Product catalogue number2 - Identifier (ID)3 - Physical address for KNX products4 - Zone allocated to the outputs (controllers)5 - Zone controlled by the controls
1
2
3
4
5
Take care not to exceed the maximum number of peripherals connected to the controllerssee table below.
Table for calculating the limits
ProductFalse ceiling
controllerDetectors Controls Total Max.
Communication object 32 4 x 8 3 x 8 88 < 255 OK
Consumption 4 x 17 3 x 5 83 < 200 OK
No. of products 1 4 3 8 < 32 OK
No. of channels 4 4 x 1 3 x 2 14 < 64 OK
No. of control loops 4 < 8 OK
Before starting the configuration of all the products on ETS, check that the IDs on the diagram are correct with the 0 882 30.
As in the above example
CONTENTS
Design (continued)
Wiring
During wiring, the installer must comply with all the information in the documents (layout diagram, wiring diagram, description, etc.). If the IDs of the products are not on the diagram, it is essential to stick the label of each product, carrying its ID and catalogue number, onto the diagram.
If the products are not identified on the diagram, it will not be possible to configure the products on ETS.
Powering-up
• The KNX false ceiling controller has a Plug and Go (PnG) system which enables the peripherals connected to it to be configured independently. This step enables the physical connections and correct operation of the products to be checked.
• The false ceiling controller can be reset with a short press followed by a long press on the Prog & Reset button. This operation resets all the parameters of the peripherals and the false ceiling controller. The reset initiates a new Plug and Go procedure.
• The peripheral is reset by a short press followed by a long press (10 seconds) on the Learn button. The pink LED then flashes quickly.
• Plug and Go mode is automatically disabled once loading on ETS is complete. Following loading on ETS, the Plug and Go configuration is disabled.
• The controllers are used to control the loads via the pushbuttons on the front panel. This step is used to check the wiring of the loads.
• DALI learning: To address the ballasts: a short press followed by a long press on the DALI button.
INSTALLATION WIRING AND POWERING-UP
32
Plug and Go operation for each product, see product specification (p.11 to 17)
CONTENTS
The software used for KNX configuration is ETS3 or ETS4. It is used to create, design and test a KNX project.There are two options: the installer can create a project in the design office and then load the project on-site (OFFLINE) or create the project directly on-site while connected to the bus (ONLINE). The procedure is as follows:
ETS CONFIGURATION
33
Load the Legrand Product database
Add products andbuild the architecture
ONLINE configuration
OFFLINE configuration
Open the plug-in
If necessary, select and modify the parameters of
the products
Create the group addresses
Load the products
Create the KNX links
Configure the KNX physical addresses
Replace the products by the products found
Open the plug-in + Find the peripherals
Configure the KNX physical addresses
Find the peripherals on the network
Add all the products and enter the IDs Plug-in
Plug-in
Add the peripherals to the configuration
CONTENTS
Design (continued)
Configuring the communication
The communication media available are IP and USB. The gateways are connected to the KNX network and the configuration PC is connected to the gateway. The communication mode is selected on ETS.
The IP/KNX gateway can be configured with a fixed IP address. In this case, an address must have been previously reserved on the network by the IT department.
> For further information, please refer to the technical data sheet on www.legrandoc.com
Loading the product database
Download the database from www.legrandoc.com, then import all the products into ETS.
Building the product architecture
See the architecture section
Configuring the physical addresses
Once you are connected to the BUS you can configure the physical addresses of the products. Each product has a unique address. To do this, select the product then start loading on ETS.The products on the control BUS are not part of the BUS/KNX but are seen on ETS for configuration.
ETS CONFIGURATION
34
CONTENTS
Create the group addresses (Legrand template)
Legrand requires the installer to follow the syntax rules for creating KNX groups so that a supervision system can be created quickly and assistance to engineers is optimised. If this architecture is not adhered to, Legrand cannot guarantee the automatic creation of the supervision system. To make this simpler, a Legrand template is available on http://www.legrand.fr/
Proposed architecture (Main and Middle Group Addresses).
Syntax of Group Addresses:
Zone Product ID, Product type, "installer character string" Office 05693F, SENSOR, WindowOffice 00437A92, CMD, CH1 CorridorOffice 1.7.2, NRC, OUT1
Zone: location of the control or the load being controlledID: ID or KNX physical address of the productType: CMD | SENSOR | NRC | etc.Character string: free field for the installer to assist with location.
35
36
CONTENTS
Design (continued)
ETS CONFIGURATION
DETECTORS
Communication parameters and objects
MANUAL CONTROLS
Inputs Output
SENSOR_IN_OCC/UNOCC (SIOU) SENSOR_OUT_OCC_UNOCC (SOOU)
SENSOR_IN_ON/OFF_STATUS (SIOOS) SENSOR_OUT_ON/OFF (SOOO)
SENSOR_IN_LEVEL_STATUS (SILS) SENSOR_OUT_LEVEL (SOL)
SENSOR_IN_SYNCHRO (SISC)
SENSOR_IN_LUX (SIL)
Additional I/O Accessible Parameters
External Motion Detection Mandatory Parameters
Daylight Level Measure TimeDelayHours (TDH)
TimeDelayMinutes (TDM)
TimeDelaySeconds (TDS)
Functional Mode (FM)
Daylight SetPoint (DS)
Optional Parameters
TypeLoop (TP)
Lighting Regulation (LR)
Initial Occupancy (IO)
Maintain Occupancy (MO)
Retrigger (RT)
Acoustic Alert (AA)
Inputs Output
IN_ON/OFF_STATUS (IOOS) OUT_ON/OFF (OOO)
IN_LEVEL_STATUS (ILS) OUT_DIM (ODIM)
Additional I/O Accessible Parameters
Status LED Functional Mode (FM)
37
CONTENTS
LIGHT LEVEL CELL
ACTUATOR OUTPUTS
(1) Only on false ceiling controllers.
