Busch-Watchdog presence detector Type: 6131-74 - Busch
Contents
1. Telegram after recovery time Time base for cyclical sending Time factor for cyclical sending HVAC channel 2 Activation object movement Only if object is available enabling movement at Type of movement object Sending at detection Telegram after recovery time Time base for cyclical sending Time factor for cyclical sending Additional parameters for High Access Illumination channel 1 Activation object brightness dependent switching Only if movement object is available at disabling the movement at enabling the movement Type of movement object Only for Value EIS 6 Sending at detection Telegram after recovery time Adjustments channel 1 Threshold illumination adjustable with Only if ETS is selected Threshold illumination 5 lux 1000 lux Recovery time adjustable with Only if ETS is selected Potentiometer should not be at TEST Time base of recovery time Time factor of recovery time Light source ON telegram OFF telegram ON telegram cyclically OFF telegram cyclically no telegram 130 ms 2 1 s 34s 9 min 10 not available available ON telegram OFF telegram Switching EIS 1 ON telegram OFF telegram ON telegram cyclically OFF telegram cyclically no telegram ON telegram OFF telegram ON telegram cyclically OFF telegram cyclically no telegram 130 ms 22. Sending at detection Telegram after recovery time Time base for cyclical sending Time factor for cyclical sending HVAC Activation object movement Only if object is available enabling movement at Type of movement object Sending at detection Telegram after recovery time Time base for cyclical sending Time factor for cyclical sending disabled enabled disabled enabled disabled enabled disabled enabled disabled enabled not available available ON telegram OFF telegram Switching EIS 1 ON telegram OFF telegram ON telegram cyclically OFF telegram cyclically no telegram ON telegram OFF telegram ON telegram cyclically OFF telegram cyclically no telegram 130 ms 2 1 s 34s 9 min 10 not available available ON telegram OFF telegram Switching EIS 1 ON telegram OFF telegram ON telegram cyclically OFF telegram cyclically no telegram ON telegram OFF telegram ON telegram cyclically OFF telegram cyclically no telegram 130 ms 2 1s 34s 9 min 10 May 2002 ABB i bus EIB Parameters for High Access The default setting for the values is printed in bold type May 2002 Busch Watchdog presence detector Type 6131 74 101 Additional parameters for High Access Separately for illumination channels 1 and 2 Activation object brightness dependent switching not available available Only if activation object movem
3. NO RW 00 NO RwO 00 Type 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit Type 1 byte 1 bit 1 byte 1 bit 1 byte 1 bit Type 1 bit 1 bit Object name Movement channel 1 Movement channel 1 Movement channel 2 Movement channel 2 Movement HVAC Movement HVAC Object name Movement channel 1 Movement channel 1 Movement channel 2 Movement channel 2 Movement HVAC Movement HVAC Object name Brightness dependent switching channel 1 Brightness dependent switching channel 2 Function Telegr switch Activation Telegr switch Activation Telegr switch Activation Function Telegr value Activation Telegr value Activation Telegr value Activation Function Activation Activation 2 79 ABB i bus EIB Parameters for Low Access The default setting for the values is printed in bold type 2 80 Busch Watchdog presence detector Type 6131 74 101 Parameters for presence detector with Low Access General Behaviour on bus voltage recovery communication objects Only if brightness object is enabled Brightness dependent switching Illumination channel 1 Brightness dependent switching Illumination channel 2 Movement Illumination channel 1 Movement Illumination channel 2 Movement HVAC Separate for illumination channels 1 and 2 Activation object movement Only if object is available enabling movement at Type of movement object
4. If the OFF delay is set at longer than 10 min the ON time is based on the frequency of detection of movement In a standard office the heating system is only switched on when the employee stays there for a longer period In a conference room which is seldom used the heating is not activated when someone enters the room briefly and then leaves again after a short period The object Movement HVAC can trigger a telegram after detection of a movement and after an adjustable recovery time With the parameter Type of movement object it is possible to set whether 1 bit switching telegrams or 1 byte value telegrams are triggered The switching telegrams can also be sent cyclically in the same way as the movement channels Bus voltage recovery The states of the communication objects Movement channel Telegr switch adopt a defined status on bus voltage recovery The states of channels 1 and 2 can be defined separately There are thus no unnecessary switching operations on bus voltage recovery Defined states can also be selected for the objects Brightness dependent switching channel The parameters are only visible if the objects have previously been enabled May 2002 ABB i bus EIB Communication objects Communication objects with sending of value telegrams Communication objects with brightness dependent switching May 2002 Busch Watchdog presence detector Type 6131 74 101 No
5. The constant brightness controller can influence one or several dimming actuators If only the switch dim actuator FM which is placed on the presence detector is used to control the brightness level the setting internal dimmer should be selected as the Type of dimming actuator If several dimming actuators control the brightness in the room the selection should be modified to internal and external dimmer In the latter setting the current brightness value is sent via the communication object Dimmer Brightness value It should be ensured that the dimming actuators that are used in this case have entered the same group address for the brightness object The dimming actuators must be operated in slave mode The setting is carried out via the respective dimmer application To avoid fluctuations in the brightness level the presence detector should record the exact area that is illuminated by the luminaires which are controlled by the switch dim actuator FM The constant brightness controller can be activated or deactivated at any time via the EIB The object Constant brightness controller Activation is used for this purpose If a telegram with the value 1 is received at this object the constant brightness controller is switched on The controller is switched off when a telegram with the value 0 is sent to the object If the constant brightness controller should be switched on dire
