ABB SmartTouch B/stainless Product Manual

page of 368

/ 368
Contents
Table of Contents
Bookmarks

Table of Contents

Quick Links

Product manual │ 06.09.2022

ABB i-bus

KNX / ABB-free@home

ST/U10.x.1-xxx

ABB SmartTouch

Branding -- Release 2018-01-01

Table of Contents

Summary of Contents for ABB SmartTouch B/stainless

Page 1 Product manual │ 06.09.2022 ABB i-bus ® KNX / ABB-free@home ® ST/U10.x.1-xxx ABB SmartTouch ® Branding -- Release 2018-01-01...
Page 2: Table Of Contents
Electrical connection ........................40 6.6.1 Connection, installation and addressing ..................40 6.6.2 External power supply ........................ 41 6.6.3 Installation ..........................41 Dismantling ............................42 Initial commissioning of device ........................43 ® Initial commissioning with ABB-free@home .................. 45 Product manual 2CKA001473B5343 │2...
Page 3 Creating functions ........................62 8.3.2 Changing functions ........................65 8.3.3 Removing functions ........................66 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) ........67 Integration into the KNX system (ETS) .................... 67 9.1.1 Prerequisites ..........................67 9.1.2 Installation of the ABB DCA SmartTouch 10 ................
Page 4 Table of contents 9.9.3 Add control element to favourites list ..................104 9.10 Configuration of applications and application pages ..............105 9.10.1 Application "Door communication" ....................105 9.10.2 Application "Fault and alarm messages" ...................106 9.10.3 Application "Scene actuator" .....................107 9.10.4 Application "Presence simulation" .....................107 9.10.5 Application "Time programs"...
Page 5 Table of contents 10.4 Control element: "Dimmer slider" ....................130 10.4.1 Name of the control element .....................130 10.4.2 Name of room (otional) ......................130 10.4.3 Size of the button ........................130 10.4.4 Function icon ..........................130 10.4.5 Icon type............................130 10.4.6 Icon for On / icon for Off ......................130 10.4.7 Status control element (icon) is operated via a separate object ..........131 10.4.8...
Page 6 Table of contents 10.7.18 Number of fans ..........................146 10.7.19 Fan speed level data format of master/slave ................146 10.7.20 Number of fan speed levels .......................146 10.7.21 Lowest manually adjustable fan speed level ................146 10.7.22 Fan coil settings heating ......................146 10.7.23 Fan coil settings for cooling .......................146 10.8 Control element "Fan switch"...
Page 7 Table of contents 10.10.8 Value [1 byte 0-255] for "Only fan operation" ................158 10.10.9 Using dehumidification operation ....................158 10.10.10 Value [1 byte 0-255] for dehumidification operation ..............158 10.10.11 Using automatic operation ......................159 10.10.12 Value [1 byte 0-255] for automatic operation ................159 10.10.13 Fan speed levels ........................160 10.10.14...
Page 8 Table of contents 10.13.10 Type of display element — Linear measurement display — Display value in control element .............................177 10.13.11 Type of display element — Linear measurement display — Object type ........178 10.13.12 Type of display element — Round measurement display ............179 10.13.13 Type of display element —...
Page 9 Table of contents 10.15 "Page link" control element ......................198 10.15.1 Name of the control element .....................198 10.15.2 Name of room (otional) ......................198 10.15.3 Size of the button ........................198 10.15.4 Function icon ..........................198 10.15.5 Linked with page ........................198 10.15.6 Enable 1-bit communication object "Disable" ................199 10.16 Control element "Welcome control"...
Page 10 Table of contents 10.21.5 Object type 1-20 ........................216 10.22 Application "Time programs" ......................217 10.22.1 Page PIN-protected ........................217 10.22.2 Overwriting time programs during download ................217 10.23 Application "Logical functions" ....................... 218 10.23.1 Channel x — Application ......................218 10.24 Application "Internal RTC" ......................227 10.24.1 General - Control function ......................227 10.24.2...
Page 11 Table of contents 10.24.41 Basic stage heating - Control value difference for sending of heating control value ....244 10.24.42 Basic stage cooling — Cyclic sending of the control value ............244 10.24.43 Basic stage cooling — Hysteresis .....................245 10.24.44 Additional stage cooling — PWM cycle cooling (min) ..............245 10.24.45 Basic stage cooling —...
Page 12 Table of contents 10.24.92 Setpoint settings - Basic set value is ..................261 10.24.93 Setpoint adjustment ........................262 10.24.94 Setpoint adjustment — Maximum manual increase during heating mode (0 - 9°C) ....262 10.24.95 Setpoint adjustment — Maximum manual reduction during heating mode (0 - 9°C) ....262 10.24.96 Setpoint adjustment —...
Page 13 Table of contents 10.24.142 Fan settings heating ........................277 10.24.143 Fan settings cooling ........................277 10.24.144 Fan settings - Level output ......................277 10.24.145 Fan speeds/- levels ........................278 10.24.146 Fan speeds/- levels heating.......................278 10.24.147 Fan speeds/- levels cooling .......................278 10.24.148 Fan speeds/- levels - Number of fan speeds/- levels ..............278 10.24.149 Fan speeds/- levels - Format of speeds-/ level output ...............278 10.24.150 Fan speeds/- levels - Speeds-/ levels output ................278 10.24.151 Fan speeds/- levels - Lowest manually adjustable speed-/ level ..........279...
Page 14 Table of contents Update ............................... 359 13.1 Transfer of PID file (Configuration file) ..................359 Addressing ..............................360 Maintenance .............................. 361 15.1 Cleaning ............................361 Notes ................................361 Index ................................362 Product manual 2CKA001473B5343 │14...
Page 15: Notes On The Instruction Manual
If you pass the device on, also pass on this manual along with it. ABB accepts no liability for any failure to observe the instructions in this manual. If you require additional information or have questions about the device, please contact ABB or visit our Internet site at: https://new.abb.com/en...
Page 16: Safety
However, residual hazards remain. Read and adhere to the safety instructions to prevent hazards of this kind. ABB accepts no liability for any failure to observe the safety instructions. Information and symbols used The following Instructions point to particular hazards involved in the use of the device or provide...
Page 17: Intended Use
Each use not listed in “Intended use“ on page 17 is deemed improper use and can lead to personal injury and damage to property. ABB is not liable for damages caused by use deemed contrary to the intended use of the device. The associated risk is borne exclusively by the user/operator.
Page 18: Target Group / Qualifications Of Personnel
Safety Target group / Qualifications of personnel 2.4.1 Operation No special qualifications are needed to operate the device. 2.4.2 Installation, commissioning and maintenance Installation, commissioning and maintenance of the device must only be carried out by trained and properly qualified electrical installers. The electrical installer must have read and understood the manual and follow the instructions provided.
Page 19: Cyber Security
ABB has formally established cyber security robustness testing as part of the product development process. The following measures are prerequisite for the safe operation of your system. ABB accepts no liability for non-observance. Access control and limitation The careful isolation of the system against unauthorized access is the basis for every protective concept.
Page 20 The product is not susceptible to malware, because a user-defined code cannot be executed on the system. The only option of updating the software is the update of the firmware. Only a firmware signed by ABB is accepted. Password rules The default system password is 345678.
Page 21: Ports And Services For Supporting The Main Functionality
Safety 2.5.1 Ports and services for supporting the main functionality To support the main functionalities of the device, communication via specific ports and services must be possible in your local network. Contact your network administrator to set up, if necessary, the appropriate port sharing. Attention! Enabling the port increases the risk of cyber attacks.
Page 22 Safety Network performance Type Value Ethernet 100 Mbps (148,800 packets/s) 20 Mbps (29,760 packets/s) ICMP 100 Mbps (148,800 packets/s) 60 Mbps (89,280 packets/s) Product manual 2CKA001473B5343 │22...
Page 23: Safety Instructions
Safety Safety instructions Danger - Electric voltage! Electric voltage! Risk of death and fire due to electric voltage of 100 … 240 V. Dangerous currents flow through the body when coming into direct or indirect contact with live components. This can result in electric shock, burns or even death.
Page 24: Information On Protection Of The Environment
Information on protection of the environment Information on protection of the environment Environment Consider the protection of the environment! Used electric and electronic devices must not be disposed of with domestic waste. – The device contains valuable raw materials which can be recycled. Therefore, dispose of the device at the appropriate collecting depot.
Page 25: Product Overview
(See “Overview of KNX functions“ on page 28 or Chapter 8.2.1 “Parameter settings of panel“ on page 52). It has a capacitive touchdisplay with a resolution of 1280 x 800 (IPS display). ® The touch panel is linked with both bus systems, the ABB i-bus KNX or alternately ABB- free@home ®...
Page 26 In connection with a configuration with the ABB i-bus KNX, a total of up to 25 operating pages with a total of 450 control elements can be configured (the audio control element occupies at least four function positions). For a configuration via the ABB- free@home ®...
Page 27: Scope Of Supply
Product Overview Scope of supply The panel is included in the scope of supply. The enclosed bus connection terminal serves for the connection with the ABB i-bus ® ® ® and/or the ABB-Welcome bus. The connection with the ABB-free@home System Access Point is made via WLAN and/or the ABB-free@home ®...
Page 28: Overview Of Knx Functions
Room temperature controller (RTC) ■ Page link functions ■ Audio control ■ Table 2: Overview of functions Device overview Device overview (front side) Fig. 2: Device overview ABB SmartTouch ® front side Description Touch screen Proximity and brightness sensor Product manual 2CKA001473B5343 │28...
Page 29 X1: Setting the ones digits. ■ X100 and X200: setting the hundreds digits ■ (must only be set for ABB-Welcome ® systems of type M range) Master/slave function Only one indoor station in each apartment can be set as "Master" (ON=Master).
Page 30: Technical Data
2 x 0.5 mm - 2 x 1.8 mm Nominal voltage 24 VDC Mains supply 20 V - 32 V DC ® ABB-Welcome 21 V - 32 V DC ABB-free@home ® bus voltage KNX bus voltage 21 V - 32 V DC...
Page 31: Dimensional Drawings
Technical data Parameter setting: Programming (KNX) ETS 6 (from ETS 5.x) and ABB DCA SmartTouch 10 via KNX bus or micro SD card Parameter setting (free@home) Via SAP-S-1-84 (no SD card required) Table 3: Technical data Dimensional drawings Fig. 4: Dimensions All dimensions are in millimetres.
Page 32: Circuit Diagrams
Technical data Circuit diagrams Fig. 5: Electrical connection Function Connection for the ABB i-bus ® KNX / free@home Connection for the floor call button Connection for the central control system or the external power supply (e.g. CP-D 24/2.5) When using several indoor stations: connection for the internal bus.
Page 33: Connection, Installation / Mounting
ABB-Welcome ® and ABB-free@home ® . These can be downloaded via https://new.abb.com/en or https://abb.com/freeathome. Safety instructions Danger - Electric voltage! Risk of death due to electrical voltage of 100 … 240 V during short-circuit in the low-voltage conduit.
Page 34: Preparatory Steps
Connection, installation / mounting Preparatory steps Terminate all branches of the wiring system with a connected bus device (e.g., indoor ■ station, outdoor station, system device). Do not install the central control system directly next to bell transformers and of other ■...
Page 35: Mounting / Dismantling
Connection, installation / mounting Mounting / dismantling 6.5.1 Installation sites Fig. 6: Installation sites When selecting the installation location, ensure that there is a distance to sources of heat or ■ cold. Heat or cold sources influence the function of the internal temperature sensor. ■...
Page 36: Mounting
Connection, installation / mounting 6.5.2 Mounting The device is suited for flush-mounted and surface-mounted installation. The surface-mounted mounting frame ST/A10.1-811; not part of the scope of supply) can be used for surface mounting when the device is not mounted on the associated flush-mounted installation box.
Page 37: Mounting In Flush-Mounted Installation Box In Solid Wall
Connection, installation / mounting 6.5.3 Mounting in flush-mounted installation box in solid wall Installation on the basis of the instructions on the enclosed plastering template: Notice See mounting instructions on the enclosed plaster and drilling template. First the bottom part of the flush-mounted installation box must be pulled off and installed flush-mounted.
Page 38: Mounting In Flush-Mounted Installation Box In Hollow Wall
Connection, installation / mounting 6.5.4 Mounting in flush-mounted installation box in hollow wall Installation on the basis of the instructions on the enclosed drilling template: Notice See mounting instructions on the enclosed plaster and drilling template. The bottom part of the flush-mounted installation box is not required here. Fig.
Page 39: Mounting With Surface-Mounted Mounting Frame
Connection, installation / mounting 6.5.5 Mounting with surface-mounted mounting frame First, depending on the mounting version according to the following specification, the surface- mounted mounting frame must be installed: Fig. 10: Installation of surface-mounted mounting frame Notice For additional information see the enclosed mounting instructions for surface- mounted mounting frames.
Page 40: Electrical Connection
Electrical connection 6.6.1 Connection, installation and addressing Fig. 12: Overview of connections / switches The connections, the switches and the terminal resistor are located on the rear of the ABB SmartTouch ® Fig. 13: Overview of connections 1. Connect the device according to the graphics (See “Circuit diagrams“ on page 32).
Page 41: External Power Supply
Connection, installation / mounting 6.6.2 External power supply If the panel is not operated via ABB-Welcome ® , an external power supply is required. The device can be operated with the power supply named in the following: CP-D 24/2.5 ■...
Page 42: Dismantling
Connection, installation / mounting Dismantling Fig. 17: Loosening the clamp of the device 1. Push the slider on the bottom side of the device to the right. – The clamp is loosened. 2. Push the device upwards and then pull it off toward the front. Product manual 2CKA001473B5343 │42...
Page 43: Initial Commissioning Of Device
4. Agree to the OSS licensing terms. 5. Tap on "Next". During the next step the system must be specified with which the panel is to be operated. There is a series of different systems with which the ABB SmartTouch ® is compatible. The systems can be used as individual solution or in combination with an additional system.
