Related Manuals for elsner elektronik KNX AQS TH-B-UP
Summary of Contents for elsner elektronik KNX AQS TH-B-UP
- Page 1 KNX AQS/TH-B-UP Combined Indoor Sensor Item numbers 70239 (white), 70240 (aluminium-coloured), 70241 (anthracite) Installation and Adjustment...
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Page 2: Table Of Contents
Minimum coolant temperature threshold value ........38 Switching output ..................38 Elsner Elektronik GmbH • Sohlengrund 16 • 75395 Ostelsheim • Germany Sensor KNX AQS/TH-B-UP • from software version 3.1, ETS programme version 3.1 Version: 01.03.2017 • Technical changes and errors excepted. - Page 3 5.14.1. Pushbutton interface 1/2 ................51 5.14.2. Control modes for drive control ..............53 Elsner Elektronik GmbH • Sohlengrund 16 • 75395 Ostelsheim • Germany Sensor KNX AQS/TH-B-UP • from software version 3.1, ETS programme version 3.1 Version: 01.03.2017 • Technical changes and errors excepted.
- Page 4 Clarification of signs Installation, inspection, commissioning and troubleshooting of the device must only be carried out by a competent electrician. This manual is amended periodically and will be brought into line with new software releases. The change status (software version and date) can be found in the contents footer. If you have a device with a later software version, please check www.elsner-elektronik.de in the menu area "Service"...
- Page 5 Clarification of signs...
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Page 6: Description
Description Description The Sensor KNX AQS/TH-B-UP measures CO concentration, temperature and humidity and calculates the dew point. The sensor can receive external measured values via the bus and process them with the own data to overall values (mixed values, e. g. room average). The KNX AQS/TH-B-UP offers two push buttons that may be used for changing the ambient temperature (target value), for switching between operating modes or as free programmable bus push buttons. -
Page 7: Scope Of Delivery
Description Configuration is made using the KNX software ETS. The product file can be downloaded from the Elsner Elektronik website on www.elsner-elektronik.de in the “Service” menu. 1.0.1. Scope of delivery • Housing with display, buttons and sensor board • sensor unit •... -
Page 8: Accuracy Of The Measurement
Installation and commissioning Humidity measurement 0% RH …95% RH range Humidity resolution 0.1% Humidity accuracy ±7,5% RH at 0...10% RH ±4,5% RH at 10...90% RH ±7,5% RH at 90...95% RH Humidity drift ± 0.5% R.H. per year in normal air , page 7 * Mind the notes on Accuracy of the measurement The product conforms with the provisions of EU guidelines. -
Page 9: Installation Position
Elsner Elektronik is not liable for any changes in norms and standards which may occur after publication of these operating instructions. -
Page 10: Composition
Installation and commissioning 2.3. Composition 2.3.1. Housing Fig. 1 Base plate Catches Openings for air circulation Push button Programming LED (recessed) Programming button (recessed) for teaching device Push button Openings for air circulation (LOWER) 2.3.2. Rear view of sensor board with connections Fig. -
Page 11: Notes On Mounting And Commissioning
Display and operation at the device Place the CO sensor unit in the socket. The side with the sensor membrane must face to front. Fig. 3 Screw the base plate onto the socket and position the frame of the switching programme. - Page 12 Display and operation at the device Fig. 5 Mode display with scale display for adjusting the base target value. The control position in the image reads "Base target value reduced". Fig. 6 Mode display with scale display and number. Shows the set target value change. The control position in the image reads "Base target value reduced to 1.0°".
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Page 13: Change Ambient Temperature With The Buttons
Display and operation at the device Priority (points) Fig. 9 In "HVAC mode with 2x 8 bits" control mode, points are shown under the symbol, to indicate the running priority of the current mode. One point: Priority 1/priority control. It is not possible to adjust the temperature automation system manually. -
Page 14: Transfer Protocol
Transfer protocol Transfer protocol Units: Temperatures in degrees Celsius Air humidity in % Absolute air humidity in g/kg and/or g/m content in ppm Variables in % 4.1. List of all communications objects Abbreviation flags: Communication Read W Write Transfer U Update Name Function Flags... - Page 15 Transfer protocol Name Function Flags Temp. threshold value 2: Absolute Input/Output 9,001 C R W T value Temp. threshold value 2: (1:+ | 0:-) Input 1,002 Temp. threshold value 2: Input 7,005 Switching delay from 0 to 1 Temp. threshold value 2: Input 7,005 Switching delay from 1 to 0...