6. Activation Activation 2 73 ABB i bus EIB Parameters for Low Access The default setting for the values is printed in bold type 2 74 Busch Watchdog presence detector Type 6131 74 101 Parameters for presence detector with Low Access General Monitoring function Only if yes is selected Monitoring function Activation object monitoring Only if available enable monitoring function at Type of monitoring object Only for Switching EIS 1 Sending at the beginning of detection Sending at the end of detection Time base for cyclical sending Time factor for cyclical sending Only for Value EIS 6 Sending at the beginning of detection Sending at the end of detection No alarm sends Threshold 1 sensitive 255 insensitive Time base till watchdog is in monitoring function Time factor till watchdog is in monitoring function Behaviour on bus voltage recovery communication objects Only if brightness object is enabled Brightness dependent switching IIlmination channel 1 Brightness dependent switching Illumination channel 2 Movement Illumination channel 1 Movement Illumination channel 2 Separate for illumination channels 1 and 2 Activation object movement Only if activation object for movement is available enabling movement at Type of movement object
7. High Access Setpoint adjustable with Only if ETS is selected Setpoint brightness control 5 lux 1000 lux Recovery time of inactive constant brightness controller is adjusted by Only if ETS is selected Time base of recovery time Time factor of recovery time Function Switching Rel dimming Brightness value Activation Brightness setpoint act value Function Save act brightness value internal and external dimmer internal dimmer not available available ON telegram OFF telegram 10 20 50 100 Test mode 8 2ms 30 fast 8 2ms 50 normal 130ms 7 slow 130ms 14 disabled enabled ETS Lux1 potentiometer 5 Els Illumination potentiometer 0 5ms 8 2 ms 130 ms 2 1 s 34s 9 min 100 2 101
8. If the communication object Brightness dependent switching channel 1 receives a 1 the presence detector switches on without dependence on brightness The threshold settings that have been carried out with the potentiometer at the rear of the device or with ETS do not have any significance for the duration of the activation If a 0 is received at the object the presence detector only sends On telegrams again once the brightness value has fallen below the illumination threshold Light source With an increasing proportion of external light the presence detector sends an Off telegram as soon as the external light has reached the required illuminance The type of light source must be indicated for this purpose Example Illuminance 500 lux The illumination threshold of 500 lux is preset via the potentiometer on the presence detector or via the ETS program If movement is now detected in a dark room in the morning and the brightness value lies below 500 lux the presence detector sends an On telegram when it records movement a switched light source When the luminaires are switched on they generate a luminance of 500 lux The external light coming in is added to this The presence detector switches off if it measures a luminance level of 1000 lux b controlled light source constant brightness If a conventional constant brightness controller is built into the luminaires this
9. means minimum sensitivity It can also be parameterised when the presence detector switches to the monitoring function once it has been activated This period is again composed of a time base and factor in the same way as the cyclic time If the monitoring function should be enabled externally this can be carried out with the communication object Signal Activation To do so the parameter Activation object monitoring must previously be set to available Bus voltage recovery The states of the communication objects Movement channel Telegr switch adopt a defined status on bus voltage recovery The states of channels 1 and 2 can be defined separately There are thus no unnecessary switching operations on bus voltage recovery Defined states can also be selected for the objects Brightness dependent switching channel The parameters are only visible if the objects have previously been enabled HVAC The presence detector can activate a heating or ventilation controller with its object Movement HVAC The object sends telegrams without dependence on the brightness value The ON delay is the period which the HVAC channel needs until it detects a movement This period is automatically set by default by the presence detector It can however also be preselected To do so the parameter Switch ON is adjustable must be set to by ETS The time is composed of a base and a
10. potentiometer presets the illumination threshold for channel 2 The Illumination potentiometer sets the recovery time for both channels Alternatively the settings can be carried out in ETS To do so the adjustment parameters should be changed from potentiometer to ETS With the parameter Threshold illumination adjustable with the brightness value that triggers the presence detector can be indicated Values between 5 lux and 1000 lux can be entered The recovery time can be set with the two parameters Time base of recovery time and Time factor of recovery time The recovery time is produced from the base and the factor Recovery time Base Factor Brightness dependent switching A further communication object can also be enabled separately for each channel with the parameter Activation object brightness dependent switching If the communication object Brightness dependent switching channel receives a 1 the presence detector switches on without dependence on brightness The threshold settings that have been carried out with the potentiometer at the rear of the device or with ETS do not have any significance for the duration of the activation If a 0 is received at the object the presence detector only sends On telegrams again once the brightness value has fallen below the illumination threshold Light source With an increasing proportion of
11. Sending at detection yes no not available available ON telegram OFF telegram Switching EIS 1 Value EIS 6 ON telegram OFF telegram ON telegram cyclically OFF telegram cyclically no telegram ON telegram OFF telegram ON telegram cyclically OFF telegram cyclically no telegram 130 ms 2 1 s 34s 9 min 100 100 90 20 10 OFF no telegram 100 90 20 10 OFF no telegram 0 4 0 5 ms 8 2 ms 130 ms 2 1 s 34s 9 min 100 disabled enabled disabled enabled disabled enabled disabled enabled not available available ON telegram OFF telegram Switching EIS 1 ON telegram OFF telegram ON telegram cyclically OFF telegram cyclically no telegram May 2002 ABB i bus EIB Parameters for Low Access The default setting for the values is printed in bold type Parameters for High Access The default setting for the values is printed in bold type May 2002 Busch Watchdog presence detector Type 6131 74 101 Telegram after recovery time Time base for cyclical sending Time factor for cyclical sending Additional parameters for High Access Separate for illumination channel 1 and 2 Activation object brightness dependent switching Only if object is available at disabling the movement at enabling the movement Type of movement object Only for Value EIS 6 Sending at detection Telegram afte
