Schneider Electric SpaceLogic KNX Glass Touch Door Panels User guide

Schneider Electric
Brand
Schneider Electric
Model
SpaceLogic KNX Glass Touch Door Panels
Type
User guide

Schneider Electric SpaceLogic KNX Glass Touch Door Panels provide a convenient and intuitive way to control various functions within a building. These panels feature a sleek and modern design, with customizable options to match any décor. SpaceLogic KNX Glass Touch Door Panels are easy to install and configure, making them a great choice for both new and existing buildings.

Some of the key features and capabilities of SpaceLogic KNX Glass Touch Door Panels include:

  • Control of lighting, HVAC, and other building systems
  • Integration with KNX building automation systems
  • Customizable buttons and icons for easy operation

Schneider Electric SpaceLogic KNX Glass Touch Door Panels provide a convenient and intuitive way to control various functions within a building. These panels feature a sleek and modern design, with customizable options to match any décor. SpaceLogic KNX Glass Touch Door Panels are easy to install and configure, making them a great choice for both new and existing buildings.

Some of the key features and capabilities of SpaceLogic KNX Glass Touch Door Panels include:

  • Control of lighting, HVAC, and other building systems
  • Integration with KNX building automation systems
  • Customizable buttons and icons for easy operation
Version 1
Public
SpaceLogic Glass Touch Panel
KNX Glass Touch Door Panels User Guide
LSSKDN01N
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Contents
1 Safety information ........................................................................................................................................................................ 3
1.1 Important information ............................................................................................................................................................ 3
2 Before you begin .......................................................................................................................................................................... 4
2.1 Prerequisites ......................................................................................................................................................................... 4
2.2 Loss of control ....................................................................................................................................................................... 4
2.3 Electrostatic discharge .......................................................................................................................................................... 4
3 Introduction .................................................................................................................................................................................. 5
4 Device technology ........................................................................................................................................................................ 5
4.1 Button definitions & connection diagram ............................................................................................................................... 5
4.2 Dimensions ........................................................................................................................................................................... 5
5 Communication object table ......................................................................................................................................................... 6
6 Parameters & communication objects .......................................................................................................................................... 7
6.1 General ................................................................................................................................................................................. 7
6.1.1 Parameters .................................................................................................................................................................... 7
6.1.2 Communication objects .................................................................................................................................................. 7
6.2 Bell ........................................................................................................................................................................................ 7
6.2.1 Parameters .................................................................................................................................................................... 7
6.2.2 Communication objects .................................................................................................................................................. 7
6.3 DND/MUR ............................................................................................................................................................................. 8
6.3.1 Parameters .................................................................................................................................................................... 8
6.3.2 Communication objects .................................................................................................................................................. 8
6.4 Laundry ................................................................................................................................................................................. 8
6.4.1 Parameters .................................................................................................................................................................... 8
6.4.2 Communication objects .................................................................................................................................................. 8
