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ABB i-bus SA/S 2.6.2.1, Product Manual

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ABB i-bus SA/S 2.6.2.1 Product Manual Download Page 41

ABB i-bus

 KNX 

Device technology 
 
 

44   2CDC 505 056 D0208 | SA/S 

The switching capacity specifications AC and AX are not directly comparable. However, the following 
switching capacity capability can still be determined: 

The lowest switching capacity corresponds with the specification 
AC1 – mainly for ohmic loads. 

The following switching capacity should be rated higher 
AX – fluorescent lamp loa

ds, under the standard: 70 µF (6 A), 140 µF (10 A, 16 A). 

The highest switching capacity is designated by 
AC3 – motor loads, 
C-load – 

fluorescent lamp loads (200 µF). 

Both specifications are almost equivalent. This means that a device which has met the test for AC3 under 
EN 60 947 will most probably meet those under EN 60 

669 with 200 µF. 

In conclusion, generally speaking: 

 

Users or customers primarily involved with industrial applications will tend to refer to AC3 switching 
capacities. 

 

Users involved with building or lighting technology will more often than not refer to an AX switching 
capacity or C-

load (200 µF loads). 

The switching capacity differences must be considered when selecting a Switch Actuator. 

 
 

2.10 

Current detection specifications 

The Switch Actuators with current detection are recognizable by a number 6 as the third number of the 
type designation, e.g. SA/S 2.16.

6

.1. 

This is a Switch Actuator with integrated load current detection. 

Each output features its own current detection with evaluation electronics, which can be parameterized 
separately. 

For further information see: 

Parameter window A: Current Detection

, p. 101 

 

The current recognition detects sinusoidal load currents with a 45-

60 Hz frequency range. Non-sinusoidal 

currents, e.g. phase angle varied or distorted currents, cause a measurement error depending on the 
curve type. If a DC current is superimposed, the measurement error is again considerably larger. Phase 
angle varied currents are generated, for example, by a current rectifier. 

The current detection principle in the Switch Actuator is based on the conversion of sinusoidal load 
currents by a transformer. On the secondary side of the transformer, the transferred value is rectified and 
smoothed by an RC element. The resulting value is multiplied with the fixed factor 1/

2, producing an RMS 

value. The factor 1/

2 is derived from the crest factor Û/U

rms

 = 

2 for a sinusoidal curve type. 

Summary of Contents for i-bus SA/S 2.6.2.1

Page 1: ...ABB i bus KNX SA S Switch Actuators Product Manual ...

Page 2: ...irements are simple to implement SA S Switch Actuators fulfill individual requirements in industrial commercial and public buildings as well as in the private sector for controlling switchable loads e g Illumination Heating control Signaling equipment Certain types of Switch Actuator can also detect and monitor load current via a threshold value function Based on the load current detected response...

Page 3: ...L Variants with current detection feature an additional parameter page as well as additional communication objects for this function 1 1 2 Notes Notes and safety instructions are represented as follows in this product manual Please note Tips for usage and operation Example Application examples installation examples programming examples Important These safety instructions are used as soon as there ...

Page 4: ... 2 to 12 independent electrical AC or three phase loads via KNX with floating contacts With SA S x 16 6 1 types it is possible to detect the load current for each output The outputs of the 6 A 10 A 16 A and 16 20 A Switch Actuators can be switched on and off manually Switch Actuators SA S x 16 6 1 and SA S 12 16 5 1 which have the highest switching capacity C load are particularly well suited for ...

Page 5: ...ew of the ABB i bus Switch Actuators and their type designations SA S 2 6 2 1 SA S 2 10 2 1 SA S 2 16 2 1 SA S 2 16 5 1 SA S 2 16 6 1 SA S 4 6 1 1 SA S 4 6 2 1 SA S 4 10 2 1 SA S 4 16 2 1 SA S 4 16 5 1 SA S 4 16 6 1 SA S 8 6 1 1 SA S 8 6 2 1 SA S 8 10 2 1 SA S 8 16 2 1 SA S 8 16 5 1 SA S 8 16 6 1 SA S 12 6 1 1 SA S 12 6 2 1 SA S 12 10 2 1 SA S 12 16 2 1 SA S 12 16 5 1 SA S 12 16 6 1 Please note Th...

Page 6: ... Actuator is parameterized via ETS Connection to KNX is implemented using the bus connection terminal on the front 2 1 1 Technical data Supply KNX bus voltage 21 32 V DC Current consumption bus 12 mA Power consumption Maximum 250 mW Rated output value SA S type 4 6 1 1 8 6 1 1 12 6 1 1 Current detection no no no Number floating contacts 2 group 4 8 12 Un rated voltage 250 440 V AC 50 60 Hz In rate...

Page 7: ... 60 664 1 KNX safety extra low voltage SELV 24 V DC Temperature range Operation Storage Transport 5 C 45 C 25 C 55 C 25 C 70 C Ambient conditions Maximum air humidity 95 no condensation allowed Design Modular installation device MDRC Modular installation device ProM SA S type 4 6 1 1 8 6 1 1 12 6 1 1 Dimensions 90 x W x 64 5 mm H x W x D Width W in mm 72 108 144 Mounting width in units 18 mm modul...

Page 8: ...1 x 80 SC 10 10 7 5 3 1 For multiple element lamps or other types the number of electronic ballasts must be determined using the peak inrush current of the electronic ballasts see Ballast calculation p 42 Device type Application program Maximum number of communication objects Maximum number of group addresses Maximum number of associations SA S 4 6 1 1 Switch 4f 6A 64 254 254 SA S 8 6 1 1 Switch 8...

Page 9: ...tion schematic SA S x 6 1 1 1 Label carrier 2 Programming button 3 Programming LED 4 Bus connection terminal 5 Load current circuits one screw terminal for phase connection per contact Danger Touch voltages Danger of injury Observe all pole disconnection 2CDC 072 07x F0011 ...

Page 10: ...ice technology SA S 2CDC 505 056 D0208 13 2 1 4 Dimension drawing SA S x 6 1 1 SA S 4 6 1 1 SA S 8 6 1 1 SA S 12 6 1 1 Width W Mounting width 18 mm modules 72 mm 4 units 108 mm 6 units 144 mm 8 units 2CDC 072 077 F0011 ...

Page 11: ...tch Actuators are parameterized via ETS Connection to KNX is implemented using the bus connection terminal on the front 2 2 1 Technical data Supply KNX bus voltage 21 31 V DC Current consumption via bus 12 mA Power consumption via bus Maximum 250 mW Rated output value SA S type 2 6 2 1 4 6 2 1 8 6 2 1 12 6 2 1 Current detection no no no no Number floating contacts 2 4 8 12 Un rated voltage 250 440...

Page 12: ...ation category Overvoltage category III to EN 60 664 1 Pollution degree 2 to EN 60 664 1 KNX safety extra low voltage SELV 24 V DC Temperature range Operation Storage Transport 5 C 45 C 25 C 55 C 25 C 70 C Ambient conditions Maximum air humidity 95 no condensation allowed Design Modular installation device MDRC Modular installation device ProM SA S type 2 6 2 1 4 6 2 1 8 6 2 1 12 6 2 1 Dimensions ...

Page 13: ... 10 1 For multiple element lamps or other types the number of electronic ballasts must be determined using the peak inrush current of the electronic ballasts see Ballast calculation p 42 Device type Application program Maximum number of communication objects Maximum number of group addresses Maximum number of associations SA S 2 6 2 1 Switch 2f 6AM 34 254 254 SA S 4 6 2 1 Switch 4f 6AM 64 254 254 ...