Page 44 The device connects itself with the system. A load screen follows. Notice The following parameter setting of the functions is made via the commissioning tool ABB DCA SmartTouch 10, or alternatively, via the Web-based user interface of free@home. Special features...
Page 45: Initial Commissioning With Abb-Free@Home
Initial commissioning of device Initial commissioning with ABB-free@home ® The steps described in the following refer to initial commissioning with ABB-free@home ® ® ® ® ABB-free@home + ABB-Welcome and are made directly in ABB SmartTouch . Ensure that the steps from Chapter 7 “Initial commissioning of device“ on page 43 have already been carried out.
Page 46 Initial commissioning of device 4. The notification center opens. – The panel must be authenticated in the notification center. Fig. 20: Authentication 5. Tap on the system message "Device authorization" in the notification center. 6. Then tap on the message. –...
Page 47 Then the panel is listed in the "System settings" in the area "Info" > "free@home". After a while the panel is listed as new device in the device list in the System Access Point". The additional configuration is available in Chapter 8 “Commissioning via ABB-free@home ®...
Page 48: Commissioning Via Abb-Free@Home
PC. The System Access Point is used to identify and program the ® participants during commissioning. The link of the ABB SmartTouch with the System Access Point is made during the course of initial commissioning (see chapter 7 “Initial commissioning of device“...
Page 49: Add Device
Commissioning via ABB-free@home® 8.1.1 Add device 1. Tap on the switch icon (menu devices, scenes and groups) at the left edge of the screen. – The "Building plan" opens. 2. Tap on the round plus icon at the bottom right [1].
Page 50 Commissioning via ABB-free@home® Fig. 25: Pop-up window with the suitable devices (example illustration) Identification The device can be identified via the serial number. Identification via serial number Fig. 26: Identification via serial number (example illustration) Compare the serial number and the short ID of the identification label, which is glued on the ■...
Page 51: Setting Options Per Channel
Commissioning via ABB-free@home® Setting options per channel General settings and special parameter settings can be made for each channel. The settings are made via the web-based user interface of the System Access Point. Select device Fig. 27: Selecting device 1. Select the device icon [1] in the floor plan of the working area view.
Page 52: Parameter Settings Of Panel
Commissioning via ABB-free@home® 8.2.1 Parameter settings of panel Open overview of devices Fig. 28: Open overview of devices (example illustration) 1. Open window "Devices, scenes and groups" 2. Select the "Functions" button [1]. – The overview of devices opens. –...
Page 53 Commissioning via ABB-free@home® Fig. 29: Overview of devices (example illustration) 3. Tap on a device category. – The list of available devices opens. 4. Tap on the device whose information you want to edit. – A new window with the information about the respective device opens.
Page 54 For details about the panel configuration, see chapter 8.3 “Specifying or editing functions (buttons)“ on page 62. Sensors ® Here you enter the parameter settings of the ABB-Welcome sensors. Precise ® ® information about the ABB-Welcome sensors is available in the ABB-Welcome system manual.
Page 55: Parameter Settings Channel
Commissioning via ABB-free@home® 8.2.1.1 Parameter settings Channel Fig. 31: Parameters of channel Under the channel settings you can configure the settings described in the following. Pos. Description Device name An independent designation for the device can be allocated via the text field.
Page 56 Commissioning via ABB-free@home® program for adding it to the actuator. Authorizations Menu item "Authorizations" is used to specify whether a user with installer authorization is required for the reconfiguration of the actuator. In addition, you can nevertheless assign users with read rights the authorization to switch this actuator.
Page 57 Commissioning via ABB-free@home® Product manual 2CKA001473B5343 │57...
Page 58: Other Settings
Commissioning via ABB-free@home® 8.2.1.2 Other settings Abb. 32: Other settings - Part 1 Product manual 2CKA001473B5343 │58...
Page 59 Commissioning via ABB-free@home® Abb. 33: Other settings - Part 2 Product manual 2CKA001473B5343 │59...
Page 60 Commissioning via ABB-free@home® Abb. 34: Other settings - Part 3 Under "Other settings" you can configure the settings described in the following. Pos. Description Parameters User language User language in which the information is shown on the display. Acoustic feedback Activation or deactivation of acoustic feedback when using the display.
Page 61 Commissioning via ABB-free@home® day [%] via the -/+ buttons. Notice: The parameter only functions when a time profile with the application "LED day/night switchover" is available. The device (channel) must be linked with this application! Switch-off delay of display Specifying the time the device changes into the idle state.
Page 62: Specifying Or Editing Functions (Buttons)
® with the ABB SmartTouch . This allows all devices to be switched via the ABB SmartTouch without having to be added manually beforehand. One page of the panel can be configured manually in addition. With a connection via Twisted Pair the automatic configuration is cancelled and the panel pages must be configured manually.
Page 63 Commissioning via ABB-free@home® In the type view (at the top right in the panel configuration under "Type") select the ■ devices/functions according to their type. The devices/functions are grouped here according to type (e.g. lights, scenes, actions, etc.). Fig. 35:...
Page 64 Commissioning via ABB-free@home® Actuators/group selection 1. Select a room in the bar at the right edge of the screen. – The actuators and groups contained in the selected room are displayed in the list view. The sequence is portrayed in the following by means of a room temperature controller.
Page 65: Changing Functions
Commissioning via ABB-free@home® 8.3.2 Changing functions 1. If several panels are available, first select the appropriate panel. 2. Tap on the panel that is to be re-configured. – If only the position of the function or of the control element is to be changed, then the function can be shifted onto a free area via drag-and-drop.
Page 66: Removing Functions
Commissioning via ABB-free@home® 8.3.3 Removing functions 1. If several panels are available, first select the appropriate panel. 2. Tap on the panel that is to be re-configured. 3. Select the function (button) to be removed. 4. Tap on the rubbish bin icon at the top right edge of the tile to remove the function. As alternative you can remove it via the "Delete"...
Page 67: Commissioning Of The Knx Function Via Abb Dca Smarttouch 10 (From Ets5)
ETS. 9.1.1 Prerequisites DCA version The minimum requirement is the use of the ABB DCA SmartTouch 10. ETS version The minimum requirement is the use of ETS from version 5. SD card...
Page 68: Installation Of The Abb Dca Smarttouch 10
DCA commissioning tool, a special app must be installed. This app can then be called up in the ETS via an additional tab (DCA (ABB DCA SmartTouch 10)). For this a licensed version of the ETS Professional Software must be installed on the target computer for the installation.
Page 69: Installation Sequence
The ETS app (etsapp file, ABB DCA SmartTouch 10) for the ABB SmartTouch is installed via the ETS. The app can be downloaded either via https://new.abb.com/en or via the My KNX access. Fig. 38: App installation (example illustration) 1. Open the ETS5.
Page 70: Integrating The Abb Smarttouch ® Into The Ets
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) ® 9.1.4 Integrating the ABB SmartTouch into the ETS The following steps describe how to integrate the ABB SmartTouch ® into the ETS. 1. Start the ETS. ®...
Page 71: Overview Of The Dca Commissioning Tool
The following section includes basic information about the DCA commissioning tool. DCA is a project planning software with which you can configure the KNX functions of the panel for the ABB building automation. Every panel can be set up individually. DCA leads you through the configuration during project planning.
Page 72: Screen Areas Of The Dca
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Screen areas of the DCA During project planning with DCA you work in several areas. In this section the purpose the screen areas serve is explained and how they are to be handled.
Page 73 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Screen area Function DCA icon bar Quick access to different DCA tools, e.g. "Importing" or "Exporting". "Control elements" area The desired "Control elements" can be pulled via drag and drop from this area onto the operating pages in the work area.
Page 74: Explanation Of The Basic Structure (Terms)
(dashboards, start pages) to execute house and device functions. You can jump to a previously defined operating page via the "Page link" control element. All available operating pages are displayed in the bottom screen edge of the ABB SmartTouch ®...
Page 75 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Navigation ® If you swipe to the right or left on the dashboard of the ABB SmartTouch , you can switch between the available operating pages. ® Via the burger menu at the top left screen edge of the ABB SmartTouch you can view the available floors and rooms, as well as categories of applications.
Page 76: Commissioning Sequence
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Commissioning sequence To be able to work with the DCA commissioning tool as effectively as possible, the following work sequence (standard workflow) is recommended: 1. Start the ETS software (see chapter 9.2.1 “Starting the DCA“ on page 71).
Page 77: Basic Settings (System Settings) Of The Panel
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) 9.6.1 Basic settings (system settings) of the panel Notice Entries in text fields must be confirmed with the return key. Common Panel language ■ Options: English German Spanish …...
Page 78 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Time and date Time format ■ Options: 12 h 24 h The parameter is used to specify the time format in which the time is to be displayed.
Page 79 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Sending time and date ■ Options: Every minute Every hour Every 12 hours At 00:00 At 00:02 At summer/winter time changeover At 00:00 + summer/winter time changeover At 00:02 + summer/winter time changeover The parameter is used to specify the time interval at which the device sends the date and time.
Page 80 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Notice Negative values are entered with a minus character. Product manual 2CKA001473B5343 │80...
Page 81 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Long. [ddd.dd][+ = East, − = West] ■ Options: Setting option from +180.00 to -180.00 The parameter is used to set the geographic longitude for the location of the device (180° East to 180°...
Page 82 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Displays Type of the control elements ■ Options: Normal Reduced The parameter is used to specify the type of representation of the control elements. Control elements that are represented in a reduced layout only show the most important data.
Page 83 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Display brightness [%] ■ Options: 10 - 100 The parameter is used to set the display brightness in %. Notice The parameter is only available if the "Brightness is adjusted to the ambient light"...
Page 84 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Product manual 2CKA001473B5343 │84...
Page 85 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Proximity sensor Use approximation for switching on the display ■ Options: Activated Deactivated When the checkbox is activated, a proximity is used as switch-on criteria for the display.
Page 86 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Switch-off value ■ Options: The parameter is used to set the switch-off value of the proximity sensor. Notice The parameter is only available if the parameter "Use approximation to switch on the display"...
Page 87 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Temperature Notice The temperature parameters refer to the temperature display in the top bar of the display. Unit of temperature ■ Options: °C °F The parameter is used to specify the temperature in the units of °C (Celsius) or °F (Fahrenheit).
Page 88 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Send indoor sensor temperature ■ Options: Do not send On change Cyclic On change and cyclic The parameter is used to specify whether or when the temperature values of the indoor sensor are passed on to other devices.
Page 89 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Screen saver Display screen saver [min.] ■ Options: No screen saver The parameter is used to specify the duration after which the screen saver is to be displayed.
Page 90 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Effect of picture transfer ■ Options: Shift from the right Fade out The parameter is used to specify the slide transition effect. Notice The parameter is available only when parameter "Screen saver mode" is set on "Display of slides".
Page 91 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Notice The parameter is available only when parameter "Use information start page" has been activated. Product manual 2CKA001473B5343 │91...
Page 92 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Primary function The primary function is triggered by touching the display with 3 or more fingers. Use primary function ■ Options: Activated Deactivated The checkbox is used to specify whether the primary function is to be activated or deactivated.
Page 93 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Value x ■ Options: Auto Comfort Standby Frost/heat protection The parameter is used to set type of the value during pressing or releasing. Notice The parameter is only available if one of the parameters "Response to pressing"...
Page 94: Creating The Navigation Structure
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Creating the navigation structure The panel has operating pages (start pages) via which the building automation is operated. These pages must be created beforehand. Generally a main start page is created (see chapter 9.4 “Explanation of the basic structure (Terms)“...
Page 95: Creating Room And Floor
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) 9.7.2 Creating room and floor pages 1. Open the "Navigation" tab in the library area. 2. Click on the arrow to the left of the device details. 3. Click on the plus icon at the right next to "Room 1" or "Floor 1".
Page 96 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Copy the page and paste it again 1. In the tree structure, click on the page entry with the right mouse button. – A pop-up menu opens. 2. Click on "Copy".
Page 97 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Delete Page 1. In the tree structure, click on the page entry with the right mouse button. – A pop-up menu opens. 2. Click on "Delete". – The page is deleted with all entries.
Page 98: Configuration Of The Operating
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Configuration of the operating pages Control elements can be inserted into all operating pages (Start pages). Each control element can be pulled from the "Control elements" area via drag and drop onto the page view in the work area and pasted there.
Page 99: Switch" Control Element
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) 9.8.1 "Switch" control element You can, among others, set up a light control via the "Switch" control element. An allocated lamp can then be controlled via the control element. However, also an insert can be used as push-button or scene control element.
