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Description of application and parameters

Application "RTC"

 

 

 

 

 

 

Product manual 2CKA001473B9679 

│150

 

11.4.9  Summer compensation - (Upper) Exit temperature for summer compensation (x 0.1°C) 

 

Options: 

Setting option between -127 - 127 

The parameter defines the upper outside temperature value up to which temperature value the 
setpoint correction (summer compensation) is performed based on too high an outside 
temperature. 

 

 

Notice 

This parameter is only available if the "Summer compensation" parameter is set 
to "Yes". 

 

11.4.10  Summer compensation — Offset of the set-point temperature for the exit from summer 

compensation (x 0.1°C) 

 

Options: 

Setting option between -127 - 127 

The parameter is used to define how many degrees Kelvin the setpoint value will be increased 
by during summer compensation when the upper temperature value is reached. 

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. 

 

 

Note 

This parameter is only available if the "Summer compensation" parameter is set 
to "Yes". 

 

 

 

Summary of Contents for ClimaECO SB/Ux.0.1 Series

Page 1: ...S Ux 0 1x xx Room temperature controller with xgang operating function SBR Ux 0 1x xx Room temperature controller with xgang operating function SBC Ux 0 1x xx Room temperature controller with CO2 moisture sensor and 6gang operating function SB Ux 0 1x xx Control element xgang ...

Page 2: ...of supply 30 5 Technical data 31 5 1 Technical data 31 5 2 Dimensional drawings 32 5 3 Factory settings 32 6 Connection installation mounting 33 6 1 Requirements for the electrician 33 6 2 Installation site 34 6 3 Mounting dismantling 36 6 4 Electrical connection 37 6 5 Mounting 38 6 5 1 Flush mounted installation 38 6 5 1 1 Removal protection optional 38 6 5 1 2 Mounting installation in flush mou...

Page 3: ...over time 64 11 1 1 5 Use object for switchover time 65 11 1 1 6 Overwrite switchover time at download 66 11 1 1 7 Brightness of the LED during blockage 67 11 1 1 8 LED colour in a blocked state 68 11 1 2 LED Additional function Application 68 11 1 2 1 Day Night mode 69 11 1 2 2 Alarm function 70 11 1 2 3 LED brightness during alarm 71 11 1 2 4 LED colour during alarm 72 11 1 3 During operation fu...

Page 4: ...age heating Hysteresis x 0 1 C 97 11 4 17 Basic stage heating Control value difference for sending of heating control value 97 11 4 18 Basic stage heating Cyclic sending of the control value 97 11 4 19 Basic stage heating PWM cycle heating min 98 11 4 20 Basic stage heating Maximum control value 0 255 98 11 4 21 Basic stage heating Minimum control value for basic load 0 to 255 98 11 4 22 Control o...

Page 5: ...value 0 255 115 11 4 63 Additional cooling stage Minimum control value for basic load 0 255 115 11 4 64 Settings of basic load 116 11 4 65 Settings of basic load Minimum control value for basic load 0 116 11 4 66 Basic load settings Basic load active when controller is off 116 11 4 67 Combined heating and cooling modes 117 11 4 68 Combined heating and cooling modes Switchover of heating cooling 11...

Page 6: ...rature reading 132 11 4 16 Temperature reading Operating mode for fault 133 11 4 17 Temperature reading Control value for fault 0 255 133 11 4 18 Alarm functions 134 11 4 19 Alarm functions Condensate water alarm 134 11 4 20 Alarm functions Dew point alarm 134 11 4 21 Alarm functions Frost alarm temperature for HVAC and RHCC status C 135 11 4 22 Alarm functions Heat alarm temperature for RHCC stat...

Page 7: ...mmer compensation Upper Exit temperature for summer compensation x 0 1 C 150 11 4 10 Summer compensation Offset of the set point temperature for the exit from summer compensation x 0 1 C 150 11 5 Application CO2 sensor 151 11 5 1 CO2 sensor CO2 sensor 151 11 5 2 CO2 sensor Height of mounting location above normal height zero 151 11 5 3 CO2 sensor Measured value correction 151 11 5 4 CO2 sensor CO2...

Page 8: ... sensor 176 11 6 2 Relative humidity Correction of measured value 176 11 6 3 Relative humidity Moisture sensor error 176 11 6 4 Relative humidity Send relative humidity at change 177 11 6 5 Relative humidity Send relative humidity cyclic 178 11 6 6 Relative humidity External measured value 178 11 6 7 Relative humidity Component 179 11 6 8 Relative humidity controller Controller type 179 11 6 9 Rel...

Page 9: ...moving the blockage 200 11 6 52 Behaviour at setting the blockage 200 11 6 53 PI controller Value at blockage 200 11 6 54 Dew point temperature Dew point sensor 201 11 6 55 Dew point Dew point temperature 201 11 6 56 Dew point Cyclically send dew point temperature 202 11 6 57 Dew point alarm Dew point alarm 203 11 6 58 Dew point alarm Dew point alarm advance 203 11 6 59 Dew point alarm Dew point a...

Page 10: ...226 11 7 7 1 Duration of long operation 227 11 7 7 2 Cycle time of the telegram repetition 227 11 7 7 3 Object type 228 11 7 7 4 Function switchover blinds roller blinds 228 11 7 7 5 Value for position down 229 11 7 7 6 Value for position up 229 11 7 7 7 Value for slats position down 230 11 7 7 8 Value for slats position down 230 11 7 8 Application 2 button value transmitter 231 11 7 8 1 Object ty...

Page 11: ...on 262 11 7 16 1 Object type 263 11 7 16 2 Reaction on short operation 264 11 7 16 3 Reaction on long operation 265 11 7 16 4 Duration of long operation 265 11 7 16 5 Value 1 value 2 for short operation 266 11 7 16 6 Value 1 value 2 for long operation 267 11 7 17 Application 1 button operating mode Adjust RTC 268 11 7 17 1 Object type for output 269 11 7 17 2 Operating mode 270 11 7 17 3 Enable ob...

Page 12: ...object 297 11 9 2 5 Object value enable object 297 11 9 2 6 Enable object after return of voltage 298 11 9 2 7 Cyclic sending 298 11 9 2 8 Value for cyclic sending 299 11 9 3 Application Priority 300 11 9 3 1 Channel name 300 11 9 4 Application Logic gate 301 11 9 4 1 Channel name 301 11 9 4 2 Logical function 302 11 9 4 3 Number of input objects 302 11 9 4 4 Object type input x 302 11 9 4 5 Initi...

Page 13: ...r 323 11 9 8 1 Channel name 323 11 9 8 2 Object type 324 11 9 8 3 Number of input objects 324 11 9 8 4 Output sends 325 11 9 8 5 Output object 325 11 9 9 Application Light scene actuator 326 11 9 9 1 Channel name 326 11 9 9 2 Number of scenes 326 11 9 9 3 Number of actuator groups 327 11 9 9 4 Duration of telegram delay 327 11 9 9 5 Overwrite scenes at download 327 11 9 9 6 Object type actuator gr...

Page 14: ...eating 345 12 1 34 RTC Fan speed level heating 345 12 1 35 RTC Fan speed level status heating 346 12 1 36 RTC Fan speed level 1 5 heating 346 12 1 37 RTC Basic setpoint 346 12 1 38 RTC Resetting manual setpoints 346 12 1 39 RTC Dew point alarm 347 12 1 40 RTC Condensate water alarm 347 12 1 41 RTC Outside temperature for summer compensation 347 12 1 42 RTC Summer compensation active 348 12 1 43 RT...

Page 15: ...point 361 12 1 91 RH Block output 361 12 1 92 1 button dimming Switching 362 12 1 93 1 button dimming Relative dimming 362 12 1 94 1 button blind Moving Position 362 12 1 95 2 button blind Adjustment slats position stop 363 12 1 96 1 button short long operation Reaction at short operation 363 12 1 97 1 button short long operation Reaction at long operation 363 12 1 98 1 button value transmitter Sw...

Page 16: ...4 12 1 123 Priority Switching input 374 12 1 124 Priority Input priority 374 12 1 125 Priority Output 374 12 1 126 Logic gate Output 375 12 1 127 Logic gate Input 375 12 1 128 Gate Input 376 12 1 129 Gate Output 377 12 1 130 Staircase lighting Input 377 12 1 131 Staircase lighting Switch off delay 378 12 1 132 Staircase lighting Switch off pre warning time 378 12 1 133 Staircase lighting Output 37...

Page 17: ...and damage to property and ensure both reliable operation and a long service life for the device Please keep this manual in a safe place 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 ...

Page 18: ...g symbol in connection with the signal word Danger indicates an imminently threatening danger which leads to death or serious irreversible injuries Warning Serious damage to health The respective warning symbol in connection with the signal word Warning indicates a threatening danger which can lead to death or serious irreversible injuries Caution Damage to health The respective warning symbol in ...

Page 19: ...e of applications is listed in Chapter 11 Description of application and parameters on page 63 in languages of the countries DE EN ES FR IT NL PL and RU 2 3 Improper use Each use not listed in Chapter 2 2 Intended use on page 19 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...

Page 20: ... The electrical installer must have read and understood the manual and follow the instructions provided The electrical installer must adhere to the valid national regulations in his her country governing the installation functional test repair and maintenance of electrical products The electrical installer must be familiar with and correctly apply the five safety rules DIN VDE 0105 EN 50110 1 Disc...

Page 21: ... its accessories Keep the device away from water and wet surroundings Danger Electric voltage Install the device only if you have the necessary electrical engineering knowledge and experience Incorrect installation endangers your life and that of the user of the electrical system Incorrect installation can cause serious damage to property e g due to fire The minimum necessary expert knowledge and ...

Page 22: ...al 2CKA001473B9679 22 Caution Risk of damaging the device due to external factors Moisture and contamination can damage the device Protect the device against humidity dirt and damage during transport storage and operation ...

Page 23: ...se of the device at the appropriate collecting depot All packaging materials and devices bear the markings and test seals for proper disposal Always dispose of the packaging material and electric devices and their components via the authorized collecting depots and disposal companies The products meet the legal requirements in particular the laws governing electronic and electrical devices and the...

Page 24: ...akes possible the connection to the KNX bus line The device can for example send switching dimming or blind control commands to KNX actuators The device can also be used for storing and sending of light scenes Depending on the model the device has an internal temperature sensor CO2 sensor moisture meter for measuring the values in the room The measured value is made available to the KNX bus via co...

Page 25: ...display with without CO2 and moisture sensor 6gang with display with without CO2 and moisture sensor Control element 12gang Control element 8gang Auto C C Auto C C Fig 1 Models of control elements examples Room temperature controller 10gang with display Room temperature controller 6gang with display Control element 12gang Control element 8gang ...

Page 26: ...2gang RTC with control element 10gang firmly installed unit with without CO2 and humidity sensor 3 Control element 8gang RTC with control element 6gang firmly installed unit with without CO2 and humidity sensor 1 3 4 2 5 Abb 3 Overview of function elements 1 Control buttons 2 Cover labelling field 3 Programming button 4 End strip 5 Display ...

Page 27: ...ing protection Local operation is blocked Dew point alarm Standby mode ECO mode B 18 5 C Actual temperature C 52 rf 965 ppm Relative humidity CO2 D Auto 01 05 Fan status fan speed level fan speed E 21 5 C Temperature setpoint F Heating or cooling status Table 1 Display icons Removal protection optional 2 1 Fig 5 Removal protection 1 Clamps of removal protection 1 2 Removal tool 2 ...

Page 28: ...nt is available in models 6 8 10 and 12gang Various functions can be implemented via the ETS commissioning software The functions depend on the parameters selected via the respective software application 1 2 3 Fig 6 Models of control elements examples 1 Buttons 2 Programming button 3 Display ...

Page 29: ...switched manually or in automatic mode only for devices with display and integrated room temperature controller Contribution to room heating energy efficiency 1 0 Room temperature controller Push button function switching dimming blind value transmission light scenes fan function With actual value temperature display only for devices with display With SET value temperature display only for devices...

Page 30: ...d in the scope of delivery are Support ring ABB version 2 support rings 2 screws Flush mounted insert with control element firmly installed unit Notice ABB version The scope of delivery also includes two M4 screws which serve for fixing the Chinese support ring Notice Surface mounted housings frames are not included in the scope of delivery and must be purchased separately Removal protection and r...

Page 31: ...ction Bus connection terminal 0 4 0 8 mm Cable type J Y St Y 2 x 2 x 0 8 mm Wire stripping 6 7 mm Power consumption Devices without CO2 Devices with CO2 24V 12 mA FanIn1 24V 24 mA FanIn2 Parameter setting Parameters are set using the ETS Tool Software Ambient temperature 5 C 45 C Storage temperature 20 C 70 C Measuring ranges Carbon dioxide Relative humidity Temperature 390 ppm to 10000 ppm 0 100 ...

Page 32: ...Technical data Product manual 2CKA001473B9679 32 5 2 Dimensional drawings 13 5 30 7 90 1 167 1 90 1 90 1 167 1 117 1 117 1 90 1 Fig 8 Dimensions all dimensions are in mm 5 3 Factory settings ...

Page 33: ...at of the users of the electrical system Incorrect installation can cause serious damage to property e g due to fire The minimum necessary expert knowledge and requirements for the installation are as follows Apply the five safety rules DIN VDE 0105 EN 50110 1 Disconnect 2 Secure against being re connected 3 Ensure there is no voltage 4 Connect to earth and short circuit 5 Cover or barricade adjac...

Page 34: ...d 50 cm from a door frame Fig 9 Installation site Distance The device should be installed on a wall opposite a radiator Fig 10 Installation site Position of radiator The angles of the room architecture should not separate a radiator and the device from each other Fig 11 Installation site Room architecture Installing a device close to a radiator or behind curtains is not practical Fig 12 Installati...

Page 35: ...ve an effect on temperature regulation Fig 13 Installation site Exterior wall Wetting the room temperature controller with fluids is to be avoided Fig 14 Installation site Wetting with fluids Just as heat radiated from electric loads can impair the temperature regulation so can direct sunlight on the device Fig 15 Installation site Direct sunlight ...

Page 36: ...e Risk of malfunction due to construction dust On devices with CO2 sensor the installation area must be carefully cleaned from construction dust and other contamination before installing the sensor to guarantee faultless function Attention Risk of damaging the device Risk of malfunction To guarantee faultless function The installation must not block the ventilation slots An adequate distance to he...

Page 37: ...nnection installation mounting Product manual 2CKA001473B9679 37 6 4 Electrical connection Bus 24 V DC Carry out the electrical connection according to the circuit diagram Fig 16 Connection of bus coupler ...

Page 38: ... Dismantling with the removal protection tool on page 42 is then only possible with the removal tool The removal protection is not a component part of the device and is to be ordered separately Carry out the following step for the optimum installation of the removal protection 1 Option 1 Installing the removal protection 1 Push the removal protection into position by hand Fig 17 Installation of th...

Page 39: ... installation in flush mounted installation box To install the device perform the following steps 1 Installing the support ring Fig 18 Installation of the support ring Notice ABB version The scope of delivery also includes two M4 screws which serve for fixing the Chinese support ring ...

Page 40: ...anual 2CKA001473B9679 40 1 2 Pull the bus line out of the flush mounted box and connect the line to the bus connection terminal 1 see chapter Electrical connection on page 37 Check that the polarity is correct Fig 19 Connection of the bus line ...

Page 41: ... on page 49 Programming is carried out via the programming button 2 on the front of the device Pull off the bottom end strip 1 Press the programming button 2 All LEDs light up red as long as the device is in programming mode On devices with display Prog appears additionally in the display in red Reinsert the end strip 1 after programming has been completed The device is now mounted Fig 21 Programm...

Page 42: ... protection see chapter Removal protection optional on page 38 dismantling is then only possible with the removal tool If installed carry out the following step to dismantle the removal protection 1 1 Dismantling the device with the removal protection tool 1 Guide the removal protection tool down behind the the device Remove the device Fig 22 Dismantling the removal tool ...

Page 43: ...atory work For the installation on a surface mounted frame the fastening screw must be made accessible on the operating section on the front of the device Pull off the bottom end strip Remove the cover of the labelling field For additional information please see chapter Labelling inlay Unscrew the flush mounted insert of the device 3 2 1 Fig 23 Preparing the operating section 1 Pull off the KNX te...