Page 14: ...SA S x 6 2 1 1 Label carrier 2 Programming button 3 Programming LED 4 Bus connection terminal 5 Contact position display and manual operation 6 Load current circuits for every 2 connection terminals Danger Touch voltages Danger of injury Observe all pole disconnection 2CDC 072 086 F0011 ...

Page 15: ... 18 2CDC 505 056 D0208 SA S 2 2 4 Dimension drawing SA S x 6 2 1 SA S 2 6 2 1 SA S 4 6 2 1 SA S 8 6 2 1 SA S 12 6 2 1 Width W Mounting width 18 mm modules 36 mm 2 units 72 mm 4 units 144 mm 8 units 216 mm 12 units 2CDC 072 019 F0013 ...

Page 16: ...tuators are parameterized via ETS Connection to KNX is implemented using the bus connection terminal on the front 2 3 1 Technical data Supply KNX bus voltage 21 31 V Current consumption via bus 12 mA Power consumption via bus Maximum 250 mW Rated output value SA S type 2 10 2 1 4 10 2 1 8 10 2 1 12 10 2 1 Current detection no no no no Number floating contacts 2 group 2 4 8 12 Un rated voltage 250 ...

Page 17: ...140 Isolation category Overvoltage category III to EN 60 664 1 Pollution degree 2 to EN 60 664 1 KNX safety extra low voltage SELV 24 V DC Temperature range Operation Storage Transport 5 C 45 C 25 C 55 C 25 C 70 C Ambient conditions Maximum air humidity 95 no condensation allowed Design Modular installation device MDRC Modular installation device ProM SA S type 2 10 2 1 4 10 2 1 8 10 2 1 12 10 2 1...

Page 18: ... For multiple element lamps or other types the number of electronic ballasts must be determined using the peak inrush current of the electronic ballasts see Ballast calculation p 42 Device type Application program Maximum number of communication objects Maximum number of group addresses Maximum number of associations SA S 2 10 2 1 Switch 2f 10A 34 254 254 SA S 4 10 2 1 Switch 4f 10A 64 254 254 SA ...

Page 19: ...SA S x 10 2 1 1 Label carrier 2 Programming button 3 Programming LED 4 Bus connection terminal 5 Contact position display and manual operation 6 Load current circuits for every 2 connection terminals Danger Touch voltages Danger of injury Observe all pole disconnection 2CDC 072 086 F0011 ...

Page 20: ...A S 2CDC 505 056 D0208 23 2 3 4 Dimension drawing SA S x 10 2 1 SA S 2 10 2 1 SA S 4 10 2 1 SA S 8 10 2 1 SA S 12 10 2 1 Width W Mounting width 18 mm modules 36 mm 2 units 72 mm 4 units 144 mm 8 units 216 mm 12 units 2CDC 072 019 F0013 ...

Page 21: ...ETS Connection to KNX is implemented using the bus connection terminal on the front 2 4 1 Technical data Supply KNX bus voltage 21 31 V DC Current consumption via bus 12 mA Power consumption via bus Maximum 250 mW Rated output value SA S type 2 16 2 1 4 16 2 1 8 16 2 1 12 16 2 1 Current detection no no no no Number floating contacts 2 group 2 4 8 12 Un rated voltage 250 440 V AC 50 60 Hz In rated ...

Page 22: ... 61 140 Isolation category Overvoltage category III to EN 60 664 1 Pollution degree 2 to EN 60 664 1 KNX safety extra low voltage SELV 24 V DC Temperature range Operation Storage Transport 5 C 45 C 25 C 55 C 25 C 70 C Ambient conditions Maximum air humidity 95 no condensation allowed Design Modular installation device MDRC Modular installation device ProM SA S type 2 10 2 1 4 10 2 1 8 10 2 1 12 10...

Page 23: ... 1 For multiple element lamps or other types the number of electronic ballasts must be determined using the peak inrush current of the electronic ballasts see Ballast calculation p 42 Device type Application program Maximum number of communication objects Maximum number of group addresses Maximum number of associations SA S 2 10 2 1 Switch 2f 10A 34 254 254 SA S 4 10 2 1 Switch 4f 10A 64 254 254 S...

Page 24: ...SA S x 16 2 1 1 Label carrier 2 Programming button 3 Programming LED 4 Bus connection terminal 5 Contact position display and manual operation 6 Load current circuits for every 2 connection terminals Danger Touch voltages Danger of injury Observe all pole disconnection 2CDC 072 086 F0011 ...

Page 25: ...8 2CDC 505 056 D0208 SA S 2 4 4 Dimension drawing SA S x 16 2 1 SA S 2 16 2 1 SA S 4 16 2 1 SA S 8 16 2 1 SA S 12 16 2 1 Width W Mounting width 18 mm modules 36 mm 2 units 72 mm 4 units 144 mm 8 units 216 mm 12 units 2CDC 072 019 F0013 ...

Page 26: ...been applied The Switch Actuators are parameterized via ETS Connection to KNX is implemented using the bus connection terminal on the front 2 5 1 Technical data Supply KNX bus voltage 21 31 V DC Current consumption via bus 12 mA Power consumption via bus Maximum 250 mW Rated output value SA S type 2 16 5 1 4 16 5 1 8 16 5 1 12 16 5 1 Current detection no no no no Number floating contacts 2 4 8 12 ...

Page 27: ...I To EN 61 140 Isolation category Overvoltage category III to EN 60 664 1 Pollution degree 2 to EN 60 664 1 KNX safety extra low voltage SELV 24 V DC Temperature range Operation Storage Transport 5 C 45 C 25 55 C 25 70 C Ambient conditions Maximum air humidity 95 no condensation allowed Design Modular installation device MDRC 2 16 5 1 4 16 5 1 8 16 5 1 12 16 5 1 Dimensions 90 x W x 64 5 mm H x W x...

Page 28: ...er types the number of electronic ballasts must be determined using the peak inrush current of the electronic ballasts see Ballast calculation p 42 2 The number of ballasts is limited by protection with B16 circuit breakers Device type Application program Maximum number of communication objects Maximum number of group addresses Maximum number of associations SA S 2 16 5 1 Switch 2f 16C 34 254 254 ...

Page 29: ...nection schematic SA S 12 16 5 1 1 Label carrier 2 Programming button 3 Programming LED 4 Bus connection terminal 5 Contact position display and manual operation 6 Load current circuits for every 2 connection terminals Danger Touch voltages Danger of injury Observe all pole disconnection ...

Page 30: ... S 2CDC 505 056 D0208 33 2 5 4 Dimension drawing SA S 12 16 5 1 SA S 2 16 5 1 SA S 4 16 5 1 SA S 8 16 5 1 SA S 12 16 5 1 Width W Mounting width 18 mm modules 36 mm 2 units 72 mm 4 units 144 mm 8 units 216 mm 12 units 2CDC 072 019 F0013 ...

Page 31: ...6 6 1 devices can be copied or exchanged to minimize programming work The device does not require an additional power supply and is ready for immediate use after the bus voltage has been applied The Switch Actuators are parameterized via ETS Connection to KNX is implemented using the bus connection terminal on the front 2 6 1 Technical data Supply KNX bus voltage 21 31 V DC Current consumption via...

Page 32: ... The position changes should be distributed equally within the minute 2 16 6 1 4 16 6 1 8 16 6 1 12 16 6 1 30 15 7 5 Maximum relay position changes per output per minute if only one relay is switched 60 60 60 60 Connections KNX Via bus connection terminals 0 8 mm Ø solid Load circuits Universal head screw terminal PZ 1 0 2 4 mm2 fine stranded 2 x 0 2 2 5 mm2 0 2 6 mm2 solid 2 x 0 2 4 mm2 Ferrules ...