Page 100: Blind" Control Element
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) 9.8.6 "Blind" control element A blind control can be set up via the "Blind" control element. This allows an allocated blind to be operated. Setting and selection options via the "Parameter" area of the DCA, see chapter 10.6 “"Blind"...
Page 101: Scene" Control Element
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) 9.8.11 "Scene" control element A scene can be allocated via the "Scene" control element. The scene starts when clicking on this element, if this has been so defined. The scenes must first be created by the commissioner.
Page 102: Control Element "Welcome Control
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) 9.8.16 Control element "Welcome control" Links to functions of a Welcome door communication are possible via the "Welcome control" control element: Setting and selection options via the "Parameter" area of the DCA, see chapter 10.16 “Control element "Welcome control"“...
Page 103: Editing Control Elements
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Editing control elements After the parameterization of the control elements, further editing can be carried out, e.g. a parameterized control element can be copied to additionally use it on a different operating page.
Page 104: Copy Control Element
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) 9.9.2 Copy control element 1. Open the "Navigation" tab in the library area. 2. Select an operating page in the tree structure. – The page is displayed in the work area.
Page 105: Configuration Of Applications And Application
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) 9.10 Configuration of applications and application pages The panel can contain applications with fixed functions (e.g. door communication). When these applications are activated, they can be accessed via the application pages or the application runs in the background.
Page 106: Application "Fault And Alarm Messages
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) 9.10.2 Application "Fault and alarm messages" This application has an application page on which the issued messages are displayed. The individual messages are also displayed directly in the panel according to the configuration.
Page 107: Application "Scene Actuator
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) 9.10.3 Application "Scene actuator" This application has no application page. The scene actuators are started via the "Scene" control element. The application serves for compiling a scene. The scene actuators can be created via the DCA.
Page 108: Application "Time Programs
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) 9.10.5 Application "Time programs" This application has an application page, via which time programs can be set. This allows the holiday function to be started and set up, for example.
Page 109: Application "Internal Rtc
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) 9.10.7 Application "Internal RTC" This application has no application page. The internal room temperature controller (RTC) can be controlled via the "RTC control element" (extension unit). For this the control element must be allocated accordingly and equipped with group addresses.
Page 110 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) – A pop-up menu opens. 4. Click on "Delete". – The favourite is deleted from the favourites list. Product manual 2CKA001473B5343 │110...
Page 111: Editing Communication Objects
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) 9.11 Editing communication objects The available communication objects of the marked control elements (see work area) are listed in the "Communication objects" area. They can here be selected and edited directly via the ETS.
Page 112: Editing Group Addresses
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) This application has no application page. The internal room temperature controller (RTC) can be controlled via the "RTC control element" (extension unit). For this the control element must be allocated accordingly and equipped with group addresses.
Page 113 Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) Fig. 43: "Group addresses" area The group address of the elements is used for the functional allocation: The sending group contains the group address to which a telegram is to be sent. A ■...
Page 114: Additional Tools (Functions)
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) 9.13 Additional tools (functions) You can call up additional tools or functions of the DCA via the DCA icon bar. 9.13.1 Import 1. Click on "Import" in the DCA icon bar, a dialog window with the following entries opens.
Page 115: Export
Commissioning of the KNX function via ABB DCA SmartTouch 10 (from ETS5) 9.13.2 Export 1. Click on "Export" in the DCA icon bar, a dialog window with the following entries appears. – Export image in pid file – Export in project file Export image in pid file This function is used to create an image file (*.pid).
Page 116: Knx Control Elements And Application Parameters
KNX control elements and application parameters KNX control elements and application parameters 10.1 "Switch" control element 10.1.1 Name of the control element Options: <Name> Naming the switch control element, e.g. name of the lamp that is to be switched. The length of the name is limited to 36 characters. 10.1.2 Name of room (otional) Options:...
Page 117: Object Type 1 / Value 2
KNX control elements and application parameters "Switch" control element – Pressing/releasing: Pressing = value 1; releasing = value 2. The following supplementary parameters are available, see chapter “Object type 1 / value 2“ on page 117: – Object type value 1: When actuated (pressing) the control element sends telegrams via the associated communication object.
Page 118 KNX control elements and application parameters "Switch" control element – Inactive: No additional parameters available. – Switch: The following supplementary parameters are available: Sent value 1: Options: Switchover – Switchover: At each actuation a switchover takes place between the two set values "Object type 1"...
Page 119 KNX control elements and application parameters "Switch" control element – 0 - 64: Entry of scene number. – Calling up or storing scenes: The parameter is used to specify whether the scene is called up or stored (the scene number is sent with the additional information that the scene is to be stored).
Page 120: Status Control Element (Icon/Text) Is Operated Via A Separate Object
KNX control elements and application parameters "Switch" control element Options: <Text> The length of the text is limited to 14 characters. 10.1.7 Status control element (icon/text) is operated via a separate object Options: An additional 1-bit communication object "Status" is enabled via the parameter. When the object has been enabled, the status display of the control element indicates the current status of the object.
Page 121 KNX control elements and application parameters "Switch" control element Product manual 2CKA001473B5343 │121...
Page 122: Control Element "Rocker Switch
KNX control elements and application parameters Control element "Rocker switch" 10.2 Control element "Rocker switch" 10.2.1 Name of the control element Options: <Name> Naming the switch control element, e.g. name of the lamp that is to be switched. The length of the name is limited to 36 characters. 10.2.2 Name of room (otional) Options:...
Page 123: Status Control Element (Icon/Text) Is Operated Via A Separate Object
KNX control elements and application parameters Control element "Rocker switch" Options: <Text> The entered text is displayed when the rocker (button) bottom is actuated. Text for top / Value 2: Options: <Text> The entered text is displayed when the rocker (button) top is actuated. 10.2.6 Status control element (icon/text) is operated via a separate object Options:...
Page 124: Object Type
KNX control elements and application parameters Control element "Rocker switch" 10.2.8 Object type Options: Switch Forced operation 1-byte value [0% - 100%] 1-byte value [0 - 255] 1-byte value [-128 - 127] Scene number RTC operating mode Temperature 2-byte value [-32768 - +32767] 2-byte value [0 - 65535] 2-byte floating point 4-byte value [-2147483648 - 2147483647]...
Page 125 KNX control elements and application parameters Control element "Rocker switch" – 1-byte value [0% - 100%]: A value is sent as 1-byte percentage value. The following supplementary parameter is available: Sent value 1 / value 2 [0 - 100%]: Options: Setting option from 0 - 100 –...
Page 126 KNX control elements and application parameters Control element "Rocker switch" – Temperature: After the control element is actuated, the device sends the parameterized temperature value. The following supplementary parameter is available: Transmitted value 1 / value 2 [temperature]: Options: Setting option from 16 - 31 –...
Page 127: Enable 1-Bit Communication Object "Disable
KNX control elements and application parameters Control element "Rocker switch" 10.2.9 Enable 1-bit communication object "Disable" Options: There is the option of temporarily disabling the function via an additional communication object "Disable". Product manual 2CKA001473B5343 │127...
Page 128: Dimmer" Control Element
KNX control elements and application parameters "Dimmer" control element 10.3 "Dimmer" control element 10.3.1 Name of the control element Options: <Name> Naming the dimmer control element, e.g. name of the lamp that is to be dimmed. The length of the name is limited to 36 characters. 10.3.2 Name of room (otional) Options:...
Page 129: Status Control Element (Icon) Is Controlled By A Separate Object
KNX control elements and application parameters "Dimmer" control element Notice The parameter can only be set when parameter "Icon type" is set on "User- defined". 10.3.7 Status control element (icon) is controlled by a separate object Options: Deactivated Activated An additional 1-bit communication object "Status" is enabled via the parameter. When the object has been enabled, the status display of the control element indicates the current status of the object.
Page 130: Control Element: "Dimmer Slider
KNX control elements and application parameters Control element: "Dimmer slider" 10.4 Control element: "Dimmer slider" 10.4.1 Name of the control element Options: <Name> Naming the slider control element, e.g. name of the lamp that is to be dimmed. The length of the name is limited to 36 characters. 10.4.2 Name of room (otional) Options:...
Page 131: Status Control Element (Icon) Is Operated Via A Separate Object
KNX control elements and application parameters Control element: "Dimmer slider" Notice The parameter can only be set when parameter "Icon type" is set on "User- defined". 10.4.7 Status control element (icon) is operated via a separate object Options: Deactivated Activated An additional 1-bit communication object "Switch status"...
Page 132: Slider Sends
KNX control elements and application parameters Control element: "Dimmer slider" 10.4.9 Slider sends Options: When releasing the slider Cyclic The parameter is used to specify whether the signal is sent "When releasing the slider" or "Cyclic". – When releasing the slider: No additional parameters available. –...
Page 133: Operation Of "Rgbw" Control Element
KNX control elements and application parameters Operation of "RGBW" control element“ 10.5 Operation of "RGBW" control element“ 10.5.1 Name of the control element Options: <Name> Naming the switch control element, e.g. name of the lamp that is to be switched. The length of the name is limited to 36 characters.
Page 134 KNX control elements and application parameters Operation of "RGBW" control element“ RGB: Used for RGB lamp. The following supplementary parameter is available: Switching On/Off via: ■ Options: Switch object RGB feedback signal The parameter is used to specify the On/Off control. –...
Page 135 KNX control elements and application parameters Operation of "RGBW" control element“ HSV: Used for RGB lamp. The following supplementary parameter is available: Switched On -> preset value: ■ Options: Deactivated Activated – Deactivated: No presets are sent when the lamp is switched on. –...
Page 136 KNX control elements and application parameters Operation of "RGBW" control element“ RGB+Tunable White: Used for RGB lamp. The following supplementary parameter is available: White activation via: ■ Options: Warm/cold objects Temperature/brightness objects The parameter is used to specify how the white lamps are controlled. –...
Page 137: Brightness Change [%]
KNX control elements and application parameters Operation of "RGBW" control element“ – Activated: The RGB values (0,0,0) are sent when the lamp is switched off. This parameter is important for lamps that do not contain a "Switch" object. Tunable White: Used for lamps with Warm White and Cold White component. The following supplementary parameters are available: White activation via: ■...
Page 138: Enable 1-Bit Communication Object "Disable
KNX control elements and application parameters Operation of "RGBW" control element“ Activated An additional 1-bit communication object "Switch status" is enabled via the parameter. When the object has been enabled, the status display of the control element indicates the current status of the object. The feedback object can ensure that the correct status is always displayed.
Page 139: Blind" Control Element
KNX control elements and application parameters "Blind" control element 10.6 "Blind" control element 10.6.1 Name of the control element Options: <Name> Naming the blind switch control element, e.g. name of the window whose blind is to be switched. The length of the name is limited to 36 characters. 10.6.2 Name of room (otional) Options:...
Page 140: Type Of Control
KNX control elements and application parameters "Blind" control element Custom The parameter is used to set whether a standard icon or a self-selected icon ("user-defined") is displayed. The following parameters can only be set when parameter "Icon type" is set on "User-defined". Icon for opened: Options: <Selection of an icon from the list>...
Page 141: Status Control Element (Icon) Is Operated Via A Separate Object
KNX control elements and application parameters "Blind" control element 10.6.3 Status control element (icon) is operated via a separate object Options: Deactivated Activated An additional 1-bit communication object "Switch status" is enabled via the parameter. – Deactivated: The communication object is not available. –...
Page 142: Enable 1-Bit Communication Object "Disable
KNX control elements and application parameters "Blind" control element 10.6.4 Enable 1-bit communication object "Disable" Options: Deactivated Activated There is the option of temporarily disabling the function via an additional communication object "Disable". Product manual 2CKA001473B5343 │142...
Page 143: Control Element "Rtc Control Element
KNX control elements and application parameters Control element "RTC control element" 10.7 Control element "RTC control element" 10.7.1 Name of the control element Options: <Name> Naming of the RTC control element. The length of the name is limited to 36 characters. 10.7.2 Name of room (otional) Options:...
Page 144: Display Actual Temperature
KNX control elements and application parameters Control element "RTC control element" 10.7.7 Display actual temperature Options: Deactivated Activated The parameter is used to specify whether the current temperature is displayed. 10.7.8 Display Options: Current setpoint Relative set value The parameter is used to specify the setpoint that is shown in the display. 10.7.9 Hide temperature unit Options:...
Page 145: Fan Coil Control During Cooling Mode
KNX control elements and application parameters Control element "RTC control element" 10.7.14 Fan coil control during cooling mode Options: Deactivated Activated The parameter is used to specify whether the fan coil fan is activated during cooling mode. 10.7.15 Step size of setpoint adjustment Options: 0.1 °C 0.2 °C...
