Elsner KNX S1E-UP 230V Installation And Adjustment Manual

Multifunctional actuators

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KNX S1E-UP 230V
KNX S1E-B2-UP 230 V
KNX S1E-B4-UP 230 V
Multifunctional Actuators
Item numbers 70207, 70208, 70209
Installation and Adjustment

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  • Page 1 KNX S1E-UP 230V KNX S1E-B2-UP 230 V KNX S1E-B4-UP 230 V Multifunctional Actuators Item numbers 70207, 70208, 70209 Installation and Adjustment...
  • Page 2: Table Of Contents

    6.1. Output channel with drive ..................49 6.1.1. Control modi for drive control ..............49 Elsner Elektronik GmbH • Sohlengrund 16 • 75395 Ostelsheim • Germany Actuators KNX S1E 230 V • from software version 1.00, ETS programme version 1.0...
  • Page 3 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 4: Description

    1-bit or 2 x 8-bit Configuration is made using the KNX software ETS. The product file can be down- loaded from the Elsner Elektronik website on www.elsner-elektronik.de in the “Ser- vice” menu.
  • Page 5: Technical Specification

    Installation and commissioning 1.1. Technical specification Housing Plastic Colour White Assembly Flush mounting (in junction box Ø 60 mm, 60 mm deep) Protection category IP 20 Dimensions approx. 50 x 50 x 54 (W × H × D, mm) Weight approx.
  • Page 6: Installation

    Elsner Elektronik is not liable for any changes in norms and standards which may occur after publication of these operating instructions.
  • Page 7: Connection

    Installation and commissioning Devices with inputs (KNX S1E-B4-UP, KNX S1E-B2-UP): Fig. 2: Bus side Connecting terminal analogue/ digital outputs (not present on KNX S1E-UP) Label field KNX plug terminal +/- Programming LED and programming button (countersunk) Analogue/digital inputs connector assignment: KNX S1E-B2-UP 230V: 1: GND | 2: IN1 | 3: GND | 4: IN2 KNX S1E-B4-UP 230V: 1: GND | 2: IN1 | 3: GND | 4: IN2 | 5: GND | 6: IN3 | 7: GND | 8: IN4 All GND connectors are internally bridged.
  • Page 8: Connection Examples

    Installation and commissioning 2.3.1. Connection examples 230 V drive at the output: Mains (230 V) Inputs: Example KNX S1E-B4-UP with binary contact on input 1 and T-NTC temperature sensor on input 4. Connection of the temperature sensor is independent of the polarity. Actuators KNX S1E 230 V •...
  • Page 9: Instructions For Assembly And Initial Start-Up

    Addressing of the device at the bus 2.4. Instructions for assembly and initial start-up Never expose actuators to water (e.g. rain) or dust. This can damage the electronics. You must not exceed a relative air humidity of 80%. Avoid condensation. After the auxiliary voltage has been applied, the device will enter an initialisation phase lasting a few seconds.
  • Page 10: Transfer Protocol