Page 33: ...pplied to the device for at least 30 seconds Typical relay delay is approx 20 ms 2 6 2 Lamp output load 16 20 A Lamps Incandescent lamp load 3 680 W Fluorescent lamps T5 T8 Uncorrected Parallel compensated DUO circuit 3 680 W 2 500 W 3 680 W Low voltage halogen lamps Inductive transformer Electronic transformer Halogen lamps 230 V 2 000 W 2 500 W 3 680 W Dulux lamp Uncorrected Parallel compensated...

Page 34: ...f a KNX device in ETS If you inhibit access to all of the project devices by using a BCU code it has no effect on this device Data can still be read and programmed Important The Switch Actuator types SA S x 16 6 1 differentiate from the predecessor types SA S x 16 5S by new hardware and software While there have been few changes to the functions of the software the hardware has been redesigned for...

Page 35: ...ng The Switch Actuator detects 5 mA due to the tolerances This value is less than the minimum current detection limit of 20 mA and is thus sent as a 0 mA value via KNX Important The current detection and monitoring function should not be used for safety related applications The Switch Actuator cannot assume the function of a circuit breaker or RCD earth leakage circuit breaker If the load current ...

Page 36: ...SA S x 16 6 1 1 Label carrier 2 Programming button 3 Programming LED 4 Bus connection terminal 5 Contact position display and manual operation 6 Load current circuits for every 2 connection terminals Danger Touch voltages Danger of injury Observe all pole disconnection 2CDC 072 177 F0009 ...

Page 37: ...0 2CDC 505 056 D0208 SA S 2 6 4 Dimension drawing SA S x 16 6 1 SA S 2 16 6 1 SA S 4 16 6 1 SA S 8 16 6 1 SA S 12 16 6 1 Width W Mounting width 18 mm modules 36 mm 2 units 72 mm 4 units 144 mm 8 units 216 mm 12 units 2CDC 072 019 F0013 ...

Page 38: ...allel compensated DUO circuit 800 W 300 W 350 W 1 380 W 1 380 W 1 380 W 2 500 W 1 500 W 1 500 W 2 500 W 1 500 W 1 500 W 3 680 W 2 500 W 3 680 W 3 680 W 2 500 W 3 680 W Low voltage halogen lamps inductive transformer electronic transformer 800 W 1 000 W 1 200 W 1 380 W 1 200 W 1 500 W 1 200 W 1 500 W 2 000 W 2 500 W 2 000 W 2 500 W Halogen lamps 230 V 1 000 W 1 380 W 2 500 W 2 500 W 3 680 W 3 680 W...

Page 39: ...n the manufacturer For this reason the given maximum number of connectible electronic ballasts per output can only relate to a defined type of electronic ballast For a different ballast type this value can only represent an estimation In order to properly estimate the number of electronic ballasts the peak inrush current Ip and the associated pulse width of the electronic ballast must be known In ...

Page 40: ...ntial Specifications AC1 and AC3 are switching performance specifications which have become established in the industrial field Typical application AC1 Non inductive or slightly inductive loads resistance furnaces relates to switching of resistive loads cos 0 8 AC3 Squirrel cage motors starting or switching off during running relates to inductive motor load cos 0 45 AC5a Switching of electric disc...

Page 41: ...dered when selecting a Switch Actuator 2 10 Current detection specifications The Switch Actuators with current detection are recognizable by a number 6 as the third number of the type designation e g SA S 2 16 6 1 This is a Switch Actuator with integrated load current detection Each output features its own current detection with evaluation electronics which can be parameterized separately For furt...

Page 42: ... suppressed by an RC element and the displayed value is stabilized The RC element has a time constant τ of around 300 ms The current values are scanned cyclically with a scanning frequency of 320 ms Thus a change in the current can be safely detected every 320 ms and sent via the bus if required The near exact value is displayed after 5 τ 1 5 s The following technical specifications apply for curr...

Page 43: ...red equipment must be considered As ambient influences cannot be eliminated in practice detection via a current threshold model is only viable if a current change caused by tolerances and ambient influences in normal operation is less than the current change caused by equipment failure Recommended approach when monitoring loads that are close to the detection tolerances of the SA S current detecti...

Page 44: ...ld be observed when planning and setting up electrical installations Protect the device from damp dirt and damage during transport storage and operation Only operate the device within the specified technical data The device should only be operated in an enclosed housing distribution board Manual operation With the exception of SA S x 6 1 1 variant the Switch Actuators can be manually operated They...

Page 45: ...minutes to appear due to the complexity of the device Assignment of the physical address The assignment and programming of the physical address is carried out in ETS The device features a Programming button for assignment of the physical device address The red Programming LED lights up after the button has been pushed It switches off as soon as ETS has assigned the physical address or the Programm...

Page 46: ...and parameterize it accordingly The applications feature the same appearance and the same parameter window This significantly simplifies engineering and programming for ABB i bus KNX Switch Actuators Current detection is only integrated in types SA S x 16 6 1 Every Switch Actuator has its own application program with the same functions whereby devices with current detection feature additional para...

Page 47: ... 4 8 12 2 4 8 12 2 4 8 12 2 4 8 12 Manual operation Contact position indicator In rated current A 6 A 6 AX 10 AX 16 A 16 20 A 16 20 A Current detection Switch function ON OFF delay Staircase lighting Warning before end of staircase lighting Staircase lighting time set via object Flashing Switch response can be set N O N C Threshold values Current detection Threshold value monitoring Measured value...

Page 48: ...254 254 SA S 8 16 5 1 Switch 8f 16C 124 254 254 SA S 12 16 5 1 Switch 12f 16C 184 254 254 SA S 2 16 6 1 Switch 2f 16CS 40 254 254 SA S 4 16 6 1 Switch 4f 16CS 76 254 254 SA S 8 16 6 1 Switch 8f 16CS 152 254 254 SA S 12 16 6 1 Switch 12f 16CS 220 254 254 ETS and the current version of the device application program are required for programming The current application program is available for downlo...

Page 49: ...e Planning and application p 141 Heating actuator For control of heating valves e g in an individual room temperature control system A room thermostat sends a control value which the output uses to control the valve e g as a 2 step control For further information see Planning and application p 141 Please note With the introduction of optimized current detection on all Switch Actuator types the nom...

Page 50: ...A S x 6 2 1 SA S x 10 2 1 SA S x 16 2 1 SA S x 16 5 1 SA S x 16 6 1 Switch xf 6A 3 2 Switch xf 6M 3 2 Switch xf 10A 3 2 Switch xf 16A 3 2 Switch xf 16C 3 2 Switch xf 16CS 3 2 SA S 2 20 1S Switch 2f 20S 2 0 SA S 4 20 1S Switch 4f 20S 2 0 SA S 8 20 1S Switch 8f 20S 2 0 SA S 12 20 1 Switch 12f 20A 2 0 not convertible SA S x 16 6 1 Switch xf 16CS 3 0 3 1 or 3 2 SA S x 16 6 1 SA S x 16 5 1 SA S x 16 2 ...

Page 51: ...SA S x 20 1S Switch xf 16CS 2 0 Switch xf 20S 2 0 SA S x 16 6 1 V1 0 SA S x 16 6 1 SA S x 16 5 1 SA S x 16 2 1 SA S x 10 2 1 SA S x 6 1 1 Switch xf 16CS 3 0 Switch xf 16CS 3 1 or 3 2 Switch xf 16C 3 1 or 3 2 Switch xf 16A 3 2 Switch xf 10A 3 2 Switch xf 6A 3 2 SA S x 10 2 1 Switch xf 10A 3 2 SA S x 16 5S SA S x 20 1S Switch xf 16CS 2 0 Switch xf 20S 2 0 SA S x 16 6 1 V1 0 SA S x 16 6 1 SA S x 16 5...