Page 146: Number Of Fans
KNX control elements and application parameters Control element "Fan switch" 10.7.18 Number of fans Options: Heating/cooling via one system Heating/cooling via two systems The parameter is used to specify the number of fans. 10.7.19 Fan speed level data format of master/slave Options: Counter values (e.g.
Page 147: Name Of Room (Otional)
KNX control elements and application parameters Control element "Fan switch" The length of the name is limited to 36 characters. 10.8.2 Name of room (otional) Options: <Name> Naming a room in which the control element Split Unit Control is located. The length of the name is limited to 36 characters.
Page 148: Number Of Levels
KNX control elements and application parameters Control element "Fan switch" 10.8.7 Number of levels Options: Setting option from 1 - 8 The parameter is used to specify the number of fan speed levels that are available and can be switched. 10.8.8 Object type Options:...
Page 149: Display Status
KNX control elements and application parameters Control element "Fan switch" – Grey code: For 5 objects, object 1 to 5: 00000 01100 00110 10000 11100 etc. 01000 00010 11000 10010 00100 01010 10100 11010 – 1-byte unsigned [0 - 255]: A value is sent as 1-byte value without a sign, e.g. actuating value.
Page 150: Status Control Element (Icon) Is Controlled By A Separate Object
KNX control elements and application parameters Control element "Fan switch" Options: <Text for switching level> The parameter is used to specify the text that is sent for the respective level. The length of the text is limited to 15 characters. Note How many "Text level x"...
Page 151: Control "Split Unit Control
KNX control elements and application parameters Control "Split Unit Control" 10.9 Control "Split Unit Control" 10.9.1 Name of the control element Options: <Name> Naming of the control element, e.g. name of the Split Unit Control. The length of the name is limited to 36 characters. 10.9.2 Name of room (otional) Options:...
Page 152: Step Size Of Setpoint Adjustment
KNX control elements and application parameters Control "Split Unit Control" 10.9.8 Step size of setpoint adjustment Options: 0.1 °C 0.2 °C 0.5 °C 1.0 °C The parameter is used to specify the step size of the manual setpoint adjustment. Product manual 2CKA001473B5343 │152...
Page 153: Number Of Fan Speed Levels (Without Auto)
KNX control elements and application parameters Control "Split Unit Control" 10.9.9 Number of fan speed levels (without AUTO) Options: The parameter determines how many fan speed levels (without auto) are available. 10.9.10 Use automatic mode for fans Options: Disabled Activated The parameter is used to specify whether the automatic mode for the fan is activated.
Page 154: Use Mode: Cooling
KNX control elements and application parameters Control "Split Unit Control" 10.9.13 Use mode: Cooling Options: Disabled Activated The parameter is used to specify whether cooling mode is activated. 10.9.14 Use mode: Drying Options: Disabled Activated The parameter is used to specify whether the drying mode is activated. 10.9.15 Use mode: Fan Options: Disabled...
Page 155: Use Extra Mode: Silence Mode
KNX control elements and application parameters Control "Split Unit Control" 10.9.18 Use extra mode: Silence Mode Options: Disabled Activated This parameter is used to specify whether the silent mode is activated. 10.9.19 Use additional mode: Boost Options: Disabled Activated This parameter is used to specify whether the additional boost mode is activated. 10.9.20 Use additional mode: Forced operation Options: Disabled...
Page 156: Additional Mode Use Window Contact
KNX control elements and application parameters Control "Split Unit Control" 10.9.22 Additional mode Use window contact Options: Disabled Activated This parameter is used to specify whether the additional window contact mode is activated. 10.9.23 Use additional Presence mode Options: Disabled Activated This parameter is used to specify whether the additional presence mode is activated.
Page 157: Control "Split Unit Control
KNX control elements and application parameters Control "Split Unit Control" 10.10 Control "Split Unit Control" 10.10.1 Name of the control element Options: <Name> Naming the slider control element, e.g. name of the lamp that is to be dimmed. The length of the name is limited to 36 characters. 10.10.2 Name of room (otional) Options: <Name>...
Page 158: Value [1 Byte 0-255] For Heating Mode
KNX control elements and application parameters Control "Split Unit Control" 10.10.5 Value [1 byte 0-255] for heating mode Options: Setting option from 1 to 255 The parameter is used to set the value for the heating operation. 10.10.6 Value [1 byte 0-255] for cooling mode Options: Setting option from 1 to 255 The parameter is used to set the value for the cooling operation.
Page 159: Using Automatic Operation
KNX control elements and application parameters Control "Split Unit Control" 10.10.11 Using automatic operation Options: deactivated activated The automatic operation is activated when the parameter is activated. 10.10.12 Value [1 byte 0-255] for automatic operation Options: Setting option from 1 to 255 The parameter is used to set the value for the automatic operation.
Page 160: Fan Speed Levels
KNX control elements and application parameters Control "Split Unit Control" 10.10.13 Fan speed levels Options: The parameter is used to set the fan speed level. 10.10.14 Value for the speed x Options: Setting option from 0 to 255 The parameter is used to set the value for the fan speed. 10.10.15 Using automatic fan speed control Options: deactivated...
Page 161: Step Size
KNX control elements and application parameters Control "Split Unit Control" 10.10.17 Step size Options: 0.5 °C 1.0 °C 1.5 °C 2.0 °C The parameter is used to set the step size for the temperature measurement in decimal steps of 0.5. 10.10.18 Maximum setpoint [°C] Options: Setting option from 0 to 40...
Page 162: Using Vrv Temperature Sensor Error Display
KNX control elements and application parameters Control "Split Unit Control" 10.10.20 Using VRV temperature sensor error display Options: deactivated activated The parameter is used to activate the use of the VRV temperature sensor error display. 10.10.21 Using VRV error display Options: deactivated activated...
Page 163: Scene" Control Element
KNX control elements and application parameters "Scene" control element 10.11 "Scene" control element 10.11.1 Name of the control element Options: <Name> Naming of the scene control element. The length of the name is limited to 36 characters. 10.11.2 Name of room (otional) Options: <Name>...
Page 164: Status Control Element (Icon) Is Controlled By A Separate Object
KNX control elements and application parameters "Scene" control element operation. 10.11.8 Status control element (icon) is controlled by a separate object Options: Deactivated Activated An additional 1-bit communication object "Status" is enabled via the parameter. When the object has been enabled, the status display of the control element indicates the current status of the object.
Page 165: Saving Scene X With A Long Press
KNX control elements and application parameters "Scene" control element Background for scene x - picture Options: None Afternoon At home Breakfast Cleaning Coming home Cooking Dinner Evening Guests Holidays Leaving Listening to music Morning Party Reading Relaxing Sleeping Scene Working User defined 1 User defined 2 User defined 3...
Page 166: Enable 1-Bit Communication Object "Disable
KNX control elements and application parameters "Scene" control element the button. Adjustment of the button pressure, see parameter "Long operation after...". Notice How many "Save scene x with a long press" parameters are available depends on the setting of the "Number of scenes [1 - 10]" parameter. 10.11.14 Enable 1-bit communication object "Disable"...
Page 167: Control Element: "Value Slider
KNX control elements and application parameters Control element: "Value slider" 10.12 Control element: "Value slider" 10.12.1 Name of the control element Options: <Name> Naming the slider control element, e.g. name of the device that is to be controlled. The length of the name is limited to 36 characters. 10.12.2 Name of room (otional) Options: <Name>...
Page 168: Slider Sends
KNX control elements and application parameters Control element: "Value slider" The parameter is used to enter the unit or the unit sign with which the value is displayed in the control element. The length is limited to 20 characters. Decimal places: Options: Setting option from 0 - 2 The parameter is used to specify the number of decimal places of the displayed value.
Page 169 KNX control elements and application parameters Control element: "Value slider" – 4-byte value [0 - 4294967295]: A value is sent as 4-byte value without a sign, e.g. actuating value. – 4-byte value [-2147483648 - 2147483647]: A value is sent as 4-byte value with a sign, e.g. actuating value or time difference.
Page 170: Enable 1-Bit Communication Object "Disable
KNX control elements and application parameters Control element: "Value slider" Maximum object value: Options: Setting option depends on the selected object type. The parameter is used to specify the largest value that is sent from the control element via telegrams. Any value within the limits specified by the object type and its value range can be entered.
Page 171: Display" Control Element
KNX control elements and application parameters "Display" control element 10.13 "Display" control element 10.13.1 Name of the control element Options: <Name> Naming of the display control element. The length of the name is limited to 36 characters. 10.13.2 Name of room (otional) Options: <Name>...
Page 172: Type Of Display Element
KNX control elements and application parameters "Display" control element 10.13.5 Type of display element Options: Status display Value display Linear measurement display Round measurement display Wind rose Wind force Temperature Rain Twilight Brightness Moisture Air pressure Measurement of power consumption Voltage Current Frequency...
Page 173: Type Of Display Element - Status Display - Object Type
KNX control elements and application parameters "Display" control element 10.13.6 Type of display element — Status display — Object type Options: 1 bit 1-byte value [0 - 255] Parameter "Object type" is used to specify the size of the communication object. –...
Page 174: Type Of Display Element - Value Display - Measurement Display With Colour Display
KNX control elements and application parameters "Display" control element – 1-byte value [0 - 255]: A status value is sent as 1-byte value without a sign. The following supplementary parameters are available: Text x for value [0 - 255]: Options: Setting option from 0 - 255 The parameter is used to set the status value at which text x is displayed.
Page 175: Type Of Display Element - Value Display - Object Type
KNX control elements and application parameters "Display" control element 10.13.8 Type of display element — Value display — Object type Options: 1-byte value [0% - 100%] 1-byte value [0 - 255] 1-byte value [-128 - 127] 2-byte value [0 - 65535] 2-byte value [-32768 - +32767] 2-byte floating point 4-byte value [0 - 4294967295]...
Page 176 KNX control elements and application parameters "Display" control element The parameter is used to specify the smallest value that is sent via telegrams to the display element. Any value within the limits specified by the object type and its value range can be entered. Maximum object value: Options: Setting option depends on the selected object type.
Page 177: Type Of Display Element - Linear Measurement Display - Measurement Display With Colour Display
KNX control elements and application parameters "Display" control element 10.13.9 Type of display element — Linear measurement display — Measurement display with colour display Options: Deactivated Activated The parameter is used to specify whether a colour display follows. For this the communication objects "Switch alarm", "Switch warning", and "Switch information"...
Page 178: Type Of Display Element - Linear Measurement Display - Object Type
KNX control elements and application parameters "Display" control element 10.13.11 Type of display element — Linear measurement display — Object type Options: 1-byte value [0% - 100%] 1-byte value [0 - 255] 1-byte value [-128 - 127] 2-byte value [0 - 65535] 2-byte value [-32768 - +32767] 2-byte floating point 4-byte value [0 - 4294967295]...
Page 179: Type Of Display Element - Round Measurement Display
KNX control elements and application parameters "Display" control element Minimum object value: Options: Setting option depends on the selected object type. The parameter is used to specify the smallest value that is sent via telegrams to the display element. Any value within the limits specified by the object type and its value range can be entered. Maximum object value: Options: Setting option depends on the selected object type.
Page 180: Type Of Display Element - Wind Rose
KNX control elements and application parameters "Display" control element 10.13.13 Type of display element — Wind rose Note For option "Wind rose" of parameter "Type of display element" the same supplementary parameters are available, such as for option "Linear measurement display", Chapter 10.13.9 “Type of display element — Linear measurement display —...
Page 181: Type Of Display Element - Wind Rose - Display Value Wind Force
KNX control elements and application parameters "Display" control element 10.13.15 Type of display element — Wind rose — Display value wind force Options: Deactivated Activated The parameter is used to specify whether the wind force is displayed. For this the "Wind force" communication object is enabled.
Page 182 KNX control elements and application parameters "Display" control element Minimum object value: Options: Setting option depends on the selected object type. The parameter is used to specify the smallest value that is sent via telegrams to the display element. Any value within the limits specified by the object type and its value range can be entered. Maximum object value: Options: Setting option depends on the selected object type.
Page 183: Type Of Display Element - Wind Force - Unit
KNX control elements and application parameters "Display" control element 10.13.17 Type of display element — Wind force — Unit Options: km/h The parameter is used to specify the unit with which the wind force is displayed in the display element. 10.13.18 Type of display element —...
Page 184: Type Of Display Element - Twilight - Unit
KNX control elements and application parameters "Display" control element 10.13.21 Type of display element — Twilight — Unit Options: kLux The parameter is used to specify the unit with which the twilight is displayed in the display element. 10.13.22 Type of display element — Brightness Notice For option "Brightness"...
Page 185: Type Of Display Element - Moisture - Unit
KNX control elements and application parameters "Display" control element 10.13.24 Type of display element — Moisture — Unit Options: Fixed at % The parameter is used to specify the unit with which the air moisture is displayed in the display element.
Page 186: Type Of Display Element - Current - Unit
KNX control elements and application parameters "Display" control element 9,021 The parameter is used to specify the data point used. 10.13.31 Type of display element — Current — Unit Options: The parameter is used to specify the unit with which the current is displayed in the display element.
Page 187: Type Of Display Element - Energy - Data Point Type
KNX control elements and application parameters "Display" control element 10.13.35 Type of display element — Energy — Data point type Data point type Options: 13,013 13,010 The parameter is used to specify the data point used. 10.13.36 Type of display element — Energy — Unit Options: The parameter is used to specify the unit with which the energy is displayed in the display element.