12. cyclically It should be ensured that the respective parameter setting ON telegram cyclically or OFF telegram cyclically is selected The total cyclic time can be set using the parameters Time base for cyclical sending and Time factor for cyclical sending The period in which a telegram is repeated cyclically is composed of a base and a factor Cyclic time Base Factor May 2002 ABB i bus EIB May 2002 Busch Watchdog presence detector Type 6131 74 101 Channel adjustments The setting of the threshold for the light sensor as well as the recovery time can be carried out using the potentiometer at the back of the presence detector There is a separate setting aid for this purpose The illumination threshold is defined for channel 1 with the Lux1 potentiometer The HVAC potentiometer presets the illumination threshold for channel 2 The Illumination potentiometer sets the recovery time for both channels Alternatively the settings can be carried out in ETS To do so the adjustment parameters should be changed from potentiometer to ETS With the parameter Threshold illumination adjustable with the brightness value that triggers the presence detector can be indicated Values between 5 lux and 1000 lux can be entered The recovery time can be set with the two parameters Time base of recovery time and Time factor of recovery time The re
13. external light the presence detector sends an Off telegram as soon as the external light has reached the required illuminance The type of light source must be indicated for this purpose Example Illuminance 500 lux The illumination threshold of 500 lux is preset via the potentiometer on the presence detector or via the ETS program If movement is now detected in a dark room in the morning and the brightness value lies below 500 lux the presence detector sends an On telegram when it records movement a switched light source When the luminaires are switched on they generate a luminance of 500 lux The external light coming in is added to this The presence detector switches off if it measures a luminance level of 1000 lux b controlled light source constant brightness If a conventional constant brightness controller is built into the luminaires this regulates the proportion of artificial light so that the measured luminance stays constant at 500 lux If the presence detector now records a measurement of more than 500 lux the luminaires have already been dimmed down to the minimum brightness value and are switched off Monitoring It is possible to activate a monitoring function To do so the general parameter Monitoring function must be set to yes The monitoring function represents a quasi alarm signal which is not triggered when the smallest thermal movement is detected but
14. factor in the same way as the recovery time If the switch ON behaviour is set with the HVAC potentiometer the following should be noted If an OFF delay between 1 and 10 min is assigned with the potentiometer the ON delay is set at 30 s This setting can for example switch on an extractor fan in the WC If the OFF delay is set at longer than 10 min the ON time is based on the frequency of detection of movement In a standard office the heating system is only switched on when the employee stays there for a longer period In a conference room which is seldom used the heating is not activated when someone enters the room briefly and then leaves again after a short period The object Movement HVAC can trigger a telegram after detection of a movement and after an adjustable recovery time With the parameter Type of movement object it is possible to set whether 1 bit switching telegrams or 1 byte value telegrams are triggered The switching telegrams can also be sent cyclically in the same way as the movement channels 2 85 ABB i bus EIB Communication objects Communication objects with sending of value telegrams Communication objects with monitoring objects Communication objects with value monitoring objects Communication objects with brightness dependent switching 2 86 Busch Watchdog presence detector Type 6131 74 101 No NO No NO No Type 1 bit 1 bit 1 bi
15. regulates the proportion of artificial light so that the measured luminance stays constant at 500 lux If the presence detector now records a measurement of more than 500 lux the luminaires have already been dimmed down to the minimum brightness value and are switched off Monitoring It is possible to activate a monitoring function To do so the general parameter Monitoring function must be set to yes The monitoring function represents a quasi alarm signal which is not triggered when the smallest thermal movement is detected but when a strong energy source is registered by the presence detector in a short space of time or several weak sources are detected during a longer period May 2002 ABB i bus EIB May 2002 Busch Watchdog presence detector Type 6131 74 101 If the monitoring function is activated a further communication object is available Signal Telegr The presence detector records the intensity and number of movements within a time period and only sends telegrams when a set sensitivity level has been exceeded On a further parameter page Monitoring function it is possible to set the type of the monitoring object 1 bit or 1 byte the type of telegram at both the start and end of detection as well as the cyclical sending behaviour The parameter Threshold indicates the sensitivity range The value 0 denotes maximum sensitivity while the value 255
16. should be used in a sports hall for energy saving In leisure mode the lighting should be regulated to a brightness level of 200 lux while in competition mode the brightness should be regulated to 500 lux The presence detector is used together with the switch dim actuator FM and a 1 fold switch sensor application Value to toggle the two types of constant brightness control The combined presence detector and switch dim actuator must be installed in a suitable position and put into operation After the commissioning stage the illuminance should be determined with a measuring device The current brightness value of the actuator can be modified via the dimming objects until an illuminance of 200 lux is achieved The communication object Constant brightness controller Brightness setpoint act value must then be read out with the help of ETS2 To do so select Groups from the Test menu and enter the group address in the Read value tab which has been entered in the communication object above You should then either write down the value which is sent in the response or store it directly in the parameter window of the 1 fold switch sensor Dim the actuator up again until a value of 500 lux is achieved You should again send a read request to the object Constant brightness controller Brightness setpoint act value Write down the value of the response telegram again or enter it directly in t