6.5 Relay ..................................................................................................................................................................................... 9
6.5.1 Parameters .................................................................................................................................................................... 9
6.5.2 Communication objects .................................................................................................................................................. 9
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1 Safety information
1.1 Important information
Read these instructions carefully and look at the equipment to become familiar with the device before trying to install,
operate, service or maintain it. The following special messages may appear throughout this bulletin or on the equipment
to warn of potential hazards or to call attention to information that clarifies or simplifies a procedure.
The addition of either symbol to a “Dangeror “Warningsafety label indicates that an electrical hazard exists which will result in personal
injury if the instructions are not followed.
This is the safety alert symbol. It is used to alert you to potential personal injury hazards. Obey all safety messages that follow this
symbol to avoid possible injury or death.
DANGER
DANGER indicates a hazardous situation which, if not avoided, will result in death or serious injury.
WARNING
WARNING indicates a hazardous situation which, if not avoided, could result in death or serious injury.
CAUTION
CAUTION indicates a hazardous situation which, if not avoided, could result in minor or moderate injury.
NOTICE
NOTICE is used to address practices not related to physical injury. The safety alert symbol shall not be used with this signal word.
Please note:
Electrical equipment should be installed, operated, serviced, and maintained only by qualified personnel. No
responsibility is assumed by Schneider Electric for any consequences arising out of the use of this material.
A qualified person is one who has skills and knowledge related to the construction, installation, and operation of electrical
equipment and has received safety training to recognize and avoid the hazards involved.
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2 Before you begin
2.1 Prerequisites
CAUTION
PREREQUISITES
The user must have knowledge of ETS (Software for KNX system) before using this user guide. ETS-5 version 5.7.4 and up are supported.
It is important to refer to the installation guide for this product.
The auxiliary power supply must be used for the Glass Touch Panel, i.e. the KNX bus cannot be used to supply power for the Glass Touch
Panel.
Please avoid connecting/separating the modules until the programming is completely finished.
Failure to follow the instructions can result in minor or moderate injury, or equipment damage.
2.2 Loss of control
CAUTION
LOSS OF CONTROL
The designer of any control scheme must consider the potential failure modes of control paths and, for certain critical control functions,
provide a means to achieve a safe state during and after a path failure. Examples of critical control functions are emergency stops and
over-travel stops.
Separate or redundant control paths must be provided for critical control functions.
System control paths may include communication links. Consideration must be given to the implications of anticipated transmission delays
or failures of the link.
Each implementation of equipment utilizing communication links must be individually and thoroughly tested for proper operation before
being placed into service.
Failure to follow the instructions can result in minor or moderate injury, or equipment damage.
2.3 Electrostatic discharge
NOTICE
STATIC SENSITIVE COMPONENTS
Circuit boards and option cards can be damaged by static electricity. Observe the electrostatic precautions below when handling controller
circuit boards or testing components.
Failure to follow these instructions can result in equipment damage.
Observe the following precautions for handling static-sensitive components:
Keep static-producing materials such as plastic, upholstery, and carpeting out of the immediate work area.
Store static-sensitive components in protective packaging when they are not installed in the drive.
When handling a static-sensitive component, wear a conductive wrist strap connected to the component or drive
through a minimum of 1 megohm resistance.
Avoid touching exposed conductors and components to skin or clothing.
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3 Introduction
The SpaceLogic KNX Glass Touch Door Panel comes with silk-screened room numbers, three indicators (occupancy,
Do Not Disturb, Make-Up Room), one doorbell button, and an optional customizable logo.
4 Device technology
4.1 Button definitions & connection diagram
4.2 Dimensions
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5 Communication object table
No
Object Name
Function
Flags
0
General, In operation
Active
CRT
1
Bell
Bell Status
CRT
2
Room State
Presence
CW
3
Room State
Presence Status
CRT
4
Room State
DND
CW
5
Room State
DND Status
CRT
6
Room State
MUR
CW
7
Room State
MUR Status
CRT
8
Room State
Laundry
CW
9
Room State
Landry Status
CRT
10
Room State
Normal:0, MUR:1, DND:2
CW
11
General Purpose Output 1
Control Value 1
CW
12
General Purpose Output 1
Status Control Value 1
CRT
13
General Purpose Output 2
Control Value 2
CW
14
General Purpose Output 2
Status Control Value 2
CRT
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6 Parameters & communication objects
6.1 General
General parameters include:
In Operation (Device Alive) Function
6.1.1 Parameters
Parameter
Settings
Description
In Operation Telegram
Enable/Disable
In operation can be used to ensure that the device is alive and
connected to the KNX line.
Telegram Value
0 / 1
Visible when “Enable In Operationis enabled. Bit value to send as
device alive operation bit.
Telegram Transmit Interval
0…300…65535 s
Visible when “Enable In Operationis enabled. The cyclic time period for
sending in operation bit.
Logo Led Colour
Led Off, Red, Yellow, Green,
Cyan, Blue, Magenta, White