Page 188: Type Of Display Element - Gas (Volume) - Data Point Type
KNX control elements and application parameters "Display" control element 10.13.39 Type of display element — Gas (volume) — Data point type Data point type Options: 12.1201 14,076 12.1200 The parameter is used to specify the data point used. 10.13.40 Type of display element — Gas (volume) — Unit Options: The parameter is used to specify the unit with which the energy is displayed in the display element.
Page 189 KNX control elements and application parameters "Display" control element Options: Deactivated Activated There is the option of temporarily disabling the function via an additional communication object "Disable". Product manual 2CKA001473B5343 │189...
Page 190: Control Element "Audio Control
KNX control elements and application parameters Control element "Audio control" 10.14 Control element "Audio control" 10.14.1 Name of the control element Options: <Name> Naming of the control element for audio control. The length of the name is limited to 36 characters. 10.14.2 Name of room (otional) Options: <Name>...
Page 191: Object Type Playback / Pause Control
KNX control elements and application parameters Control element "Audio control" 1-byte value [0 - 255]: The value of an audio source is sent as 1-byte value without a sign. The following supplementary parameter is available: Source x value: Options: Setting option from 0 - 255 The parameter is used to send the value per source.
Page 192: Object Type Forward/Reverse Control
KNX control elements and application parameters Control element "Audio control" – Deactivated: No forward/reverse control is enabled. No additional parameters available. – Activated: Forward/reverse control is enabled. The following supplementary parameter is available: 10.14.8 Object type Forward/reverse control Notice "Forward/Reverse control" object type is only available if "Use Forward/Reverse control"...
Page 193: Use Shuffle Control
KNX control elements and application parameters Control element "Audio control" Options: Deactivated Activated – Deactivated: No mute button is enabled. No additional parameters available. – Activated: The mute button is enabled. The following supplementary parameter is available: Object type mute: Options: 1 bit 1-byte value [0 - 255]...
Page 194: Use Repeat Control
KNX control elements and application parameters Control element "Audio control" 1 bit: Random playback commands are sent with 1 bit (0 or 1). The following supplementary parameter is available: Value for shuffle: Options: The parameter is used to send the the "Value for shuffle" with "0" or "1". 1-byte value [0..255]: The value without random playback is sent as a 1-byte unsigned value.
Page 195: Use Of Volume Button
KNX control elements and application parameters Control element "Audio control" The parameter is used to send the the "Value for repeating" with "0" or "1". 1 bit: Repeat commands are sent with 1 bit (0 or 1). The following supplementary parameter is available: Value for not repeating: Options:...
Page 196: Use Of On/Off Button
KNX control elements and application parameters Control element "Audio control" The parameter is used to send the command for "Decrease volume" with "0" or "1". 1 x 4 bit: Commands of a volume button are sent with 4 bit. No additional parameters –...
Page 197: Enable 1-Bit Communication Object "Disable
KNX control elements and application parameters Control element "Audio control" Options: Setting option from 0 - 255 The parameter is used to send the value for "OFF" as absolute value. 10.14.5 Enable 1-bit communication object "Disable" Options: Deactivated Activated There is the option of temporarily disabling the function via an additional communication object "Disable".
Page 198: Page Link" Control Element
KNX control elements and application parameters "Page link" control element 10.15 "Page link" control element 10.15.1 Name of the control element Options: <Name> Naming of the page link control element. The length of the name is limited to 36 characters. 10.15.2 Name of room (otional) Options: <Name>...
Page 199: Enable 1-Bit Communication Object "Disable
KNX control elements and application parameters "Page link" control element 10.15.6 Enable 1-bit communication object "Disable" Options: Deactivated Activated There is the option of temporarily disabling the function via an additional communication object "Disable". Product manual 2CKA001473B5343 │199...
Page 200: Control Element "Welcome Control
KNX control elements and application parameters Control element "Welcome control" 10.16 Control element "Welcome control" 10.16.1 Name of the control element Options: <Name> Naming of the control element for audio control. The length of the name is limited to 36 characters. 10.16.2 Name of room (otional) Options: <Name>...
Page 201: Trigger With
KNX control elements and application parameters Control element "Welcome control" 10.16.7 Trigger with Options: 1 and 0 The parameter is used to specify the signal for the trigger. Product manual 2CKA001473B5343 │201...
Page 202: Enable 1-Bit Communication Object "Disable
KNX control elements and application parameters Control element "Welcome control" 10.16.8 Enable 1-bit communication object "Disable" Options: Disabled Activated There is the option of temporarily disabling the function via an additional communication object "Disable". Product manual 2CKA001473B5343 │202...
Page 203: Application "Door Communication
KNX control elements and application parameters Application "Door communication" 10.17 Application "Door communication" 10.17.1 Use of door communication Options: Deactivated Activated The parameter is used to specify whether an application page is displayed in the panel for the door communication. –...
Page 204 KNX control elements and application parameters Application "Door communication" Options: The parameter is used to specify how many control elements are used. Type of the control element x: Options: Switch Roller blind Forced operation 1-byte value [0-100%] 1-byte value [0-255] 8-bit scene The parameter is used to specify the type of control element used.
Page 205 KNX control elements and application parameters Application "Door communication" – 8-bit scene: A light scene number is sent with 8 bits. The following supplementary parameter is available: Value for object x: Options: Setting option from 1 - 64 Notice How many "Object type x" parameters are displayed depends on the setting of the "Number of participants"...
Page 206: Application "Fault And Alarm Messages" - Global Settings
KNX control elements and application parameters Application "Fault and alarm messages" - Global settings 10.18 Application "Fault and alarm messages" - Global settings 10.18.1 Use of fault and alarm messages Options: Deactivated Activated The parameter is used to specify whether the fault and alarm messages are displayed. –...
Page 207: Automatic Archiving At An Acknowledgement
KNX control elements and application parameters Application "Fault and alarm messages" - Settings of the individual messages 10.18.4 Automatic archiving at an acknowledgement Options: Deactivated Activated The parameter is used to specify that after acknowledgement in the application page the message is archived immediately and is no longer displayed in the alarm list.
Page 208: Type Of Message
KNX control elements and application parameters Application "Fault and alarm messages" - Settings of the individual messages 10.19.2 Type of message Options: Alarm Notice Error The parameter is used to specify the type of message that is displayed. 10.19.3 Type of alarm Options: 1 bit 14 bytes...
Page 209 KNX control elements and application parameters Application "Fault and alarm messages" - Settings of the individual messages Repeat of alarm as long as it is active: Options: Deactivated Activated – Deactivated: In the active state the acoustic alarm signal is not repeated. No additional parameters available.
Page 210: Application "Scene Actuator
KNX control elements and application parameters Application "Scene actuator" 10.20 Application "Scene actuator" 10.20.1 Name of scene actuator Options: <Text> Naming of scene actuator. The length of the name is limited to 60 characters. 10.20.2 Number of participants Options: Setting options from 1 - 15 The parameter is used to specify the number of participants (actuators).
Page 211: Object Type X
KNX control elements and application parameters Application "Scene actuator" 10.20.6 Object type x Options: Switch Roller blind Forced operation 1-byte value [0 - 100%] 1-byte value [0 - 255] RGB colour RGBW colour Colour temperature 8-bit scene RTC operating mode Temperature 14-byte text When actuated or during a sequence, components of a scene can send telegrams via the...
Page 212 KNX control elements and application parameters Application "Scene actuator" – 1-byte value [0 - 100%]: A value is sent as 1-byte percentage value. The following supplementary parameter is available: Value for object x: Options: Setting option from 0 - 100 –...
Page 213 KNX control elements and application parameters Application "Scene actuator" – RGBW colour: A colour value is sent as hexadecimal value. Value for object x: Options: Setting option from #00000000 - #FFFFFFFF The entered colour value (red, green, white) is displayed as colour pattern next to the parameter.
Page 214: Name Of Scene
KNX control elements and application parameters Application "Scene actuator" 10.20.7 Name of scene Options: <Text> Designation of scene. The length of the name is limited to 60 characters. 10.20.8 Scene number Options: Setting option from 1 - 64 The number of the scene is set via the parameter. 10.20.9 Light scenes can be started with a Options: Both...
Page 215: Application "Presence Simulation
KNX control elements and application parameters Application "Presence simulation" 10.21 Application "Presence simulation" 10.21.1 Use of presence simulation Options: Deactivated Activated The parameter is used to specify whether presence simulation is displayed. – Disabled: No display in the panel. No additional parameters available. –...
Page 216: Delay Time Up To Activation [Min.]
KNX control elements and application parameters Application "Presence simulation" 10.21.4 Delay time up to activation [min.] Options: Setting option from 0 - 60 The parameter is used to specify the number of minutes after which the recorded telegrams are played. Notice A selection of "0"...
Page 217: Application "Time Programs
KNX control elements and application parameters Application "Time programs" 10.22 Application "Time programs" 10.22.1 Page PIN-protected Options: The parameter is used to specify whether the time programs application page is protected by a PIN code. – No: The application page is not protected. –...
Page 218: Application "Logical Functions
KNX control elements and application parameters Application "Logical functions" 10.23 Application "Logical functions" 10.23.1 Channel x — Application Name of channel: Options: <Name> Naming of the channel. The length of the name is limited to 30 characters. Application: Options: Inactive Logic gate Multiplexer Multiplier...
Page 219 KNX control elements and application parameters Application "Logical functions" Object type input x: Options: 1 bit 1 byte The parameter is used to specify whether the input object consists of a 1-bit value (0/1) or a 1-byte value (0 - 255). See the explanation above. Notice How many "Object type input x"...
Page 220 KNX control elements and application parameters Application "Logical functions" Options: Output is set on 0 Defined via output default value untrue The parameter is used to specify the value of the output object in the logic status "Untrue". See the explanation above. –...
Page 221 KNX control elements and application parameters Application "Logical functions" Options: Setting options from 0 - 255 See the explanation above. Telegram delay: Options: Setting option from 200 ms - 10 seconds The parameter is used to set the time delay for telegrams. Used outputs: Options: Setting options from 1 - 10...
Page 222 KNX control elements and application parameters Application "Logical functions" If the size of the input and output objects is 1 bit, the input can also be inverted. This allows an inverting member to be implemented via a gate. It is also possible to block signals via the "Filter function"...
Page 223 KNX control elements and application parameters Application "Logical functions" Filter 0 Filter 1 See the explanation above. – Forced operation: Management systems can access the device directly via KNX. However, it can also be specified that one can select manually (forced operation) via buttons.
Page 224 KNX control elements and application parameters Application "Logical functions" Input 2 [°C]: Options: Setting options from -30 - +70 This parameter is used to specify the value with which the temperature at input 1 is to be compared. Hysteresis: Options: Setting options from 0.5 - 10 –...
Page 225 KNX control elements and application parameters Application "Logical functions" Options: Deactivated Activated The parameter is used to specify whether the output telegram is sent in cycles. – Deactivated: No additional parameters available. – Activated: The following parameter appears: Cycle time: Options: Setting options from 00:00:01 - 00:30:00 The parameter is used to specify the cycle time (hh:mm:ss).
Page 226 KNX control elements and application parameters Application "Logical functions" Text x for value [0 - 255]: Options: Setting options from 0 - 255 The parameter is used to set which value is to be converted into text x. Text x: Options: <Text>...
Page 227: Application "Internal Rtc
KNX control elements and application parameters Application "Internal RTC" Options: Deactivated Activated The parameter is used to specify whether the staircase light is switched with a switch-on delay. – Deactivated: No additional parameters available. – Activated: The following parameter appears: Switch-on delay time [hh:mm:ss]: Options: Setting options from 00:00:01 - 12:00:00...
Page 228: General - Operating Mode After Reset
KNX control elements and application parameters Application "Internal RTC" Heating with additional stage Cool Cooling with additional stage Heating and cooling Heating and cooling with additional stage – Heating: For operating a heat-based single-room control. The temperature is regulated to the setpoint value defined in the parameter.
Page 229: General - Additional Functions/Objects
KNX control elements and application parameters Application "Internal RTC" 10.24.3 General - Additional functions/objects Options: Deactivated Activated – This parameter enables additional functions and communication objects. 10.24.4 General — Delay time for read telegrams after reset [s] Options: Setting option from 1 - 255 seconds –...
Page 230: Heating Control
KNX control elements and application parameters Application "Internal RTC" 10.24.2 Heating control Notice Only available when the "Control function" parameter is set either on "Heating," "Heating with additional stage," "Heating and cooling" or "Heating and cooling with additional stages". 10.24.3 Heating control - Control value type Options: 2-point 1 bit, Off/On 2-point 1 byte, (0/100%)
Page 231: Heating Control - Heating Type
KNX control elements and application parameters Application "Internal RTC" 10.24.4 Heating control — Heating type Optionen: PI continuous, 0 – 100% and PI PWM, On/Off: Area (e.g. floor heating) 4°C 200 min ■ Convector (e.g. heater) 1.5°C 100 min ■ Free configuration ■...
Page 232: Heating Control - Extended Settings
KNX control elements and application parameters Application "Internal RTC" 10.24.7 Heating control — Extended settings Options: Deactivated Activated – This parameter enables additional functions and communication objects, e.g. "Basic stage heating". Product manual 2CKA001473B5343 │232...
Page 233: Basic Stage Heating