Page 44: ...ide of surface mounted frame For an alternative cable guide via the top or bottom side of the frame a 6 mm borehole can be provided Notice A centring mark is available on the top and bottom side of the frame for an alternative cable guide 6 Ø mm Fig 24 Alternative bus cable guide ...

Page 45: ... of faulty measurements Install devices with CO2 sensors only in wind proof flush mounted boxes to prevent faulty measurements A 3 4 1 2 Fig 25 Installing the surface mounted frame 4 Guide the bus cable 1 through the opening provided from back Notice Alternatively the bus cable can be routed through a borehole on the top or bottom side of the frame 5 Fix the surface mounted frame 2 to the wall wit...

Page 46: ... 46 Notice The mark 4 on the surface mounted frame Top must always point upwards Do not use countersunk head screws for mounting the surface mounted frame A A flush mounted box must not project from the wall otherwise the device cannot be mounted flush on the wall ...

Page 47: ... with the bus terminal 3 and plug it onto the control element 4 7 Hang the control element 4 into the surface mounted frame 1 from the top Both openings for hanging must be placed onto the two hooks A 8 Screw the control element 4 with the enclosed screw 7 Torx 10 onto the surface mounted frame 1 9 Insert the labelling inlay 6 10 Position and snap in the end strip 5 ...

Page 48: ...e following steps to change the labelling inlay B A C D W a hjjkg o Te mlatige S c hla zo n K u a srten s Wa h jjkg o Te m latige Sch la zo n W a h jjkg o Te mlatige W ah jjkgo Te mla t ige S c hla zon K ua sr te n s W a hjjkg o Te m la tige Te mla tige S chla zo n K ua sr ten s 1 3 2 3 1 1 2 3 2 1 2 2 1 2 2 Fig 27 Labelling inlay ...

Page 49: ... by means of KNX training sessions for a better understanding is assumed 7 1 1 Preparation 1 Connect a PC to the KNX bus line via the KNX interface e g via the commissioning interface commissioning adapter 6149 21 500 The Engineering Tool Software must be installed on the PC native application from ETS 4 0 2 Switch on the bus voltage 7 1 2 Assigning a physical address 2 1 1 Remove the end strip 1 ...

Page 50: ...plication program Please contact our Internet support unit www BUSCH JAEGER com The application is loaded into the device via the ETS 7 1 5 Differentiating the application program Various functions can be implemented via the ETS Detailed description of parameters see chapter Description of application and parameters on page 63 only in languages DE EN ES FR IT and NL ...

Page 51: ...ons A firmware update is carried out via the KNX bus by means of the ETS app KNX Bus Update NOTE The description of the update process can be downloaded via the electronic catalogue www busch jaeger catalogue com It is stored on the device page under category Software ...

Page 52: ...buttons of your device may therefore be different from the examples listed here The type of operation however is carried out in the same way Operation is carried out by pressing the individual push buttons The function is specified via the assigned application function and their parameter settings Extensive functions are available for the touch contacts For the full range of applications see see c...

Page 53: ...oller functions is implemented via one of the available rockers For this the corresponding function is to be selected via the ETS application The room temperature controller is operated via push buttons 1 6 beneath the display The functions can vary depending on the application The following illustration shows the complete structure Auto C C ECO 1 2 3 6 5 4 Fig 29 Example of control elements 1 Set...

Page 54: ...by an LED colour concept Colour Meaning Yellow Lights Blue Blind control Orange Room temperature control Magenta Light scenes White Neutral no assignment of functions Red green Standard illumination Table 4 LED colour concept Notice The operating buttons serve as status and function illumination ...

Page 55: ...heat protection The heating valves close If the room temperature drops below 7 C the heating is switched on again to prevent damage to the building Heating cooling switchover Application The device is suitable for both heating and cooling mode The switchover of the two operating modes takes place either via a binary input which has been configured as heating cooling reverser or via a press of the ...

Page 56: ...erature is not lowered any further Frost protection mode The temperature is kept above a minimum value OFF OFF The control is deactivated The device operates in frost protection mode ECO mode The heating cooling output is extremely lowered Heating cooling switchover Manual switchover 1 3 Fan speed levels 1 3 5 Manual ventilation control Automatic fan speed levels Automatic ventilation control Disp...

Page 57: ...ng illustration shows an example of a configuration The function can be individually parameterized on one of the buttons Au to C C ECO 5 1 Switch the device on or off with a press of the push button 5 The device switches to the setpoint display when switched on The device switches into frost heat protection mode when switched off Fig 31 Switching On and Off ...

Page 58: ...hows an example of a configuration The function can be individually parameterized on one of the button pairs Auto C C ECO 6 1 The setpoint temperature is adjusted with the buttons 1 and 6 The current setpoint temperature is shown in the display Press button 1 to increase the setpoint temperature Press button 6 to reduce the setpoint temperature The new setpoint temperature is displayed Fig 32 Sett...

Page 59: ... the manual fan setting The set fan speed level is adopted when a timeout happens after nothing has been pressed for a certain period of time or if button 4 is pressed again The manually set fan speed level is shown in the setpoint on the display at the bottom right The fan speed level that is set is stored automatically Fig 34 Fan speed levels function If AUTO is selected the device control syste...

Page 60: ...ce The following illustration shows an example of a configuration The function can be individually parameterized on one of the buttons Au to C C ECO 2 Activating ECO mode 1 Press button 2 The device switches to ECO mode Deactivating ECO mode 2 Press button 2 again The device switches back to standard operation Fig 36 ECO mode button Notice The function of ECO mode is parameterized via the ETS The ...

Page 61: ...rating status Fig 37 Operation cooling heating 2 Press the button 1 or 6 to adjust the operating status The selected operating mode is adopted when a timeout happens after nothing has been pressed for a certain period of time or if button 3 is pressed again The set operating status appears on the display to the left of the setpoint When the Heating and or Cooling control function is activated the ...

Page 62: ...nts 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 Never use caustic agents abrasive agents or solvents Clean dirty devices with a soft dry cloth If this is insufficient the cloth can be moistened slightly with a soap solution ...

Page 63: ...legram The following communication objects are available EF enable EF automatic switchover time The communication objects are enabled via the associated parameters Note The following parameters can only be adjusted when the function Device enable is set on Enable application The parameters for application Device enable can be called up via general parameters 11 1 1 1 Enable with Options On telegra...

Page 64: ... device Automatic enable Function Automatic enable is active Automatic blockage Function Automatic blockage ia active The parameter can be used to automatically enable or automatically block the device 11 1 1 4 Automatic switchover time Options Setting option from 00 00 10 to 18 00 00 hh mm ss The switching on or switchover always occurs immediately the user has approached the device The switching...

Page 65: ...The communication object is not enabled Yes The communication object is enabled A 2 byte communication object EF automatic switchover time can be enabled with this parameter The time can then be adjusted via the KNX bus Notice This parameter can only be adjusted when the Use of automatic enable blockage parameter is set on Automatic enable or Automatic blockage ...

Page 66: ...of the application Yes The switchover time is overwritten during a download of the application The parameter can be used to specify whether the data changed via communication object EF automatic switchover time are to be overwritten during the download or the times should be retained Notice This parameter can only be adjusted when the Use of automatic enable blockage parameter is set on Automatic ...

Page 67: ...11 1 1 7 Brightness of the LED during blockage Options Off Dark Bright Off The LED does not light up at blockage Dark The LED lights up dark at blockage Bright The LED lights up bright at blockage The parameter is used to specify whether or in which brightness the LED lights up when the device is blocked ...

Page 68: ...up in when the device is blocked Note The parameter is only adjustable if the Brightness of LED during blockage parameter is set on dark or bright 11 1 2 LED Additional function Application Options Inactive LED additional function Inactive Application is not active LED additional function Application is active Notice The following parameters can only be adjusted when the function Device enable is ...

Page 69: ...hes a lamp group The LED of the button is set on Status illumination and a colour is set If the object LED day night mode is now connected with the status response object of the switching actuator via a group address or action and the light is switched on the LED lights up bright If the light is switched off the LED lights up dark Notice The parameter is available via the following settings Parame...

Page 70: ...he LED will no longer flash The LED always flashes in the same colour and brightness that was specified via parameter LED brightness during alarm and LED colour during alarm The alarm function could be used to display a wind alarm to the user for example so that the user knows that no blind operation is possible at that time An additional application would be the signalling of an open door when th...

Page 71: ...679 71 11 1 2 3 LED brightness during alarm Options Dark Bright Dark The LED lights up dark Bright The LED lights up bright The parameter is used to specify the brightness the LED lights up in during an alarm Notice This parameter can only be set if the Alarm function parameter is set on activated ...

Page 72: ...e Application is not active Object during operation Application is active The application makes monitoring of the device possible A 1 bit telegram for further evaluation is made cyclically available to the KNX bus via communication object HB in operation This for example allows monitoring of the device on a visualization When the device is removed it does not send a cyclic telegram and a fault mes...

Page 73: ...ptions Off telegram On telegram Off telegram Object during operation sends an Off telegram ON telegram Object during operation sends an On telegram The parameter is used to specify whether an Off or an On telegram is sent cyclic on the KNX bus via communication object HB In operation during the parameterized time 11 1 4 Display settings General 11 1 4 1 Display actual temperature value Options No ...

Page 74: ...o select whether the actual temperature is measured directly on the device or fed to the device via communication object DS Temperature value via the bus Notice The parameter is only adjustable if the Display actual temperature parameter is set on Yes 11 1 4 3 Temperature unit Options Celsius Fahrenheit Celsius Temperature unit Celsius C Fahrenheit Temperature unit Fahrenheit F The parameter is us...

Page 75: ...it adjustment is transmitted via an object Notice The parameter is only adjustable if the Display actual temperature parameter is set on Yes 11 1 4 5 Display CO2 value Options No Yes No No display of the CO2 value Yes Display of the CO2 value The parameter is used to select whether the CO2 value is shown on the display Notice With devices without CO2 module the CO2 value is sent automatically to t...

Page 76: ...set on Yes With devices without CO2 module it is specified that the CO2 value is sent automatically to the device via a communication object The above selection is cancelled 11 1 4 7 Communication object data type Options 2 byte value DPT 9 007 1 byte value DPT 5 001 2 byte value DPT 9 007 For EIS 5 9 007 when the display of the value for relative humidity takes place via the communication object ...

Page 77: ...e above Options Internal measurement Communication object Internal measurement The relative humidity value is measured on the device Communication object The relative humidity value is fed via the bus The parameter can be used to select whether the relative humidity value is measured directly on the device or fed to the device via a communication object via the bus Notice The parameter can only be...

Page 78: ...ighting day When a telegram with value 0 is received the display lights up white according to the setting of parameter Display backlighting night For RTC operation The display backlighting lights up white as soon as the RTC is operated After non actuation of the control element the backlighting of the display goes out again after a waiting period of approx 5 seconds Via communication object day ni...

Page 79: ...t up 50 If a telegram with value 1 is received via the object DS Display day night the display lights up 50 white 100 If a telegram with value 1 is received via the object DS Display day night the display lights up 100 white Notice The parameter is adjustable only when parameter Display backlighting white is set on via communication object day night or via communication object day night and RTC op...

Page 80: ...munication object day night and RTC operation 11 1 4 16 Display backlighting red Options No CO2 value Humidity value CO2 and humidity value Via communication object No The device displays white only CO2 value When exceeding the set CO2 value the device changes into red display backlighting if parameterized Humidity value When exceeding the highest set step of the humidity value the device changes ...

Page 81: ...is the first function of the device that is carried out when the user presses button 1 or 2 The primary function should be a function that the user would use when entering the room for example e g switching the ceiling light When the application is active a switching telegram is sent when the button is pressed or released The following communication object is available PF switching Note The follow...

Page 82: ...0 255 The value is sent as 1 byte value without a sign Any value 0 255 Light scene number 1 64 Value is sent as scene number or scene control 1 64 RTC operating mode switchover 1 byte Value is sent as 1 byte value for the RTC operating mode switchover e g auto comfort ECO when the room temperature controller has been linked The 1 button value switching application makes communication object PF swi...

Page 83: ...at the press of the button Application 1 button value switching can differentiate between the press and the releasing of the button A press is defined as Rising edge and the releasing as Falling edge The parameter is used to specify whether a telegram with value 1 or value 2 is sent on the bus at a rising edge via communication object PF switching A further option can be specified as to whether th...

Page 84: ...ue 1 or value 2 is sent on the bus at a falling edge via communication object PF switching A further option can be specified as to whether the telegrams are sent alternately This means that after value 1 has been sent value 2 is sent at a renewed release of the button After it is released again value 1 is again sent out Note Parameter Value 1 and Value 2 is used to specify the values that are to b...

Page 85: ...n from 0 to 100 Options for selection 1 byte 0 255 Options Setting option from 0 to 255 Options for selection Light scene number 1 64 Options Setting option from 1 to 64 Options for selection RTC operating mode switchover 1 byte Options Auto Comfort Standby ECO Frost heat protection The parameter is used to set value 1 that is sent at a press of the button Note Parameter can only be set if the Rea...

Page 86: ...om 0 to 100 Options for selection 1 byte 0 255 Options Setting option from 0 to 255 Options for selection Light scene number 1 64 Options Setting option from 1 to 64 Options for selection RTC operating mode switchover 1 byte Options Auto Comfort Standby ECO Frost heat protection The parameter is used to set value 2 that is sent at a press of the button Note Parameter can only be set if the Reactio...

Page 87: ...setpoint values Master device At least two room temperature controllers Master Slave are located within one room temperature control One device must be set up as a master device while the others must be programmed as slave devices The master device must be linked to the associated slave devices using the appropriately labelled communication objects Only the master device regulates the temperature ...

Page 88: ...oom control The temperature is regulated to the setpoint value defined in the parameter The Controller type and Cooling type can be programmed for optimizing the control Cooling with additional stage In addition to the control function described under cooling the additional stage makes available a control circuit with parallel identification for the activation of an additional cooling circuit An i...

Page 89: ...ary absence to save energy costs Eco mode If the room is controlled automatically or manually as a function of its use The setpoint is further lowered e g during extended absence weekend to save energy costs Frost heat protection If only the building protection function is necessary in the room after a reset The setpoint is lowered raised to a low high value which means that heating and cooling on...

Page 90: ...cation RTC Product manual 2CKA001473B9679 90 11 4 4 General Additional functions objects Options No Yes This parameter enables the additional function Delay time for reading telegrams after reset and communication objects Current HVAC operating mode ...

Page 91: ...General Delay time for read telegrams after reset Options Setting option from 1 to 255 The parameter is used to set the delay time in seconds with which the received telegrams are transmitted after a reset Notice This parameter can only be set when parameter Additional functions objects is set on Yes ...

Page 92: ...Notice The operating function is only available if the Device function is set on Slave device RTC operating mode Current HVAC operating mode Error Building protection Comfort override operating mode Comfort Standby override operating mode Standby Economy override operating mode Economy Building protection override operating mode Building protection Condensate water alarm Building protection Dew po...

Page 93: ...100 This is another two point control as described above In this case however the switch on and switch off commands are transmitted as 1 byte values 0 or 100 PI continuous 0 100 The continuous control has a continuously changing control value as output which results from the difference between setpoint value and actual value This change can take on values between 0 and 100 It sends the control val...

Page 94: ...eter is only available when Control value type parameter is set either on PI continuous 0 100 PI PWM On Off or Fan coil 11 4 10 Heating control P component x 0 1 C Options Setting option from 10 to 100 The P component refers to the proportional range of a control It fluctuates around the setpoint value and can be used to influence control speed of a PI controller The smaller the setpoint the faste...

Page 95: ...adjust time If the I component Readjust time selected too small fast the system tends to overshoot at the start If the I component Readjust time is selected too large the system responds constantly too slow Notice 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 In addition the Heating type parameter must be set on Fr...

Page 96: ... object as soon as the RTC is in active heating mode If the controller is in cooling mode or in the inactive zone between heating and cooling the RTC sends an OFF telegram via the RTC Heating status object 11 4 15 Basic stage heating Mode of the control value Options Normal Inverse Normal The mode of the control value can be used to adapt the control value to de energised opened normal valves Norm...