Page 52: ...rget device is larger than the number of outputs of the source device only the first outputs of the target device are written with the converted data of the source device The remaining outputs retain or are reset to the default values However the group assignments of the existing communication object do not change 3 1 1 1 1 Summary of conversion All Switch 3 1 or 3 2 applications SA S x 16 y 1 wit...

Page 53: ... parameterized a device you can transfer the settings to a second device To do this right click on the product and select Convert in the context menu Then make the desired settings in the Convert dialog Finally exchange the physical address and delete the old device Should you wish only to copy individual channels within a device use the Copying and exchanging parameter settings function p 57 ...

Page 54: ...etained copied or deleted in the target output The output copy function is particularly useful with Switch Actuators that have several outputs with the same parameter settings For example lighting in a room is frequently controlled in an identical manner In this case the parameter settings from output X of a Switch Actuator can be copied to all other outputs or to a particular output of the Switch...

Page 55: ...k on the product whose outputs you wish to copy or exchange and select Copy Exchange channels in the context menu Then make the required settings in the Copy Exchange channels dialog Please note When the term channels is used in ETS it means inputs and or outputs To make the language of ETS generally valid for as many ABB i bus devices as possible the word channels is used in this document ...

Page 56: ...upper area of the window Below it you will find a selection window for the source channel so that you can mark it Beside it is the selection window for marking the destination channel s Source channel The source channel selection defines which parameter settings should be copied or exchanged Only one source channel can be selected at a time ...

Page 57: ...nation channel selection with this button Copy The following options can be selected before copying the parameter settings Keep group addresses in the destination channel unchanged if possible Copy group addresses Delete group addresses in the destination channel With this button you copy the settings of the source channel into the target channel s Exchange The following options can be selected be...

Page 58: ...The default values of the parameters are underlined e g Options yes no Please note This product manual describes all the current 2 4 8 and 12 fold Switch Actuators These devices have 2 4 8 or 12 outputs respectively However as the functions for all outputs are identical only the functions of output A will be described Where information in the product manual refers to all outputs the description ou...

Page 59: ...are sent and the state of the outputs is set to correspond with the parameterization or the communication object values If communication objects are read during the sending and switching delay e g by a visualization system these read requests are stored and a response is sent after the sending and switching delay has been completed An initialization time of about two seconds is included in the del...

Page 60: ...d sending is allowed again after the second has timed out The current communication object value is always sent at the time of transmission Example Maximum number of sent telegrams 5 20 telegrams are ready to send The device immediately sends 5 telegrams The next 5 telegrams are sent after a maximum of 1 second From this point a further 5 telegrams are sent via KNX every second x 1 2 3 5 10 or 20 ...

Page 61: ... each priority you can define your own trigger condition enabling condition here With safety activation the relevant Safety Priority x communication object becomes visible These communication objects relate to the entire device However every output can react differently to the receipt of a telegram The reaction of the output is parameterized in parameter window X Safety of the respective output x ...

Page 62: ...ject Safety Priority x receive a telegram that does not fulfill the trigger conditions the control period is reset and restarted 0 No monitoring is taking place However the Safety Priority x is triggered if communication object Safety Priority x receives a telegram with the triggering condition as defined in parameter Function Safety Priority x x 1 2 or 3 Please note The monitoring period in the S...

Page 63: ...nly the functions of output A will be described All general settings for output A are undertaken in this parameter window Operating mode of output A Options Switch Actuator Heating Actuator This parameter defines the operating mode of the output As the parameters and possible functions as well as other parameter windows are different for each operating mode we will describe them separately here fo...

Page 64: ...dependently and controls the corresponding relay The comprehensive range of additional functions available are described in this section Status response of switching state Object Status Switch Options no only after changing always This parameter can enable the communication object Status Switch This contains the current switch state i e contact position no The contact position is updated but the s...

Page 65: ...ication object is lost and needs to be re allocated The status value to be sent is defined using the parameter Object value switching status Object Status Switch Please note The contact position is determined by a sequence of priorities and logical connections see Function diagram p 161 The contact position can only be correctly evaluated if the switching actions occur via KNX The SA S cannot diff...

Page 66: ...erization to write with 1 The communication object Switch is written with a 1 on bus voltage recovery The contact position is redefined and set based on the set device parameterization Please note Provided that no manual switching action has occurred the communication object Status Switch indicates the correct status of the contact position independently of the value of communication object Switch...

Page 67: ... yes The values set in Parameter windows A Scene A Preset or A Threshold are transferred to the Switch Actuator when a download occurs overwriting the existing values Reprogramming of these values via the bus is still possible at any time no The values set in Parameter windows A Scene A Preset or A Threshold value are not transferred to the Switch Actuator when a download occurs The values can onl...

Page 68: ...nd an OFF telegram 0 closes it Normally open contact An ON telegram 1 closes the contact and an OFF telegram 0 opens it Enable time functions delay staircase lighting flashing Options no yes no Parameter window A Time is not enabled for output A yes Parameter window A Time for output A and communication object Disable time function are enabled Using this communication object the Time function can ...

Page 69: ...results from the functions operating in the background With the selection yes a new parameter appears Value object Disable time function after bus voltage recovery Options 1 disable time functions 0 enable time functions 1 disable time functions The Time function is disabled by a telegram with the value 1 Please note They can only be re enabled via the communication object Disable time function 0 ...

Page 70: ... recovery it can only be switched on or off via the communication object Switch B By parameterization of the communication object Switch Whether the light is switched on or off on bus voltage recovery depends on the settings of Switch Enable function presets Options no yes no Parameter window A Preset is not enabled for output A yes Parameter window A Preset is enabled for output A Enable function...

Page 71: ...ndow A Threshold is not enabled for output A yes Parameter window A Threshold is enabled for output A Enable function current detection Options no yes no Parameter window A Current Detection is not enabled for output A yes Parameter window A Current detection and communication object Contact monitoring are enabled for output A Please note These parameters and their functions are only visible for S...

Page 72: ...itch status is updated and always sent when there is a change of status or the contact is to be opened and is not yet open No value is sent when closing the contact The reset status is only sent when it is next opened only after changing A telegram is only sent if the value of communication object Contact monitoring changes This can influence the bus load significantly particularly for Switch Actu...

Page 73: ... delay Staircase lighting function and Flashing This parameter window is visible if the Enable time function parameter has been enabled in Parameter window A Function p 71 Explanations of the Time functions and sequences can be found in Planning and application p 141 Please also refer to the Function diagram p 147 from which the switching and timing priorities originate ...

Page 74: ...ndow A Function p 71 with the parameter Value object Disable time function on bus voltage recovery ON OFF delay The output can be switched on or off with a delay via this function Flashing The output starts to flash as soon as communication object Switch receives the parameterized value The flashing period can be adjusted via the duration set for ON or OFF At the start of the flashing period the o...

Page 75: ...nce the remaining staircase lighting time can be extended by a further period This is possible by repeated operation of the button pumping up until the maximum parameterized number of retriggering operations is reached The maximum time can be set to 1 2 3 4 or 5 times the staircase lighting time Let s say the staircase lighting time has been extended by pumping up to the maximum time If some of th...

Page 76: ...telegram However this means that if set to the option ON with 1 no action with 0 the output is simultaneously switched on when enabled Switch off via the bus is thus not possible Only after e g the staircase lighting function is started does the output switch off after the staircase lighting time has elapsed Warning before end of staircase lighting Options no via object via quick switching OFF ON ...

Page 77: ...possible per minute see Technical data from p 9 Warning time in sec 0 65 535 add to duration of staircase lighting Options 0 45 65 535 This parameter is visible if you have set a warning before the staircase lighting time ends The warning time must be entered in seconds The staircase lighting time is extended by the warning time The warning is triggered at the start of the warning time The warning...