17. switch sensor If you have not already done so enter the two recorded values in the parameter window of the 1 fold switch sensor When selecting the application of the switch sensor it should be ensured that the rockers can send 1 byte values Put the switch sensor into operation and constant brightness control with the toggling of two operating modes is implemented 2 91 ABB i bus EIB Additional communication objects for switch dim actuator FM Communication objects with object for storing the current brightness value Parameters for Low Access The default setting for the values is printed in bold type Parameters for High Access The default setting for the values is printed in bold type 2 92 Busch Watchdog presence detector Type 6131 74 101 No Type Object name 6 1bit Output 7 Abit Dimmer 8 byte Dimmer 9 1bit Constant brightness controller 11 byte Constant brightness controller No Type Object name 10 1 bit Constant brightness controller Constant brightness controller For Low Access Type of dimming actuator Activation object constant brightness control Only if activation object is available enabling constant brightness control at Switch ON brightness Speed of control General Behaviour on bus voltage recovery communication objects Constant brightness controller Additional parameters for High Access Setpoint adjust
18. switch sensor application Value to toggle the two types of constant brightness control It should be ensured that the same group addresses have been entered in the communication objects for dimming of both the presence detector and the switch dim actuator The presence detector must be installed in a suitable position and put into operation After the commissioning stage the illuminance should be determined with a measuring device The current brightness value of the actuator can be modified via the dimming objects until an illuminance of 200 lux is achieved This adjustment should be carried out in test mode The corresponding parameter should be set to Test mode for this period The communication object Constant brightness controller Brightness setpoint act value must then be read out with the help of ETS2 To do so select Groups from the Test menu and enter the group address in the Read value tab which has been entered in the communication object above You should then either write down the value which is sent in the response or store it directly in the parameter window of the 1 fold switch sensor Dim the actuator up again until a value of 500 lux is achieved You should again send a read request to the object Constant brightness controller Brightness setpoint act value Write down the value of the response telegram again or enter it directly in the parameters of the 1 fold
19. the sensitivity of the built in twilight switch can be set using the three potentiometers on the rear of the presence detector or via the parameters in ETS The detection area can be adapted to the ambient conditions using the film supplied 24 V DC via the bus line Twilight sensor 5 1000 lux Recovery time 10 s 32 min Recovery time 1 min 60 min 10 pole plug connector 2 BAG on 4 AS 25 C 55 C A5 WG oon MO AS Standard detection area 2 5m al i 1 0m y frre je 6 0 m gt May 2002 ABB i bus EIB Application programs For bus coupler FM Switch Value Cyclic Monitoring 1 Switch Value Cyclic HVAC 1 Switch Value Cyclic HVAC Monitoring 1 Switch Dim Cyclic HVAC Monitoring Bright control 1 For switch actuator sensor FM Switch Value Cyclic Monitoring 2 Switch Value Cyclic HVAC 2 Switch Value Cyclic HVAC Monitoring 2 For switch dim actuator FM Schalten Dim Cyclic HVAC Monitoring Bright control 1 Number of communication objects Busch Watchdog presence detector Type 6131 74 101 Max number of Max number of group addresses associations Circuit diagrams 11 29 29 11 29 29 11 29 29 12 29 28 11 29 29 11 29 29 11 29 29 12 29 28 EIB EIB PE li N wav Foo r 1 Bus cable 2 Bus terminal 3 Bus coupler FM 4 Switch actuator FM Note The Busch Watchdo
20. 00 lux The external light coming in is added to this The presence detector switches off if it measures a luminance level of 1000 lux b controlled light source constant brightness If a conventional constant brightness controller is built into the luminaires this regulates the proportion of artificial light so that the measured luminance stays constant at 500 lux If the presence detector now records a measurement of more than 500 lux the luminaires have already been dimmed down to the minimum brightness value and are switched off 2 77 ABB i bus EIB 2 78 Busch Watchdog presence detector Type 6131 74 101 HVAC The presence detector can activate a heating or ventilation controller with its object Movement HVAC The object sends telegrams without dependence on the brightness value The ON delay is the period which the HVAC channel needs until it detects a movement This period is automatically set by default by the presence detector It can however also be preselected To do so the parameter Switch ON is adjustable must be set to by ETS The time is composed of a base and a factor in the same way as the recovery time If the switch ON behaviour is set with the HVAC potentiometer the following should be noted If an OFF delay between 1 and 10 min is assigned with the potentiometer the ON delay is set at 30 s This setting can for example switch on an extractor fan in the WC
21. 1 s 34s 9 min 10 not available available do not send a telegram send telegram at movement once send telegr once after detection do not send a telegram send telegram at movement once send telegr once after detection Switching EIS 1 Value EIS 6 100 90 10 OFF no telegram 100 90 10 OFF no telegram Els Lux1 potentiometer 100 ETS Illumination potentiometer 0 5 ms 8 2 ms 130 ms 2 1s 34s 9min 100 switched controlled constant brightness May 2002 ABB i bus EIB Parameters for High Access The default setting for the values is printed in bold type May 2002 Busch Watchdog presence detector Type 6131 74 101 HVAC channel 2 Only if activation object movement is available at disabling the movement at enabling the movement Type of movement object Only for Value EIS 6 Sending at detection Telegram after recovery time Adjustments channel 2 Recovery time adjustable with Only if ETS is selected Potentiometer should not be at TEST Time base of recovery time Time factor of recovery time Switch ON is adjustable Only if ETS is selected Time base of switch ON delay Time factor of switch ON delay do not send a telegram send telegram at movement once send telegr once after detection do not send a telegram send telegram at movement once send telegr once after detection Swi