- Page 16 Transfer protocol Name Function Flags TR_1_ Target value, Standby cooling Input 1,002 (1:+ | 0:-) TR_1_ Target value, Eco heating Input/Output 9,001 C R W T TR_1_ Target value, Eco heating (1:+ | Input 1,002 0:-) TR_1_ Target value, Eco cooling Input/Output 9,001 C R W T...
- Page 17 Transfer protocol Name Function Flags Humidity threshold value 1: Switch- Output 1,001 C R T ing output Humidity threshold value 1: Switch- Input 1,002 ing output block Humidity threshold value 2: Absolute Input/Output 9,007 C R W T value Humidity threshold value 2: (1:+ | 0:-) Input 1,002 Humidity threshold value 2: Switch-...
- Page 18 Transfer protocol Name Function Flags Coolant temp.: Switching output Input 1,002 block Absolute humidity [g/kg] Output 14,005 C R T Absolute humidity [g/m³] Output 14,017 C R T Ambient climate status: 1 = comforta- Output 1,002 C R T ble | 0 = uncomfortable Outside CO2 reading Input 9,008...
- Page 19 Transfer protocol Name Function Flags CO2 threshold value 3: Switching out- Output 1,001 C R T CO2 threshold value 3: Switching out- Input 1,002 put block CO2 threshold value 4: Absolute Input/Output 9,008 C R W T value CO2 threshold value 4: (1:+ | 0:-) Input 1,002 CO2 threshold value 4: Switching...
- Page 20 Transfer protocol Name Function Flags Comparator 2 actuating variable: Input 5,010 Input 2 Comparator 2 actuating variable: Input 5,010 Input 3 Comparator 2 actuating variable: Input 5,010 Input 4 Comparator 2 actuating variable: Input 5,010 Input 5 Comparator 2 actuating variable: Out- Output 1,001 C R T...
- Page 21 Transfer protocol Name Function Flags AND logic 8: 1-bit switching output Output 1,002 C R T AND logic 8: 8-bit output A Output 5,010 C R T AND logic 8: 8-bit output B Output 5,010 C R T AND logic 8: Block Input 1,002 OR logic 1: 1-bit switching output...
- Page 22 Transfer protocol Name Function Flags Logic input 4 Input 1,002 Logic input 5 Input 1,002 Logic input 6 Input 1,002 Logic input 7 Input 1,002 Logic input 8 Input 1,002 Logic input 9 Input 1,002 Logic input 10 Input 1,002 Logic input 11 Input 1,002...
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Page 23: Parameter Setting
Parameter setting Parameter setting 5.1. Behaviour on power failure/ restoration of power Behaviour following a failure of the bus power supply: The device sends nothing. Behaviour on bus restoration of power and following programming or reset: The device sends all outputs according to their send behaviour set in the parameters with the delays established in the "General settings"... -
Page 24: Threshold Values: Temperature, Humidity, Co2
Parameter setting Ext. Reading proportion of the total reading 5% • 10% • ... • 50% • ... • 100% Send internal and total reading • never • periodically • On change • on change and periodically From change of Temperature: 0.1°C •... - Page 25 Parameter setting Threshold value setpoint using parameter: Set the threshold values and hysteresis directly. Threshold value setpoint using Parameter • Communications object Temperature: Threshold value in 0.1°C -300 … 800; 200 Humidity: Threshold value in % rH 0...100; 70 CO2: Threshold value in ppm 0...5000;...
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Page 26: Switching Output
Parameter setting Switching output Set the behaviour of the switching output when a threshold value is exceeded/under- cut. The output switching delay can be set using objects or directly as a parameter. When the following conditions apply, the • LV above = 1 |LV - hysteresis below = 0 output is •... -
Page 27: Temperature Pi Control
Parameter setting Switching output sends on change and Send switching output status periodically If switching output = 1 send 1 Switching output sends on change to 1 and periodically If switching output = 0 send 0 Switching output sends on change to 0 and periodically 5.5. - Page 28 Parameter setting Mode after reset • Comfort • Standby • Eco • Building protection Behaviour of the blocking object at value • 1 = block | 0 = release • 0 = block | 1 = release Blocking object value 0 •...