Page 97: ...eating control value Options 2 5 10 Send cyclic only The control values of the 0 100 PI continuous controller are not transmitted after every new calculation Instead they are transmitted when the calculation results in a value that is different enough to the previous sent value This value difference can be entered here Notice This parameter is only available when Control value type parameter is se...

Page 98: ...ot be exceeded even if the controller calculates a higher control value Notice 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 11 4 21 Basic stage heating Minimum control value for basic load 0 to 255 Options Setting option from 0 to 255 The minimum control value of the PI controller defines the minimum value issued ...

Page 99: ... is exceeded The switch on and switch off commands are transmitted as 1 bit commands 2 Point 1 Byte 0 100 This is another two point control as described above In this case however the switch on and switch off commands are transmitted as 1 byte values 0 100 PI continuous 0 100 The PI controller adjusts its output value between 0 and 100 to match the difference between the actual value and the setpo...

Page 100: ...lable when Control value type parameter for the additional stage is set either on PI continuous 0 100 PI PWM On Off or Fan coil 11 4 25 Control of additional heating stage P component x 0 1 C Options Setting option between 10 100 The P component refers to the proportional range of a control It fluctuates around the setpoint value and can be used to influence control speed of a controller The small...

Page 101: ...ailable when Control value type parameter for the additional stage is set either on PI continuous 0 100 PI PWM On Off or Fan coil The Additional heating type parameter must be set on Free configuration 11 4 27 Control of additional heating stage Temperature difference to basic stage x 0 1 C Options Setting option between 0 255 The setpoint temperature of the additional stage is defined as a functi...

Page 102: ...ion 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 Note This parameter is only available when the Control value type parameter is set either on 2 point 1 Bit Off On or 2 point 1 Byte 0 100 11 4 32 Additional heating stage Control value difference for sending of heatin...

Page 103: ...ameter is only available when Control value type parameter is set either on PI continuous 0 100 PI PWM On Off or Fan coil 11 4 35 Additional heating stage Minimum control value for basic load 0 255 Options Setting option between 0 255 The minimum control value of the PI controller defines the minimum value output by the controller If a minimum value greater than zero is chosen the controller will ...

Page 104: ...xceeded The switch on and switch off commands are transmitted as 1 bit commands 2 Point 1 Byte 0 100 This is another two point control as described above In this case however the switch on and switch off commands are transmitted as 1 byte values 0 100 PI continuous 0 100 The PI controller adjusts its output value between 0 and 100 to match the difference between the actual value and the setpoint v...

Page 105: ... value type parameter is set either on PI continuous 0 100 PI PWM On Off or Fan coil 11 4 39 Cooling control P component x 0 1 C Options Setting option between 10 100 The P component refers to the proportional band of a control It fluctuates around the setpoint value and can be used to influence control speed with a PI controller The smaller the setpoint the faster it reacts to the control However...

Page 106: ...the setpoint value Depending on the type of system used the reset time has to have different values In general the more inactive the overall system the greater the reset time 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 In addition the Cooling type parameter must be set on Free configuration 11 4 41 Cooling c...

Page 107: ...to de energised opened normal or de energised closed inverse valves Normal Value 0 means Valve closed Inverse Value 0 means Valve open 11 4 45 Basic stage heating Control value difference for sending of heating control value Options 2 5 10 Send cyclic only The control values of the 0 100 PI continuous controller are not transmitted after every calculation Instead they are transmitted when the calc...

Page 108: ...l value Options 2 5 10 Send cyclic only The control values of the 0 100 PI continuous controller are not transmitted after every calculation Instead they are transmitted when the calculation results in a value that is different enough to the previous sent value to make a transmission meaningful This value difference can be entered here Note This parameter is only available when Control value type ...

Page 109: ...es are converted into a pulse interval signal This means that a selected PWM cycle will be divided into an on phase and an off phase based on the control value Accordingly a control value output of 33 in a PWM cycle of 15 min results in an On phase of five minutes and an Off phase of 10 min The time for a PWM cycle can be specified here NOTE This parameter is only available when the Control value ...

Page 110: ...oad 0 to 255 Options Setting option between 0 255 The minimum control value of the PI controller defines the minimum value output by the controller If a minimum value greater than zero is chosen the controller will not output a lower 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 t...

Page 111: ...switch off commands are transmitted as 1 bit commands 2 Point 1 Byte 0 100 This is another two point control as described above In this case however the switch on and switch off commands are transmitted as 1 byte values 0 100 PI continuous 0 100 The PI controller adjusts its output value between 0 and 100 to match the difference between the actual value and the setpoint value and enables a precise...

Page 112: ... value type parameter is set either on PI continuous 0 100 PI PWM On Off or Fan coil 11 4 53 Control of additional cooling stage P component x 0 1 C Options Setting option between 10 100 The P component refers to the proportional band of a control It fluctuates around the setpoint value and can be used to influence control speed with a PI controller The smaller the setpoint the faster it reacts to...

Page 113: ... is only available when Control value type parameter is set either on PI continuous 0 100 PI PWM On Off or Fan coil In addition the Cooling type parameter must be set on Free configuration 11 4 55 Control of additional cooling stage Temperature difference to basic stage x 0 1 C Options Setting option between 0 255 The setpoint temperature of the additional stage is defined as a function of the cur...

Page 114: ...ion 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 Note This parameter is only available when the Control value type parameter is set either on 2 point 1 Bit Off On or 2 point 1 Byte 0 100 11 4 60 Additional cooling stage Control value difference for sending of coolin...

Page 115: ... parameter is only available when Control value type parameter is set either on PI continuous 0 100 PI PWM On Off or Fan coil 11 4 63 Additional cooling stage Minimum control value for basic load 0 255 Options Setting option between 0 255 The minimum control value of the PI controller defines the minimum value output by the controller If a minimum value greater than zero is chosen the controller w...

Page 116: ...ontrolled area even when the calculation of the control value of the controller would indicate a lower value Always active Here it is possible to define whether this basic load will be permanently active or whether it will be switched via the Basic load object Activate via object When this parameter is selected the basic load function which means the minimum control value with a value higher than ...

Page 117: ...e operated in heating mode in the winter and cooling mode in the summer The switchover between heating and cooling and to the associated setpoint is carried out via the corresponding communication object This function is used when a central switchover of the single room controllers is required Switchover heating cooling is a receiving object Local via extension unit and via object E g for four con...

Page 118: ...as one object that receives both the heating and the cooling control values 11 4 71 Combined heating and cooling modes Additional heating cooling stage 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 If the climate control actuator has separate control value in...

Page 119: ...e function has two separate setpoints for heating and cooling in the comfort mode The device will display the currently active setpoint value Switching between heating and cooling occurs via the Switchover heating cooling parameter setting Note This parameter is only available when the Control function parameter is set on Heating and cooling or heating and cooling with additional stages 11 4 1 Set...

Page 120: ...ing comfort Setpoint cooling comfort parameter is set on Yes 11 4 3 Setpoint settings Setpoint temperature for heating and cooling comfort C Options Setting option between 10 40 Specifies the comfort temperature for heating and cooling when people are present Note This parameter is only available when the Control function parameter is set on Heating and cooling or heating and cooling with addition...

Page 121: ...with a display this mode is indicated by the standby icon Note 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 stages 11 4 6 Setpoint settings Reduction for ECO heating C Options Setting option between 0 15 Specifies the temperature in heating mode when nobody is present ...

Page 122: ...ion icon Manual operation is blocked Note 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 stages 11 4 8 Setpoint settings Setpoint temperature for cooling comfort C Options Setting option between 10 40 Specifies the comfort temperature for cooling when people are present ...

Page 123: ...n between 0 15 Specifies the temperature in cooling mode when nobody is present On devices with a display this mode is indicated by the eco icon Note 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 11 4 11 Setpoint settings Set point temperature for heat protection...

Page 124: ...ture unit Options No Yes This parameter makes it possible to hide the temperature unit as well as the absolute and the relative setpoint This standardises the function between master individual device and slave devices 11 4 2 Setpoint settings Display indicates Options Current setpoint Relative setpoint The display can indicate either the absolute or relative setpoint value Current setpoint On dev...

Page 125: ...ort and cooling comfort Setpoint for cooling comfort The device uses the temperature value that has been set via parameter Setpoint temperature for cooling comfort C Set point for heating comfort The device uses the temperature value that has been set via parameter Setpoint temperature for heating comfort C Mean value between heating comfort and cooling comfort The device uses the mean value of th...

Page 126: ... bit On Off or 2 point 1 byte 0 100 11 4 8 Setpoint adjustment Maximum manual reduction during heating mode 0 9 C Options Setting option between 0 9 This preset can be used to limit the manual decrease during heating Note This parameter is only available when parameter Controller function is set on Heating and parameter Control value type on 2 point 1 bit On Off or 2 point 1 byte 0 100 11 4 9 Setp...

Page 127: ...l decrease during cooling Note 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 11 4 1 Setpoint adjustment Step size of manual setpoint adjustment Options 0 1 K 0 2 K 0 5 K 1 0 K The default can be used to set the step size of the setpoint adjustment per press of th...

Page 128: ...ed to the new base setpoint value Example Previous base setpoint value of 21 C manual adjustment of 1 5 C 22 5 C The object receives a new basic setpoint of 18 C plus the previous manual adjustment of 1 5 C for a total of 19 5 C 11 4 3 Setpoint adjustment Resetting the manual adjustment for change of operating mode Options No Yes If the device switches to a new operating mode the manual adjustment...

Page 129: ...the manual settings for setpoint and where applicable fan speed level as well as the value of the Basic load object will be stored in the device and re activated after a reset The same applies to the operating mode If the device is re programmed the stored setpoint values will also be deleted 11 4 6 Temperature reading Inputs of temperature reading Options Internal measurement External measurement...

Page 130: ...rement 11 4 8 Temperature reading Weighting of internal measurement 0 to 100 Options Setting option between 0 100 Specifying the weighting of the internal measurement from 0 to 100 Note This parameter is only available when the Inputs of weighted temperature reading parameter is set on Internal and external measurement or Internal and 2x external measurement 11 4 9 Temperature reading Weighting of...

Page 131: ...nternal and 2x external measurement 11 4 11 Temperature reading Cyclic sending of the actual temperature min Options Setting option between 5 240 The current actual temperature used by the device can be cyclically transmitted to the bus 11 4 12 Temperature reading Difference of value for sending the actual temperature x 0 1 C Options Setting option between 1 100 If the change in temperature exceed...

Page 132: ...ely after the device has been installed The device should first adjust to the ambient temperature before calibration is carried out The calibration measurement should be repeated shortly before or after the room is occupied This parameter is only available when the Inputs of temperature reading parameter is set on Internal measurement or Weighted measurement 11 4 14 Temperature reading Monitoring ...

Page 133: ...arameter is only available when the Control function parameter is set on Heating and cooling or heating and cooling with additional stages 11 4 17 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 In case of an error a P...

Page 134: ... display Local operation is blocked Operation is only possible again after the alarm has been deactivated Note This parameter is 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 11 4 20 Alarm functions Dew point alarm Options No Yes When refrigerating machines are used dew may...

Page 135: ...r drops below the temperature set in this parameter then the frost alarm bit is set in the status objects It is reset when the temperature is exceeded 11 4 22 Alarm functions Heat alarm temperature for RHCC status C Options Setting option between 25 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 ...

Page 136: ...sic heating stage Notice This parameter is 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 11 4 1 Temperature limiter Temperature limit of heating Limit temperature Options Setting option between 20 100 C The parameter is used to set the limit temperature for the basic heatin...

Page 137: ...of a PI controller for temperature limiting If the I component is retained this value is the starting point for continuing the PI controller after the termination of the temperature limit This option is suitable for slow control systems If the I component is reset the PI controller starts after the termination of the temperature limit with an I component of zero This option is suitable for fast co...

Page 138: ...e Hysteresis Options Setting option between 0 5 5 K The parameter is used to set the hysteresis for the temperature limit of the additional heating stage At an active limit the temperature limit is deactivated again when the input temperatures are below the limit temperature minus hysteresis 11 4 1 Temperature limiter Temperature limit of additional heating stage Integral component of the PI contr...

Page 139: ...teresis Options Setting option between 0 5 5 K The parameter is used to set the hysteresis for the temperature limit of the basic cooling stage At an active limit the temperature limit is deactivated again when the input temperatures are above the limit temperature plus hysteresis 11 4 1 Temperature limiter Temperature limit of cooling Integral component of the PI controller Options Keep Reset The...

Page 140: ...f additional cooling stage Hysteresis Options Setting option between 0 5 5 K The parameter is used to set the hysteresis for the temperature limit of the additional cooling stage At an active limit the temperature limit is deactivated again when the input temperatures are above the setpoint temperature plus hysteresis 11 4 1 Temperature limiter Temperature limit of additional cooling stage Integra...

Page 141: ...vices have been set for heating and cooling this parameter is used to set whether heating or cooling operation is carried out via the same device with fan control or via two separate deices with separate fan activation 11 4 1 Fan coil settings Fan speed level data formats for Master Slave Options Counter values e g 0 5 Percentage values Here for master slave operation of operating units it is set ...

Page 142: ... n 0 to 5 The level values 0 3 or 0 5 are output in the 1 byte format as the counter values 0 3 or 0 5 0 to 255 The level values 0 3 or 0 5 are output as percentage values Example 5 stage fan The level value 1 is output as 20 and 5 is output as 100 1 Bit m from n The level values 0 3 or 0 5 are output using 1 bit objects The number of objects available is the same as the number of fan speed levels...

Page 143: ...ustable level Options Level 0 Level 1 This parameter is used to preselect the lowest fan speed level that can be set by an operation performed at the device When level 0 is selected the heating cooling system will not be in operation fan speed level and valve control 0 as long as the current operating mode and operation type are maintained To avoid damage to the building level 0 is deactivated aft...

Page 144: ...n be specified individually 11 4 2 Fan coil settings for heating Speed level 1 to 5 up to control value 0 to 255 heating Options Setting option between 0 255 In this parameter the control values of the controller are assigned to fan speed levels This assignment is used if the fan speed levels are transmitted together with the control values Note These level settings should be adjusted to match the...

Page 145: ...an coil settings for heating Maximum speed level heating for eco mode Options Setting option between 0 5 Specifies the maximum possible fan speed level when the system is switched to eco mode Note The parameter is only adjustable if the Fan speed level limit heating in Eco mode parameter is set on Yes ...

Page 146: ...can be specified individually 11 4 2 Fan coil settings for cooling Speed level 1 to 5 up to control value 0 to 255 cooling Options Setting option between 0 255 In this parameter the control values of the controller are assigned to fan speed levels This assignment is used if the fan speed levels are transmitted together with the control values Note These level settings should be adjusted to match t...

Page 147: ... coil settings for cooling Maximum fan speed level cooling for eco mode Options Setting option between 0 5 Specifies the maximum possible fan speed level when the system is switched to eco mode Note The parameter is only adjustable if the Fan speed level limit cooling in Eco mode parameter is set on Yes ...

Page 148: ...rther reducing the room temperature to 24 C with an external temperature of 35 C However activation of the summer compensation requires an outside temperature sensor that transmits its measured value to the bus and can be evaluated by the room temperature controller The following parameters are available for summer compensation Lower outside temperature value for summer compensation Upper outside ...

Page 149: ...ion Lower Starting temperature for summer compensation x 0 1 C Options Setting option between 127 127 The parameter defines the lower outside temperature value up to which temperature value the setpoint correction summer compensation is performed based on too high an outside temperature Notice This parameter is only available if the Summer compensation parameter is set to Yes 11 4 8 Summer compens...

Page 150: ... 11 4 10 Summer compensation Offset of the set point temperature for the exit from summer compensation x 0 1 C Options Setting option between 127 127 The parameter is used to define how many degrees Kelvin the setpoint value will be increased by during summer compensation when the upper temperature value is reached Typical values for summer compensation are 20 C Lower outside temperature value 32 ...