22. 2002 Busch Watchdog presence detector Type 6131 74 101 The application program is intended for the presence detector in connection with the switch actuator sensor FM Note The descriptions for switch value cyclic setting of the channels brightness dependent switching light source and HVAC have already been outlined in the application description Switch Value Cyclic HVAC The function of the relay output is described in the following section Relay The relay contact can be parameterised for various applications as a normally closed or normally open contact The relay output has its own communication object available Output Switching The relay output can thus be switched via the EIB independently of the presence detector If the relay of the presence detector should be triggered the communication objects Movement channel Telegr switch and Output Switching should be linked with a common group address During normal operation the relay output can also be assigned ON and OFF switching times These times are composed of a base and a factor In the operating mode Staircase lighting function an ON delay is available during normal operation The time of the staircase lighting function is parameterised via a base and a factor The actuator can send its status on the EIB To do so the parameter Status response must be set to yes In
23. 75 ABB i bus EIB Switch Value Cyclic HVAC 1 ee Selection in ETS2 ABB LPhys Sensors resence detector 2 76 Busch Watchdog presence detector Type 6131 74 101 Using the application the presence detector can sense movement in its field of detection and send switching or value telegrams The application makes two independent channels available which can be used to switch on the lighting and one channel to influence the HVAC controller When assigning parameters it should be noted that some parameters if required are only visible in the High Access setting and can only then be modified Switch The presence detector sends switching telegrams to its communication objects Movement channel Telegr switch as soon as it records movement in its detection area The value of the switching telegram can be set with the parameter Sending at detection It is possible to send an ON telegram an OFF telegram or no telegram on detection of movement The On or Off telegrams can also be sent cyclically If the presence detector no longer detects any movement once the recovery time has elapsed it is possible to send an ON telegram an OFF telegram or no telegram The On or Off telegrams can also be sent cyclically The behaviour is specified with the parameter Telegram after recovery time Each channel of the presence de
24. ABB i bus EIB L C P tal Technical data Power supply Operating and display elements Connections Type of protection Ambient temperature range Mounting Dimensions Weight Certification CE norm 2 68 Busch Watchdog presence detector Type 6131 74 101 The Busch Watchdog presence detector is mounted on a bus coupler FM switch actuator sensor FM ora switch dim actuator FM The presence detector is used for switching operations and or constant lighting control of lighting systems and or HVAC systems The sensor can switch a heating ventilation or air conditioning system on or off independent of the lighting controller Constant lighting control can be implemented via additional objects EIB 3 potentiometers Potentiometer Lux1 Potentiometer Time Illumination Potentiometer Time HVAC Bus coupler FM or Switch actuator sensor FM IP 20 EN 60 529 mounted on the bus coupler Operation Storage Transport latched onto flush mounted insert 110 x 51 mm x H 0 1 kg EIB certified in accordance with the EMC gudeline and the low voltage guideline In addition to the detection of movement the sensor can record movement that occurs within a certain time period with the help of its integrated signal function It is thus possible to integrate the sensor in detector systems The recovery time and
25. able with Only if ETS is selected Setpoint brightness control 5 lux 1000 lux Recovery time of inactive constant brightness controller is adjusted by Only if ETS is selected Time base of recovery time Time factor of recovery time Function Switching Rel dimming Brightness value Activation Brightness setpoint act value Function Save act brightness value internal and external dimmer internal dimmer not available available ON telegram OFF telegram 10 20 50 100 Test mode 8 2ms 30 fast 8 2ms 50 normal 130ms 7 slow 130ms 14 disabled enabled ETS Lux1 potentiometer 5 Els Illumination potentiometer 0 5 ms 8 2 ms 130 ms 2 1 s 34s 9 min 100 May 2002 ABB i bus EIB Switch Value Cyclic Monitoring 1 a Selection in ETS2 ABB LPhys Sensors resence detector May 2002 Busch Watchdog presence detector Type 6131 74 101 The application program is intended for the presence detector in connection with the switch actuator sensor FM Note The descriptions for switch value cyclic setting of the channels brightness dependent switching light source and monitoring have already been outlined in the application description Switch Value Cyclic Monitoring The function of the relay output is described in the following section Relay The relay contact can be parameterised f
26. and monitoring have already been outlined in the application description for Switch Value Cyclic HVAC Monitoring The function of the switch dim actuator and constant brightness controller are described in the following section Switch dim actuator The output can be switched on and off via the 1 bit communication object Output Switching The same communication object also sends a telegram if the output modifies its state because e g the 4 bit object Dimmer Rel dimming or the 1 byte object Dimmer Brightness value has received a telegram The transmit flag must be set however The brightness value which the switch dim actuator uses when switching on is defined in the parameters If required it is possible to select a constant value between 10 brightness and 100 brightness With the 4 bit communication object Dimmer Rel dimming the connected luminaires can be dimmed in accordance with EIS 2 If the actuator is switched off it can be dimmed on via the 4 bit object With the 1 byte communication object Dimmer Brightness value one of 256 brightness values in a range between 0 switched off and 255 full brightness can be given to the connected luminaire The object can also forward a modified brightness value to other dimmers To do so the transmit flag must be set The setting internal and external dimmer sets the transmit flag automatically Constant brightness
