Related Manuals for Elsner KNX S4-B10 230 V
Summary of Contents for Elsner KNX S4-B10 230 V
- Page 1 KNX S4-B10 230 V KNX S2-B6 230 V KNX S1-B2 230 V Multifunctional Actuators Item numbers 70530 (KNX S4-B10 230 V), 70531 (KNX S2-B6 230 V), 70532 (KNX S1-B2 230 V) Installation and Ad justment...
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Page 3: Table Of Contents
4.3.2. Channel settings – switch functions ............65 4.3.2.1. Connection (switch functions) ............. 66 Elsner Elektronik GmbH • Sohlengrund 16 • 75395 Ostelsheim • Germany Actuator KNX S4 • from software version 4.00, ETS programme version 4.0 Status: 18.04.2017 • Technical changes and errors excepted. - Page 4 5.2. Output channel with switch function ..............74 5.2.1. Correlation connection – time switch – block ........... 74 Elsner Elektronik GmbH • Sohlengrund 16 • 75395 Ostelsheim • Germany Actuator KNX S4 • from software version 4.00, ETS programme version 4.0...
- Page 5 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" to find out whether a more up-to- date version of the manual is available.
- Page 6 Clarification of signs...
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Page 7: Description
Short time restriction (movement command blocked) and movement limitation Configuration is made using the KNX software ETS 5. The product file can be down- loaded from the Elsner Elektronik website on www.elsner-elektronik.de in the “Ser- vice” menu. Actuators KNX S4-B10, KNX S2-B6 and KNX S1-B2 230 V... -
Page 8: Scope Of Delivery
PEI type Goup addresses max. 1024 Assignments max. 1024 KNX S4-B10 230 V (No. 70530): Dimensions approx. 107 x 88 x 60 (W × H × D, mm), 6 dividing units Weight approx. 360 g Power consumption Operation max. approx. 3.5 W Standby max. -
Page 9: Installation And Start-Up
Installation and start-up Inputs 6 × binary inputs, universal voltage (6...80 V DC, 6...240 V AC) Communication objects KNX S1-B2 230 V (No. 70532): Dimensions approx. 53 x 88 x 60 (W × H × D, mm), 3 dividing units Weight approx. -
Page 10: Connection
Installation and start-up Elsner Elektronik is not liable for any changes in norms and standards which may occur after publication of these operating instructions. 2.2. Connection Follow the guidelines and standards for SELV electric circuits while installing and cable laying of the KNX connection and inputs. -
Page 11: Device Design Knx S4-B10 230 V
Installation and start-up 2.2.1. Device Design KNX S4-B10 230 V The device is designed for series installation on mounting rails and occupies 6 width units. 1) –/N (bridged internally with terminal No. 5). When an external auxiliary voltage is used (6...80 V DC, 6...240 V AC), one of the –/N terminals is to be assigned with –... -
Page 12: Device Design Knx S2-B6 230 V
Installation and start-up 2.2.2. Device Design KNX S2-B6 230 V The device is designed for series installation on mounting rails and occupies 6 width units. –/N (bridged internally with terminal No. 5). When an external auxiliary voltage is used (6...80 V DC, 6...240 V AC), one of the –/N terminals is to be assigned with – or N 2) Free contacts (bridged internally) 3) Programming LED and programming buttons (PRG) 4) Bus terminal slot (KNX +/-) -
Page 13: Device Design Knx S1-B2 230 V
Installation and start-up 2.2.3. Device Design KNX S1-B2 230 V The device is designed for series installation on mounting rails and occupies 3 width units. 1) Programming LED and programming but- tons (PRG) 2) Bus terminal slot (KNX +/-) 3) Switch pair Up/Down and LEDs 4) Mains LED (Power), mode status display. -