Page 151: ... above normal height zero Options Input option between 1000 m 10 000 m The parameter is used to make an adaptation of the CO2 measurement to the height of the installation location 11 5 3 CO2 sensor Measured value correction Options 500 ppm 450 ppm 400 ppm 350 ppm 300 ppm 250 ppm 200 ppm 150 ppm 100 ppm 50 ppm 0 ppm 50 ppm 100 ppm 150 ppm 200 ppm 250 ppm 300 ppm 350 ppm 400 ppm 450 ppm 500 ppm The...

Page 152: ...ase of a change of 10 ppm In case of a change of 20 ppm In case of a change of 50 ppm In case of a change of 100 ppm In case of a change of 150 ppm In case of a change of 200 ppm In case of a change of 250 ppm In case of a change of 300 ppm In case of a change of 350 ppm In case of a change of 400 ppm In case of a change of 450 ppm In case of a change of 500 ppm The parameter is used to determined...

Page 153: ...y 10 minutes Every 15 minutes Every 20 minutes Every 45 minutes Every hour Every 2 hours Every 3 hours Every 4 hours Every 5 hours Every 6 hours Every 12 hours Once a day If you wish to send the CO2 value cyclically through the corresponding KNX communication object a corresponding time must be selected here 11 5 7 CO2 sensor External measured value Options Active Inactive An additional external m...

Page 154: ...ation at 30 Include in calculation at 40 Include in calculation at 50 Include in calculation at 60 Include in calculation at 70 Include in calculation at 80 Include in calculation at 90 Only use external measured value The share of the weighting of the measured value integrated through a KNX communication object is defined using this parameter Notice The parameter is available only when parameter ...

Page 155: ...ns No Yes The basic set value defined for the first threshold can be optimised via the KNX bus e g through a visualisation 11 5 11 CO2 controller Control value output format Options Switch command Priority Percent Byte Scene The output value when the respective threshold is exceeded or undershot is defined using this parameter Notice The parameter is available only when parameter CO2 controller ty...

Page 156: ...troller Send control value at switchover Options Inactive Active At each change in status between ON and OFF the corresponding control value is sent The parameter must be activated for this Notice The parameter is available only when parameter Control value output format is set on Switching command Priority or Scene ...

Page 157: ...e of 10 In case of a change of 11 In case of a change of 12 In case of a change of 13 In case of a change of 14 In case of a change of 15 In case of a change of 16 In case of a change of 17 In case of a change of 18 In case of a change of 19 In case of a change of 20 In case of a change of 21 In case of a change of 22 In case of a change of 23 In case of a change of 24 In case of a change of 25 Th...

Page 158: ... 4 hours Every 5 hours Every 6 hours Every 12 hours Once a day If you wish to send the control value cyclically through the corresponding KNX communication object the corresponding time must be selected 11 5 15 CO2 controller Hysteresis symmetrical Options 50 ppm 100 ppm 150 ppm 200 ppm 250 ppm 300 ppm The basic set value has a hysteresis If the parameterised hysteresis value is exceeded undershot...

Page 159: ...be sent after threshold value 1 is undershot Notice The parameter is available only when parameter Control value output format is set on Priority 11 5 18 Settings Value below threshold 1 100 for output format percent Options 0 100 If the parameterised value of the threshold is undershot a defined parameterised value is sent on the KNX bus to reset the event that occurred beforehand E g a fan is ac...

Page 160: ...below the threshold value the fan is switched off Notice The parameter is available only when parameter Control value output format is set on Byte 11 5 20 Settings Value below threshold 1 64 for output format scene Options 1 64 If the parameterised value of the threshold is undershot a defined parameterised value is sent on the KNX bus to reset the event that occurred beforehand For example a fan ...

Page 161: ...pm 1000 ppm 1050 ppm 1100 ppm 1150 ppm 1200 ppm 1250 ppm 1300 ppm 1350 ppm 1400 ppm 1450 ppm 1500 ppm 1550 ppm 1600 ppm 1650 ppm 1700 ppm 1750 ppm 1800 ppm 1850 ppm 1900 ppm 1950 ppm 2000 ppm The first basic value from which a reaction should be triggered e g Fan speed level 1 is defined through threshold 1 Notice The parameter is available only when parameter CO2 controller type is set on Single ...

Page 162: ...ng command 11 5 23 Settings Value for output format priority Options End priority OFF with priority ON with priority The parameter defines which state should be sent after the threshold value is exceeded Notice The parameter is available only when parameter Control value output format is set on Priority 11 5 24 Settings Value for output format switching command Options 0 100 The parameter defines ...

Page 163: ...should be sent after the threshold value is undershot Notice The parameter is available only when parameter Control value output format is set on Byte 11 5 26 Settings Value for output format scene Options 0 64 The parameter defines which value should be sent after the threshold value is undershot Notice The parameter is available only when parameter Control value output format is set on Scene ...

Page 164: ...old 1 400 ppm Threshold 1 450 ppm Threshold 1 500 ppm Threshold 1 550 ppm Threshold 1 600 ppm Threshold 1 650 ppm Threshold 1 700 ppm Threshold 1 750 ppm Threshold 1 800 ppm Threshold 1 850 ppm Threshold 1 900 ppm Threshold 1 950 ppm Threshold 1 1000 ppm The parameterised value of threshold 2 from which a reaction should be triggered e g Fan speed level 2 is added to threshold 1 basic value Notice...

Page 165: ...ng command 11 5 29 Settings Value for output format priority Options End priority OFF with priority ON with priority The parameter defines which state should be sent after the threshold value is exceeded Notice The parameter is available only when parameter Control value output format is set on Priority 11 5 30 Settings Value for output format switching command Options 0 100 The parameter defines ...

Page 166: ...should be sent after the threshold value is undershot Notice The parameter is available only when parameter Control value output format is set on Byte 11 5 32 Settings Value for output format scene Options 0 64 The parameter defines which value should be sent after the threshold value is undershot Notice The parameter is available only when parameter Control value output format is set on Scene ...

Page 167: ...hold 2 750 ppm Threshold 2 800 ppm Threshold 2 850 ppm Threshold 2 900 ppm Threshold 2 950 ppm Threshold 2 1000 ppm The parameterised value of threshold 3 from which a reaction should be triggered e g Fan speed level 3 is added to threshold 1 basic value and threshold 2 Notice The parameter is available only when parameter CO2 controller type is set on Three stage 11 5 34 Settings Value for output...

Page 168: ...ntrol value output format is set on Priority 11 5 36 Settings Value for output format switching command Options 0 100 The parameter defines which value should be sent after the threshold value is undershot Notice The parameter is available only when parameter Control value output format is set on Percent 11 5 37 Settings Value for output format byte Options 0 255 The parameter defines which value ...

Page 169: ...nactive Active The complete function of the CO2 sensor can be switched active or inactive using this parameter and the corresponding communication object 11 5 40 Behaviour at removing the blockage Options Do not send any message Send current value If the sensor is enabled again after the receipt of an OFF telegram the following parameters can be selected Do not send The sensor only sends its value...

Page 170: ... has not changed Notice The parameter is available only when parameter Blocking object is set on Active 11 5 42 Settings Value for blockage Options 0 64 Fixes the status for activating the blockage Notice The parameter is available only when parameter Blocking object is set on Active 11 5 43 PI controller Blocking object Options Inactive Active The complete function of the CO2 sensor can be blocke...

Page 171: ...B9679 171 11 5 44 PI controller Readjust time 15 240 min Options 15 240 In case of a PI controller for the control of a fan for example the I component of the controller can be influenced by the set values Notice The parameter is available only when parameter CO2 controller type is set on PI ...

Page 172: ...0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 The parameter can be used to influence the control value for controlling the fan or ventilation valve for example In the process the ventilation valve can be prevented from closing with a value greater than 0 Notice The parameter is available only when parameter CO2 controller type is set on PI ...

Page 173: ...5 60 65 70 75 80 85 90 95 100 The parameter can be used to influence the control value for controlling the fan or ventilation valve for example The maximum limit can be used to influence the ventilation valve directly for example so that a complete opening of the ventilation valve can be limited Notice The parameter is available only when parameter CO2 controller type is set on PI ...

Page 174: ...lete function of the CO2 sensor can be blocked using this parameter and with a 1 via the corresponding communication object Deactivation takes place by setting a value of 0 Notice The parameter is available only when parameter CO2 controller type is set on PI 11 5 49 Behaviour at removing the blockage Options Do not send any message Send current value If the sensor is enabled again after the recei...

Page 175: ...arameters can be selected Do not send The sensor sends no value during blockage Send current value The sensor sends its current value during blockage also when it has not changed Notice The parameter is available only when parameter Blocking object is set on Active 11 5 51 PI controller Value at blockage Options 0 100 Fixes the status for activating the blockage Notice The parameter is available o...

Page 176: ...ative humidity sensor The corresponding communication objects are displayed in ETS 11 6 2 Relative humidity Correction of measured value Options 5 4 3 2 1 0 1 2 3 4 5 The measured humidity value can be corrected using the parameter The corrected value is displayed on the device and sent to the KNX bus 11 6 3 Relative humidity Moisture sensor error Options Message Do not send message If an error is...

Page 177: ... a change of 9 RH In case of a change of 10 RH In case of a change of 11 RH In case of a change of 12 RH In case of a change of 13 RH In case of a change of 14 RH In case of a change of 15 RH In case of a change of 16 RH In case of a change of 17 RH In case of a change of 18 RH In case of a change of 19 RH In case of a change of 20 RH In case of a change of 21 RH In case of a change of 22 RH In ca...

Page 178: ...very 10 minutes Every 15 minutes Every 20 minutes Every 45 minutes Every hour Every 2 hours Every 3 hours Every 4 hours Every 5 hours Every 6 hours Every 12 hours Once a day If you wish to send the humidity cyclically through the corresponding KNX communication object the corresponding time must be selected 11 6 6 Relative humidity External measured value Options Inactive Active An additional exte...

Page 179: ...measured value The share of the weighting of and external measured value integrated through a KNX communication object is defined using this parameter Notice The parameter is available only when parameter External measured value is set on Active 11 6 8 Relative humidity controller Controller type Options Inactive Single stage Two stage Three stage PI The control type for actuating the external fan...

Page 180: ...ailable only when parameter Controller type is set on Single stage Two stage or Three stage Notice For selection of parameter setting PI only the selection between Percent or Byte is available 11 6 11 Relative humidity controller Send control value at switchover Notice The parameter is available only when parameter Control value output format is set on Switching command Priority or Scene Options I...

Page 181: ...nge of 6 In case of a change of 7 In case of a change of 8 In case of a change of 9 In case of a change of 10 In case of a change of 11 In case of a change of 12 In case of a change of 13 In case of a change of 14 In case of a change of 15 In case of a change of 16 In case of a change of 17 In case of a change of 18 In case of a change of 19 In case of a change of 20 In case of a change of 21 In c...

Page 182: ... set on Byte Options Inactive In case of a change of 1 In case of a change of 2 In case of a change of 5 In case of a change of 10 In case of a change of 15 In case of a change of 20 In case of a change of 25 In case of a change of 30 In case of a change of 35 In case of a change of 40 In case of a change of 45 In case of a change of 50 The control value is sent after a defined value change If thi...

Page 183: ...very minute Every 2 minutes Every 3 minutes Every 4 minutes Every 5 minutes Every 10 minutes Every 15 minutes Every 20 minutes Every 45 minutes Every hour Every 2 hours Every 3 hours Every 4 hours Every 5 hours Every 6 hours Every 12 hours Once a day If you wish to send the control value cyclically through the corresponding KNX communication object the corresponding time must be selected ...

Page 184: ... humidity controller Hysteresis symetrical Options 1 2 3 4 5 6 7 8 9 10 The basic set value has a hysteresis If the parameterised hysteresis value is exceeded undershot the corresponding value is sent Notice The parameter is available only when parameter CO2 controller type is set on Single stage Two stage Three stage or PI ...

Page 185: ...witching command 11 6 17 Step controller Priority below threshold 1 Options End priority OFF with priority ON with priority The parameter defines which state should be sent after threshold value 1 is undershot Notice The parameter is available only when parameter Control value output format is set on Priority 11 6 18 Step controller Percent below threshold 1 Options 0 100 The parameter defines whi...

Page 186: ...tate should be sent after threshold value 1 is undershot Notice The parameter is available only when parameter Control value output format is set on Byte 11 6 20 Step controller Value below threshold 1 scene Options 0 64 The parameter defines which state should be sent after threshold value 1 is undershot Notice The parameter is available only when parameter Control value output format is set on S...

Page 187: ... manual 2CKA001473B9679 187 11 6 21 Step controller RH threshold 1 Options 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 The first basic value from which a reaction should be triggered e g Fan speed level 1 is defined via threshold 1 ...

Page 188: ...End priority OFF with priority ON with priority The parameter defines which state should be sent after threshold value 1 is exceeded Notice The parameter is available only when parameter Control value output format is set on Priority 11 6 24 Step controller Percent above threshold 1 Options 0 100 The parameter defines which state should be sent after threshold value 1 is exceeded Notice The parame...

Page 189: ...ct manual 2CKA001473B9679 189 11 6 26 Step controller Value above threshold 1 scene Options 0 64 The parameter defines which state should be sent after threshold value 1 is exceeded Notice The parameter is available only when parameter Control value output format is set on Scene ...

Page 190: ...shold 1 8 Threshold 1 9 Threshold 1 10 Threshold 1 11 Threshold 1 12 Threshold 1 13 Threshold 1 14 Threshold 1 15 Threshold 1 16 Threshold 1 17 Threshold 1 18 Threshold 1 19 Threshold 1 20 Threshold 1 21 Threshold 1 22 Threshold 1 23 Threshold 1 24 Threshold 1 25 Threshold 1 26 Threshold 1 27 Threshold 1 28 Threshold 1 29 Threshold 1 30 The parameterised value of threshold 2 from which a reaction ...

Page 191: ...t format is set on Switching command Notice The parameter is available only when parameter Controller type is set on Two stage or Three stage 11 6 29 Step controller Priority above threshold 2 Options End priority OFF with priority ON with priority The parameter defines which state should be sent after threshold value 2 is exceeded Notice The parameter is available only when parameter Control valu...

Page 192: ...r Value above threshold 2 byte Options 0 255 The parameter defines which state should be sent after threshold value 2 is exceeded Notice The parameter is available only when parameter Control value output format is set on Byte Notice The parameter is available only when parameter Controller type is set on Two stage or Three stage 11 6 32 Step controller Value v of threshold 2 scene Options 0 64 Th...

Page 193: ...8 Threshold 2 9 Threshold 2 10 Threshold 2 11 Threshold 2 12 Threshold 2 13 Threshold 2 14 Threshold 2 15 Threshold 2 16 Threshold 2 17 Threshold 2 18 Threshold 2 19 Threshold 2 20 Threshold 2 21 Threshold 2 22 Threshold 2 23 Threshold 2 24 Threshold 2 25 Threshold 2 26 Threshold 2 27 Threshold 2 28 Threshold 2 29 Threshold 2 30 The parameterised value of threshold 3 from which a reaction should b...

Page 194: ...tep controller Switching command at measurement failure Options Off On If the internal or external measurement malfunctions or fails a defined switching command can be sent through this parameter Notice The parameter is available only when parameter Control value output format is set on Switching command 11 6 36 Step controller Priority above threshold 3 Options End priority OFF with priority ON w...

Page 195: ...witching command can be sent through this parameter Notice The parameter is available only when parameter Control value output format is set on Priority 11 6 38 Step controller Percent above threshold 3 Options 0 100 The parameter defines which state should be sent after threshold value 3 is exceeded Notice The parameter is available only when parameter Control value output format is set on Percen...

Page 196: ...ge at measurement value failure Options 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 The parameterised value of threshold 3 from which a reaction should be triggered e g Fan speed level 3 is added to threshold 1 basic value Notice The parameter is available only when parameter Control value output format is set on Percent ...

Page 197: ...ree stage 11 6 41 Step controller Value at measurement value failure byte Options 0 255 If the internal or external measurement malfunctions or fails a defined value can be sent through this parameter Notice The parameter is available only when parameter Control value output format is set on Byte 11 6 42 Step controller Value above threshold 3 scene Options 0 64 The parameter defines which state s...