Page 78: ...very depends on the settings of Switch Restart of staircase time after end of permanent ON Options no yes no The lighting switches off if Permanent ON is ended yes The lighting remains on and the staircase lighting time restarts The function of Permanent ON is controlled via the communication object value Permanent ON If the communication object receives a telegram with the value 1 the output is s...

Page 79: ...iming diagram as well as explanations on the effect of various ON and OFF telegrams in combination with ON OFF delay Delay for switching on Min 0 65 535 Delay for switching on Sec 0 59 Options 0 65 535 0 59 Here you set the time by which an ON telegram is delayed after switch on Delay for switching OFF Min 0 65 535 Delay for switching OFF Sec 0 59 Options 0 65 535 0 59 Here you set the amount of t...

Page 80: ...erted when the output is used as a normally closed contact The communication object Status Switch indicates the current relay state during flashing Please note Only a certain number of switching actions are possible per minute and Switch Actuator This means that frequent switching may cause a switching delay see Technical data from p 9 The same applies directly after bus voltage recovery When the ...

Page 81: ...ime for ON Min 0 65 535 Time for ON Sec 0 59 Options 0 65 535 1 5 59 Time for ON defines how long the output is switched on during a flashing period The smallest value is 1 second Please note Only a certain number of switching actions are possible per minute and Switch Actuator This means that frequent switching may cause a switching delay see Technical data from p 9 The same applies directly afte...

Page 82: ...s switched on after flashing OFF The output is switched off after flashing calculate present contact position The output assumes the contact position which it had before flashing commenced For further information see Function diagram p 147 Please note Observe the contact life span and switching cycles per minute Please note Only a certain number of switching actions are possible per minute and Swi...

Page 83: ...w preset value The preset values can be set stored via the bus In parameter window A General you define whether the values set in ETS are transferred to the Switch Actuator with a download This is how the values saved in the actuator are overwritten Two presets are available per output Preset 1 is recalled by a telegram with the value 1 Preset 2 is recalled by a telegram with the value 0 Separate ...

Page 84: ...value before preset 2 The current relay contact position is stored when preset 2 is first recalled This stored value switch state is retained until it is set again by the recall of preset 1 The current contact position is stored again next time preset 2 is recalled Example With preset 2 the lighting in a conference room is recalled for a presentation When the presentation is finished the lighting ...

Page 85: ...mmunication object Set preset 1 2 It is thus possible to store the current contact position as the new preset value Telegram value 0 saves preset 1 whereas telegram value 1 saves preset 2 If the option no reaction restore old value before preset 2 or restore parameterized value of preset 2 has been selected in parameter Reaction on preset 1 telegr value 0 no new communication object value is saved...

Page 86: ... the scene values set via the bus during a download and thus to protect them Output is assigned to Scene 1 64 Options no allocation Scene 1 Scene 64 The Scene function manages up to 64 scenes using one single group address With this group address all slaves integrated into a scene are linked via a 1 byte communication object The following information is contained in a telegram Scene number 1 64 an...

Page 87: ... change the parameterized value stored in ETS After a bus voltage failure the value saved via KNX is retained Please note When a scene is recalled the Time function is restarted the logical connections are re evaluated For further information see Communication objects Output A p 111 Scene function p 156 and Code table 8 bit scene p 171 ...

Page 88: ...e communication object Switch The logic is always re calculated when an object value is received First the communication object Logical connection 1 is evaluated with communication object Switch The result is then logically linked with communication object Logical connection 2 Explanations of the Logic function can be found in Logic function p 153 Please also observe the Function diagram p 147 whe...

Page 89: ...s no yes yes The result of the logical connection can be inverted no There is no inversion Object value Logical connection 1 after bus voltage recovery Options 1 0 This parameter defines the value allocated to the communication object Logical connection 1 on bus voltage recovery Please note The values of communication objects Logical connection 1 2 are stored on bus voltage failure The values are ...

Page 90: ...re ignored As long as GATE is active the last value sent to the GATE input remains on the output s logic gate When disabled the value that was on the output beforehand remains After the GATE is enabled this value will be retained until a new value is received For further information see Function diagram p 147 The GATE is deactivated on bus voltage failure and remains so on bus voltage recovery Log...

Page 91: ...voltage failure and recovery has a higher priority Enabling of the three communication objects Safety Priority x x 1 2 3 is undertaken in the General parameter window Monitoring time and the telegram value to be monitored are set in this window If a telegram is not received within this monitoring time the output will assume the safety position This is determined in parameter window A Safety descri...

Page 92: ...riority 1 is used as a master for the safety position The contact positions ON OFF and unchanged are available inactive The state of communication object Safety Priority 1 has no effect on the output Contact position if forced operation Options inactive unchanged via 1 bit object on via 1 bit object off via 1 bit object switch position via 2 bit object Forced operation relates to the 1 or 2 bit Fo...

Page 93: ...m with the value 3 binary 11 the output of the Switch Actuator is switched on and remains disabled until forced operation is switched off again Actuation via another communication object is not possible as long as forced operation is activated The state of the output at the end of forced operation can be parameterized Object value Forced positioning on bus voltage recovery This parameter is only v...

Page 94: ...ontact position if Safety Priority 1 Reaction when forced operation and all Safety Priority x end Options calculate present contact position ON OFF unchanged This parameter is only visible if forced operation or a Safety Priority x x 1 2 or 3 function is activated The contact position of the relay at the end of forced operation and safety priorities is defined here calculate present contact positi...

Page 95: ...able Threshold 1 can be modified via the bus For further information see Threshold function p 159 When the threshold function is active the Switch Actuator continues to receive switching telegrams In this way the contact position determined by the threshold function can be changed see Function diagram p 147 The threshold function generates a switching telegram as soon as a new threshold telegram i...

Page 96: ...es set via the bus and thus to protect them Threshold value 1 0 255 The value range is dependent on the selection made in the parameter Data type of object Threshold input 1 byte 0 255 Options 0 80 255 2 byte 0 65 535 Options 0 20 000 65 535 Threshold value 2 0 255 The value range is dependent on the selection made in the parameter Data type of object Threshold input 1 byte 0 255 Options 0 160 255...

Page 97: ...Options unchanged ON OFF This parameter determines the contact position of the output ON OFF unchanged based on the threshold communication object value Object threshold input value on bus voltage recovery 0 255 Object threshold input value on bus voltage recovery 0 65 535 The value range is dependent on the selection made in the parameter Data type of object Threshold input 1 byte 0 255 Options 0...

Page 98: ... is only visible on Switch Actuators with current detection SA S x 16 6 1 It offers the same functionality in both Switch Actuator and Heating Actuator modes The settings in parameter window A Current Detection determine if and how the load current of the output is evaluated Activating current detection enables the communication object Current Value Communication object Current Value transfers the...

Page 99: ... must be entered in seconds 0 No current values are sent cyclically via the bus The present current values are however continuously available in the output s Current Value communication object and can be read out Send current value on change of value Options no 25 50 100 200 500 mA 1 2 5 A This parameter determines that on a load change the current value is sent via the bus via the Current Value c...

Page 100: ...that no current value is sent displayed when a current of 0 9 A is flowing The other way around a current value can be displayed sent even though no current is flowing Starting from 1 5 A the current is reduced to 0 A A current value of 0 5 A is sent via the bus Since no further 1 A current change can occur for a current value of 0 no new value is sent The last value sent and displayed is 0 5 A Th...

Page 101: ... following parameters appear Evaluation Options always only with closed contact only with open contact This parameter determines the contact position at which the information Threshold undershoot or Threshold overshoot is sent always Falling below or exceeding the set current threshold value can be evaluated for both contact positions This is only sent via KNX if the status changes As a result wit...