Page 14: Status Display By The Channel Leds
Installation and start-up 2.2.5. Status display by the channel LEDs Behaviour Drive in top end position/device on. bottom Drive in bottom end position/drive on. Flashes slowly Drive moves up. Flashes slowly bottom Drive moves down. Flashes Drive in top end position, blocking active. quickly Flashes bottom... -
Page 15: Connection Examples For Binary Inputs Knx S4-B10 And Knx S2-B6
Installation and start-up 2.4. Connection examples for binary inputs KNX S4-B10 and KNX S2-B6 2.4.1. Using the internal auxiliary voltage of the actuator Other binary inputs corresponding. 2.4.2. Using an external voltage B1 directly at the phase. B3 via internally bridged voltage. Other binary inputs corresponding. -
Page 16: Connecting Example For Binary Inputs Knx S1-B2 230 V
Installation and start-up 2.5. Connecting example for binary inputs KNX S1-B2 230 V 2.5.1. Using the internal auxiliary voltage of the actuator According to additional binary inputs. 2.5.2. Using an external auxiliary voltage B1 directly at the phase. According to additional binary inputs. External auxiliary voltage 6...80 V DC or 6...240 V AC Actuators KNX S4-B10, KNX S2-B6 and KNX S1-B2 230 V... -
Page 17: Transfer Protocol
Transfer protocol Transfer protocol 3.1. List of all communication objects Abbreviations: Read W Write Communication Transfer Name Function Flags Data Point Type Size Software version Readable R-C- [217.1] DPT_Version 2 Bytes Only KNX S4-B10 and KNX S2-B6 Input 1 long term Input / RWCT [1.8] DPT_UpDown... - Page 18 Transfer protocol Name Function Flags Data Point Type Size Input 2 blocking object Input RWC- [1.1] DPT_Switch 1 Bit All models Channel A status automatic Output R-CT [1] 1.xxx 1 Bit or manual Channel A manual long Input RWC- [1.8] DPT_UpDown 1 Bit term Channel A manual short...
- Page 19 Transfer protocol Name Function Flags Data Point Type Size Channel A call saving Input RWC- [18.1] 1 Byte scenes DPT_SceneControl Channel A outdoor Input RWC- [1.1] DPT_Switch 1 Bit temperature Blocking object Channel A outdoor Input RWC- [9.1] 2 Bytes temperature blocking DPT_Value_Temp measurement value...
- Page 20 Transfer protocol Name Function Flags Data Point Type Size Channel A shading position Input RWC- [1] 1.xxx 1 Bit Teaching object Channel A azimuth Input RWC- [9] 9.xxx 2 Bytes Channel A elevation Input RWC- [9] 9.xxx 2 Bytes Channel A cold air supply Input RWC- [1.1] DPT_Switch...
- Page 21 Transfer protocol Name Function Flags Data Point Type Size Channel A inside Output R-CT [1.1] DPT_Switch 1 Bit temperature opening status Channel A inside humidity Input RWC- [1.1] DPT_Switch 1 Bit opening object Channel A inside humidity Input RWC- [9.7] 2 Bytes opening DPT_Value_Humidit...
- Page 22 Transfer protocol Name Function Flags Data Point Type Size Channel A block 2 wind Input RWC- [9.5] 2 Bytes blocking object DPT_Value_Wsp Channel A block 2 wind Input R-CT [1.1] DPT_Switch 1 Bit blocking Measurement value Channel A block 2 wind Output RWC- [1.1] DPT_Switch...
- Page 23 Transfer protocol Name Function Flags Data Point Type Size Channel A - Short time Input RWC- [1.1] DPT_Switch 1 Bit restriction Channel A1 - switching Input RWC- [1.1] DPT_Switch 1 Bit Channel A1 - feedback Output R-CT [1.1] DPT_Switch 1 Bit Channel A1 - status Readable R-C-...
- Page 24 Transfer protocol Name Function Flags Data Point Type Size Channel B automatic long Input RWC- [1.8] DPT_UpDown 1 Bit term Channel B automatic short Input RWC- [1.8] DPT_UpDown 1 Bit term Channel B automatic Input RWC- [5.1] DPT_Scaling 1 Byte movement position Channel B automatic slat Input...