Page 198: ...the threshold value is undershot or when the value is below this threshold value Notice The parameter is available only when parameter Controller type is set on PI 11 6 45 PI controller Proportional range 10 40 RH Options 10 40 The parameter defines which value should be sent after the threshold value is exceeded or when the value is above this threshold value Notice The parameter is available onl...

Page 199: ...lue is exceeded or when the value is above the threshold value Notice The parameter is available only when parameter Controller type is set on PI 11 6 49 PI controller Value at measured value failure Options 0 255 If the internal or external measurement malfunctions or fails a defined value can be sent through this parameter Notice The parameter is available only when parameter Controller type is ...

Page 200: ...meter is available only when parameter Blocking object is set on Active 11 6 52 Behaviour at setting the blockage Options Send nothing Send value If the sensor is blocked after the receipt of an ON telegram the following parameters can be selected Do not send The sensor sends no value during blockage Send current value The sensor sends its current value during blockage also when it has not changed...

Page 201: ...hange of 0 2 C In case of a change of 0 5 C In case of a change of 1 0 C In case of a change of 1 5 C In case of a change of 2 0 C In case of a change of 2 5 C In case of a change of 3 0 C In case of a change of 3 5 C In case of a change of 4 0 C In case of a change of 4 5 C In case of a change of 5 0 C In case of a change of 6 0 C In case of a change of 7 0 C In case of a change of 8 0 C In case ...

Page 202: ...ute Every 2 minutes Every 3 minutes Every 4 minutes Every 5 minutes Every 10 minutes Every 15 minutes Every 20 minutes Every 45 minutes Every hour Every 2 hours Every 3 hours Every 4 hours Every 5 hours Every 6 hours Every 12 hours Once a day If you wish to send the dew point temperature cyclically through the corresponding KNX communication object the corresponding time must be selected ...

Page 203: ...efore the dew point is reached the advance can be set using this parameter In this way for example a fan can be activated before the dew point alarm is reached so that the alarm case is delayed or does not even occur 11 6 59 Dew point alarm Dew point alarm hysteresis symmetrical Options 0 1 C 2 C 3 C 4 C 5 C The basic set value has a hysteresis If the parameterised hysteresis value is exceeded und...

Page 204: ... hours Every 4 hours Every 5 hours Every 6 hours Every 12 hours Once a day If the current alarm should be sent cyclically through the corresponding KNX communication object the corresponding time must be selected here 11 6 62 Dew point alarm Telegram type for dew point alarm Options Switch command Priority Percent Byte Scene This parameter defines the output value when the dew point alarm is prese...

Page 205: ...priority OFF with priority ON with priority If the dew point alarm is no longer present at the object this parameter can be used to define which status should be sent 11 6 67 Dew point alarm Percent for dew point alarm Options 0 100 This parameter defines which value between 0 and 100 is sent in case of a dew point alarm 11 6 68 Dew point alarm Percent at the end of the dew point alarm Options 0 1...

Page 206: ...ue between 0 and 255 should be sent 11 6 71 Dew point alarm Scene for dew point alarm 1 64 Options 1 64 This parameter defines which scene between 1 and 64 is sent in case of a dew point alarm 11 6 72 Dew point alarm Scene at the end of the dew point alarm 1 64 Options 1 64 If the dew point alarm is no longer present at the object this parameter can be used to define which scene between 1 and 64 s...

Page 207: ...on the device type from one to five function blocks with buttons and LED applications for up to 10 buttons are available Function block 1 Settings for buttons 1 and 2 Function block 2 Settings for buttons 3 and 4 Function block 3 Settings for buttons 5 and 6 Function block 4 Settings for buttons 7 and 8 Function block 5 Settings for buttons 9 and 10 ...

Page 208: ...lowing parameters can only be adjusted when the corresponding application see above is selected 2 button switching The application makes it possible to switch a light via a button pair Additional information 1 button switching The application makes it possible to switch a light via a button Additional information 2 button dimming The application makes it possible to dim and switch a light via a bu...

Page 209: ...ith a press of the button Additional information 2 button step switch Up to five switching levels can be activated for a button pair via the application One button is used to switch the steps up and the other button to switch them down Additional information 1 button step switch Up to five switching levels can be activated for a button via the application The switching levels of the first button c...

Page 210: ...n 2nd button off When the first button is pressed the On command is sent and the Off command when the second button is pressed 1st Button off 2nd button on When the first button is pressed the Off command is sent and the On command when the second button is pressed Alternating on off On and Off are sent alternately at the press of the first or second button The parameter is used to specify for exa...

Page 211: ...ber S1 Sx of the object depends on the function block and the button number 11 7 3 1 Reaction on rising edge Options Deactivated Off On Alternating on off Deactivated No telegram is sent at the press of the button Off The Off telegram is sent at the press of the button at rising edge On The On telegram is sent at the press of the button at rising edge Alternating on off On and Off are sent alterna...

Page 212: ... whether the switching telegrams are sent alternately This means that after value On has been sent Off is sent at a renewed release of the button After it is released again On is again sent out Deactivated No telegram is sent when the button is released Off The Off telegram is sent when the button is released at falling edge On The On telegram is sent when the button is released at falling edge Al...

Page 213: ...whether the light is dimmed with a short or long press of the button The application makes a joint set of parameters and communication objects available in function block x for both buttons Note The parameters for application 2 button dimming can be called up via general parameters and extended parameters Note The number S1 Sx of the object depends on the function block and the button number 11 7 ...

Page 214: ...t Stop dimming two 3 bit telegrams for dimming are sent At a press of the button the first telegram with the command Dim 100 brighter or Dim 100 darker is sent to the linked dimming actuator When the button is released the second telegram with the command Stop dimming is sent Hence a connected dimming actuator can be halted at any time during the dimming phase For step wise dimming a defined value...

Page 215: ...alue of 70 With a press of the button the command Dim brighter by 12 5 is sent After receiving the dimming command the dimming actuator increases the brightness value to 82 5 Note If step wise dimming is used to evenly dim multiple dimming actuators in different lines a low step size should be selected e g 3 13 At the same time the cyclical sending of the dimming telegrams should be activated This...

Page 216: ...ess of the button Short operation switching long operation dimming The switching telegram is sent at a short press of the button The dimming telegram is sent at a long press of the button The application can differentiate between a short and a long press of the button The parameter is used to specify whether a switching telegram or a dimming telegram is sent on the bus at a short or long press of ...

Page 217: ...he two buttons After one of the two buttons is pressed again On is sent again This also applies for values that are received via the associated 1 bit communication object Sx switching This means that when an Off command is received after an On command was sent via object Sx switching an On command is sent after the button is pressed again It must be ensured here that the S flag writing of the comm...

Page 218: ...ise dimming and parameter Dimming function is set on Short operation switching long operation dimming 11 7 4 8 Cyclic sending of the dimming telegrams Options Deactivated Activated Deactivated No dimming telegrams are sent cyclic as long as the button is pressed Activated Telegrams are sent cyclic as long as the button is pressed The parameter is used to specify whether dimming telegrams are sent ...

Page 219: ...a communication object Sx relative dimming as long as the button is pressed The parameter is used to set time intervals between the telegrams The default setting is 1 second Note The parameter is available only via the following settings Parameter Manner of dimming is set on Step wise dimming and Parameter Dimming function is set on Short operation switching long operation dimming and Parameter Cy...

Page 220: ...ers for application 1 button dimming can be called up via general parameters Note The number S1 Sx of the object depends on the function block and the button number 11 7 5 1 Duration of long operation Options Setting option from 00 300 to 03 000 ss fff The application can differentiate between a short and a long press of the button With a short press of the button the next level forward is switche...

Page 221: ...after On is sent Off is sent at a renewed press of the button After it is pressed again On is sent 11 7 5 3 Working mode of the buttons for dimming Options Darker Brighter Alternating brighter darker Darker The Dim darker command is sent at a long press of the button Brighter The Dim brighter command is sent at a long press of the button Alternating brighter darker Dim darker and Dim brighter are ...

Page 222: ...mands are sent to linked blind actuators with long and short button operations A long press of the button triggers a move command A short press of the button triggers a command to adjust the slats The sensor stores the last command carried out with the button that is occupied with the application This means for example if a blind was lowered and halted at half height via a short press of the butto...

Page 223: ...nt if the button is pressed long and a Adjust position slats command is sent due to the long operation This causes a short jerking of the blind since the first slats adjustment command is always interpreted by a blind actuator as a stop command 11 7 6 2 Object type Options 1 bit 1 byte 0 100 1 bit The value is sent as 1 bit switching commands up down or adjustment 1 byte 0 100 The value is sent as...

Page 224: ... position to which a linked blind is to be lowered The associated 1 byte communication object Sx position must hereby be connected with a 1 byte position object of the blind actuator Percentage values can be set in steps of 1 Meaning of the percentage values 0 blind completely raised 100 blind completely lowered Note The parameter is only adjustable if the object type parameter is set to 1 byte 0 ...

Page 225: ...tage values 0 slats completely open 100 slats completely closed Note The parameter is only adjustable if the object type parameter is set to 1 byte 0 100 11 7 6 7 Value for slats position down Options Setting option from 0 to 100 The parameter is used to set the position to which the slats of the linked blind are to close The associated 1 byte Sx slat position communication object must hereby be c...

Page 226: ...mand A short press of the button triggers a command to adjust the slats Roller blinds Movement and stop commands are sent to linked roller blind actuators with long and short button operations A long press of the button triggers a move command A short press of the button triggers a stop command Blinds and roller blinds The sensor stores the last command carried out with the button that is occupied...

Page 227: ...r the press of the button The command is also sent if the button is pressed long and a Adjust slats command is sent due to the long operation This causes a short jerking of the blind since the first slats adjustment command is always interpreted by a blind actuator as a stop command 11 7 7 2 Cycle time of the telegram repetition Options Setting option from 00 100 to 05 000 ss fff Telegrams are sen...

Page 228: ...with 1 byte position objects of the blind actuators Also desired positions of the blind can be preset under Extended parameters Example Button 1 always moves the blind down to 50 with the slats closed at 50 Button 1 always moves the blind down to 80 with the slats closed at 100 Note The parameter can only be set if the Blind roller blind function switchover parameter is set on Blind 11 7 7 4 Funct...

Page 229: ... The parameter can only be set if the Blind roller blind switchover function parameter is set on Blind and the Object type parameter is set on 1 byte 0 100 11 7 7 6 Value for position up Options Setting option from 0 to 100 The parameter is used to set the position to which a linked blind is to be raised The associated 1 byte communication object Sx position must hereby be connected with a 1 byte ...

Page 230: ...he parameter can only be set if the Blind roller blind switchover function parameter is set on Blind and the Object type parameter is set on 1 byte 0 100 11 7 7 8 Value for slats position down Options Setting option from 0 to 100 The parameter is used to set the position to which the slats of the linked blind are to close The associated 1 byte Sx slat position communication object must hereby be c...

Page 231: ...th the press of the first button A telegram with value 2 is sent with the second button Both values have the same bit size and are sent on the bus via the Sx switching value communication object The bit size is specified via the Object type parameter The application makes a joint set of parameters and communication objects available in function block x for both buttons Note The parameters for appl...

Page 232: ... sent as floating point value 671088 6 670760 9 e g temperature or moisture value 2 byte signed The value is sent as 2 byte value with a sign 32768 32767 e g time difference or percentage difference 2 byte unsigned The value is sent as 2 byte value without a sign 0 65535 e g time or brightness value 4 byte float The value is sent as 4 byte floating point value physical values e g luminosity electr...

Page 233: ...he press of the first or second button The parameter is used to specify the value that is sent on the bus via communication object Sx switching at a press of the first or second button A further option can be specified as to whether the values are sent alternately independent from the button pressed This means that after value 1 is sent value 2 is sent at a renewed press of one the two buttons Aft...

Page 234: ... selection 2 byte float Options Setting option from 671088 64 to 670760 96 Options for selection 2 byte signed Options Setting option from 32768 to 32767 Options for selection 2 byte unsigned Options Setting option from 0 to 65535 Options for selection 4 byte float Options Setting option from 4000000 to 4000000 Options for selection 4 byte signed Options Setting option from 2147483648 to 214748364...

Page 235: ...can differentiate between the press and the releasing of a button rising falling edge All telegrams have the same bit size In each case the application makes a separate set of parameters and communication objects available in function block x for both buttons The second button of each function block can be occupied with an additional button function Note The parameters for application 1 button val...

Page 236: ...The value is sent as floating point value 671088 6 670760 9 e g temperature or moisture value 2 byte signed The value is sent as 2 byte value with a sign 32768 32767 e g time difference or percentage difference 2 byte unsigned The value is sent as 2 byte value without a sign 0 65535 e g time or brightness value 4 byte float The value is sent as 4 byte floating point value physical values e g lumin...

Page 237: ...lication 1 button value transmitter can differentiate between the press and the releasing of the button A press is defined as Rising edge and the releasing as Falling edge Only one communication object is available for both edges The parameter is used to specify whether a telegram with value 1 or value 2 is sent on the bus at a rising edge via communication object Sx switching A further option can...

Page 238: ...Application 1 button value transmitter can differentiate between the press and the releasing of a button A press is defined as Rising edge and the releasing as Falling edge Only one communication object is available for both edges The parameter is used to specify whether a telegram with value 1 or value 2 is sent on the bus at a falling edge via communication object Sx switching A further option c...

Page 239: ... 255 Options for selection 2 byte float Options Setting option from 671088 64 to 670760 96 Options for selection 2 byte signed Options Setting option from 32768 to 32767 Options for selection 2 byte unsigned Options Setting option from 0 to 65535 Options for selection 4 byte float Options Setting option from 4000000 to 4000000 Options for selection 4 byte signed Options Setting option from 2147483...

Page 240: ... the releasing of a button rising falling edge The telegrams for the rising and falling edge can have different bit sizes This for example allows a switching function and a floating point value to be sent In each case the application makes a separate set of parameters and communication objects available in function block x for both buttons The second button of each function block can be occupied w...

Page 241: ...oating point value 671088 6 670760 9 e g temperature or moisture value 2 byte signed The value is sent as 2 byte value with a sign 32768 32767 e g time difference or percentage difference 2 byte unsigned The value is sent as 2 byte value without a sign 0 65535 e g time or brightness value 4 byte float The value is sent as 4 byte floating point value physical values e g luminosity electric power pr...

Page 242: ...fferentiate between the press and the releasing of a button A press is defined as Rising edge and the releasing as Falling edge The application makes two separate communication objects available for the rising and falling edge of a button The parameter is used to specify whether a telegram with value 1 or value 2 is sent on the bus at a rising edge via communication object Sx switching rising edge...

Page 243: ...fferentiate between the press and the releasing of a button A press is defined as Rising edge and the releasing as Falling edge The application makes two separate communication objects available for the rising and falling edge of a button The parameter is used to specify whether a telegram with value 1 or value 2 is sent on the bus at a falling edge via communication object Sx switching falling ed...

Page 244: ... Setting option from 32768 to 32767 Options for selection 2 byte unsigned Options Setting option from 0 to 65535 Options for selection 4 byte float Options Setting option from 4000000 to 4000000 Options for selection 4 byte signed Options Setting option from 2147483648 to 2147483647 Options for selection 4 byte unsigned Options Setting option from 0 to 4294967295 The parameter is used to set value...

Page 245: ...etting option from 32768 to 32767 Options for selection 2 byte unsigned Options Setting option from 0 to 65535 Options for selection 4 byte float Options Setting option from 4000000 to 4000000 Options for selection 4 byte signed Options Setting option from 2147483648 to 2147483647 Options for selection 4 byte unsigned Options Setting option from 0 to 4294967295 The parameter is used to set value 1...

Page 246: ...of parameters and communication objects available in function block x for both buttons Note The parameters for application 2 button value dimming sensor can be called up via general parameters Note The number S1 Sx of the object depends on the function block and the button number 11 7 11 1 Object type Options 1 byte 0 100 1 byte 0 255 1 byte 0 100 The value is sent as 1 byte value without a sign p...