    Transfer protocol Transfer protocol 4.1. List of all communication objects Abbreviations: Read W Write Communication Transfer DPT Data Point Type Text Function Flags DPT Typ Size Software version Readable R-C- [217.1] DPT_Version 2 Bytes Channel A - Automatic or Output R-CT [1] 1.xxx 1 Bit...
  • Page 11 Transfer protocol Text Function Flags DPT Typ Size Channel A - Outdoor Input RWC- [9.1] 2 Bytes temperature blocking DPT_Value_Temp measurement value Channel A - Outdoor Output R-CT [1.1] DPT_Switch 1 Bit temperature blocking status Channel A - Twilight object Input RWC- [1.1] DPT_Switch...
  • Page 12 Transfer protocol Text Function Flags DPT Typ Size Channel A - Cold air intake Input RWC- [1.1] DPT_Switch 1 Bit blocking object Channel A - Cold air intake Input RWC- [9.1] 2 Bytes outside temp. measurement DPT_Value_Temp value Channel A - Cold air intake Output R-CT [1.1] DPT_Switch...
  • Page 13 Transfer protocol Text Function Flags DPT Typ Size Channel A - Approach Input RWC- [1.1] DPT_Switch 1 Bit position memory automatically Channel A - Learn object Input RWC- [1.1] DPT_Switch 1 Bit position memory automatically Channel A - Zero position Input RWC- [1.1] DPT_Switch...
  • Page 14 Transfer protocol Text Function Flags DPT Typ Size Channel A - Blocking 2 - Input RWC- [1.1] DPT_Switch 1 Bit Rain blocking object Channel A - Blocking 3 - Input RWC- [1.1] DPT_Switch 1 Bit Blocking object Channel A - Blocking 3 - Input RWC- [1.1] DPT_Switch...
  • Page 15 Transfer protocol Text Function Flags DPT Typ Size Input 1 - Relative dimming Input / RWCT [3.7] 4 Bit Output DPT_Control_Dimmin Input 1 - 8-bit encoder Output R-CT [5] 5.xxx 1 Byte Input 1 - Temperature Output R-CT [9.1] 2 Bytes encoder DPT_Value_Temp Input 1 - Brightness encoder...
  • Page 16 Transfer protocol Text Function Flags DPT Typ Size Input 3 - Extended Input / RWCT [1.8] DPT_UpDown 1 Bit Output Input 3 - Short Output R-CT [1.8] DPT_UpDown 1 Bit Input 3 - Switching Input / RWCT [1.1] DPT_Switch 1 Bit Output Input 3 - Relative dimming Input /...
  • Page 17 Transfer protocol Text Function Flags DPT Typ Size Input 4 - Temperature Input -WC- [9.1] 2 Bytes sensor, measured outside DPT_Value_Temp value Input 4 - Temperature Output R-CT [9.1] 2 Bytes sensor measured value DPT_Value_Temp Temp. threshold value 1: Input -WC- [9.1] 2 Bytes...
  • Page 18 Transfer protocol Text Function Flags DPT Typ Size Temp. threshold value 3: Output R-CT [1.1] DPT_Switch 1 Bit Switching output Temp. threshold value 3: Input -WC- [1.1] DPT_Switch 1 Bit Switching output block Temp. threshold value 4: Input -WC- [9.1] 2 Bytes Measured value DPT_Value_Temp...
  • Page 19 Transfer protocol Text Function Flags DPT Typ Size AND logic 2: 1-bit switching Output R-CT [1.2] DPT_Bool 1 Bit output AND logic 2: 8-bit output A Output R-CT [5.10] 1 Byte DPT_Value_1_Ucount AND logic 2: 8-bit output B Output R-CT [5.10] 1 Byte DPT_Value_1_Ucount...
  • Page 20 Transfer protocol Text Function Flags DPT Typ Size OR logic 4: 8-bit output A Output R-CT [5.10] 1 Byte DPT_Value_1_Ucount OR logic 4: 8-bit output B Output R-CT [5.10] 1 Byte DPT_Value_1_Ucount OR logic 4: Blocking Input -WC- [1.1] DPT_Switch 1 Bit Actuators KNX S1E 230 V •...
  • Page 21: Parameter Setting

    Parameter setting Parameter setting The default settings of the parameter are labeled by an underscore. 5.1. General settings First set the general parameters for the bus communication (telegram rate, transmission delay). Additionally, you can indicate if for the programming of scenes all, or only the changed settings are applied to the bus.
  • Page 22 Parameter setting Driving direction: Up/down, on/off or open/close can be exchanged. Exchange UP/DOWN (shutter, blinds) no • yes Exchange ON/OFF (awning) Exchange OPEN/CLOSE (window) Runtime: The runtime between the end positions is the basis for moving into intermediate positions (e.g. for movement range limits and scenes). You can enter the runtime numerically (in seconds) or have the runtime determined automatically.
  • Page 23 Parameter setting end position switch may be balanced. The shading of a facade is completely retracted by adjusting the zero position runtimes, and thus provides a better overall image. Step time x step number determines the turning time of the slats. Runtime zero position in 0.1 sec 0 …...
  • Page 24: Control (Drives)

    Parameter setting The exact drive position can be sent on the bus if required. The variable delay ensures that the bus is not blocked by too many data packets during a longer movement. The position can also be transmitted cyclically. Use status object no •...
  • Page 25 Parameter setting The ventilation with the window shall take priority over the shading with the awning. Therefore, the window is parameterised as master, the awning as slave. Both are provided with a zero position sensor which reports whether the drive mechanism is in a safe position or not.
  • Page 26 Parameter setting Actuator as slave: Actuator is slave Send repetition for slave commands in sec 1 … 255; 10 Monitoring period for master status (and 1 … 255; 10 zero position) object in sec Movement position for slave in % if 0 …...
  • Page 27 Parameter setting Priority is • Block 5 over Manual • Manual over Block 5 Use monitoring of blocking objects No • Yes Monitoring period for blocking objects 5s... • 2 h; 5 min (only if using monitoring of the blocking objects) Behaviour if a blocking object is not •...
  • Page 28: Block - Blocking Objects