Page 102: ...ntact change but rather continuously about once a second How does evaluation function Current value is detected in accordance with the parameterized contact position Should it be different to the contact position parameterized on the output of the SA S the current value is neither detected nor evaluated Furthermore the current value is not recorded during the parameterized evaluation delay and the...

Page 103: ...ll not be resent The new status is sent only after the next setpoint overshoot Evaluation delay 0 255s after contact closing Options 0 3 255 With this parameter you can ensure that brief start up currents or current peaks caused by the switching process do not lead to an unwanted current threshold value signal This method masks out measured values Only after this time has elapsed will the Status C...

Page 104: ...increases unnecessarily if there is continuous status change Current threshold 1 hysteresis Options no sending send 0 at crossing over send 1 at crossing over send 1 at crossing lower send 0 at crossing lower send 0 at crossing over 1 at crossing lower send 1 at crossing over 0 at crossing lower This parameter determines the value of the communication object Status Current Threshold 1 when undersh...

Page 105: ...nds the value 1 or if the threshold is undershot 0 The status is sent after the evaluation delay at the earliest and only if the status has changed Enable current threshold 2 Options no yes This parameter enables the second current threshold value and its associated communication object Status Current Threshold 2 The same evaluation delay scaling and evaluation properties as for Threshold 1 apply ...

Page 106: ...nsor sends cyclically On receipt of the telegram the communication capability of the bus or the sensor signaling device can be monitored If the Switch Actuator does not receive a telegram on the communication object Safety Priority 1 within a certain time value can be parameterized a fault is assumed and a response as parameterized in parameter window A Safety is implemented The Switch Actuator ou...

Page 107: ...05 056 D0208 SA S No Function Object name Data type Flags 2 Safety Priority 2 General EIS 1 1 bit DPT 1 005 C W U See communication object 1 3 Safety Priority 3 General EIS 1 1 bit DPT 1 005 C W U See communication object 1 4 9 Not assigned ...

Page 108: ... functions of output A will be described Where information in the product manual refers to all outputs the description output A X is used 2 fold corresponds to outputs A B 4 fold corresponds to outputs A D 8 fold corresponds to outputs A H and 12 fold corresponds to outputs A L The variants with current detection feature an additional parameter page as well as additional communication objects for ...

Page 109: ...sition is recalculated based on the parameterization and set independently of the contact position 11 Permanent ON Output A EIS 1 1 bit DPT 1 001 C W This communication object is enabled if the yes option is selected for parameter Enable time functions in the A Function parameter window The output can be forcibly switched on with this communication object If communication object Permanent ON is as...

Page 110: ...taircase lighting can be changed by object in parameter window A Time The duration of staircase lighting is set here The time is entered in seconds After bus voltage recovery the communication object value is set by the parameterized value and the value set via the bus is overwritten 14 warning stair lighting Output A EIS 1 1 bit DPT 1 005 C T This communication object is enabled if the Staircase ...

Page 111: ...function scene 8 bit in the A Function parameter window Using this 8 bit communication object a scene telegram can be sent using a coded telegram The telegram contains the number of the scene concerned as well as the information on whether the scene is to be recalled or if the current contact position is to be assigned to the scene Telegram format 1 byte MXSSSSSS MSB LSB M 0 Recalls the scene 1 St...

Page 112: ...n objects Logical Connection 1 2 they will be deactivated On reset via the bus the values of communication objects Logical Connection 1 2 remain unchanged For further information see Logic function p 153 19 Logical connection 2 Output A 1 bit EIS 1 DPT 1 002 C W See communication object 18 20 Forced operation Output A 1 bit EIS 1 DPT 1 003 C W This communication object is enabled if in parameter w...

Page 113: ...ty for parameter Reaction when forced operation and all Safety Priority x end Please note that the function Safety Priority 1 and a bus failure have a higher priority on the contact position see Function diagram p 147 21 Threshold input Output A 1 byte EIS 6 2 byte EIS 10 DPT 5 010 DPT 7 001 C W This communication object is enabled if the yes option is selected for parameter Enable function thresh...

Page 114: ...indow and the 2 byte datapoint type is selected in the A Current Detection parameter window The presently detected current is sent via KNX 1 digit corresponds to 1 mA For further information see Current detection specifications p 44 26 Current Value Output A EIS 9 4 byte DPT 14 019 C R T This communication object is enabled if the yes option is selected for parameter Enable function current detect...

Page 115: ...teresis is exceeded 0 threshold value 2 minus threshold value 2 hysteresis is not exceeded For further information see Threshold function with current detection p 142 29 Status Switch Output A EIS 1 1 bit DPT 1 001 C R T This communication object is enabled if the options only after changing or always are selected for parameter Status response of switching state Object Status Switch response in pa...

Page 116: ...put signal is used in the Switch Actuator in accordance with the parameterizable cycle time in the ON and OFF command of the switch relay At 0 the valve is closed and at 100 it is fully open Intermediate values are calculated via pulse width modulation PWM For further information see Pulse width modulation calculation p 164 Please note Electromechanical Switch Actuators including SA S Switch Actua...

Page 117: ...d but the status is not actively sent via the bus only after changing When the contact position changes communication object Status Switch actively sends the status via the bus This can have a major effect on the bus load on a Switch Actuator with multiple outputs always The status of the contact position is always actively sent via the bus via communication object Status Switch even when no statu...

Page 118: ...on object Status Switch for a closed contact 1 for an open contact The reaction of the heating valve is dependent on the position of the Switch Actuator relay and the valve type normally open or normally closed Reaction on bus voltage failure Options Contact open Contact closed Contact unchanged This parameter defines how the contacts and accordingly the valve drives are controlled on bus voltage ...

Page 119: ... Control value PWM Options 1 bit PWM or on off control 1 byte continuous 1 bit PWM or on off control The room thermostat controls the heating actuator via standard switching telegrams This enables on off control of the control value The 1 bit value can also originate from pulse width modulation PWM calculated by a room thermostat During a malfunction when the control signal is not received by the ...

Page 120: ...or continuous control Seconds 0 59 Options 0 59 With 1 bit control this time setting is only used during control of the actuator in fault mode with the Forced operation function and directly after bus voltage recovery With 1 byte control continuous control this setting determines the duration of the control signals This corresponds with the cycle time tCYC The time has been limited to three minute...

Page 121: ...ameter window A Monitoring is enabled for output A There the communication object RTR fault can be enabled for monitoring Thus a failure of the room thermostat can be detected the output changed to fault mode and a parameterized valve position can be set Enable function forced operation Options no yes With forced operation the output can assume a determined position e g for inspection purposes no ...

Page 122: ...s valve purge are enabled for output A Enable function current detection Options no yes no Parameter window A Current Detection is not enabled for output A yes Parameter window A Current detection and communication object Contact monitoring are enabled for output A Please note These parameters and their functions are only visible for Switch Actuators with current detection The actuators with integ...

Page 123: ...s updated but not sent always The switch status is updated and always sent when the contact is opened No value is sent when closing it The reset status is only sent the next time the contact is opened only after changing A telegram is only sent if the value of communication object Contact monitoring changes This can have a major impact on bus load particularly for Switch Actuators with multiple ou...

Page 124: ...ecific intervals If one or more of the consecutive telegrams is omitted this may indicate a communications fault or a room thermostat malfunction If communication objects Switch or Control value PWM receive no telegrams during the period defined in this parameter the output switches to fault mode and triggers a safety position Fault mode ends as soon as a telegram is received as a control value Pl...