Page 247: ...t type 1 byte 0 255 The current value is raised or lowered by the set absolute value with a press of a button Example The current value of the dimming actuator is 100 If the parameter is set on step size 20 the current value is raised from 100 to 120 or lowered to 80 with a press of the button 11 7 11 3 Working mode of the buttons Options 1st button brighter 2nd button darker 1st button darker 2nd...

Page 248: ...ttons The second button of each function block can be occupied with an additional button function Note The parameters for application 1 button light scene extension unit with memory function can be called up via general parameters Note The number S1 Sx of the object depends on the function block and the button number 11 7 12 1 Duration of long operation Options Setting option from 00 300 to 10 000...

Page 249: ... sent to all connected actuators that answer with their current object values The answers are saved by the light scene module and are sent out at every new receipt of the light scene number 11 7 12 3 Number of light scene Options Setting option from 1 to 64 The parameter is used to specify the light scene number which is sent via the 1 byte communication object Sx light scene number at the press o...

Page 250: ...Example 1st button up 2nd button down 1st button 1st press 1st step switches lamp 1 on 1st button 2nd press 2nd step switches lamp 1 off and lamp 2 on 1st button 3rd press 3rd step switches lamp 2 off and lamp 3 on 2nd button 1st press 2nd step switches lamp 3 off and lamp 2 on 2nd button 2nd press 1st step switches lamp 2 off and lamp 1 on The application makes a joint set of parameters and commu...

Page 251: ...on up 2nd button down 1st button down 2nd button up When the first button is pressed the Step down command is sent and the Step up command when the second button is pressed 1st button up 2nd button down When the first button is pressed the Step up command is sent and the Step down command when the second button is pressed The parameter is used to specify whether the first or second button triggers...

Page 252: ... of n The object value 10000 is sent inverted as object value 01111 11 7 13 6 Bit pattern of the object values Options x of n 1 of n The levels can be switched in two different bit patterns Object values for the bit pattern x off n 1 object 2 objects 3 objects 4 objects 5 objects Level 0 0 00 000 0000 00000 Level 1 1 10 100 1000 10000 Level 2 11 110 1100 11000 Level 3 111 1110 11100 Level 4 1111 1...

Page 253: ...n 1st button 1st press 1st step switches lamp 1 on 1st button 2nd press 2nd step switches lamp 1 off and lamp 2 on 1st button 3rd press 3rd step switches lamp 2 off and lamp 3 on 2nd button 1st press 2nd step switches lamp 3 off and lamp 2 on 2nd button 2nd press 1st step switches lamp 2 off and lamp 1 on In each case the application makes a separate set of parameters and communication objects ava...

Page 254: ...and a long press of the button With a short press of the button the next level forward is switched to With a long press of the button the first level is activated Thus with a long press of the button a jump back from every level to the first level is possible without having to run through the remaining levels The parameter is used to specify the time from which a long press of the button is recogn...

Page 255: ...rmal Values of the individual switching levels are not sent inverted Inverse Values of the individual switching levels are sent inverted The parameter is used to specify whether values of the 1 bit communication objects Sx switching step x are sent normal or inverted Example five objects x of n The object value 10000 is sent inverted as object value 01111 ...

Page 256: ...for the bit pattern x off n 1 object 2 objects 3 objects 4 objects 5 objects Level 0 0 00 000 0000 00000 Level 1 1 10 100 1000 10000 Level 2 11 110 1100 11000 Level 3 111 1110 11100 Level 4 1111 11110 Level 5 11111 Object values for the bit pattern 1 off n 1 object 2 objects 3 objects 4 objects 5 objects Level 0 0 00 000 0000 00000 Level 1 1 10 100 1000 10000 Level 2 01 010 0100 01000 Level 3 001 ...

Page 257: ...or both buttons The second button of each function block can be occupied with an additional button function Note The parameters for application 1 button multiple actuation can be called up via general parameters and extended parameters Note The number S1 Sx of the object depends on the function block and the button number 11 7 15 1 Number of objects or operations Options Setting option from 1 to 5...

Page 258: ...legrams are sent parallel via the activated communication objects For the device to recognize a multiple operation the button operation must be carried out within a defined time period evaluation period The time is started after the first actuation and continues for the set evaluation period A typical value for the evaluation period is 3 seconds Example five objects The five objects Sx switching x...

Page 259: ... e g time difference or percentage difference 2 byte unsigned The value is sent as 2 byte value without a sign 0 65535 e g time or brightness value 4 byte float The value is sent as 4 byte floating point value physical values e g luminosity electric power pressure 4 byte signed The value is sent as 4 byte value with a sign 2147483648 2147483647 e g counting impulse time difference 4 byte unsigned ...

Page 260: ... sent Alternating on off On and Off are sent alternately at the press of the button The parameter is used to specify whether an On or an Off telegram is sent via 1 bit communication object Sx switching x actuation s when the button is pressed A further option can be specified as to whether the switching telegrams are sent alternately This means that after On is sent Off is sent at a renewed press ...

Page 261: ...ption from 32768 to 32767 Options for selection 2 byte unsigned Options Setting option from 0 to 65535 Options for selection 4 byte float Options Setting option from 4000000 to 4000000 Options for selection 4 byte signed Options Setting option from 2147483648 to 2147483647 Options for selection 4 byte unsigned Options Setting option from 0 to 4294967295 The parameter is used to set the value that ...

Page 262: ... The two objects can take on different sizes 1 bit 4 byte depending on the object type selected In each case the application makes a separate set of parameters and communication objects available in function block x for both buttons The second button of each function block can be occupied with an additional button function Note The parameters for application 1 button short long operation can be ca...

Page 263: ...loating point value 671088 6 670760 9 e g temperature or moisture value 2 byte signed The value is sent as 2 byte value with a sign 32768 32767 e g time difference or percentage difference 2 byte unsigned The value is sent as 2 byte value without a sign 0 65535 e g time or brightness value 4 byte float The value is sent as 4 byte floating point value physical values e g luminosity electric power p...

Page 264: ...hort press of the button Alternating value 1 value 2 Value 1 and value 2 are sent alternately at a short press of the button The parameter is used to specify whether value 1 or value 2 is sent on the bus at a short press of the button A further option can be specified as to whether the telegrams are sent alternately This means that after value 1 has been sent value 2 is sent at a renewed press of ...

Page 265: ... the telegrams are sent alternately This means that after value 1 has been sent value 2 is sent at a renewed press of the button After it is pressed again value 1 is again sent out Note Parameter Value x for long operation is used to specify the values that are to be sent 11 7 16 4 Duration of long operation Options Setting option from 00 300 to 03 000 ss fff The application can differentiate betw...

Page 266: ...g option from 32768 to 32767 Options for selection 2 byte unsigned Options Setting option from 0 to 65535 Options for selection 4 byte float Options Setting option from 4000000 to 4000000 Options for selection 4 byte signed Options Setting option from 2147483648 to 2147483647 Options for selection 4 byte unsigned Options Setting option from 0 to 4294967295 The parameter is used to set value 1 or v...

Page 267: ...ing option from 32768 to 32767 Options for selection 2 byte unsigned Options Setting option from 0 to 65535 Options for selection 4 byte float Options Setting option from 4000000 to 4000000 Options for selection 4 byte signed Options Setting option from 2147483648 to 2147483647 Options for selection 4 byte unsigned Options Setting option from 0 to 4294967295 The parameter is used to set value 1 or...

Page 268: ...g room temperature controllers that have a 1 byte object for the switchover of the KNX operating modes The following operating modes and object values can be set via the application Auto value 0 Comfort value 1 Standby value 2 Eco value 3 Frost protection heat protection value 4 The function can be temporarily blocked via 1 bit object Sx enable In each case the application makes a separate set of ...

Page 269: ...with 1 bit communication objects for operating mode switchover 1 byte Object type for the control of RTC with 1 byte communication objects for KNX operating mode switchover The parameter us used to fix the size of object Sx operating mode For setting 1 byte the following values are sent dependent on the setting of the Operating mode parameter 0 auto 1 comfort 2 standby 3 night 4 frost heat protect...

Page 270: ...bject and a linked RTC switches over into comfort mode Standby Switching signal On is sent via the 1 bit object and a linked RTC switches over into standby mode ECO Switching signal On is sent via the 1 bit object and a linked RTC switches over into ECO mode Frost heat protection Switching signal On is sent via the 1 bit object and a linked RTC switches over into frost heat protection mode The par...

Page 271: ...sed to switch over to the standard operating mode object Comfort Value 1 is sent via the 1 byte object and a linked RTC switches over into comfort mode Standby Value 2 is sent via the 1 byte object and a linked RTC switches over into standby mode ECO Value 3 is sent via the 1 byte object and a linked RTC switches over into ECO mode Frost heat protection Value 4 is sent via the 1 byte object and a ...

Page 272: ...object Sx operating mode Note If the Enable object parameter is activated the following parameters can be set Object value enable object Enable object after return of voltage 11 7 17 4 Object value enable object Options Normal Inverse Normal If an On telegram value 1 is received via communication object Sx enable local switchover of operating modes is possible An Off telegram value 0 deactivates t...

Page 273: ...tivated No telegram is sent via object Sx comfort operating mode at the press of the operating mode switchover button Activated A telegram is sent via object Sx comfort operating mode at the press of the operating mode switchover button The telegram that is sent always has the inverted value of the value sent last This means that 0 or 1 is sent toggle mode alternately via object Sx comfort operati...

Page 274: ...te The parameter can only be set if the Object type for output parameter is set on 1 bit and the Operating mode parameter is set on Standby or ECO 11 7 17 8 Send frost object Options Deactivated Activated Deactivated No telegram is sent via object Sx frost operating mode at the press of the operating mode switchover button Activated A telegram is sent via object Sx frost operating mode at the pres...

Page 275: ...nction Notice The parameters for application 2 button RTC function internal can be called up via general parameters 11 7 18 1 Rocker switch function Options Setpoint adjustment Fan speed level adjustment This parameter is used to assign the 2 button RTC function internal the setpoint adjustment or the fan speed level adjustment 11 7 18 2 Rocker configuration Options Left right Left right The 2 but...

Page 276: ...er via the application with a press of the button 1 button RTC function internal Notice The parameters for application 1 button RTC function internal can be called up via general parameters 11 7 19 1 Button function Options On Off Comfort Eco Heating cooling Fan speed level The RTC settings occur on the same level as the normal button functions The parameters available for selection directly acces...

Page 277: ...function can be called up in each function block via general parameters and extended parameters Note The number S1 Sx of the object depends on the function block and the button number 11 7 20 1 Operating mode Options Status illumination Function illumination Status illumination The LED displays the device status with different colours Function illumination The LED displays the device functions wit...

Page 278: ...is stored in the Colour for On parameter If an OFF telegram is received via the object the LED lights up in the colour that is stored in the Colour for Off parameter The LED can also be switched off For selection 1 byte 0 100 the 1 byte object Sx status LED is available If a value telegram is received via the object the LED lights up in the colour that is set in the Colour for zone parameter The L...

Page 279: ...stable if the Day night mode parameter is set on deactivated 11 7 20 4 Colour for Off Options Off Yellow Red orange Red Violet Blue Green White Off The button LEDs are switched off Yellow white The button LEDs light up in the fixed colour at switching signal Off The parameter is used to specify the colour the button LED lights up in when the device receives an Off telegram via the 1 bit communicat...

Page 280: ...ow white The LED lights up in the fixed colour at switching signal On The parameter is used to specify the colour the button LED lights up in when the device receives an On telegram via the 1 bit communication object Lx status LED The default setting is red Note The parameter can only be set if the Operating mode parameter and is set on Status illumination and the Object type for status object par...

Page 281: ... Yellow white The LED lights up in the fixed colour at value telegrams for zone 1 The parameter is used to specify the colour the LED lights up in when a telegram with value 0 is received via the 1 byte communication object Lx status LED The default setting is green Note The parameter can only be set if the Operating mode parameter and is set on Status illumination and the Object type for status o...

Page 282: ...t setting is yellow The threshold value S1 is set via the parameter Threshold between Zone 2 and 3 Note The parameter can only be set if the Operating mode parameter and is set on Status illumination and the Object type for status object parameter is set on 1 byte 0 100 11 7 20 8 Threshold between Zone 2 and 3 Options Setting option from 1 to 98 The parameter is used to set the threshold value S1 ...

Page 283: ...lds S1 and S2 are specified via the parameters Threshold between zone 2 and 3 and Threshold between zone 3 and 4 Note The parameter can only be set if the Operating mode parameter and is set on Status illumination and the Object type for status object parameter is set on 1 byte 0 100 11 7 20 10 Threshold between Zone 3 and 4 Options Setting option from 2 to 99 The parameter is used to set the thre...

Page 284: ...e 4 The parameter is used to specify the colour the LED lights up in when a telegram with a value is received via the 1 byte communication object Lx status LED which meets the following conditions Value is S2 and Value is 99 The default setting is red orange The threshold value S2 is set via the parameter Threshold between Zone 3 and 4 Note The parameter can only be set if the Operating mode param...

Page 285: ...f Yellow white The LED lights up in the fixed colour at value telegrams for zone 5 The parameter is used to specify the colour the LED lights up in when a telegram with value 100 is received via the 1 byte communication object Lx status LED The default setting is red Note The parameter can only be set if the Operating mode parameter and is set on Status illumination and the Object type for status ...

Page 286: ...tched off Yellow white The LED lights up in the selected colour The parameter is used to specify the colour the associated function icon of the device lights up in The LED additionally serves for orientation this means that the buttons can be recognized in the dark Alternatively the LED can also be switched off such as when the device is in a sleeping area Note The parameter is only adjustable if ...

Page 287: ... switches a lamp group The LED of the button is set on Status illumination and a colour If the Lx day night mode object is additionally connected with the status response object of the switching actuator via a group address or action and the light is switched on the LED lights up bright When the light is switched off the LED lights up dark Note The parameter is available via the following settings...

Page 288: ... illumination If object Lx Day night mode is enabled the LED flashes either bright or dark Note The parameter is available via the following settings The parameter is set on Status illumination and Parameter Object type for status object is set on 1 bit and Parameter Colour for Off is set on a colour and not on Off and Parameter Colour for On is set on a colour and not on Off The parameter is avai...

Page 289: ... The alarm function can for example display a wind alarm or an open door when the user wants to lower a blind or a roller blind Note The parameter is available via the following settings The parameter is set on Status illumination and Parameter Object type for status object is set on 1 bit and Parameter Colour for Off is set on a colour and not on Off and Parameter Colour for On is set on a colour...

Page 290: ...ature sensor is the slave device and the RTC the master device Slave devices must be linked with the master device via the appropriately labelled communication objects The slave device operates the RTC functions of the master device Note The following parameters can only be adjusted when the function Temperature is set on Temperature sensor The parameters for Temperature can be called up via gener...

Page 291: ...lue from which the actual temperature is sent during the cycle time setting value x 0 1 Kelvin T Note The cycle time for sending the actual temperature starts anew after the actual temperature has been sent due to an exceeding of the set temperature difference Note The parameter is only adjustable if the Send measured value parameter is set on Cyclic and at value change 11 8 1 4 Offset of the temp...

Page 292: ... The offset adjusted via parameter Offset of the temperature sensor x 0 1 C is not overwritten Yes The set offset is overwritten with communication object TS actual temperature for temperature compensation With selection Yes an actual temperature value can be sent to the device without opening the ETS application which overwrites the parameterised offset ...

Page 293: ...ic via object GFx output Additional information Priority The telegrams received via communication object GFx switch input are transferred to object GFx output depending on the state of the GFx input priority object Additional information Logic gate The application is used to specify the logic gate the communication objects GFx input 1 GFx input 2 and GFx output are to be linked with Additional inf...

Page 294: ... each other with the application Additional information Light scene actuator With the application it is possible to call up scenes that are stored in the device via the receipt of a scene number on the 1 byte communication object GFx scene call up Additional information Note The following parameters can only be adjusted when the corresponding application see above is selected ...

Page 295: ...egram on object GFx input a telegram with the same content is sent cyclic via the application on the bus via object GFx output The object types for GFx input and GFx output can be collectively parameterised for the different applications The times for cyclic sending via GFx output object are adjustable An additional GFx enable object provides the option of temporarily blocking the function Note Th...