27. covery time is produced from the base and the factor Recovery time Base Factor Brightness dependent switching A further communication object can also be enabled separately for each channel with the parameter Activation object brightness dependent switching If the communication object Brightness dependent switching channel receives a 1 the presence detector switches on without dependence on brightness The threshold settings that have been carried out with the potentiometer at the rear of the device or with ETS do not have any significance for the duration of the activation If a 0 is received at the object the presence detector only sends On telegrams again once the brightness value has fallen below the illumination threshold Light source With an increasing proportion of external light the presence detector sends an Off telegram as soon as the external light has reached the required illuminance The type of light source must be indicated for this purpose Example Illuminance 500 lux The illumination threshold of 500 lux is preset via the potentiometer on the presence detector or via the ETS program If movement is now detected in a dark room in the morning and the brightness value lies below 500 lux the presence detector sends an On telegram when it records movement a switched light source When the luminaires are switched on they generate a luminance of 5
28. ct Dimmer Brightness value By default the initial brightness is 50 The parameter Speed of control specifies the period that the controller requires to pass through the complete dimming range A constant level of brightness is more pleasing to the human eye Rapid variations in the brightness level are disruptive It is advisable for normal operation to leave the speed in the default setting of normal The value for the constant brightness controller can be selected with the Lux1 potentiometer of the presence detector or via the ETS software If the setpoint adjustment is carried out via ETS it is possible to enter a setpoint for the constant brightness controller directly This can be a brightness value between 5 and 1000 lux It is however a better idea to let the user set the required brightness value directly To do so the ETS2 program enables the communication object Constant brightness controller Save act brightness value As soon as a telegram with the value 1 is received at this object the presence detector adopts the current brightness value as the new setpoint for the constant brightness controller May 2002 ABB i bus EIB May 2002 Busch Watchdog presence detector Type 6131 74 101 A new setpoint for the constant brightness controller can be assigned at any time via the 1 byte communication object Constant brightness controller Brightness setpoint act value
29. ctly e g on detection of movement the objects Movement Telegr switch and Constant brightness controller Activation should be linked together via a common group address The switch dim actuator is switched on via the 1 bit object Output Switching The initial brightness value can be set By default the actuator switches on with 50 brightness The parameter Speed of control specifies the period that the controller requires to pass through the complete dimming range A constant level of brightness is more pleasing to the human eye Rapid variations in the brightness level are disruptive 2 99 ABB i bus EIB 2 100 Busch Watchdog presence detector Type 6131 74 101 It is advisable for normal operation to leave the speed in the default setting of normal The value for the constant brightness controller can be selected with the Lux1 potentiometer of the presence detector or via the ETS software If the setpoint adjustment is carried out via ETS it is possible to enter a setpoint for the constant brightness controller directly This can be a brightness value between 5 and 1000 lux It is however a better idea to let the user set the required brightness value directly To do so the ETS2 program enables the communication object Constant brightness controller Save act brightness value As soon as a telegram with the value 1 is received at this object the presence d
30. e telegrams The application makes two independent channels available One can be used to switch on the lighting while the other channel can switch on an HVAC system The presence detector also has a monitoring function When assigning parameters it should be noted that some parameters if required are only visible in the High Access setting and can only then be modified Switch The presence detector sends switching telegrams to its communication objects Movement channel Telegr switch as soon as it records movement in its detection area The value of the switching telegram can be set with the parameter Sending at detection It is possible to send an ON telegram an OFF telegram or no telegram on detection of movement The On or Off telegrams can also be sent cyclically If the presence detector no longer detects any movement once the recovery time has elapsed it is possible to send an ON telegram an OFF telegram or no telegram The On or Off telegrams can also be sent cyclically The behaviour is specified with the parameter Telegram after recovery time Each channel of the presence detector can be enabled disabled separately The communication objects Movement channel Activation are used for this purpose The objects can be made visible with the parameter If the presence detector receives a telegram at this objec
31. ent is available at disabling the movement at enabling the movement Type of movement object Only if Value EIS 6 is selected Sending at detection Telegram after recovery time Adjustments channel 1 Threshold illumination adjustable with Only if ETS is selected Threshold illumination 5 lux 1000 lux Recovery time adjustable with Only if ETS is selected Potentiometer should not be at TEST Time base of recovery time Time factor of recovery time Light source Adjustments channel 2 Threshold illumination adjustable with Only if ETS is selected Threshold illumination 5 lux 1000 lux Recovery time adjustable with Only if ETS is selected Potentiometer should not be at TEST Time base of recovery time Time factor of recovery time Light source do not send a telegram send telegram at movement once send telegr once after detection do not send a telegram send telegram at movement once send telegr once after detection Switching EIS 1 Value EIS 6 100 90 10 OFF no telegram 100 90 10 OFF no telegram ETS Lux1 potentiometer 100 ES Illumination potentiometer 0 5ms 8 2 ms 130 ms 2 1s 34 s 9 min 100 switched controlled constant brightness ETS HVAC potentiometer 100 ETS Illumination potentiometer 0 5ms 8 2 ms 130 ms 2 1s 34s 9