Page 125: ...t the SA S controls in error mode The value in brackets corresponds to the 1 byte value The switch cycle time tCYC used for control should be set via the parameter PWM cycle time for continuous control in parameter window A General Enable object RTR fault Options no yes This parameter enables communication object RTR fault In fault mode the communication object has the value 1 if there is no fault...

Page 126: ...d operation can be activated via communication object Forced operation 1 and deactivated via Forced operation 0 Valve position during forced positioning Options unchanged 0 closed 10 26 90 230 100 open The valve position triggered by the actuator during the forced operation is determined by this parameter The value in brackets corresponds to the 1 byte value The switch cycle time tCYC used for con...

Page 127: ...d restricting the valve function This is particularly important at times when the valve position does not change very much The valve is opened to the maximum during a valve purge It can be triggered via the communication object Trigger valve purge and or automatically at adjustable intervals Time of valve purge in minutes 0 255 Options 1 10 255 This parameter sets the duration of the valve purge D...

Page 128: ... This can occur either through automatic purging or via communication object Trigger valve purge Please note Purging can also be triggered via the bus with the communication object Trigger valve purge After bus voltage recovery and download the purge cycle continues the bus failure time the time for which the bus actually failed is not considered An intermediate switching operation of the Switch A...

Page 129: ...nabled in Parameter window A Function p 124 Please note The current detection function and associated parameter window is only visible on Switch Actuators with current detection SA S x 16 6 1 It offers the same functionality in both Switch Actuator and Heating Actuator modes As the function is the same for both modes please refer to the descriptions of the parameter setting options and adjustable ...

Page 130: ...ceive a 1 bit telegram via this communication object which another KNX device e g diagnostics module or wind sensor sends cyclically On receipt of the telegram the communication capability of the bus or the sensor signaling device can be monitored If the Switch Actuator does not receive a telegram on the communication object Safety Priority 1 within a certain time value can be parameterized a faul...

Page 131: ...05 056 D0208 SA S No Function Object name Data type Flags 2 Safety Priority 2 General EIS 1 1 bit DPT 1 005 C W U See communication object 1 3 Safety Priority 3 General EIS 1 1 bit DPT 1 005 C W U See communication object 1 4 9 Not assigned ...

Page 132: ... the functions of output A will be described Where information in the product manual refers to all outputs the description output A X is used 2 fold corresponds to outputs A B 4 fold corresponds to outputs A D 8 fold corresponds to outputs A H and 12 fold corresponds to outputs A L The variants with current detection feature an additional parameter page as well as additional communication objects ...

Page 133: ...put A EIS 6 1 byte DPT 5 010 C W This communication object is visible if the control of the heating actuator is implemented via a 1 byte communication object e g within a continuous control The communication object value 0 255 is determined by the variable mark to space ratio of the valve Telegram value 1 valve closed 0 valve open 11 Trigger valve purge Output A EIS 1 1 bit DPT 1 001 C W This comm...

Page 134: ...he device assumes that the thermostat is malfunctioning and signals a fault Telegram value 1 fault 0 no fault 14 Forced operation Output A 1 bit EIS 1 DPT 1 003 C W This communication object is enabled if the yes option is selected for parameter Enable function forced operation in the A Function parameter window If the communication object receives the value 1 the valve is forcibly moved to the pa...

Page 135: ...tact opened via KNX contact welding or manual switch on has occurred contact fault Evaluation of whether a current is flowing occurs about one second after a contact is opened Current will definitely be detected if a measurable current about 20 mA is flowing A KNX switch operation is required for evaluation to work properly Telegram value 1 contact error 0 no current is flowing 26 Current Value Ou...

Page 136: ...on is selected for parameters Enable current threshold value s and Enable threshold value 2 in the A Current Detection parameter window The status of current threshold 1 is only sent when a change occurs The status value can be inverted Telegram value 1 threshold value 2 plus threshold value 2 hysteresis is exceeded 0 threshold value 2 minus threshold value 2 hysteresis is not exceeded For further...

Page 137: ......

Page 138: ...e phase angle control signals the detected current value is distorted In this case the measured value is meaningless Current values less than 20 mA are indicated as a 0 mA value via KNX For small load currents that are just above the minimum detection threshold of 20 mA a value of 0 mA could be displayed due to inaccuracies even though a current is flowing The current detection and monitoring func...

Page 139: ...detected load current To avoid a continuous change of the threshold value state the thresholds for current recognition feature a hysteresis function The width of the hysteresis band is determined by the parameterizable hysteresis threshold Example Hysteresis curve parameterization overshoot 1 undershoot 0 Should the upper hysteresis threshold be overshot or the lower hysteresis threshold undershot...

Page 140: ...and displaying operating states of electrical loads The operating state is detected indirectly via the load current If the load current exceeds a threshold an ON telegram is sent via the bus if the value drops below the threshold an OFF telegram is issued This ON OFF telegram can be received for example by a Universal Concentrator and displayed on the display panel ...

Page 141: ...r and a separate meter or counter element it is possible to record signal and display the actual electrical operating hours of electrical loads This function can be used in facility management or for preventative maintenance and service planning Filter exchange in air conditioning systems or the replacement of lamps can be optimized and planned in advance ...

Page 142: ... information for planning and carrying out inspections and undertake repairs before the system fails Example Should the current value change telegrams are sent via the bus These telegrams can be evaluated on a PC and displayed as a diagram using visualization software Thus changes which occur over an extended period are easily recognizable If trend analysis is combined with logging a defective dev...

Page 143: ...ay devices The detected current and its tolerances see Technical data from p 9 can be displayed Using the KNX this current value can be sent to a complex maintenance center or a simple LCD display or visualization e g a panel Further processing or display is possible from here This makes real time monitoring or facility management of the installation possible ...

Page 144: ...ting mode Switch Actuator 4 2 1 Function diagram The following illustration indicates the sequence in which the functions are processed Communication objects which lead to the same box have the same priority and are processed in the sequence in which the telegrams are received ...

Page 145: ...he relay is switched if a switching action allows it 4 2 2 Time function The Time function can be enabled value 0 and disabled value 1 via the bus 1 bit communication object Disable time function The output operates without a delay as long as the Time function is disabled Various functions can be undertaken using the Time function Staircase lighting ON OFF delay Flashing 4 2 2 1 Staircase lighting...

Page 146: ...At the start of the warning time the output can be briefly switched on and off and or the communication object warning stair lighting can be written with the value 1 After the staircase lighting time TON elapses the output is switched off briefly for the TWARN period and communication object warning stair lighting sends a telegram As a result for example half of the lighting is switched off or an ...

Page 147: ...eds The maximum duration of the staircase lighting time can be set in the parameters If the device receives a further ON telegram when the staircase lighting is switched on the staircase lighting time is added to the remaining period The warning time does not change due to pumping up and is added to the extended x fold TON ON time Application examples Lighting control in stairwells Monitoring of t...

Page 148: ...r it has elapsed the output executes the switch telegram If a new ON telegram with the value 1 is received during the switching ON delay the ON delay time starts again Likewise If a new OFF telegram with the value 0 is received during the switching OFF delay the OFF delay time starts again Please note If the device receives an OFF telegram during the switching on delay time TD1 an ON telegram is d...

Page 149: ...e contact life of the contacts should be considered and can be found in the technical data Limiting the number of switching operations with the parameter Number of ON impulses may be useful Furthermore a delay in the switching sequence may possibly be caused by the limited availability of switching energy with very frequent switching The possible number of switching operations should be considered...

Page 150: ...ect values Explanations Logical function Switch Connection 1 Result Connection 2 Output AND 0 0 1 1 0 1 0 1 0 0 0 1 0 1 0 1 0 0 0 1 The result is 1 if both input values are 1 The output is 1 if both input values are 1 OR 0 0 1 1 0 1 0 1 0 1 1 1 0 1 0 1 0 1 1 1 The result is 1 if one of the input values is 1 XOR 0 0 1 1 0 1 0 1 0 1 1 0 0 1 0 1 0 0 1 1 The result is 1 when both input values have a d...