Page 296: ...lue is sent as 1 byte value without a sign Any value 0 255 2 byte float The value is sent as floating point value 671088 6 670760 9 e g temperature or moisture value 2 byte signed The value is sent as 2 byte value with a sign 32768 32767 e g time difference or percentage difference 2 byte unsigned The value is sent as 2 byte value without a sign 0 65535 e g time or brightness value 4 byte float Th...

Page 297: ...ication object GFx enable can be enabled with this parameter Note If the Enable object parameter is activated the following parameters can be set Object value enable object Enable object after return of voltage 11 9 2 5 Object value enable object Options Normal Inverse Normal If an Off telegram is received via the object GFx enable the function Cyclic telegram is blocked An On telegram deactivates...

Page 298: ...of bus voltage Note This parameter can only be set if the Enable object parameter is set on activated 11 9 2 7 Cyclic sending Options Always activated Activated at a specified value Activated except at a specified value Always activated Telegrams that are received on object GFx input are transferred directly to object GFx output and there sent cyclic Activated at a specified value This value is se...

Page 299: ...64 to 670760 96 Options for selection 2 byte signed Options Setting option from 32768 to 32767 Options for selection 2 byte unsigned Options Setting option from 0 to 65535 Options for selection 2 byte temperature Options Setting option from 273 to 500 Options for selection 4 byte float Options Setting option from 4000000 to 4000000 Options for selection 4 byte signed Options Setting option from 21...

Page 300: ...t has no meaning The GFx output object is switched on positively driven and has the value 1 GFx priority input has the value 2 The value that is present on GFx switch input has no meaning The GFx output object is switched off positively driven and has the value 0 GFx priority input has the value 1 or 0 The GFx output object is not positively driven The GFx switch input is linked to the status bit ...

Page 301: ...At the receipt of new telegrams at the inputs they are switched according to the selected function The inputs can also be individually inverted The result determined from the inputs is sent via the output object The default value that is to be sent at a positive result can be adjusted Note The parameters for application Logic gate can be called via general parameters parameter input x and output p...

Page 302: ... objects are to be linked with 11 9 4 3 Number of input objects Options Setting option from 1 to 10 The parameter is used to set the number of input objects that are to be linked in the logic function Note If the parameter is set on 1 the logic function parameter is specified on NOT 11 9 4 4 Object type input x Options 1 bit 1 byte 1 bit The input object can take on value 0 or 1 1 byte The input o...

Page 303: ...he logical value 1 The parameter is used to specify the value the input is to have after initial commissioning and after the return of voltage Thus no undefined states can arise 11 9 4 6 Logic input x Options Normal Inverse Normal The input signal of the channel is not inverted Inverse The input signal of the channel is inverted The parameter is used to invert the input signal of the channel Note ...

Page 304: ...for the output object 11 9 4 8 Send output object Options With each input telegram With a change of the output object With each input telegram When a telegram is received via the input object the communication object always sends the value of the output object on the bus This also happens if the value of the output object has not changed With a change of the output object The communication object ...

Page 305: ... True 0 When a logic has been met value 0 is present at communication object GFx output True 1 When a logic has been met value 1 is present at communication object GFx output The parameter is used to specify the value that is sent via the 1 bit communication object GFx output when a condition true has been met Note The parameter can only be set if the Object type output parameter is set on 1 bit a...

Page 306: ...1 Untrue 0 When a logic has not been met value 0 is present at communication object GFx output Untrue 1 When a logic has not been met value 1 is present at communication object GFx output The parameter is used to specify the value that is sent via the 1 bit communication object GFx output when a condition untrue has been not been met Note The parameter can only be set if the Object type output par...

Page 307: ...tput or also from Output to input provided the control input allows this Enabling via the control input can take place via an On telegram or an Off telegram If for example the Control input setting is set on ON telegram only telegrams from the input are transmitted to the output The condition is that the control input has received an On telegram It is also possible to block signals via the Filter ...

Page 308: ...g travel up or down 1 bit stop adjust The value is sent as 1 bit switching commands e g travel stop adjust slats 2 bit priority The value is sent as 2 bit switching commands with priority 4 bit relative dimming The value is sent as 4 bit brightness step 1 byte 0 100 The value is sent as 1 byte value without a sign percentage value 0 0 255 100 1 byte 0 255 The value is sent as 1 byte value without ...

Page 309: ...e bit size can be freely allocated This means that the first internal or external group address or action that is assigned and already connected to an other communication object will specify the size The set option fixes the bit size of the input and output object 11 9 5 3 Filter function Options Deactivated On filter out Off filter out Deactivated No telegrams are filtered out On filter out On te...

Page 310: ...rections Telegrams are transferred in both directions The parameter is used to specify the direction in which the signal is to be transferred 11 9 5 5 Enable object Options Deactivated Activated Deactivated Object GFx control input is not enabled Activated Object GFx control input is enabled The function can be temporarily blocked via object Sx control input The 1 bit communication object GFx cont...

Page 311: ...function Gate is blocked temporarily at the receipt of an On or Off telegram Note This parameter can only be set if the Enable object parameter is set on activated 11 9 5 7 Enable object after return of voltage Options Blocked Enabled Blocked The enable object is not activated after bus voltage recovery The blocking function is deactivated Enabled If the enable object was activated prior to bus vo...

Page 312: ... phase The parameter is used to specify whether input signals are saved during the blocking phase The further behaviour depends on the setting of the Data flow direction parameter For example Data flow direction Input towards the output If the setting activated has been selected the output sends its value after the blocking phase if a telegram has been received on the input during the blocking pha...

Page 313: ...te object GFx switch off prewarning time 2 byte object GFx output The objects GFx input and GFx output can take on size 1 bit or 1 byte depending on the object type selected Note The parameters for application staircase lighting can be called up via general parameters and extended parameters Note The number of the object GF1 GFx depends on the channel used 11 9 6 1 Channel name Entry Name The para...

Page 314: ...legram 1 bit Two 1 byte objects for input and output When a value telegram is received via the GFx input object an adjustable switch off delay is started At the same time a telegram with the same value of the telegram 1 byte received on the input is sent via object GFx output After expiration of the switch off delay the GFx output object sends a telegram with value 0 1 byte The parameter is used t...

Page 315: ...delay for movement detectors This always resets the switch off delay as long as movement is detected If telegrams with different values are received during the retriggering phase only the last value received is always sent via the GFx output object after expiration of the delay time 11 9 6 5 Switch off pre warning Options Deactivated Activated Deactivated The staircase lighting goes out without fl...

Page 316: ...laced by the original output value after approximately one second Note This parameter can only be set if the Object type number parameter is set on Two 1 byte objects for input and output and parameter Switch off prewarning is set on activated 11 9 6 8 Overwrite switch off delay and switch off prewarning time during download Options Deactivated Activated Deactivated The switch off delay and switch...

Page 317: ...bjects GFx input and GFx output can take on different sizes 1 bit 4 byte depending on the object type selected The bit sizes of objects GFx input and GFx output can be collectively adjusted for the different applications Note The parameters for application Delay can be called up via general parameters and extended parameters Note The number of the object GF1 GFx depends on the channel used 11 9 7 ...

Page 318: ...ntage value 0 0 255 100 1 byte 0 255 The value is sent as 1 byte value without a sign Any value 0 255 2 byte float The value is sent as floating point value 671088 6 670760 9 e g temperature or moisture value 2 byte signed The value is sent as 2 byte value with a sign 32768 32767 e g time difference or percentage difference 2 byte unsigned The value is sent as 2 byte value without a sign 0 65535 e...

Page 319: ... restarted when a telegram is received via the GFx input object The parameter is used to specify whether the switch off delay is restarted when a further telegram is received via object GFx input This behaviour is called retriggering For example a retriggering makes sense for a switch off delay for movement detectors This always resets the switch off delay as long as movement is detected If telegr...

Page 320: ...d Filter value is sent direct others are sent delayed Only the filter value is sent direct All other values are sent delayed Filter value is suppressed other are delayed Only the filter value is blocked All other values are sent delayed The parameter can be used to specify a condition for the sending of filter values compared to all other values Note The parameter is only adjustable if the Filter ...

Page 321: ...ons for selection 4 byte float Options Setting option from 4000000 to 4000000 Options for selection 4 byte signed Options Setting option from 2147483648 to 2147483647 Options for selection 4 byte unsigned Options Setting option from 0 to 4294967295 The value that is to be specifically observed is specified via the parameter The bit size depends on parameter Object type The connected Filter functio...

Page 322: ...ivated The delay time will be overwritten when the device is reprogrammed A telegram with a new delay time s can be received via the 2 byte communication object GFx delay time The received 2 byte value is written to the memory of the device and is retained even after a power failure The parameter is used to specify whether the received storage value is to be retained for a reprogramming of the dev...

Page 323: ...x output can be collectively adjusted for the different applications The application can send either the largest input value the smallest input value or the average of all input values via the output object The values are sent either at each input assignment or when the output object is changed Note The parameters for application Min max value transducer can be called up via general parameters Not...

Page 324: ...s sent as 2 byte value with a sign 32768 32767 e g time difference or percentage difference 2 byte unsigned The value is sent as 2 byte value without a sign 0 65535 e g time or brightness value 4 byte float The value is sent as 4 byte floating point value physical values e g luminosity electric power pressure 4 byte signed The value is sent as 4 byte value with a sign 2147483648 2147483647 e g cou...

Page 325: ... 8 5 Output object Options Adopts the largest value of the inputs Adopts the smallest value of the inputs Adopts the average value of the inputs Adopts the largest value of the inputs The largest value of all input telegrams is sent via the output object Adopts the smallest value of the inputs The smallest value of all input telegrams is sent via the output object Adopts the average value of the i...

Page 326: ...For triggering different actuators the size of objects GFx actuator group x can be set via parameter Object type actuator group The user has the option of saving the scenes A corresponding save telegram must be received for this Note The parameters for the Light scene actuator application can be called up via general parameters configuration of actuator objects and configuration of scene x Note Th...

Page 327: ...t consecutively via communication objects GFx actuator group x The sequence is strictly specified First the telegram of actuator group A is sent out then the telegram of actuator group B etc The parameter is used to set the delay time between the individual telegrams 11 9 9 5 Overwrite scenes at download Options Deactivated Activated Deactivated The scene values saved by the user remain in the dev...

Page 328: ...led blocked true untrue 1 bit blind The value is sent as 1 bit switching commands e g travel up or down 1 byte 0 100 The value is sent as 1 byte value without a sign percentage value 0 0 255 100 Temperature The value is sent as 2 byte floating point value 671088 6 670760 9 The parameter is used to set the bit size of communication object GFx actuator group x for different applications 11 9 9 7 Sce...

Page 329: ...et for the communication objects of the connected actuators these will send their current values to the device via an answer telegram The values are stored in the memory and overwrite the previous values These are also not lost in the event of a power failure 11 9 9 9 Actuator group x Options Deactivated Activated Deactivated The value of actuator group x is not sent at the call up of the scene Ac...

Page 330: ...on 1 bit switching 11 9 9 12 Value Options Up Down Adjustable options when parameter Object type actuator group x is set on 1 bit blind 11 9 9 13 Value Options Setting option from 0 to 100 Setting option if parameter Object type actuator group x is set on 1 byte 0 100 11 9 9 14 Temperature Options Setting option from 33 5 to 93 5 Setting option if parameter Object type actuator group x is set on T...

Page 331: ...ject 12 1 3 DS Date Name Object function Data type DS Date Input 11 001 Date The date for showing in the display is received via the 3 byte communication object 12 1 4 DS CO2 value Name Object function Data type DS CO2 value Input 7 2 byte floating point value The CO2 value for showing in the display is received via the 2 byte communication object The parameter CO2 value above must be set on Commu...

Page 332: ... night The parameter Display backlighting white must be set on Via communication object day night 12 1 7 DS Display backlighting red Name Object function Data type DS Display backlighting Input 1 001 Switching If a telegram with value 1 is received via the 1 bit communication object the device changes into red display backlighting if parameterized The parameter Display backlighting red must be set...

Page 333: ... the LEDs light up continuously 12 1 10 LED Day Night mode Name Object function Data type LED Day Night mode Input 1 001 Switching The 1 bit communication object is used to switch the illumination of the buttons bright or dark for which the parameter Consider day night function has been set on Yes If a telegram with value 1 is received the LEDs of the buttons light up bright day mode If a telegram...

Page 334: ...object the functions of the buttons can be blocked or enabled 12 1 12 EF Automatic switchover time Name Object function Data type EF Automatic switchover time Input 7 005 Time s The 2 byte communication object is used to receive a telegram with the set switchover time Depending on the respective setting the device is automatically blocked or enabled after the switchover time has expired ...

Page 335: ...KA001473B9679 335 12 1 13 HB In operation Name Object function Data type HB In operation Output 1 001 Switching The device sends a telegram to the bus via the 1 bit communication object to signal its readiness for operation This signal can be used for monitoring ...

Page 336: ... 336 12 1 14 PF Switching Name Object function Data type PF Switching Output 1 001 Switching 5 001 Percentage value 18 001 Light scene 20 102 HVAC mode At an active primary function the device sends the set value via the communication object after the actuation of any button ...

Page 337: ... The 1 bit communication object is used to operate a switching actuating drive e g a thermoelectric actuating drive that is controlled by a switching heating actuator The 1 byte communication object is used to control an actuating drive with a continuous input value 0 100 e g an electromotive actuating drive Notice The additional stage can also be used as a parallel second heating stage To do this...

Page 338: ...1 001 Switching If a telegram with value 0 is received the controller switches to Off mode and regulates the temperature to the setpoint value for frost heat protection When the controller is switched on again the remaining operating mode communication objects are queried in order to determine the new operating mode If the control of the temperature is switched on or off the new status is signalle...

Page 339: ...e 2 byte communication object Notice An external temperature measurement for room temperature control may be practical for larger rooms and or floor heating 12 1 23 RTC Fault of actual temperature Name Object function Data type RTC Fault of actual temperature Output 1 001 Switching RTC Fault of actual temperature Master Output 1 001 Switching RTC Fault of actual temperature Slave Output 1 001 Swit...

Page 340: ... HVAC mode RTC Normal operating mode Slave On 20 102 HVAC mode The value for the switchover of the operating mode is received via the 1 byte communication object Meaning of values 1 Comfort 2 Standby 3 Economy 4 Building protection In addition to manual setpoint adjustment and the adjustment of the basic setpoint value the setpoint temperature of the controller is defined by the following communic...

Page 341: ...ort 2 Standby 3 Economy 4 Building protection In addition to manual setpoint adjustment and the adjustment of the basic setpoint value the setpoint temperature of the controller is defined by the following communication objects listed in decreasing order of priority RTC Override operating mode RTC Condensate water alarm RTC Dew point alarm RTC Window contact RTC Control On Off RTC Presence detecto...

Page 342: ...set on the setpoint value for frost heat protection by the message Window open In addition to manual setpoint adjustment and the adjustment of the basic setpoint value the setpoint temperature of the controller is defined by the following communication objects listed in decreasing order of priority RTC Override operating mode RTC Condensate water alarm RTC Dew point alarm RTC Window contact RTC Co...

Page 343: ...RTC Dew point alarm RTC Window contact RTC Control On Off RTC Presence detector RTC Normal operating mode Notice When the master slave operation is activated the object RTC Presence detector master slave of the master and slave device must be connected with the group address of the sending device 12 1 29 RTC Heating status Name Object function Data type RTC Heating status Output 1 001 Switching An...

Page 344: ...ver Name Object function Data type RTC Heating cooling switchover 1 Output 1 001 Switching 2 Input 3 Input output 1 Automatic When the switchover between heating and cooling is carried out automatically by the RTC the current status is sent o the bus via the communication object Here the status Heating has value 1 and status cooling has value 0 2 Only via object The switchover between heating and ...

Page 345: ...an coil regulator heating Notice When the master slave operation is activated the object RTC Fan manual master of the master device must be connected with object RTC Fan manual slave of the slave device 12 1 34 RTC Fan speed level heating Name Object function Data type RTC Fan speed level Output 5 001 Percent 0 100 6 010 Counter value RTC Fan speed level master Output 5 001 Percent 0 100 6 010 Cou...