SCENARIO CONTROL
Inputs Output
NONE OUT_LUX (SOL) reflects Lux measurement
Inputs Output
IN_ON/OFF (IOO) OUT_ON/OFF (OOO)
IN_LEVEL (ILV) OUT_LEVEL_STATUS (SLV)
IN_DIM (IDIM)
IN_ENABLE/DISABLE (ILO)
IN_OVERRIDE ON/OFF-2bits (IOVR)
IN_RECALL_SCENARIO (IRS)(1)
IN_ENABLE_AUTOMATION (ILA) (1)
Additional I/O Accessible Parameters
None Minimum Level (V_MINI_LEVEL)
Levels for Scenarios (LVS)
Additional I/O Accessible Parameters
None Send_Condition"send on change + cyclical" / "send on change" / "cyclical"
Limit number of messages/minute1-60
Dead Band Percentage (1% - 100%)
TimeBase (minutes)1 - 59 minutes (+/- 5%)
Inputs Output
NONE NONE
Additional I/O Accessible Parameters
None Num Scene (NS)
38
CONTENTS
Design (continued)
• Scenario control
Scenario control Actuator outputDPT_SceneNumberIRS
• Simple on/off control
Manual control Actuator outputDPT_Switch
DPT_SwitchIOOS
OOO IOOSOO
• Simple on/off control + dimming
Manuel control Actuator output
DPT_Control_Dimming
DPT_Switch
DPT_Scaling
ODIM
OOO
IDIM
IOOSLV
ETS CONFIGURATION
39
CONTENTS
"Closed loop" mode is activated when the "Type loop" (TP) parameter is set to "closed loop" value. The "functional mode" (FM) parameter cannot be set to "manual on/auto off".
"Open loop" mode is activated when the "Type loop" (TP) parameter is set to "open loop" value. The "functional mode" (FM) parameter cannot be set to "manual on/auto off".
Detector
Detector
Actuator output
Actuator outputLight level cell
• Control by detector (closed loop on/off control)
• Control by detector (open loop on/off control including light level cell)
DPT_Switch
DPT_Switch
DPT_Switch
DPT_SwitchDPT_Value_Lux
SIOOS
SIOOS
SOOO
SOOOSOL SIL
IOO
IOO
SOO
SOO
40
CONTENTS
Design (continued)
ETS CONFIGURATION (CONTINUED)
Important: "COOO/IOO/SISC" and "SOOO/IOO" must be in two different groups.
Detector Actuator outputManual control
DPT_Switch
DPT_Switch
DPT_Switch
DPT_Switch
SOOOCOOOCIOO SISC IOO
IOO
SOO
SIOOS
"Closed loop" mode is activated when the "Type loop" (TP) parameter is set to "closed loop" value. The "functional mode" (FM) parameter cannot be set to "manual on/auto off".
Detector Actuator outputDPT_Switch
DPT_Scaling
DPT_Scaling
SILS
SOOO
SOL
IOO
ILVSLV
• Manual control combined with one detector (closed loop on/off control)
• Control by detector (control with closed loop dimming)
41
CONTENTS
Detector Actuator outputLight level cell
DPT_Scaling
DPT_Switch
DPT_Scaling
DPT_Switch
DPT_Value_Lux
SOOO
SOL
SOL SIL
IOO
ILV
SLV
SILS
"Open loop" mode is activated when the "Type loop" (TP) parameter is set to "open loop" value. The "functional mode" (FM) parameter cannot be set to "manual on/auto off".
Important: "COOO/IOO/SISC" and "SOOO/IOO" must be in two different groups.
Detector Actuator outputManual control
DPT_Scaling
DPT_Scaling
DPT_Switch
DPT_Switch
DPT_Switch
SOL
SOOOCOOOCILV SISC
ILV
IOO
IOO
SLV
SILS
• Control by detector (control with open loop dimming)
• Manual control combined with one detector (control with closed loop dimming)
42
CONTENTS
Design (continued)
ETS CONFIGURATION (CONTINUED)
Detector
MASTER
Detector
SLAVE
Detector
SLAVE
Actuator outputManual control
DPT_Scaling
DPT_Scaling
DPT_Switch
DPT_Switch
DPT_Occupancy
DPT_Switch
SOL
SOOOOOOILV SISC
SIOU
SOOU
ILV
IOO
IOO
SLV
SILS
Important: "COOO/IOO/SISC" and "SOOO/IOO" must be in two different groups.The slave detectors must have the "lighting regulation" (LR) parameter set to "Disabled".
• Manual control combined with several detectors (control with closed loop dimming)
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CONTENTS
Setting the parameters of products via the plug-in
The Legrand plug-in is used to set the parameters of all the products. It can also be used to find all the peripherals connected to the product. The plug-in can also be used to copy a configuration from one controller to another.For further information, go to the help section in ETS.
Loading the products
Loading can be carried out via all available gateways (IP, USB).
Head office128, av. du Maréchal-de-Lattre-de-Tassigny87045 Limoges Cedex - France
Tel: +33 (0)5 55 06 87 87Fax: +33 (0)5 55 06 88 88
www.legrand.com
LE
0550
4AA