- Page 25 Transfer protocol Name Function Flags Data Point Type Size Channel B twilight status Output R-CT [1.1] DPT_Switch 1 Bit Channel B time control Input RWC- [1.1] DPT_Switch 1 Bit Channel B inside Input RWC- [1.1] DPT_Switch 1 Bit temperature release object Channel B inside Input RWC-...
- Page 26 Transfer protocol Name Function Flags Data Point Type Size Channel B warm air supply Input RWC- [1.1] DPT_Switch 1 Bit blocking object Channel B warm air supply Input RWC- [9.1] 2 Bytes inside temperature DPT_Value_Temp measurement value Channel B warm air supply Input RWC- [9.1]...
- Page 27 Transfer protocol Name Function Flags Data Point Type Size Channel B master zero Output R-CT [1.1] DPT_Switch 1 Bit position status Channel B master zero Output R-CT [1.1] DPT_Switch 1 Bit position command Channel B slave zero Input RWC- [1.1] DPT_Switch 1 Bit position status Channel B master zero...
- Page 28 Transfer protocol Name Function Flags Data Point Type Size Channel B block 3 wind Output R-CT [1.1] DPT_Switch 1 Bit blocking status Channel B block 3 rain Input RWC- [1.1] DPT_Switch 1 Bit blocking object Channel B block 4 blocking Input RWC- [1.1] DPT_Switch...
- Page 29 Transfer protocol Name Function Flags Data Point Type Size Channel B2 status Readable R-C- [1.1] DPT_Switch 1 Bit Channel B2 blocking object Input RWC- [1.1] DPT_Switch 1 Bit Channel B2 start stair case Input -WC- [1.10] DPT_Start 1 Bit light function Channel B2 start stop stair Input RWC-...
- Page 30 Transfer protocol Name Function Flags Data Point Type Size Channel C status object Output R-CT [1] 1.xxx 1 Bit Channel C - Approach Input RWC- [1.1] DPT_Switch 1 Bit position memory manually Channel C - Learn object 0 Input RWC- [1.1] DPT_Switch 1 Bit position memory manually...
- Page 31 Transfer protocol Name Function Flags Data Point Type Size Channel C shading Input RWC- [9.4] 2 Bytes brightness DPT_Value_Lux Measurement value 2 Channel C shading Input RWC- [9.4] 2 Bytes brightness DPT_Value_Lux Measurement value 3 Channel C shading Input RWCT [9.4] 2 Bytes threshold value...
- Page 32 Transfer protocol Name Function Flags Data Point Type Size Channel C inside Input RWC- [9.1] 2 Bytes temperature opening output DPT_Value_Temp threshold value Channel C inside Input RWCT [9.1] 2 Bytes temperature opening object DPT_Value_Temp Channel C inside Input RWC- [1] 1.xxx 1 Bit temperature opening...
- Page 33 Transfer protocol Name Function Flags Data Point Type Size Channel C block 1 wind Input RWC- [1.1] DPT_Switch 1 Bit blocking object Channel C block 1 wind Input RWC- [9.5] 2 Bytes blocking DPT_Value_Wsp Measurement value Channel C block 1 wind Output R-CT [1.1] DPT_Switch...
- Page 34 Transfer protocol Name Function Flags Data Point Type Size Channel C block 5 wind Input RWC- [1.1] DPT_Switch 1 Bit blocking object Channel C block 5 wind Input RWC- [9.5] 2 Bytes blocking DPT_Value_Wsp Measurement value Channel C block 5 wind Output R-CT [1.1] DPT_Switch...
- Page 35 Transfer protocol Name Function Flags Data Point Type Size 660- input 8 (see input 1) Channel D status automatic Output R-CT [1] 1.xxx 1 Bit manual Channel D manual long Input RWC- [1.8] DPT_UpDown 1 Bit term Channel D manual short Input RWC- [1.8] DPT_UpDown...