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Page 29: General Set Point Values
Parameter setting 5.5.1. General set point values You may enter separate set point values for each mode or use the comfort set point as a basic value. If you are using the controls for both heating and cooling, you may also select the set- ting "separately with switching object". -
Page 30: Set Point For Standby
Parameter setting Min. object value heating/cooling (in 0.1 -300…800; 160 °C) Max. object value heating/cooling (in 0.1 -300…800; 280 °C) If the comfort set point is used as the basis, a dead zone is determined for the control mode "heating and cooling" to avoid direct switching from heating to cooling. Dead zone between heating and cooling 1…100;... -
Page 31: Set Point Values For Frost/Heat Protection (Building Protection)
Parameter setting If the comfort set point value is used as a basis: If the comfort set point value is used as a basis, the deviation from this value is set. Reduce nominal heating value (in 0.1°C) 0…200; 50 for heating Increase nominal cooling value\r\n (in 0…200;... - Page 32 Parameter setting On level 2, the set point deviation between the two levels must furthermore be deter- mined, i. e. the lowest set point value from which the 2nd level is then added (when values exceed this set point). Set point difference between levels 1 and 2 0…100;...
- Page 33 Parameter setting Application • Warm water heating • Floor heating • Convection unit • Electric heating Maximum control variable is reached Warm water heating: 5 at set point/actual difference of (in °C) Floor heating: 5 Convection unit: 4 Electric heating: 4 Reset time (in min.) Warm water heating: 150 Floor heating: 240...
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Page 34: Cooling Control Level 1/2
Parameter setting 5.5.3. Cooling control level 1/2 If a cooling control mode is configured, one or two setting sections for the cooling lev- els are displayed. On the 1st level, cooling is controlled by a PI control which allows to either enter con- trol parameters or select predetermined applications. - Page 35 Parameter setting PI control with predetermined application: This setting provides fixed parameters for a cooling ceiling Control type • PI control Set control using • Controller parameter • provided applications Application • Cooling ceiling Maximum control variable is reached Cooling ceiling: 5 at set point/actual difference of (in °C) Reset time (in min.) Cooling ceiling: 30...
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Page 36: Humidity Pi Control
Parameter setting 5.6. Humidity PI control If you activate humidity control, you can use the following settings to define control type, target values, and humidification and dehumidification. Use Humidity control Yes • No General control Sensor KNX AQS/TH-B-UP can be used to control one- or two-stage dehumidifica- tion or combined humidification/dehumidification. -
Page 37: Dehumidification And/Or Humidification
Parameter setting Target value setting using parameter: Set the target value directly. Target value setpoint using Parameter • Communications object Target value in % 0 … 100; 70 In "Humidification and dehumidification" control mode, a dead zone is specified so that no direct changeover switching between humidification and dehumidification is possi- ble. -
Page 38: Dewpoint Temperature
Parameter setting For two-stage dehumidification, the target value difference between the two stages must be defined, i.e. at which target value undercut the 2nd stage is then switched to. Target value difference between stages 1 0...50; 15 and 2 in % (for stage 2 only) Determine the deviation from the target value at which the maximum variable value is reached, i.e. -
Page 39: Coolant Temperature Monitoring
Parameter setting 5.7.1. Coolant temperature monitoring A threshold value can be set for the temperature of the coolant, which is based on the current dewpoint temperature. The switching output of the coolant temperature mon- itoring system can provide a warning prior to any build-up of condensation in the sys- tem, and/or activate appropriate countermeasures. -
Page 40: Block
Parameter setting Switching output sends • on change • on change to 1 • on change to 0 • on change and periodically • on change to 1 and periodically • on change to 0 and periodically Send cycle 5 s • 10 s • 30 s… • 2 h (is only sent if "periodically"... -
Page 41: Comfort Field
Parameter setting Unit object 66: g/m³ Send behaviour • never • periodically • on change • on change and periodically From change of 0.1 g • 0.2 g • 0.5 g • 1.0 g • 2.0 g • 5.0 g (is only sent if "on change"... -
Page 42: General Control