KNX control elements and application parameters Application "Internal RTC" 10.24.8 Basic stage heating Notice Only available when the "Extended settings" parameter under "Heating control" is activated. 10.24.9 Basic stage heating — Status object heating Options: Deactivated Activated – The parameter enables the "Status heating" communication object. 10.24.10 Basic stage heating —...
Page 234: Basic Stage Heating - Cyclic Sending Of The Control Value
KNX control elements and application parameters Application "Internal RTC" Note This parameter is only available when "Control value type" parameter is set either on "PI continuous, 0 – 100%", "PI PWM, On/Off“ or "Fan coil". 10.24.13 Basic stage heating — Cyclic sending of the control value Options: 00:01:00 - 01:00:00 The current control value used by the device can be cyclically transmitted to the bus.
Page 235 KNX control elements and application parameters Application "Internal RTC" medium will flow through the floor heating system to prevent the floor from cooling down. Under "Settings of basic load", it is also possible to define whether this basic load will be permanently active or whether it will be switched by the "Basic load"...
Page 236: Control Of Additional Heating Stage
KNX control elements and application parameters Application "Internal RTC" 10.24.17 Control of additional heating stage Notice Only available when the "Control function" parameter is set either on "Heating with additional stage," or "Heating and cooling with additional stages". 10.24.18 Control of additional heating stage — Control value type Options: 2-point 1 bit, Off/On 2-point 1 byte, (0/100%)
Page 237: Control Of Additional Heating Stage - P-Component
KNX control elements and application parameters Application "Internal RTC" available to the user. – If the required heating type is not available, individual parameters can be specified in the free configuration. Note This parameter is only available when "Control value type" parameter for the additional stage is set either on "PI continuous, 0 –...
Page 238 KNX control elements and application parameters Application "Internal RTC" Activated This parameter enables additional functions and communication objects, e.g. "Additional heating stage". Product manual 2CKA001473B5343 │238...
Page 239: Additional Heating Stage
KNX control elements and application parameters Application "Internal RTC" 10.24.24 Additional heating stage Notice Only available when the "Extended settings" parameter under "Control of additional heating stage" is activated. 10.24.25 Additional heating stage — Mode of the control value Options: Normal Inverse The mode of the control value can be used to adapt the control value to de-energised opened...
Page 240: Additional Heating Stage - Cyclic Sending Of The Control Value
KNX control elements and application parameters Application "Internal RTC" 10.24.28 Additional heating stage - Cyclic sending of the control value Options: 00:01:00 - 01:00:00 The current control value used by the device can be cyclically transmitted to the bus. Notice This parameter is only available when the "Control value type"...
Page 241: Additional Heating Stage - Hysteresis
KNX control elements and application parameters Application "Internal RTC" 10.24.31 Additional heating stage - Hysteresis Options: Setting option between 0.3 - 25 The hysteresis of the two-point controller specifies the fluctuation range of the controller around the setpoint value. The lower switching point is located at "Setpoint value minus hysteresis" and the upper point is at "Setpoint value plus hysteresis".
Page 242: Cooling Control
KNX control elements and application parameters Application "Internal RTC" 10.24.32 Cooling control Notice Only available when the "Control function" parameter is set either on "Cooling," "Cooling with additional stage," "Heating and cooling" or "Heating and cooling with additional stages". 10.24.33 Cooling control — Control value type Options: 2-point 1 bit, Off/On 2-point 1 byte, (0/100%)
Page 243: Cooling Control - P-Component
KNX control elements and application parameters Application "Internal RTC" configuration. Note This parameter is only available when "Control value type" parameter is set either on "PI continuous, 0 – 100%", "PI PWM, On/Off“ or "Fan coil". 10.24.35 Cooling control - P-component Options: Setting option between 1 - 25 The P-component stands for the proportional range in a control.
Page 244: Basic Stage Cooling
KNX control elements and application parameters Application "Internal RTC" 10.24.38 Basic stage cooling Notice Only available when the "Extended settings" parameter under "Cooling control" is activated. 10.24.39 Basic stage cooling — Status object cooling Options: Deactivated Activated This parameter enables the "Status cooling" communication object. 10.24.40 Basic stage cooling —...
Page 245: Basic Stage Cooling - Hysteresis
KNX control elements and application parameters Application "Internal RTC" Notice This parameter is only available when the "Control value type" parameter is set either on "2-point 1 Bit, Off/On", "2-point 1 Byte, 0/100%", "PI continuous, 0- 100%" or "Fan coil". 10.24.43 Basic stage cooling —...
Page 246 KNX control elements and application parameters Application "Internal RTC" value, even if it calculates a value that is lower. This parameter can be used to set a basic load, e.g. for operating surface cooling. Even if the controller calculates the control value zero, a cooling medium will flow through the cooling area to prevent the floor from heating up.
Page 247: Control Of Additional Cooling Stage
KNX control elements and application parameters Application "Internal RTC" 10.24.47 Control of additional cooling stage Notice Only available when the "Control function" parameter is set either on "Cooling with additional stage," or "Heating and cooling with additional stages". 10.24.48 Control of additional cooling stage - Control value type Options: 2-point 1 bit, Off/On 2-point 1 byte, (0/100%)
Page 248: Control Of Additional Cooling Stage - P-Component
KNX control elements and application parameters Application "Internal RTC" configuration. Note This parameter is only available when "Control value type" parameter is set either on "PI continuous, 0 – 100%", "PI PWM, On/Off“ or "Fan coil". 10.24.50 Control of additional cooling stage — P-component Options: Setting option between 1 - 25 The P-component stands for the proportional range in a control.
Page 249: Control Of Additional Cooling Stage - Extended Settings
KNX control elements and application parameters Application "Internal RTC" 10.24.53 Control of additional cooling stage — Extended settings Options: Deactivated Activated This parameter enables additional functions and communication objects, e.g. "Additional cooling stage". Product manual 2CKA001473B5343 │249...
Page 250: Additional Cooling Stage
KNX control elements and application parameters Application "Internal RTC" 10.24.54 Additional cooling stage Note Only available when the "Extended settings" parameter under "Control of additional cooling stage" is set on "Yes". 10.24.55 Additional cooling stage — Mode of the control value Options: Normal Inverse...
Page 251: Additional Cooling Stage - Cyclic Sending Of The Control Value
KNX control elements and application parameters Application "Internal RTC" 10.24.58 Additional cooling stage — Cyclic sending of the control value Options: 00:01:00 - 01:00:00 The current control value used by the device can be cyclically transmitted to the bus. Notice This parameter is only available when the "Control value type"...
Page 252: Additional Cooling Stage - Hysteresis
KNX control elements and application parameters Application "Internal RTC" 10.24.61 Additional cooling stage — Hysteresis Options: Setting option between 0.3 - 25 The hysteresis of the two-point controller specifies the fluctuation range of the controller around the setpoint value. The lower switching point is located at "Setpoint value minus hysteresis" and the upper point is at "Setpoint value plus hysteresis".
Page 253: Settings Of Basic Load
KNX control elements and application parameters Application "Internal RTC" 10.24.62 Settings of basic load Notice Only available when the "Control function" parameter is set either on "Heating with additional stage," "Cooling with additional stage," "Heating and cooling" or "Heating and cooling with additional stages". 10.24.63 Settings of basic load —...
Page 254: Combined Heating And Cooling Modes
KNX control elements and application parameters Application "Internal RTC" 10.24.65 Combined heating and cooling modes Notice Only available when the "Control function" parameter is set either on "Heating and cooling" or "Heating and cooling with additional stages". 10.24.66 Combined heating and cooling modes — Switchover of heating/cooling Options: Automatic Only via object...
Page 255: Combined Heating And Cooling Modes - Heating/Cooling Control Value Output
KNX control elements and application parameters Application "Internal RTC" 10.24.68 Combined heating and cooling modes — Heating/cooling control value output Options: Via 1 object Via 2 objects This parameter is used to define whether the control value is transmitted to the climate control actuator using one or two objects.
Page 256: Setpoint Settings
KNX control elements and application parameters Application "Internal RTC" 10.24.70 Setpoint settings Note The following parameters are available without enabling "Extended settings". 10.24.71 Setpoint settings — Setpoint for heating comfort = setpoint for cooling comfort Options: Deactivated Activated This parameter is used to configure the manner in which the setpoint adjustment functions. –...
Page 257: Setpoint Settings - Setpoint For Heating And Cooling Comfort
KNX control elements and application parameters Application "Internal RTC" 10.24.74 Setpoint settings — Setpoint for heating and cooling comfort Options: Setting option between 10 - 40 Specifies the comfort temperature for heating and cooling when people are present. Notice This parameter is only available when the "Control function" parameter is set on "Heating and cooling"...
Page 258: Setpoint Settings - Reduction For Heating Economy By
KNX control elements and application parameters Application "Internal RTC" Options: Setting option between 5 - 45 Specifies the comfort temperature for heating economy. Notice This parameter is only available when the "Control function" parameter is set on "Heating", "Heating with additional stage", "Heating and cooling" or "Heating and cooling with additional stage"...
Page 259: Setpoint Settings - Increase For Cooling Standby By
KNX control elements and application parameters Application "Internal RTC" Notice This parameter is only available when the "Control function" parameter is set on "Cooling" or "Cooling with additional stage" and parameter "Setpoint heating comfort = setpoint cooling comfort" is set on "deactivated". 10.24.83 Setpoint settings —...
Page 260: Setpoint Settings - Setpoint Setting Via Communication Object (Dpt 9.001)
KNX control elements and application parameters Application "Internal RTC" Notice This parameter is only available when the "Control function" parameter is set on "Cooling," "Cooling with additional stage," "Heating and cooling" or "Heating and cooling with additional stages". 10.24.87 Setpoint settings — Setpoint setting via communication object (DPT 9.001) Options: For comfort, standby, Eco For comfort, standby, Eco, building protection...
Page 261: Setpoint Settings - Basic Set Value Is
KNX control elements and application parameters Application "Internal RTC" Notice This parameter is only available when the "Send current setpoint" is set on "Cyclic and during change". 10.24.92 Setpoint settings - Basic set value is Options: Comfort cooling setpoint Comfort heating setpoint Mean value between comfort heating and cooling Setpoint for cooling comfort: ■...
Page 262: Setpoint Adjustment
KNX control elements and application parameters Application "Internal RTC" 10.24.93 Setpoint adjustment 10.24.94 Setpoint adjustment — Maximum manual increase during heating mode (0 - 9°C) Options: Setting option between 0 - 9 This preset can be used to limit the manual increase during heating. Note This parameter is only available when parameter "Controller function"...
Page 263: Setpoint Adjustment - Setpoint Adjustment Master/Slave Via Communication Object
KNX control elements and application parameters Application "Internal RTC" 0.5°C 1.0°C This parameter is used to specify the step size for manual setpoint adjustment. 10.24.99 Setpoint adjustment - Setpoint adjustment master/slave via communication object Options: 1-byte counter value Relative temperature value Absolute temperature value This parameter is used to specify whether the setpoint adjustment for master/slave is carried out via a temperature value or a 1-byte counter value.
Page 264: Setpoint Adjustment - Permanent Storage Of On-Site Operation
KNX control elements and application parameters Application "Internal RTC" Activated If this parameter is activated, a separate object can be used to delete the manual adjustment at any time. Example of application: Resetting the manual adjustment on all devices located in an office building using a system clock.
Page 265: Temperature Reading
KNX control elements and application parameters Application "Internal RTC" 10.24.104 Temperature reading 10.24.105 Temperature reading — Inputs of temperature reading Options: Internal measurement External measurement Weighted measurement The room temperature can be measured at the device or fed to the device by an object via the bus.
Page 266: Temperature Reading - Weighting Of External Measurement 2 (0 To 100%)
KNX control elements and application parameters Application "Internal RTC" 10.24.109 Temperature reading — Weighting of external measurement 2 (0 to 100%) Options: Setting option between 0 - 100 Specifying the weighting of the external measurement 2 from 0 to 100%. The setting together with the weighting of the external measurement (0 - 100%) must result in 100%.
Page 267: Temperature Reading - Monitoring Of Temperature Reading
KNX control elements and application parameters Application "Internal RTC" 10.24.113 Temperature reading — Monitoring of temperature reading Options: Deactivated Activated The parameter is used to specify whether parameter "Monitoring time of temperature reading" is available. 10.24.114 Temperature reading — Monitoring time for temperature reading Options: Setting option between 00:01:00 - 18:12:15 If no temperature is read within the parameterised time period, the device switches to error...
Page 268: Temperature Reading - Control Value For Fault (0 - 255)
KNX control elements and application parameters Application "Internal RTC" 10.24.116 Temperature reading — Control value for fault (0 - 255) Options: Setting option between 0 - 255 In the event of a failure of the actual temperature measurement, the device will no longer be able to independently determine the control value.
Page 269: Alarm Functions
KNX control elements and application parameters Application "Internal RTC" 10.24.117 Alarm functions 10.24.118 Alarm functions - Condensate water alarm Options: Deactivated Activated If a fan coil device is used, condensation may form during operation as a result of excessive cooling and/or humidity. The associated condensate is typically collected in a container. To protect the container against overflowing, and thus prevent potential damage to devices and/or the building, the container alerts the "Condensation alarm"...
Page 270: Alarm Functions - Heat Alarm Temperature For Rhcc Status (°C)
KNX control elements and application parameters Application "Internal RTC" 10.24.121 Alarm functions - Heat alarm temperature for RHCC status (°C) Options: Setting option between 20 - 70 The RHCC status object has a heat alarm bit. If the input temperature of the controller exceeds the temperature set in this parameter, then the heat alarm bit is set in the status object.
Page 271: Temperature Limiter