Page 346: ...level x is activated value 1 is sent Value 0 is sent when the fan speed level 1 5 is deactivated If a fain coil regulator is set for both operating modes of heating and cooling and an own generating device is set for both operating modes this communication object then operates jointly with fan coil regulator heating 12 1 37 RTC Basic setpoint Name Object function Data type RTC Basic setpoint Input...

Page 347: ...eached which prevents the condensate collection container from overflowing This protective mechanism is only active in the cooling mode It remains in place until it is cancelled by the value 0 When an alarm is active manual operation of the controller is blocked The information is displayed by a corresponding icon on the device Notice When the master slave operation is activated the object RTC Con...

Page 348: ...2 1 43 RTC Temperature calibration Name Object function Data type RTC Temperature calibration Input 9 001 Temperature value 9 002 Differential temperature value The temperature measured locally in the device can be calibrated via the 2 byte temperature value It can be set whether the calibration is performed as new temperature value or as differential value to the currently measured temperature 12...

Page 349: ...h object RTC Setpoint display slave of the slave device 12 1 46 RTC Request setpoint master Name Object function Data type RTC Request set value master Input 9 001 Temperature value 9 002 Differential temperature value 6 010 Counter value RTC Request set value slave Output 9 001 Temperature value 9 002 Differential temperature value 6 010 Counter value The communication object is used to transmit ...

Page 350: ...g point for a further setpoint adjustment Notice When the master slave operation is activated the object RTC Confirm setpoint master of the master device for synchronisation must be connected with object RTC Confirm setpoint slave of the slave device 12 1 48 RTC Heating cooling request Name Object function Data type RTC Heating cooling request Master Input 1 100 Heating Cooling RTC Heating cooling...

Page 351: ... type RTC Request fan speed level Master Input 5 001 Percentage value 6 010 Counter value RTC Request fan speed level Slave Output 5 001 Percentage value 6 010 Counter value The communication object is used to transmit the request of a fan speed level via the button operation of a slave device to the master device The values can be transmitted as percentage values or counter values Notice When the...

Page 352: ...eter then the heat alarm bit is set If the temperature drops below its setting the bit is reset Error If the actual temperature cannot be received the error bit is set 12 1 53 RTC Controller status HVAC Name Object function Data type RTC Controller status HVAC Output 5 xxx HVAC status RTC Controller status HVAC master Output 5 xxx HVAC status RTC Controller status HVAC slave Input 5 xxx HVAC statu...

Page 353: ... device If the option has not been set the value parameterized with the ETS becomes active again after a restart of the device 12 1 56 RTC Cooling setpoint economy Name Object function Data type RTC Cooling setpoint economy Input 9 001 Temperature value The RTC receives a setpoint cooling economy as absolute temperature value via the communication object which replaces the parameterized value When...

Page 354: ... device If the option has not been set the value parameterized with the ETS becomes active again after a restart of the device 12 1 60 RTC Cooling setpoint economy Name Object function Data type RTC Cooling setpoint economy Input 9 001 Temperature value The RTC receives a setpoint cooling economy as absolute temperature value via the communication object which replaces the parameterized value When...

Page 355: ... Temperature value The communication object receives the measured temperature value for the limit temperature of the basic heating stage If for example the basic heating stage controls the floor heating then the floor temperature is received via this communication object If the temperature received exceeds the limit value the control value is set on zero 12 1 64 RTC Limit temperature additional he...

Page 356: ...l actuator cooling via the communication object The parameter can be used to set whether the fan speed level is sent only in manual or also in automatic mode A counter value or a percentage value can be set as data format If a fain coil regulator is set for both operating modes of heating and cooling and an own generating device is set for both operating modes this communication object then operat...

Page 357: ...ng 12 1 71 RTC Current HVAC operating mode Name Object function Data type RTC Current HVAC operating mode Output 20 102 HVAC mode The RTC uses this communication object to send the operating mode that belongs to the currently set setpoint temperature RTC operating mode Current HVAC operating mode Error Building protection Comfort override operating mode Comfort Standby override operating mode Stan...

Page 358: ...t CO2 value Name Object function Data type CO2 Request CO2 value Input 1 017 Trigger If the external value is not to be sent cyclically or if the device is being reset the external value is requested via this object 12 1 75 CO2 Sensor error Name Object function Data type CO2 Sensor error Output 1 001 Switching If a sensor defect occurs or no current value is available to the KNX bus a telegram wit...

Page 359: ...unction Data type CO2 Threshold 3 Output 5 001 Percent 0 100 The value sent via the object is parameterized in the application This parameterized value is sent to the KNX bus after the threshold is exceeded 12 1 80 CO2 CO2 setpoint Name Object function Data type CO2 CO2 setpoint Output 9 2 byte floating point value Another basic set value can be specified for the device via the object Once a new v...

Page 360: ...g device 12 1 84 RH Request humidity value Name Object function Data type RH Request humidity value Input 1 017 Trigger If the external value is not to be sent cyclically or if the device is being reset the external value is requested via this object 12 1 85 RH Sensor error Name Object function Data type RH Sensor error Output 1 001 Switching If a sensor defect occurs or no current value is availa...

Page 361: ...H Threshold 3 Output 1 001 Switching The value sent via the object is parameterized in the application This parameterized value is sent to the KNX bus after the threshold is exceeded 12 1 90 RH Relative humidity setpoint Name Object function Data type RH Relative humidity setpoint Output 9 2 byte floating point value Another basic set value can be specified for the device via the object Once a new...

Page 362: ...tion Data type SX Switching Input output 1 001 Switching A switching telegram is received or sent via the 1 bit communication object 12 1 93 1 button dimming Relative dimming Name Object function Data type SX Relative dimming Output 3 007 Dimmer step A dimming telegram is sent on the bus via the 3 bit communication object 12 1 94 1 button blind Moving Position Name Object function Data type xx Sx ...

Page 363: ... short operation Name Object function Data type Sx Reaction at short operation Input output 1 001 Switching Sx Reaction at short operation Operation Input output 5 001 Percent 0 100 A telegram is sent or received via the communication object with brief press of the button Which telegrams is sent depends on the setting of the parameters The bit size of the object is specified via the Object type pa...

Page 364: ...e bit size of the object is specified via the Object type parameter 12 1 99 1 button value transmitter 2 objects Switching rising edge Name Object function Data type Sx Switching rising edge Input output 1 001 Switching Sx Switching rising edge Input output 5 001 Percent 0 100 Sx Switching rising edge Input output 5 010 counting pulses 0 255 Sx Switching rising edge Input output 9 2 byte Floating ...

Page 365: ...t output 8 001 Pulse difference Sx Switching falling edge Input output 7 001 Pulses Sx Switching falling edge Input output 14 4 byte Floating point value Sx Switching falling edge Input output 13 001 Counting pulse signed Sx Switching falling edge Input output 12 001 Counting pulse unsigned A switching or value telegram is received or sent via the communication object The bit size of the object is...

Page 366: ...ram is received or sent via the communication object The bit size of the object is specified via the Object type for object 0 parameter 12 1 103 1 button multiple operation Switching x actuations Name Object function Data type Sx Switching x actuations Input output 1 001 Switching Sx Switching x actuations Input output 5 001 Percent 0 100 Sx Switching x actuations Input output 5 010 Counting pulse...

Page 367: ...can be temporarily blocked or enabled via the 1 bit communication object 12 1 106 1 button operating mode Adjust RTC Operating mode Name Object function Data type Sx Operating mode Output 20 102 HVAC mode The value for the switchover of operating mode is sent via the 1 byte communication object Meaning of values 0 Auto 1 Comfort 2 Standby 3 Night 4 Frost heat protection 12 1 107 1 button operating...

Page 368: ...e inverted value of the value sent last This means that 0 or 1 is sent toggle mode alternately via the object at each press of the button 12 1 109 1 button operating mode Adjust RTC Frost operating mode Name Object function Data type Sx Frost operating mode Output 1 001 Switching The frost operating mode is sent to the bus via the 1 bit communication object The telegram that is sent always has the...

Page 369: ...ming Switching Name Object function Data type SX Switching Input output 1 001 Switching A switching telegram for a button pair is received or sent via the 1 bit communication object 12 1 112 2 button dimming Relative dimming Name Object function Data type SX Relative dimming Output 3 007 Dimmer step A dimming telegram for a button pair is sent on the bus via the 3 bit communication object 12 1 113...

Page 370: ...010 counting pulses 0 255 Sx Value switching Input output 9 2 byte Floating point value Sx Value switching Input output 8 001 Pulse difference Sx Value switching Input output 7 001 Pulses Sx Value switching Input output 14 4 byte Floating point value Sx Value switching Input output 13 001 Counting pulse signed Sx Value switching Input output 12 001 Counting pulse unsigned A switching or value tele...

Page 371: ...ct manual 2CKA001473B9679 371 12 1 117 2 button step switch Switching step x Name Object function Data type Sx Switching step x Input output 1 001 Switching A switching telegram for a button pair is received or sent via the 1 bit communication object ...

Page 372: ...or Off The 1 byte communication object is used to receive value telegrams for the button LED The parameter specifies the colour in which the LED lights up for the values received The bit size of the object is specified via the Object type for status object parameter 12 1 119 LED function Scene storage Name Object function Data type Lx Scene storage Input 18 001 Scenes Control A value telegram for ...

Page 373: ...f the internal temperature sensor can be sent on the bus via the 2 byte communication object 12 1 121 Temperature sensor Actual temperature for temperature adjustment Name Object function Data type TS Actual temperature for temperature adjustment Input 9 2 byte Floating point value The actual temperature of an external temperature sensor that overwrites the parameterised offset can be received via...

Page 374: ...ation object 12 1 123 Priority Switching input Name Object function Data type GFx Switching input Input 1 001 Switching The switching telegrams received via the 1 bit communication object are transmitted to object GFx Output depending on the state of the GFx Priority input object 12 1 124 Priority Input priority Name Object function Data type GFx Input priority Input 2 001 Switching priority The v...

Page 375: ...ion object The value that is to be sent for a logic function that was fulfilled or not fulfilled is adjustable The bit size of the object is specified via the Object type output parameter 12 1 127 Logic gate Input Name Object function Data type GFx Input x Input 1 001 Switching GFx Input x Input 5 001 Percent 0 100 The values received via the communication objects are linked via the logic gate The...

Page 376: ...10 Counting pulses 0 255 GFx Input Input 9 2 byte Floating point value GFx Input Input 8 001 Pulse difference GFx Input Input 7 001 Pulses GFx Input Input 10 001 Daytime GFx Input Input 11 001 Date GFx Input Input 14 4 byte Floating point value GFx Input Input 13 001 Counting pulse signed GFx Input Input 12 001 Counting pulse unsigned The communication object is used to receive telegrams for contr...

Page 377: ...mmunication object is used to send telegrams for controlling gates and for display The object can take on different sizes The bit size is specified via the Object type parameter 12 1 130 Staircase lighting Input Name Object function Data type GFx Input Input 1 001 Switching GFx Input_Output Input output 1 001 Switching GFx Input Input 5 001 Percent 0 100 The 1 bit communication object can be used ...

Page 378: ...x Switch off pre warning time is used to receive telegrams with the set time for switch off pre warning The received values are written to the memory of the device and are retained also after a power failure 12 1 133 Staircase lighting Output Name Object function Data type GFx Output Output 1 001 Switching GFx Output Output 5 001 Percent 0 100 The 1 bit communication object is used to send On and ...

Page 379: ...n that is triggered depends on the application selected The bit size of the object is specified via the Object type parameter 12 1 135 Delay Output Name Object function Data type GFx Output Output 1 001 Switching GFx Output Output 1 008 Up Down GFx Output Output 5 001 Percent 0 100 GFx Output Output 5 010 counting pulses 0 255 GFx Output Output 9 2 byte Floating point value GFx Output Output 8 001...

Page 380: ...er Output Name Object function Data type GFx Output Output 5 001 Percent 0 100 GFx Output Output 5 010 counting pulses 0 255 GFx Output Output 9 2 byte Floating point value GFx Output Output 8 001 Pulse difference GFx Output Output 7 001 Pulses GFx Output Output 14 4 byte Floating point value GFx Output Output 13 001 Counting pulse signed GFx Output Output 12 001 Counting pulse unsigned The commun...

Page 381: ... type parameter 12 1 139 Light scene actuator Scene call up Name Object function Data type GFx Scene call up Input 18 001 Scene control The 1 byte communication object is used to receive scene numbers that are stored in the device 12 1 140 Light scene actuator Actuator group x Name Object function Data typee GFx Actuator group x Input output 18 001 Scenes Control GFx Actuator group x Input output ...

Page 382: ...Notes Product manual 2CKA001473B9679 382 13 Notes ...

Page 383: ...ditional heating stage 102 Additional heating stage Control value for sending of heating control value 102 Additional heating stage Cyclic sending of the control value min 103 Additional heating stage Hysteresis x 0 1 C 102 Additional heating stage Maximum control value 0 255 103 Additional heating stage Minimum control value for basic load 0 255 103 Additional heating stage Mode of control value ...

Page 384: ...trical 158 CO2 controller Permit change of the basic set value via bus 155 CO2 controller Send control value at change 157 CO2 controller Send control value at switchover 156 CO2 controller Send control value cyclic 158 CO2 sensor Height of mounting location above normal height zero 151 CO2 sensor CO2 error 152 CO2 sensor External measured value 153 CO2 sensor Measured value correction 151 CO2 sen...

Page 385: ...w point alarm Switch command for dew point alarm 204 Dew point alarm Telegram type for dew point alarm 204 Dew point alarm Value at the end of the dew point alarm 0 255 205 Dew point alarm Value for dew point alarm 0 255 205 Dew point temperature Dew point sensor 201 Differentiating the application program 50 Dimensional drawings 32 Dimming function 216 Dimming stop telegram 218 dismantling 36 Dis...

Page 386: ...ation 68 LED Alarm 333 LED Day Night mode 333 LED brightness during alarm 71 LED colour during alarm 72 LED colour in a blocked state 68 LED function Scene storage 372 LED function Status LED 372 Light scene actuator Actuator group x 381 Light scene actuator Scene call up 381 Light scene memory function 249 288 Logic gate Input 375 Logic gate Output 375 Logic input x 303 Logical function 302 M Mai...

Page 387: ...0 RH Request humidity value 360 RH Sensor error 360 RH Threshold 1 361 RH Threshold 2 361 RH Threshold 3 361 Rocker configuration 275 Rocker switch function 275 RTC Delay time for read telegrams after reset 91 Device function 87 Heating control 93 Limit temperature basic heating stage 355 Object 92 RTC Actual temperature 338 RTC Basic load 344 RTC Basic setpoint 346 RTC Condensate water alarm 347 ...

Page 388: ...tings Send current setpoint 124 Setpoint settings Setpoint adjustment via communication object DPT 9 001 124 Setpoint settings Setpoint for heating comfort setpoint for cooling comfort 119 Setpoint settings Setpoint temperature for cooling comfort C 122 Setpoint settings Set point temperature for frost protection C 122 Setpoint settings Set point temperature for heat protection C 123 Setpoint sett...

Page 389: ... 140 Temperature limit of additional heating stage 138 Temperature limit of additional heating stage Hysteresis 138 Temperature limit of additional heating stage Integral component of the PI controller 138 Temperature limit of cooling 138 Temperature limit of cooling Limit temperature 139 Temperature limit of heating Hysteresis 136 Temperature limit of heating Integral component of the PI controll...

Page 390: ...lats position down 225 230 Value for switch off prewarning 316 Value of the output object for logic true 305 Value of the output object for logic untrue 306 Value x for long operation 267 Value x for short operation 266 W Working mode of the buttons 224 233 247 251 Working mode of the buttons for dimming 217 221 Working mode of the buttons for switching 210 217 221 ...

Page 391: ...ntents of this document without prior notice The detailed specifications agreed upon apply for orders ABB accepts no responsibility for possible errors or incompleteness in this document We reserve all rights to this document and the topics and illustrations contained therein The document and its contents or extracts thereof must not be reproduced transmitted or reused by third parties without pri...

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