Parameter setting General control The Sensor KNX AQS/TH-B-UP can be used to control one or two-stage ventilation. Type of control • One-stage ventilation • Two-stage ventilation Configure a block for the ventilation control using the blocking object. Behaviour of the blocking object with value •... -
Page 43: Ventilation Control
Parameter setting During initial commissioning, a target value must be provided which will be valid until the 1st communication of a new target value. For units which have already been taken into service, the last communicated target value can be used. Basically, an air humidity range is given in which the target value can be changed (object value limit). -
Page 44: Variable Comparator
Parameter setting Now determine what should be sent when the control is blocked. On release, the control variable follows the rule again. When blocked, the variable shall • not be sent • send a specific value Value 0 • 1 (if a value is sent for one 1-bit object) Value (in %) 0...100... -
Page 45: Logic
Parameter setting 5.12. Logic Activate the logic inputs and assign object values up to 1st communication. Then, ac- tivate the required logic outputs. Use logic inputs No • Yes Object value prior to 1. communication for: Logic input 1... 16 0 •... -
Page 46: Block
Parameter setting Send behaviour • on change of logic • on change of logic to 1 • on change of logic to 0 • on change of logic and periodically • on change of logic to 1 and periodically • on change of logic to 0 and periodically •... -
Page 47: And Logic Connection Inputs
Parameter setting 5.12.2. AND logic connection inputs do not use Logic input 1 Logic input 1 inverted Logic input 2 Logic input 2 inverted Logic input 3 Logic input 3 inverted Logic input 4 Logic input 4 inverted Logic input 5 Logic input 5 inverted Logic input 6 Logic input 6 inverted... -
Page 48: Connection Inputs Of The Or Logic
Parameter setting Temp. control status changeover switching object inverted Temp. control status heating 1 Temp. control status heating 1 inverted Temp. control status heating 2 Temp. control status heating 2 inverted Temp. control status cooling 1 Temp. control status cooling 1 inverted Temp. -
Page 49: Display Settings
Parameter setting AND logic output 3 AND logic output 3 inverted AND logic output 4 AND logic output 4 inverted AND logic output 5 AND logic output 5 inverted AND logic output 6 AND logic output 6 inverted AND logic output 7 AND logic output 7 inverted AND logic output 8 AND logic output 8 inverted... - Page 50 Parameter setting Temperature controller display when using No • Yes pushbutton (only possible if the pushbuttons are also set to "For temperature control") Type of temperature target value display • Current target value (only for active thermostat display) • Basic setpoint •...
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Page 51: Pushbutton
Parameter setting Use input objects No • Yes Selection for content • Do not display • Inside temperature • Outside temperature • Total temperature • Current thermostat target value • Dewpoint temperature • Inside relative humidity • Outside relative humidity •... -
Page 52: Pushbutton Interface 1/2
Parameter setting When used as a pushbutton interface, two further menus with settings options will ap- pear. 5.14.1. Pushbutton interface 1/2 Activate the pushbutton interfaces as desired. Pushbutton interface 1 is linked to the left-hand pushbutton, interface 2 to the right-hand button. Use pushbutton interface No •... - Page 53 Parameter setting Function Changeover switching Command when pressing the pushbutton • Changeover switching • Do not send message Command when releasing the pushbutton • Changeover switching • Do not send message Shutter, blind, awning or window control: if you want to actuate a drive using a pushbutton, select the "shutter", "awning", "blind", or "window"...
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Page 54: Control Modes For Drive Control
Parameter setting Bus function 8 bit encoder Value 0...255 16 bit encoder: If a fixed 16-bit value should be sent using the pushbutton, select the "16-bit encoder" function and define the value to be sent Bus function 16 bit encoder Value in 0.1 -6707600...6707600;... - Page 55 Parameter setting Comfort mode: In the comfort mode pushing the button briefly, a bit longer and long will trigger dif- ferent responses of the drive. The time intervals are set individually. By pushing the button (shorter than adjustable time 1) the drive will be positioned (resp.
- Page 56 Elsner Elektronik GmbH Control and Automation Technology Sohlengrund 16 75395 Ostelsheim Phone +49(0)70 33/ 30945-0 info@elsner-elektronik.de Germany +49 (0) 70 33/ 30945-20 www.elsner-elektronik.de Technical support: +49 (0) 70 33 / 30 945-250...
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