    Parameter setting Automatic blocking object: With the automatic blocking object, the automatic can be deactivated for a short term (e.g. if present or during speeches in conference rooms). Here it is also specified in which mode the channel is found when the voltage returns, i.e.
  • Page 29: Block - Wind Blocking

    Parameter setting Block – wind blocking The menu item only appears if a wind blocking was configured for "control". The input object "wind blocking" is linked with the output object of a wind sensor. The input can be a 1bit object (smaller or larger than a threshold value), as well as a 16bit object (measurement value).
  • Page 30: Block - Rain Blocking

    To be able to fully utilize the internal shading automatic, information about brightness/ twilight, outdoor and indoor temperature, time and position of the sun must be present in the bus system (e.g. data from the Elsner weather stations Sun tracer KNX or Suntracer KNX-GPS).
  • Page 31 Parameter setting 16 bit input object: Type of temperature input object 16 bit Threshold value in 0.1°C -300 … 800; 50 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.
  • Page 32 Parameter setting Hysteresis in 0.1°C 1 … 100; 20 Send current blocking status no • yes 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) –...
  • Page 33 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 34 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)
  • Page 35: 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 specified numerically or taught manually.
  • Page 36 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 37 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 temperature or room air humidity".
  • Page 38 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 …...
  • Page 39: Button Inputs (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 40 Parameter setting Input as switch: If a button with switch function is assigned to the input, select the bus function "Switch" and specify which value is sent when pressing/releasing the button and when it will be sent. Bus function Switch Command when pressing the button •...
  • Page 41 Parameter setting Input to shutter, blinds, awning or window control: If the input to the drive control is used via the bus, select the bus function "shutter", "awning", "blinds" or "window" and specify the button function and control mode. Bus function Shutter / blinds / awning / window Button function Up •...
  • Page 42 If the input is used as a temperature encoder, then choose the bus function "Temperature encoder" and specify which value between -30°C and +80°C will be sent. By sending a temperature value, the target value of the temperature control may be changed for example (e.g. Elsner KNX T-UP). Bus function Temperature encoder Temperature in 0.1°C...
  • Page 43: Input As Actuator Button

    Parameter setting The input can be blocked using a blocking object. For active blocking there is no bus communication. Use blocking object No • Yes Input with temperature sensor (NTC): If a temperature sensor is connected to the input, then choose the bus function „tem- perature sensor“...
  • Page 44: Input As Zero Position Sensor

    Parameter setting The input can be blocked using a blocking object. No operation is possible for an active block. Use blocking object No • Yes If monitoring periods or movement range limits are used, no operation via the local button is possible in case of a bus voltage failure. Input as zero position sensor The zero position sensor is used for the movement range limit of the respective drive (see Channel settings –...
  • Page 45 Parameter setting A set threshold value will be retained until a new value or a change is transferred. The current value is saved in EEPROM, so that this is retained in the event of a power supply failure and will be available once the power supply is restored. Threshold value setpoint using Parameter •...
  • Page 46: Logic

    Parameter setting The switching output can be blocked using an object. Define specifications here for the behaviour of the output when blocked. Use switching output block No • Yes Analysis of the blocking object • At value 1: block | At value 0: release •...
  • Page 47: And And/Or Or Logic 1/2/3/4

    Parameter setting 5.3.3. AND and/or OR logic 1/2/3/4 AND- and OR logic gates provide the same setting options. Assign the inputs to a switching event and set the send behaviour. 1. / 2. / 3. / 4. Input • do not use •...
  • Page 48: And Logic Connection Inputs

    Parameter setting Behaviour of the switching output With blocking • do not send message • send value for logic = 0 • send value for logic = 1 Behaviour on release of the switching output is dependent on send behaviour Value of the parameter Settings options "Send behaviour":...
  • Page 49: Connection Inputs Of The Or Logic

    Parameter setting Logic input 10 Logic input 10 inverted Logic input 11 Logic input 11 inverted Logic input 12 Logic input 12 inverted Logic input 13 Logic input 13 inverted Logic input 14 Logic input 14 inverted Logic input 15 Logic input 15 inverted Logic input 16 Logic input 16 inverted...
  • Page 50: General Part

    General part General part 6.1. Output channel with drive 6.1.1. 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 51 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 button. If the drive must be moved independently into the end position, the button is released only after times 1 and 2 have expired.
  • Page 52 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...

This manual is also suitable for:

Knx s1e-b2-up 230 vKnx s1e-b4-up 230 v

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