Page 151: ...ut of the logical connection is not recalculated Please note The values of communication objects Logical connection 1 2 and Switch can be parameterized on bus voltage recovery If values are not assigned for communication objects Logical Connection 1 2 they will be deactivated On reset via the bus the values of communication objects Logical Connection 1 2 remain unchanged Please note With the SA S ...

Page 152: ...ll preset 1 2 A maximum of two preset values are available for each output Action Telegram Recall preset 1 Communication object Call preset 1 2 0 Recall preset 2 Communication object Call preset 1 2 1 Set preset The current contact position is stored as a new preset value via the communication object Set preset 1 2 The user can for example adapt a light scene in this way The presets are stored via...

Page 153: ...r a presentation to restore the lighting to the state it was in beforehand 4 2 5 Scene function With the 8 bit scene function the push button issues the switch actuator with the instruction to recall a scene The scene is not stored in the push button but rather in the switch actuator All switch actuators belong to the same group address A single telegram is thus sufficient to recall the scene Alon...

Page 154: ...o 64 different scenes can be managed via a single KNX group address The following information is contained in a scene telegram Number of the scene 1 64 Recall scene store scene For further information see Code table 8 bit scene p 171 Benefits The Scene function on ABB i bus devices offers the following decisive advantage All settings to be undertaken in a scene are stored in the device Therefore t...

Page 155: ... a single KNX telegram The prerequisite for this is that all slaves have Scene 8 set in their devices After a telegram has been received the slaves switch on their Scene number 8 The blind actuator moves the blinds to the corresponding position the lighting assumes the predefined brightness values and contact positions defined by the Scene Please note The scene numbering 1 to 64 is recalled via KN...

Page 156: ...he value exceeds the upper threshold or falls below the lower threshold the output is switched Please note If the communication object Threshold receives a value that does not overshoot or undershoot the old value no switching action is triggered During the Threshold function the Switch Actuator can continue to receive telegrams that can trigger switching actions The communication object Switch an...

Page 157: ...A S Threshold values are not hysteresis values The output is switched when any threshold is undershot or overshot Please note If the communication object Threshold receives a value that does not overshoot or undershoot the old value no switching action is triggered ...

Page 158: ... bus KNX Planning and application SA S 2CDC 505 056 D0208 161 4 3 Operating mode Heating Actuator 4 3 1 Function diagram The following illustration indicates the sequence in which the functions are processed ...

Page 159: ...temperature is exceeded and a 0 if the value drops below a certain temperature These switch values are implemented by the SA S The room thermostat hysteresis limits can be used for control stability Use of these limits does not affect the method of operation of the Switch Actuator A room thermostat can use the control algorithm of a PWM control As the room thermostat sends ON and OFF telegrams to ...

Page 160: ...cycle time and undertake a PWM calculation With PWM control the received control value 0 100 calculated in the control algorithm is converted to a pulse width modulation The conversion is based on a constant cycle time For example if the SA S receives a control value of 20 then for a cycle time of 15 minutes the valve will be opened for three minutes 20 of 15 minutes and closed for 12 minutes 80 o...

Page 161: ...tON the valve is opened and during the time tOFF it is closed On account of tON 0 4 x tCYC the valve is set to about 40 on tCYC is the so called PWM cycle time for continuous control Please note Pulse width modulation leads to frequent switching of the outputs The limited number of switching operations with normal Switch Actuators should be considered Electronic Switch Actuators should preferably ...

Page 162: ...tch Actuator life would be less than a year This observation assumes an AC1 switch load almost exclusively resistive at rated current If the maximum number of switching operations for a purely mechanical relay load are assumed the life of the Switch Actuator is extended This has an inherent risk the contact materials can wear prematurely and may not guarantee safe conduction Conventional cycle tim...

Page 163: ...recovery The Switch Actuator draws the energy for switching the contact from the bus After bus voltage is applied sufficient energy to switch all contacts simultaneously is only available depending on SA S type after about 10 30 seconds see Technical data from p 9 Depending on the transmission and switching delay after recovery of bus voltage as set in the General parameter window the individual o...

Page 164: ...ried out Reaction on Bus voltage recovery Download ETS bus reset Communication object values Generally the communication object values can be parameterized If not the communication object is written with 0 Values are retained Overwriting of the scene preset and threshold 1 can be parameterized X General Values are retained including the scenes preset values and threshold 1 Timer Out of operation V...

Page 165: ...ter an event has been received As for download Flashing Unchanged Changes only after an event has been received Unchanged Changes only after an event has been received As for download Permanent ON Parameterizable parameter window X Time Unchanged As for download Preset scenes The preset and scene values stored in the SA S are restored if the parameter for overwrite at download has been set to yes ...

Page 166: ...ty priorities Inactive communication object values are set to inactive Communication object values are retained Monitoring time is restarted As for download Forced operation Can be parameterized Parameter window A Safety Communication object values are retained Monitoring time is restarted As for download Current detection Current value is recalculated Status Current Threshold is calculated using ...

Page 167: ...inal red black 1 x number of outputs 2 4 8 or 12 y rated current in Ampere 6 A 10 A or 16 A z device characteristic 1 standard device with normal switching capacity 5 C load device 200 µF with increased switching capacity 6 C load device 200 µF with increased switching capacity and current detection w hardware version A 2 Code table 8 bit scene The following table indicates the telegram code for a...

Page 168: ...97 C5 26 1A 0 27 A 112 70 198 C6 27 1B 0 28 A 113 71 199 C7 28 1C 0 29 A 114 72 200 C8 29 1D 0 30 A 115 73 201 C9 30 1E 0 31 A 116 74 202 CA 31 1F 0 32 A 117 75 203 CB 32 20 0 33 A 118 76 204 CC 33 21 0 34 A 119 77 205 CD 34 22 0 35 A 120 78 206 CE 35 23 0 36 A 121 79 207 CF 36 24 0 37 A 122 7A 208 D0 37 25 0 38 A 123 7B 209 D1 38 26 0 39 A 124 7C 210 D2 39 27 0 40 A 125 7D 211 D3 40 28 0 41 A 126...

Page 169: ...fold 6 A manual MDRC 2CDG 110 182 R0011 92513 6 0 51 1 SA S 12 6 2 1 Switch Actuator 12 fold 6 A manual MDRC 2CDG 110 183 R0011 92515 0 0 74 1 10 A Switch Actuators for resistive inductive or capacitive loads as well as fluorescent lamp loads AX SA S 2 10 2 1 Switch Actuator 2 fold 10 A MDRC 2CDG 110 155 R0011 87783 1 0 18 1 SA S 4 10 2 1 Switch Actuator 4 fold 10 A MDRC 2CDG 110 156 R0011 87782 4...

Page 170: ...2CDG 110 134 R0011 70829 6 0 59 1 SA S 12 16 5 1 Switch Actuator 12 fold 16 A MDRC 2CDG 110 137 R0011 71107 4 0 80 1 16 20 A Switch Actuators for loads with high peak inrush currents e g lighting equipment with compensation capacitors or fluorescent lamp loads AX to EN 60 669 C load with current detection SA S 2 16 6 1 Switch Actuator with Current Detection 2 fold 16 A MDRC 2CDG 110 112 R0011 7083...

Page 171: ...greed properties are definitive for any orders placed ABB AG does not accept any responsibility whatsoever for potential errors or possible lack of information in this document We reserve all rights in this document and in the subject matter and illustrations contained therein Reproduction transfer to third parties or processing of the content including sections thereof is not permitted without pr...

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