- Page 36 Transfer protocol Name Function Flags Data Point Type Size Channel D call saving Input RWC- [18.1] 1 Byte scenes DPT_SceneControl Channel D outdoor Input RWC- [1.1] DPT_Switch 1 Bit temperature Blocking object Channel D outdoor Input RWC- [9.1] 2 Bytes temperature blocking DPT_Value_Temp measurement value...
- Page 37 Transfer protocol Name Function Flags Data Point Type Size Channel D shading position Input RWC- [1] 1.xxx 1 Bit Teaching object Channel D azimuth Input RWC- [9] 9.xxx 2 Bytes Channel D elevation Input RWC- [9] 9.xxx 2 Bytes Channel D cold air supply Input RWC- [1.1] DPT_Switch...
- Page 38 Transfer protocol Name Function Flags Data Point Type Size Channel D inside Output R-CT [1.1] DPT_Switch 1 Bit temperature opening status Channel D inside humidity Input RWC- [1.1] DPT_Switch 1 Bit opening object Channel D inside humidity Input RWC- [9.7] 2 Bytes opening DPT_Value_Humidit...
- Page 39 Transfer protocol Name Function Flags Data Point Type Size Channel D block 2 wind Input RWC- [9.5] 2 Bytes blocking measurement DPT_Value_Wsp value Channel D block 2 wind Output R-CT [1.1] DPT_Switch 1 Bit blocking status Channel D block 2 rain Input RWC- [1.1] DPT_Switch...
- Page 40 Transfer protocol Name Function Flags Data Point Type Size Channel D - Short time Input RWC- [1.1] DPT_Switch 1 Bit restriction Channel D1 switching Input RWC- [1.1] DPT_Switch 1 Bit Channel D1 feedback Output R-CT [1.1] DPT_Switch 1 Bit Channel D1 status Readable R-C- [1.1] DPT_Switch...
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Page 41: Parameter Setting
Parameter setting Parameter setting The default settings of the parameter are labelled by an underscore. 4.1. General settings First set the general parameters for the bus communication (telegram rate, transmissi- on delay). Additionally, you can indicate if for the programming of scenes all, or only the changed settings are applied to the bus. -
Page 42: Input As Bus Button
Parameter setting Configuration options for inputs: KNX S4-B10 KNX S2-B6 KNX S1-B2 Input 1 Input 1 – • Bus button Input 2 Input 2 – • Bus button Input 3 Input 3 Input 1 • Actuator button for output channel A •... - Page 43 Parameter setting Bus function • Switch • Selector switch • Shutter • Blind • Awning • Window • Dimmer • 8 bit encoder • Temperature encoder • Brightness encoder • Scenes Input as switch: If a button with switch function is assigned to the input, select the bus function "Switch"...
- Page 44 Parameter setting Input as changeover switch: If a button with switch function is assigned to the input, select the bus function "Chan- geover Switch" and specify if the button should switch when pressed/released. Function Changeover Switch Command when pressing the button •...
- Page 45 Parameter setting Repeat the dimm command no • yes Repeat the dimm command every 0.1 s • every 2 sec; every 0,5 sec for a long button press (if dimm command is repeated) Dim by 1,50% • 3% • 6 % • 12,50% • 25% • 50% (if dimm command is repeated) The input can be blocked using a blocking object.
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Page 46: Outputs
Parameter setting Input for scene control: If scenes are called and saved with the input, then choose the "Scenes" bus function and specify the saving, time difference (call/save) and scene number. Function Scenes Button operation • without saving • with saving Time between calling and saving in 0.1 1...50;... -
Page 47: Channel Settings - Drives
Parameter setting • On/Off switch delays or time switching (see On/Off switch delays, time switching (switch functions), page 66) • Block function(see Blocking function (switch functions), page 67) • Button input: Configuration as actuator button or bus button (see Button input (switch functions), page 68) 4.3.1. - Page 48 Parameter setting for movement with change of direction 0 ... 600 in 10 ms (only for manual input) for slat movement from all other 0 ... 600 positions in 10 ms (only for manual input) Runtime zero position and step setting of slats: (only for shutters) Through the runtime in which the drive continues moving in the zero position (i.e.