KNX control elements and application parameters Application "Internal RTC" 10.24.122 Temperature limiter 10.24.123 Temperature limiter - Temperature limit of heating Options: Deactivated Activated The parameter is used to specify whether the following parameters are available for the "Temperature limit of heating". –...
Page 272: Temperature Limiter - Setpoint Temperature Of Cooling / Additional Cooling Stage
KNX control elements and application parameters Application "Internal RTC" "Temperature limit of additional cooling stage". – Setpoint temperature – Hysteresis – Integral component of PI controller 10.24.128 Temperature limiter - Setpoint temperature of cooling / additional cooling stage Options: Setting option from 1 - 30 The parameter is used to specify the value of the setpoint temperature for "Cooling"...
Page 273: Summer Compensation
KNX control elements and application parameters Application "Internal RTC" 10.24.131 Summer compensation 10.24.132 Summer compensation - Summer compensation Options: Deactivated Activated In order to save energy, and to ensure that the temperature difference occurring during entry and exit of a climate-controlled building stays within comfortable limits, the excessive reduction of room temperature should be prevented during high temperatures in the summer (Summer compensation according to DIN 1946).
Page 274: Summer Compensation - Offset Of The Setpoint Temperature For The Entry Into Summer Compensation
KNX control elements and application parameters Application "Internal RTC" Options: Setting option between 10 - 40 The parameter is used to specify the lower outside temperature value up to which temperature value the setpoint correction (summer compensation) is performed based on too high an outside temperature.
Page 275 KNX control elements and application parameters Application "Internal RTC" Typical values for summer compensation are: 20°C: lower outside temperature value ■ 32°C: upper outside temperature value ■ 0 K: lower setpoint offset ■ 4 K: upper setpoint offset ■ That means that a flowing setpoint increase of 0 to 4 K occurs if the outside temperature increases from 20°C to 32°C.
Page 276: Settings Of Fan Coil Unit
KNX control elements and application parameters Application "Internal RTC" 10.24.137 Settings of fan coil unit Notice Only available only when parameter "Control value type" is set on "Fan coil unit". 10.24.138 Settings of fan coil unit - Number of fans Options: Heating/cooling via one system Heating/cooling via two system...
Page 277: Fan Settings Heating
KNX control elements and application parameters Application "Internal RTC" 10.24.142 Fan settings heating Notice Only available when parameter "Number of fans" is set on "Heating/cooling via two systems". Notice Additional parameters for "Fan settings heating" are available under "Fan coil unit settings".
Page 278: Fan Speeds/- Levels
KNX control elements and application parameters Application "Internal RTC" 10.24.145 Fan speeds/- levels 10.24.146 Fan speeds/- levels heating Notice Only available when parameter "Number of fans" is set on "Heating/cooling via two systems". 10.24.147 Fan speeds/- levels cooling Notice Only available when parameter "Number of fans" is set on "Heating/cooling via two systems".
Page 279: Fan Speeds/- Levels - Lowest Manually Adjustable Speed-/ Level
KNX control elements and application parameters Application "Internal RTC" Options: For manual operation and automatic Only for manual operation This parameter is used to specify when the output of the fan speed level values will occur: either only when the fan speed levels are manually adjusted or also in automatic mode. This setting depends on the options for the fan coil actuator.
Page 280: Knx Communication Objects
Um einen schnellen Überblick über die Funktionsmöglichkeit des Dimmers zu erhalten, sind alle Kommunikationsobjekte in einer Übersichtstabelle aufgeführt. Die detaillierte Funktion kann in der anschließenden Beschreibung der einzelnen Kommunikationsobjekte nachgelesen werden. For a quick overview of the options of the ABB SmartTouch ®...
Page 281 KNX communication objects Application "Internal RTC" Information page line 2 Input [16.001] bytes Character (ISO 8859- Information page line 3 Input [16.001] bytes Character (ISO 8859- Information page line 4 Input [16.001] bytes Character (ISO 8859- Primary function Output 1 bit [5.001] Switching Proximity function...
Page 282 KNX communication objects Application "Internal RTC" Mute incoming calls Input/ 1 bit [1.001] Output Switching Switch Light Input 1 bit [1.001] Switching Open door Input 1 bit [1.001] Switching Control element 1 Output 1 bit [1.001] Switching Control element 2 Output 1 bit [1.001]...
Page 283 KNX communication objects Application "Internal RTC" Switching Object 2 [send] Output 1 bit [1.001] Switching Object 2 [receive] Input 1 bit [1.001] Switching Object 3 [send] Output 1 bit [1.001] Switching Object 3 [receive] Input 1 bit [1.001] Switching Object 4 [send] Output 1 bit [1.001]...
Page 284 KNX communication objects Application "Internal RTC" Object 14 [receive] Input 1 bit [1.001] Switching Object 15 [send] Output 1 bit [1.001] Switching Object 15 [receive] Input 1 bit [1.001] Switching Scene number Input/ 1 byte [18.001] Output Scene control Activate scene 1 Input 1 bit [1.010]...
Page 285 KNX communication objects Application "Internal RTC" Activate scene 10 Input 1 bit [1.010] Start/Stop Scene 10 dimming Input 3 bit [3.007] Dimmer step Presence simulation activation Input/ 1 bit [1.010] Output Start/Stop Object 1 Input/ 1 bit [1.001] Output Switching Object 2 Input/ 1 bit...
Page 286 KNX communication objects Application "Internal RTC" Activate the holiday Input 1 bit [1.010] function Start/Stop Holiday status Output 1 bit [1.010] Start/Stop Logic functions Logic gate - Output Output 8 bit [5.001] Percent (0 - 100%) Logic gate - Input 1 Input 1 bit [1.001]...
Page 287 KNX communication objects Application "Internal RTC" Name Object Lengt Data type Flags function Multiplier - Input Input 1 bit [1.010] Start/Stop Multiplier - Output 1 Output 1 bit [1.001] Switching Multiplier - Output 2 Output 1 bit [1.001] Switching Multiplier - Output 3 Output 1 bit [1.001]...
Page 288 KNX communication objects Application "Internal RTC" Status converter - Input Input 8 bit [5.010] Counting pulses (0 - 255) Status converter - Input Input [7.010] bytes Pulses Name Object Lengt Data type Flags function Status converter - Output Output 1 bit [1.002] Boolean Status converter - Output...
Page 289 KNX communication objects Application "Internal RTC" Additional-stage heating Output 1 bit [1.001] Switching Cooling control value Output 1 bit [1.001] Switching Additional-stage cooling Output 1 bit [1.001] Switching On/off confirmation Output 1 bit [1.001] (Master) Switching Name Object Lengt Data type Flags function Actual temperature...
Page 290 KNX communication objects Application "Internal RTC" bytes Temperatur (°C) Resetting manual Input 1 bit [1.001] setpoints Switching Dew point alarm Input 1 bit [1.001] Switching Condensation / fill level Input/ 1 bit [1.005] alarm (Master/Slave) Output Alarm Outside temperature Input [9.001] for summer compensation bytes...
Page 291 KNX communication objects Application "Internal RTC" (master) Percent (0 - 100%) Heating temperature limit Input [9.001] basic stage bytes Temperatur (°C) Heating temperature limit Input [9.001] Temperatur additional stage bytes (°C) Cooling temperature limit Input [9.001] Temperatur basic stage bytes (°C) Cooling temperature limit Input...
Page 292 KNX communication objects Application "Internal RTC" Name Object Lengt Data type Flags function Economy cooling setpoint Input [9.001] bytes Temperatur (°C) Cooling setpoint for Input [9.001] building protection bytes Temperatur (°C) Setpoint error Output 1 bit [9.001] Temperatur (°C) Current HVAC operating Output 1 byte [20.102]...
Page 293 KNX communication objects Application "Internal RTC" Output Switching Value Input/ 1 byte [5.001] Output Percent (0 - 100%) Name Object Lengt Data type Flags function Status value Input 1 byte [5.001] Percent (0 - 100%) Block Input 1 bit [1.002] Boolean RGBW operation Switch...
Page 294 KNX communication objects Application "Internal RTC" Status value cold white Input 8 bit [5.010] Counting pulses (0 - 255) Value warm white Input/ 8 bit [5.010] Output Counting pulses (0 - 255) Status value warm white Input 8 bit [5.010] Counting pulses (0 - 255)
Page 295 KNX communication objects Application "Internal RTC" Name Object Lengt Data type function HSV value [3 bytes] Output [232.600] bytes RGB value (0 - 255) Status value RGB [3 Input [232.600] bytes] bytes RGB value (0 - 255) Brightness value Output 1 byte [5.010] Counting...
Page 296 KNX communication objects Application "Internal RTC" (0 - 255) Slat status [0-255] Input 1 byte [5.010] Counting pulses (0 - 255) Name Object Lengt Data type Flags function Block Input 1 bit [1.002] Boolean RTC control element Control On/Off (slave) Input 1 bit [1.001]...
Page 297 KNX communication objects Application "Internal RTC" (slave) Heating/Co oling Request fan speed level Output 1 bit [1.001] manually (slave) Switching Request fan speed level Output 1 byte [6.010] (slave) Counting pulses (-128 - 127) Confirm fan speed level Input/ 1 byte [6.010] (slave) Output...
Page 298 KNX communication objects Application "Internal RTC" (°C) Fan speed / Input/ 1 byte [5.010] level Output Counting pulses (0 - 255) Operating mode Input/ 1 byte [20.102] Output HVAC control mode Horizontal oscillation Input/ 1 bit [1.001] Output Switching Vertical oscillation Input/ 1 bit [1.001]...
Page 299 KNX communication objects Application "Internal RTC" bytes Temperatur (°C) Room temperature Input [9.001] display (from VRV) bytes Temperatur (°C) Value white Input 1 byte [5.010] Counting pulses (0 - 255) Temperature sensor fault Input 1 bit [1.002] Boolean [1.002] Block Input 1 bit Boolean...
Page 300 KNX communication objects Application "Internal RTC" Status [1 byte] unsigned Input 1 byte [5.001] Percent (0 - 100%) Value [1 byte] unsigned Input/ 1 byte [5.010] Output Counting pulses (0 - 255) Status [1 byte] unsigned Input 1 byte [5.010] Counting pulses (0 - 255)
Page 301 KNX communication objects Application "Internal RTC" Name Object Lengt Data type Flags function Status [4 byte] unsigned Input 4 byte [12.001] Counting pulses (unsigned) Value [4 byte] signed) Input/ 4 byte [13.001] Output Counting pulses (signed) Status [4 byte] signed Input 4 byte [13.001]...
Page 302 KNX communication objects Application "Internal RTC" (Pa) Product manual 2CKA001473B5343 │302...
Page 303 KNX communication objects Application "Internal RTC" Name Object Lengt Data type Flags function Voltage Input [9.020] bytes Voltage (mV) Current Input [9.021] bytes Current (mA) Frequency Input [14.033] bytes Frequency (Hz) Power Input [9.024] bytes Power (kW) Energy? Input [13.010] bytes Effective work (Wh)
Page 304 KNX communication objects Application "Internal RTC" Retry Input/ 1 bit [1.001] Output Enable Volume Input/ 1 byte [5.001] Output Percent (0 - 100%) Name Object Lengt Data type Flags function Source 1 Input/ 1 bit [1.017] Output Trigger Source 2 Input/ 1 bit [1.017]...
Page 305: Operation
Operation General control and display functions Operation 12.1 General control and display functions After the device has been connected to the power supply, the boot-up process starts. Then the parameterized main operating page (homepage) is displayed. This is marked with a house in the page display.
Page 306 Volume control / mute button, see chapter “Control elements“ on page 307. Touch-sensitive user interface ® For the ABB SmartTouch up to 18 functions can be positioned on one operating page. A total of 30 pages with a total of 480 control elements can be created.
Page 307: Control Elements
Operation 12.2 Control elements Control elements are used to fulfil the basic functions such as "Switching", "Dimming", Blinds", "Scenes" and RTC. The elements can also contain switches, buttons and sliders. Available are: Button operation Execution of function with a single press Tapping operation Execution of function by pressing and holding Control operation...
Page 308: Basic Structures Of Control Elements
Operation 12.2.1 Basic structures of control elements Fig. 45: Various conditions of the same control element Description Name or channel designation of the device Device inactive If the device is inactive, the button is displayed as follows: Type of button "Icon" ■...
Page 309: Additional Basic Principles
Operation 12.2.2 Additional basic principles Fig. 46: Basic principles Product manual 2CKA001473B5343 │309...
Page 310 Operation Function buttons of blind control elements can, for example, display the different stages of blinds by means of alternating icons (e.g. alternating colour marking in the icon). Fig. 47: Additional basic principles Default settings of steps or levels (e.g. dimming steps, fan speed levels) are, for example, shown with different icons and numbers.
Page 311: Adjustable Control Elements
Operation 12.2.3 Adjustable control elements Notice The basic versions described here can be further adjusted. Push-buttons (basic version) Simple switches can be implemented with push-buttons. This makes light switches or switches for simple switching processes based on push-buttons possible. Control element Status Function Switch...
Page 312 Operation Dimmer (basic version can be further adjusted, e.g. with value display) Dimmers can be used to implement convenient light switches with dimming functions. Control Status Function Dimmer without The version without slider has a push- slider button surface for switching On/Off in the middle and via two buttons top and bottom for stepwise dimming (brighter/darker).
Page 313 Operation Blind (basic version can be further adjusted, e.g. with value display) Blind control elements can be used to implement the activation of blinds, awnings, doors and other motor-driven actuators. Control Status Function Blind Stopping/starting in the middle (depending on the operating mode). The button in the middle can display the status.
Page 314 Operation Scenes (basic version) With control element "Scene" the user can start so-called scenes. Several actions can be combined in "Scenes" so that the user can create a certain light atmosphere with only one press of the button for example (several dimming actions). Control Status Function...
Page 315 Operation Fan switch (basic version) Fan switches (step switches) can be used to implement switching sequences. A step switch, so to speak, combines several push-buttons into one control element. Control Status Function Fan switch (step The version has two buttons top and bottom switch) for calling up the next or previous step and a button in the middle.
Page 316 This must have been allocated correspondingly in the commissioning ® software of the ABB SmartTouch There are no direct control elements here! Value sending Value sending elements can be used to...
Page 317 Operation Room temperature controller (basic version) Air conditioners can be controlled with the control element for room temperature controllers. Control Status Function RTC control element The current operating mode and the mode of (extension unit) the controller (e.g. heating) are displayed in the control element.
Page 318 Operation Audio control (basic version) All audio settings for connected audio devices can be easily controlled with the aid of this control element. Control Status Function Audio control Corresponding to the default settings in the commissioning software, a variety of audio functions can be called up directly via the buttons.
Page 319 Operation VRV control VRV control elements can be used to make settings for climate control devices. This, for example, allows the setpoint temperature to be adjusted in cooling mode. Control Status Function VRV control element The current operating mode and the mode (e.g.
Page 320: Special Functions
Operation 12.3 Special functions 12.3.1 Editing Different changes can be made to control elements via the "Edit" function. The "Edit" function can only be called up via the main operating page and the operating pages. Moving / deleting control elements: Fig.