32. eration mode Switch ON delay Only if yes is selected Time base for switch ON delay Factor for switch ON delay iter Zo5 Only for normal operation Switch OFF delay Only if yes is selected Time base for switch OFF delay Factor for switch OFF delay 1 255 nur bei Treppenhauslichtfunktion Time base for staircase lighting function Factor for staircase lighting function 1 255 Status response Relay is Additional parameters for High Access General Behaviour on bus voltage recovery communication objects Contact at bus recovery FM switch act Function Switching Status normal operation Staircase lighting function yes no 0 5ms 8 2 ms 130 ms 2 1s 34s 9 min 10 yes no 0 5 ms 8 2 ms 130 ms 2 1 s 34s 9 min 10 0 5 ms 8 2 ms 130 ms 2 1 s 34s 9 min 10 yes no Normally opened contact Normally closed contact ON OFF May 2002 ABB i bus EIB Switch Dim Cyclic HVAC Monitoring Bright control 1 mi Selection in ETS2 ABB LPhys Sensors resence detector May 2002 Busch Watchdog presence detector Type 6131 74 101 The application program is intended for the presence detector in connection with the switch dim actuator FM Note The descriptions for switch value cyclic setting of the channels brightness dependent switching light source HVAC
33. etector adopts the current brightness value as the new setpoint for the constant brightness controller A new setpoint for the constant brightness controller can be assigned at any time via the 1 byte communication object Constant brightness controller Brightness setpoint act value See example If the user leaves the room the presence detector starts its normal recovery time which can be set on the tab Adjustments channel 1 However if the user has previously adapted the brightness value to his requirements via the dimming objects the presence detector starts the recovery time for an inactive constant brightness controller once the normal recovery time has elapsed This means that if someone enters the room during this period the combined presence detector and switch dim actuator will not directly start the constant brightness controller The switch dim actuator will switch on with the last active brightness value The presence detector can switch on or disable the constant brightness controller mode directly after bus voltage recovery There is a corresponding option on the General tab The current Brightness setpoint act value is not stored after a bus voltage failure If a specific brightness value should be set after bus voltage recovery it should be sent again to the object Constant brightness controller Brightness setpoint act value Example A constant brightness controller
34. g presence detector is solely intended for indoor use e g in schools offices or residential buildings The full functionality of the device is dependent on the mounting height The area of detection can additionally be adapted via a film that is supplied with the device May 2002 5 Switch dim actuator FM 6 Electronic ballast with O 1 10 V control input 7 Supply terminals 8 230 V mains voltage Application examples and detailed information e g about intelligent HVAC system control and settings for the potentiometers can be found in the user manual Busch Watchdog presence detector 2 69 ABB i bus EIB Switch Value Cyclic Monitoring 1 a Selection in ETS2 ABB LPhys Sensors resence detector 2 70 Busch Watchdog presence detector Type 6131 74 101 Using the application the presence detector can sense movement in its field of detection and send switching or value telegrams The application makes two independent channels available which can be used to switch on the lighting It also has a monitoring function When assigning parameters it should be noted that some parameters if required are only visible in the High Access setting and can only then be modified Switch The presence detector sends switching telegrams to its communication objects Movement channel Telegr switch as soon as it records movement in its detection area The value
35. he parameters of the 1 fold switch sensor If you have not already done so enter the two recorded values in the parameter window of the 1 fold switch sensor When selecting the application of the switch sensor it should be ensured that the rockers can send 1 byte values Put the switch sensor into operation and constant brightness control with the toggling of two operating modes is implemented May 2002 ABB i bus EIB Additional communication objects for switch dim actuator FM Communication objects with object for storing the current brightness value Parameters for Low Access The default setting for the values is printed in bold type Parameters for High Access The default setting for the values is printed in bold type May 2002 Busch Watchdog presence detector Type 6131 74 101 No Type Object name 1bit Output 7 Abit Dimmer 8 byte Dimmer 9 1bit Constant brightness controller 11 byte Constant brightness controller No Type Object name 10 1bit Constant brightness controller Constant brightness controller For Low Access Type of dimming actuator Activation object constant brightness control Only if activation object is available enabling constant brightness control at Switch ON brightness Speed of control General Behaviour on bus voltage recovery communication objects Constant brightness controller Additional parameters for
36. is example the parameter Activation object movement is set to ON telegram Value Value telegrams can also be sent on detection of movement To do so the parameter Type of movement object must be changed from Switching EIS 1 to Value EIS 6 Dimming actuators can thus be dimmed to a value that is lower than the maximum value e g in order to dim on with base lighting The value that is sent is defined with the parameters Sending at the beginning end of detection It is also possible to select that no telegrams are sent Cyclic All switching telegrams can also be sent cyclically It should be ensured that the respective parameter setting ON telegram cyclically or OFF telegram cyclically is selected The total cyclic time can be set using the parameters Time base for cyclical sending and Time factor for cyclical sending The period in which a telegram is repeated cyclically is composed of a base and a factor Cyclic time Base Factor May 2002 ABB i bus EIB May 2002 Busch Watchdog presence detector Type 6131 74 101 Channel adjustments The setting of the threshold for the light sensor as well as the recovery time can be carried out using the potentiometer at the back of the presence detector There is a separate setting aid for this purpose The illumination threshold is defined for channel 1 with the Lux1 potentiometer The HVAC