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Page 49: Control (Drives)
Parameter setting Slat turning: (only for shutters) The slat turning should be adjusted according to the specifications of the motor manu- facturer. Turn slats • never • only after positioning movement • after each movement Status object and drive position: The status and current position can be sent to the bus. - Page 50 Parameter setting Before the drive mechanism of the master actuator is moved, the slave actuator recei- ves the command to move its drive mechanism to the safe position. As a consequence, the slave remains in safe position or it moves back if it is not within the safe range. The master actuator knows from the communication object „Slave zero position sta- tus”...
- Page 51 Parameter setting With movement range limit: Set if the zero position sensor of the drive is directly connected to the actuator (input channel) or if the zero position is received via the bus (communication object). Use movement range limit Zero position sensor connected as •...
- Page 52 Parameter setting Use block 2 • no • yes, with blocking object • yes, as wind blocking • yes, as rain blocking Use block 3 • no • yes, with blocking object • yes, as wind blocking • yes, as rain blocking Use block 4 •...
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Page 53: Block - Blocking Objects
Parameter setting Automatic reset: With the manual operation the automatic of the drive is deactivated. Here it is set when the automatic is reactivated. Manual switches to automatic after • expiry of a waiting period • reception of an object •... -
Page 54: Block - Wind Blocking
Parameter setting Designation [Block 1 ... 5] Enter a designation here! If blocking object has value =1 • no action • stop • move into position • up-command • down-command (shutter/blind) • retract-command • extend-command (awning) • close-command • open-command (window) Position in % (only if by using a block, a 0...100... -
Page 55: Block - Rain Blocking
Parameter setting Slat position in % (only if by using a block, 0...100 a specific shutter position is achieved) Waiting period in secure position in min 1...255; 5 after blocking Behaviour after waiting period For manual operation before and after •... -
Page 56: Movement Limits
Parameter setting Position in % (only if by using a block, a 0...100 specific position is achieved) Slat position in % (only if by using a block, 0...100 a specific shutter position is achieved) Waiting period in secure position in min 1...255;... -
Page 57: Automation - External
Parameter setting Use different positions for object values 0 no • yes and 1 (if ‘yes’ is selected, there will be a division into positions for object value 0 and object value 1) Position in % 0...100 Allow calling via command sequence: long- no •... - Page 58 Parameter setting Hysteresis in 0.1°C 1 … 100; 20 Send current blocking status no • yes Shading is allowed if the measurement value is larger than the threshold value+hysteresis and blocked if the measurement value is smaller than or equal to the threshold value. Twilight/time control: The time control is provided via a communication object.
- Page 59 Parameter setting 16 bit input object (target/actual temperature): For this function the target value and actual value (measurement values) are imported from the 16bit object and evaluated. Type of input object 16 bit target/actual temperature Target value (SW) – actual value (MW) 1 …...
- Page 60 Parameter setting Threshold value per parameter: Set the threshold value and delay times for shading (prevents constant opening and closing when light conditions change quickly). Shading threshold specification per Parameter Shading threshold value in klux 0 … 100; 30 Drive up delay in min 0 …...
- Page 61 Parameter setting Azimuth to 0 … 360 Elevation from 0 … 90 Elevation to 0 … 90 Defining position of the sun via directions: Enter the direction in which the sun must be positioned so that the shading is active. Position of the sun is defined via directions (regarding azimuth and elevation)
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Page 62: Automatic For Windows (Drives)
Parameter setting Moving position (for awnings and blinds): ------------------------------ Awning position in % or 0 … 100; 75 blind position in % Use teaching object for new shading no • yes position Use teaching object for new shading position: The curtain position it can be spe- cified numerically or taught manually. - Page 63 Parameter setting Forced ventilation: Use forced ventilation no • yes If forced ventilation is active ("use forced ventilation: Yes"), ventilation is started as soon as the communication object "forced ventilation" = 1. Warm supply air block: The input object "warm supply air block" is linked with the output object of one or more temperature sensors.