Page 321 Operation 4. Tap on the change picture button to upload a different graphic. 5. Select a picture from the available graphics. – The picture is uploaded. 6. If necessary, adjust the picture cutout. Notice This function is available for the "Scene" control element. Product manual 2CKA001473B5343 │321...
Page 322: Adding Control Elements To The Dashboard
Operation 12.3.2 Adding control elements to the dashboard Especially constantly used control elements can be added to the dashboard. In this way favourite control elements can be positioned centrally and made available via the dashboard. Devices can then be switched directly via the dashboard without the corresponding pages or rooms having to be called up.
Page 323: Access To
Operation 12.3.3 Access to pages There is the option of protecting applications or access to pages (e.g. on operating pages) against unauthorized access with a password (PIN code). This is displayed by means of a closed padlock at the top right screen edge of the dashboard. The entry of the PIN code input is opened by tapping on this icon.
Page 324: Operating Actions Of The "Door Communication" Application
Operation 12.4 Operating actions of the "Door communication" application Via the door communication application different functions of the door communication can be used. This also includes: Video Surveillance ■ Video call ■ Audio call ■ Door opener ■ The callup of the "Door communication" application is described in the following. 1.
Page 325 Operation The basic setup of the application is almost identical for all applications. The following graphic provides an overview of the basic functions: Fig. 49: "Door communication" operating actions Pos. Description Designation of door communication function Perform panel settings (brightness, contrast, bell volume) Exit door communication Activate scene Program button...
Page 326: Setting Up Of Video Surveillance
Operation 12.4.1 Setting up of video surveillance All areas in which a surveillance camera is available can be viewed via the control elements for video surveillance. 1. The function is called up by tapping on the control element of the respective surveillance camera.
Page 327: Establishing A Speech And Video Connection
Operation 12.4.2 Establishing a speech and video connection As soon as a visitor presses the bell of a station, this is signalled on the panel as a bell call (Display of the telephone receiver icon in the monitor of the bell call). The device then changes automatically to the "Door communication"...
Page 328: Opening The Door
Operation Accepting calls (establishing speech and video connection) Calls can be accepted with or without video. The acceptance of calls is descibed in the following: 1. The function is called up via the receiver button [4]. The following functions are available while establishing the speech and video connection: Set the volume by tapping the toothed wheel icon (move the controller to the right or left).
Page 329: Activating Mute (Mite Timer)
Operation 12.4.4 Activating mute (mite timer) The call tone of the panel can be switched on and off. This setting has a time limit. 1. The function is called up via the bell button. Fig. 54: Muting For mute activation (mute timer) the following functions are available: No call is pending: "Mute"...
Page 330: Switching Light
Operation 12.4.5 Switching light The lamp of the outdoor station can be switched via the lamp button. 1. The function is called up via the lamp button. 2. Press the lamp button for the following function ("Switch light" button actuated): –...
Page 331: Events And Image Storage / History
Operation 12.4.6 Events and image storage / history The device records all events. When actuating the "History" button the last 100 events are displayed (previous events are overwritten). 1. The function is called up via the history button. Fig. 55: History Function The "Auto snapshots"...
Page 332: Control Actions Of Additional Applications
12.5.1 Presence simulation The absence of the residents in a building can be fairly realistically simulated via the presence simulation, to increase the protection against unauthorized access. For this purpose the ABB SmartTouch ® specifically records all actions for up to 20 objects every minute of the whole day (up to 0 o'clock) and can then replay them again.
Page 333 Operation 1. Tap on the hamburger menu at the top left. 2. Tap on the clock icon at the bottom left of the dashboard. – The time programmes are opened. 3. Switch to the "Presence simulation" section. 4. Tap on the recording button. –...
Page 334: Fault And Alarm Messages
Operation 12.5.2 Fault and alarm messages The panel offers protection and information via the notification center. You can view the call history and information about malfunctions or faults. Message contacts, sensors and their functionality can be monitored. The messages desired in case of a fault or an alarm can be set individually (see chapter “Application "Fault and alarm messages"“...
Page 335 Operation Call history All the latest calls accepted and made are shown in the call history. Also snapshots available in the call history are displayed. Fig. 58: Call history Pos. Description Selected video call (blue frame) Call status (missed, incoming, outgoing, internal, external call) Copying video call from call history Deleting video call from call history Saving call history to SD card...
Page 336 Operation Messages Current and and archived messages can be displayed and edited in the fault and alarm messages. There are different types of messages: Notice ■ Alarm ■ Error ■ Fig. 59: Fault and alarm messages Current fault or alarm messages are marked with a red dot next to the warning icon. 1.
Page 337 Operation Archive All archived messages are located in the archive. The setup of the archive is almost identical to the setup of the message overview. The difference is that archived messages can be copied to an SD card and completely deleted. Exporting messages (notifications) to the micro SD card: Confirmed and archived messages can be exported.
Page 338 Operation Deleting messages (notifications): Notice Only archived messages can be deleted. 1. Select a message. 2. Messages can be deleted by swiping to the left. Deleting archived messages (notifications): 1. Select a message in the archive. 2. The message can be deleted by swiping to the left. 3.
Page 339: Time Programs
Operation 12.5.3 Time programs Time programs can be used to call up functions according to the time automatically. This, for example, allows the holiday function to be started and set up. The time programs application is called up as follows: 1.
Page 340 Operation Creating an individual time program 1. Switch to the individual time programs. – Aside from the corresponding time programs, the conditions under which the time program becomes active are displayed in the time slots area. 2. Tap on the blue circle with the plus icon to create a new time program. 3.
Page 341 Operation 5. Tap on the blue tick at the bottom right to confirm the settings. – The time program is then taken up into the time program list and can be edited there. The available settings depend on the control element that is integrated in the time program.
Page 342 Operation Setup of automatic opening Via the "Automatic opening" function the door is opened automatically during a door call without having to press the door opener manually. Product manual 2CKA001473B5343 │342...
Page 343: Inserting The Micro Sd Card (Sdhc)
Operation 12.6 Inserting the micro SD card (SDHC) Fig. 61: Inserting the micro SD card (SDHC) Notice For the transfer of data to the device via the micro SD card the power supply must be switched on. 12.7 System settings Within the system settings general adjustments appropriate to the device can be made.
Page 344: System Settings - Display
Operation The following areas become available: Pos. Designation Description Display Setting the brightness of the display via the slider. Specifying a screensaver. Sound Specifying the volume for the following sounds: Click sound ■ Warning sound ■ Fault sound ■ Also a selection of sounds for different types of messages can be made.
Page 345 Operation To ensure that no function is triggered unintentionally during cleaning of the device, it can be disabled for a certain time. The cleaning blockage is activated with a press of the "Activate display cleaning mode" button. It is automatically deactivated after 30 seconds. Fig.
Page 346: System Settings - Sound
Operation Setting the screen saver A screen saver can be activated if the display is not used. Here you can select between a clock, slideshow and weather. If a micro SD card (SDHC) with suitable pictures is in the device, select a screen saver via the drop-down menu.
Page 347: System Settings - Network Connections
12.7.3 System settings - Network connections System settings can be used to make adjustments to the network connections. In addition, a ® connection to the ABB-Welcome App and the MyBuildings portal can be established. Fig. 65: Network settings Product manual 2CKA001473B5343...
Page 348 If you are in a country with WLAN limitations (Taiwan, Israel, Japan), you can select this in the list below the available WLAN networks. ® Connecting smartphone with ABB-Welcome For remote access smartphones can be connected with the Welcome app. 1. Tap on the plus icon.
Page 349: System Settings - Time And Date
Operation Establishing a connection to the MyBuildings portal For the remote access a connection must be established to the myBuildings portal. 1. Tap on "Login" in tab MyBuildings. 2. Enter the login data. 3. Confirm with a tap on "Login". –...
Page 350 Operation Fig. 67: Access control Specifying a PIN code 1. Select an area for which a PIN code is to be assigned (e.g. extended settings). 2. Assign a PIN code in the menu in the screen area on the right. 3.
Page 351: System Settings - User Settings
Operation 12.7.6 System settings - User settings The panel language and the function of sensors and door communication can be set within the user settings. The user settings can also be reset. Language The language of the panel and the separators to be used can be specified via the "Language" tab.
Page 352: System Settings - Video Surveillance
New cameras can be added and existing cameras can be managed in the video surveillance area. Also the camera software can be updated. Notice The ABB SmartTouch ® only supports IP cameras of type ONVIF/RTSP. ONVIF is always set automatically.
Page 353 Operation Adding IP camera Fig. 68: – Select the camera protocol for the manually added camera, and enter the RTSP-URL as well as the user name and the password. 3. Then add the camera via "Add". 4. Then name the camera and position it accordingly. If necessary, add a preview image via the "Create preview image"...
Page 354 Operation Deleting IP camera Integrated IP cameras can be deleted via the IP camera tab. The system can be searched automatically for existing cameras. 1. Select a camera in the camera list. 2. Visualise the camera menu by swiping to the left on the menu entry of the affected camera. 3.
Page 355: System Settings - Programming Button
Operation 12.7.8 System settings - Programming button New programming buttons can be added via the "Programming button" menu and the door communication can be managed. Adding new programming button Programmable button functions can be added and managed via the programming button tab. 1.
Page 356: System Settings - Software Update
Operation Building automation ® Here the current physical address of the ABB SmartTouch is displayed. The programming mode for the transmission of the physical address of the ETS can be activated by marking the white checkbox. A PID file with the configuration from the ETS can be read into the "Building automation"...
Page 357: System Settings - Via
Operation Update via SD card 1. Tap on the "Read SD card" button in the "Firmware update" tab. – The system then searches for available updates. If there is a new update on the SD card, this is displayed in the dialogue. 2.
Page 358: Terminal Resistor
Operation Terminal resistor 12.7.12 Fig. 69: Terminal resistor In pure audio installations always set the terminal resistor [1] on "OFF". To do this, use switch 4 "RC". In video installations or mixed audio and video installations set the terminal resistor for the last devices of a branch on "ON".
Page 359: Update
The image file can be transferred to a micro SD card, see Chapter 12.6 “Inserting the micro SD card (SDHC)“ on page 343. This micro SD card can be inserted into the panel and the data are ® transferred to the ABB SmartTouch Notice The micro SD card must be formatted with FAT32 before use.
Page 360: Addressing
"programmed" together. In this case the indoor station of an apartment is assigned to a doorbell button of an outdoor station. This programming process is designated as "Addressing". The process of addressing is generally the same for all devices of the ABB-Welcome ® system.
Page 361: Maintenance
Maintenance Maintenance 15.1 Cleaning Caution! - Risk of damaging the device! When spraying on cleaning agents, these can enter the device through ■ crevices. – Do not spray cleaning agents directly onto the device. Aggressive cleaning agents can damage the surface of the device. ■...
Page 362: Index
Index Index Use of control elements ..........210 Use of door communication ..........210 ABB DCA SmartTouch 10 ETS app Application "Fault and alarm messages" Installation ..............69 Automatic archiving at an acknowledgement ....214 ABB-free@home ® Default setting for signal tone volume [%] .....214 initial commissioning ..........
Page 363 Use of button for mute ..........200 Commissioning Use of ON/OFF button ..........203 Sequence ............... 77 Use of volume button ............202 via ABB DCA SmartTouch 10 ......... 68 Use repeat control ............201 Commissioning via ABB-free@home ® ....47, 48 Control element "Blind"...
Page 364 Index Option "Gas (volume)" - Data point type ....... 195 Status control element (icon/text) .........129 Option "Gas (volume)" — Unit ........195 Control element "RTC control element" Option "Linear measurement display" — Display value in Additional functions/objects...........149 control element ............184 Changing temperature unit via object ......150 Option "Linear measurement display"...
Page 365 Type of control element ..........207 Establishing a speech and video connection ..347 Using trigger object ............207 Control elements ........326, 327 Integrating the ABB SmartTouch into the ETS ....70 ® Adding to the dashboard ..........342 Events and image storage ....... 351 Additional basic principles ..........
Page 366 Index Identification label ........50 Improper use ..........17 Removing functions ........66 Information and symbols used ......16 Requirements for the electrician ......33 Information on protection of the environment ..24 Reset all ........... 119 Initial commissioning of device ....43, 45, 48 Reset layout ..........
Page 367 Index Setpoint settings — Setpoint for heating comfort = Video surveillance ............373 setpoint for cooling comfort ......265 Setpoint settings — Setpoint for heating economy .. 266 Target group ..........18 Setpoint settings — Setpoint for heating standby ... 266 Technical data ..........
Page 368 Busch-Jaeger Elektro GmbH A member of the ABB Group Freisenbergstraße 2 58513 Lüdenscheid https://new.abb.com/en info.bje@de.abb.com Central sales service: Tel.: +49 2351 956-1600 Fax: +49 2351 956-1700 Copyright © 2022 Busch-Jaeger Elektro GmbH All rights reserved...

This manual is also suitable for:

Smarttouch w/graphite Smarttouch b/graphite Smarttouch w/satin gold Smarttouch b/satin gold Smarttouch w/rose gold Smarttouch b/rose gold ... Show all

ABB SmartTouch B/stainless Product Manual

Quick Links

Related Manuals for ABB SmartTouch B/stainless

Summary of Contents for ABB SmartTouch B/stainless