Selects the color of the Logo or turns Off the Logo LED.
Room Number Led Colour
Led Off, Red, Yellow, Green,
Cyan, Blue, Magenta, White
Selects the color of the Room Number or turns Off the Room Number
LED.
6.1.2 Communication objects
No
Object Name
Function
Data Type
Flags
0
General
In Operation
1 Bit DPT 1.002
CRT
In operation value (0,1) selected through “In Operation > Telegram Valueparameter will be sent via the group address which is linked to this
communication object
6.2 Bell
6.2.1 Parameters
Parameter
Settings
Description
Button Mode
Normal (On-Off with button)
Timing for Off Operation
This parameter is used in the select behavior for the Bell button.
Bell Time
1…10…30 s
This parameter is shown If the Button Mode is selected as “Timing for Off
Operation”. It defines the bell timeout.
No Presence Color
Led Off, Red, Yellow, Green, Cyan, Blue,
Magenta, White
Selects the LED state and color when Bell is OFF.
Presence Color
Led Off, Red, Yellow, Green, Cyan, Blue,
Magenta, White
Selects the LED state and color when Bell is ON.
6.2.2 Communication objects
No
Object Name
Function
Data Type
Flags
1
Bell
Bell Status
1 Bit DPT 1.001
CRT
Bell status can be sent via this object if the Bell button is pressed.
2
Room State
Presence
1 Bit DPT 1.001
CW
Presence information can be written to the device via this object.
3
Room State
Presence Status
1 Bit DPT 1.001
CRT
Presence status can be sent via this object if the presence information received from If it is active, bell button will be allowed to press.
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6.3 DND/MUR
6.3.1 Parameters
Parameter
Settings
Description
DND-MUR
Enumerated Object
Disable / Enable
This parameter activates an additional object to change the modes
between Normal, DND and MUR states via 1 Byte object.
DND
Colour for Off
Led Off, Red, Yellow, Green, Cyan, Blue,
Magenta, White
Selects the LED state and color when DND mode is OFF.
Colour for On
Led Off, Red, Yellow, Green, Cyan, Blue,
Magenta, White
Selects the LED state and color when DND mode is ON.
MUR
Colour for Off
Led Off, Red, Yellow, Green, Cyan, Blue,
Magenta, White
Selects the LED state and color when MUR mode is OFF.
Colour for On
Led Off, Red, Yellow, Green, Cyan, Blue,
Magenta, White
Selects the LED state and color when MUR mode is ON.
6.3.2 Communication objects
No
Object Name
Function
Data Type
Flags
4
Room State
DND
1 Bit DPT 1.001
CW
DND Mode can be activated via this object. 0 = Deactivate, 1 = Activate
5
Room State
DND Status
1 Bit DPT 1.001
CRT
DND Mode information will be sent via this object. 0 = Deactivate, 1 = Active
6
Room State
MUR
1 Bit DPT 1.001
CW
MUR Mode can be activated via this object. 0 = Deactivate, 1 = Activate
7
Room State
MUR Status
1 Bit DPT 1.001
CRT
MUR Mode information will be sent via this object. 0 = Deactivate, 1 = Active
8
Room State
Laundry
1 Bit DPT 1.001
CW
Laundry Mode can be activated via this object. 0 = Deactivate, 1 = Activate
9
Room State
Landry Status
1 Bit DPT 1.001
CRT
Laundry Mode information will be sent via this object. 0 = Deactivate, 1 = Active
10
Room State
Normal:0, MUR:1, DND:2
1 Byte DPT 5.010
CW
Modes can be changed via this object.
6.4 Laundry
6.4.1 Parameters
Parameter
Settings
Description
Laundry
Colour for Off
Led Off, Red, Yellow, Green, Cyan, Blue, Magenta, White
Selects the LED state and color when Laundry mode is OFF.
Colour for On
Led Off, Red, Yellow, Green, Cyan, Blue, Magenta, White
Selects the LED state and color when Laundry mode is ON.
6.4.2 Communication objects
No
Object Name
Function
Data Type
Flags
1
Room State
Laundry
1 Bit DPT 1.001
CW
Laundry Mode can be activated via this object. 0 = Deactivate, 1 = Activate
2
Room State
Landry Status
1 Bit DPT 1.001
CRT
Laundry Mode information will be sent via this object. 0 = Deactivate, 1 = Active
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6.5 Relay
6.5.1 Parameters
Parameter
Settings
Description
RELAY 1
Function
Bell
General Purpose Disable
This parameter is used the select relay output as either Bell switching or
individual control.
Contact Type
Normally Open
Normally Close
This parameter will be shown if the Function is selected as “General
Purpose”. It is used the select 1st relay output contact type.
RELAY 2
Function
General Purpose
Disable
This parameter activates the relay output individually.
Contact Type
Normally Open
Normally Close
This parameter will be shown if the Function is selected as “General
Purpose”. It is used for the select 2nd relay output contact type.
6.5.2 Communication objects
No
Object Name
Function
Data Type
Flags
11
General Purpose Output 1
Control Value 1
1-bit DPT 1.001
CW
This group object will be shown If the Relay 1 Function is selected as “General Purpose”. It is used to control the Relay 1 output.
12
General Purpose Output 1
Status Control Value 1
1-bit DPT 1.001
CRT
Relay 1 output information will be sent via this object.
13
General Purpose Output 2
Control Value 2
1-bit DPT 1.001
CW
This group object will be shown If the Relay 2 Function is selected as “General Purpose”. It is used to control the Relay 2 output.
14
General Purpose Output 2
Status Control Value 2
1-bit DPT 1.001
CRT
Relay 2 output information will be sent via this object.
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Schneider Electric SpaceLogic KNX Glass Touch Door Panels User guide

Schneider Electric
Brand
Schneider Electric
Model
SpaceLogic KNX Glass Touch Door Panels
Type
User guide

Schneider Electric SpaceLogic KNX Glass Touch Door Panels provide a convenient and intuitive way to control various functions within a building. These panels feature a sleek and modern design, with customizable options to match any décor. SpaceLogic KNX Glass Touch Door Panels are easy to install and configure, making them a great choice for both new and existing buildings.

Some of the key features and capabilities of SpaceLogic KNX Glass Touch Door Panels include:

  • Control of lighting, HVAC, and other building systems
  • Integration with KNX building automation systems
  • Customizable buttons and icons for easy operation
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