- Page 64 Parameter setting Open by temperature/humidity: Open window • never • if too high temperature • if too high room air humidity • if too high temperature or room air humidity Indoor temperature: ------------------------------ These parameters appear if ventilated at "too high temperature" / "too high tempera- ture or room air humidity".
- Page 65 Parameter setting Type of limit value change • Absolute value with a 16bit comm. object • Lifting/lowering with a comm. object • Lifting/lowering with two comm. objects Increments 0.1°C ... 5°C; 1°C (only when "lifting/lowering with comm. object") Hysteresis in 0.1? 1 …...
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Page 66: Scenes (Drives)
Parameter setting step operation the temperature/humidity deviation is checked after a specified period of time, and may be increased/decreased by one step. Window opening absolute in % • incrementally Window opening in % 1...100 (only if "window opening is absolute in %") incrementally by (in %) 1...100;... -
Page 67: Input As Bus Button
Parameter setting Input as bus button The settings correspond to input 1/2 (see Input as bus button, page 40) Input as actuator button If this channel is used for the input to the control of the drive, then specify the button function and the control mode. -
Page 68: Connection (Switch Functions)
Parameter setting Relay operation closer • opener Behavior for bus voltage failure • no change • opened • closed Behavior for bus voltage return • as before bus voltage failure • no change • opened • closed Behavior after reset and ETS download •... -
Page 69: Blocking Function (Switch Functions)
Parameter setting Switch on delay The switch on delay is set with a time basis and time factor (e.g. 1 min × 4 corresponds to 4 minutes). Additionally it is specified if the time interval for a repeat receipt of a switch-on telegram is extended ('triggered again", e.g. -
Page 70: Scenes (Switch Functions)
Parameter setting The function can be used for example for a light, which is turned on when pressing a "panic button" (=trigger for blocking function) and cannot be turned off any longer. Blocking function blocks for 0 • 1 Value of the blocking object 0 •... - Page 71 Parameter setting If a button with switch function is assigned to the input, select the button function "Switch" and specify what happens when pressing/releasing the button and when to send. Button function Switch Command when pressing the button • switch on •...
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Page 72: General Part
General part General part 5.1. Output channel with drive 5.1.1. Control modi for drive control If inputs are used as buttons for operating shading or windows, then different control modi can be set. Control mode • Standard • Standard inverted •... -
Page 73: Connection Option For Zero Position Sensors
General part If the drive is to be moved a bit farther, then a little longer push is needed (longer than time 1 but shorter than time 1+2). The drive stops immediately when releasing the but- ton. If the drive must be moved independently into the end position, the button is released only after times 1 + 2 have expired. - Page 74 General part Drive channel A is Master, zero position sensor at input 3 of the actuator, drive channel B is Slave, zero position sensor at input 5 of the actuator: zero position zero position sensor sensor of drive 1 of drive 2 IN 3 IN 5 Master command...
- Page 75 General part Drive channel A is Master, zero position sensor via bus, drive channel B is Slave, zero position sensor at input 5 of the actuator: zero position zero position sensor sensor of drive 1 of drive 2 Zero position reached IN 5 Master command Master...
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Page 76: Output Channel With Switch Function
General part 5.2. Output channel with switch function 5.2.1. Correlation connection – time switch – block Application 1: Staircase light at channel A1, that can only be switchable at twilight/ night (linking) and that is turned on during a fire alarm (blocking). 200: Channel A1 Switching Switching Input... - Page 77 Elsner Elektronik GmbH Control and Automation Engineering Sohlengrund 16 75395 Ostelsheim Phone +49 (0) 70 33 / 30 945-0 info@elsner-elektronik.de Germany +49 (0) 70 33 / 30 945-20 www.elsner-elektronik.de Technical support: +49 (0) 70 33 / 30 945-250...
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