37. me factor for cyclical sending The period in which a telegram is repeated cyclically is composed of a base and a factor Cyclic time Base Factor 2 83 ABB i bus EIB 2 84 Busch Watchdog presence detector Type 6131 74 101 Channel adjustments The setting of the threshold for the light sensor as well as the recovery time can be carried out using the potentiometer at the back of the presence detector There is a separate setting aid for this purpose The illumination threshold is defined for channel 1 with the Lux1 potentiometer The HVAC potentiometer sets the OFF delay for the HVAC channel The Illumination potentiometer sets the recovery time for both channels Alternatively the settings can be carried out in ETS To do so the adjustment parameters should be changed from potentiometer to ETS With the parameter Threshold illumination adjustable with the brightness value that triggers the presence detector can be indicated Values between 5 lux and 1000 lux can be entered The recovery time can be set with the two parameters Time base of recovery time and Time factor of recovery time The recovery time is produced from the base and the factor Recovery time Base Factor Brightness dependent switching A further communication object can be enabled for the first channel with the parameter Activation object brightness dependent switching
38. min 100 switched controlled constant brightness 2 81 ABB i bus EIB Parameters for High Access The default settings for the values is printed in bold type 2 82 Busch Watchdog presence detector Type 6131 74 101 HVAC at disabling the movement at enabling the movement Type of movement object Only if Value EIS 6 is selected Sending at detection Adjustments HVAC Recovery time adjustable with Only if ETS is selected Potentiometer should not be at TEST Time base of recovery time Time factor of recovery time Switch ON is adjustable Only if ETS is selected Time base of switch ON delay Time factor of switch ON delay do not send a telegram send telegram at movement once send telegr once after detection do not send a telegram send telegram at movement once send telegr once after detection Switching EIS 1 Value EIS 6 100 90 10 OFF no telegram HVAC potentiometer ETS 0 5 ms 8 2 ms 130 ms 2 1s 34s 9 min 100 automatically by ETS 0 5ms 8 2 ms 130 ms 2 1s 34 s 9 min 100 May 2002 ABB i bus EIB Switch Value Cyclic HVAC Monitoring 1 Selection in ETS2 ABB Lphys Sensors resence detector May 2002 Busch Watchdog presence detector Type 6131 74 101 Using the application the presence detector can sense movement in its field of detection and send switching or valu
39. nel Telegr switch adopt a defined status on bus voltage recovery The states of channels 1 and 2 can be defined separately There are thus no unnecessary switching operations on bus voltage recovery Defined states can also be selected for the objects Brightness dependent switching channel The parameters are only visible if the objects have previously been enabled May 2002 ABB i bus EIB Communication objects Communication objects with sending of value telegram Communication objects with monitoring objects Communication objects with value monitoring objects Communication objects with brightness dependent switching May 2002 Busch Watchdog presence detector Type 6131 74 101 No NO No NO No Type 1 bit 1 bit 1 bit 1 bit Type 1 byte 1 bit 1 byte 1 bit Type 1 bit 1 bit Type 1 byte 1 bit Type 1 bit 1 bit Object name Movement channel 1 Movement channel 1 Movement channel 2 Movement channel 2 Object name Movement channel 1 Movement channel 1 Movement channel 2 Movement channel 2 Object name Signal Signal Object name Signal Signal Object name Brightness dependent switching channel 1 Brightness dependent switching channel 2 Function Telegr switch Activation Telegr switch Activation Function Telegr value Activation Telegr value Activation Function Telegr switch Activation Function Telegr value Activation Function
40. of the switching telegram can be set with the parameter Sending at detection It is possible to send an ON telegram an OFF telegram or no telegram on detection of movement The On or Off telegrams can also be sent cyclically If the presence detector no longer detects any movement once the recovery time has elapsed it is possible to send an ON telegram an OFF telegram or no telegram The On or Off telegrams can also be sent cyclically The behaviour is specified with the parameter Telegram after recovery time Each channel of the presence detector can be enabled disabled separately The communication objects Movement channel Activation are used for this purpose The objects can be made visible with the parameter If the presence detector receives a telegram at this object the presence detector is activated or deactivated With the parameters At the movement it is possible to select whether a telegram is sent once at movement or once after detection of movement or no telegrams are sent via the communication object Movement channel Telegr switch Example In a functional building all the presence detectors should be enabled at a specific time in the morning A 1 is therefore sent to a central location with a time switch and then received at the communication objects Movement channel Activation In th
41. or various applications as a normally closed or normally open contact The relay output has its own communication object available Output Switching The relay output can thus be switched via the EIB independently of the presence detector If the relay of the presence detector should be triggered the communication objects Movement channel Telegr switch and Output Switching should be linked with a common group address During normal operation the relay output can also be assigned ON and OFF switching times These times are composed of a base and a factor In the operating mode Staircase lighting function an ON delay is available during normal operation The time of the staircase lighting function is parameterised via a base and a factor The actuator can send its status on the EIB To do so the parameter Status response must be set to yes In this case the communication object Output Status is available If the value 1 is sent this means that the relay has picked up The sending of the status is not dependent on the setting Normally opened contact or Normally closed contact The behaviour of the relay output on bus voltage recovery is by default set to OFF If the relay should be switched on after bus voltage recovery the parameter Contact at bus recovery should be changed to ON 2 93 ABB i bus EIB Type 6131 74 101 Addi
42. r recovery time Adjustments channel 1 Threshold illumination adjustable with Only if ETS is selected Threshold illumination 5 lux 1000 lux Recovery time adjustable with Only if ETS is selected Potentiometer should not be at TEST Time base of recovery time Time factor of recovery time Light source Adjustments channel 2 Threshold illumination adjustable with Only if ETS is selected Threshold illumination 5 Lux 1000 lux Recovery time adjustable with Only if ETS is selected Potentiometer should not be at TEST Time base of recovery time Time factor of recovery time Light source ON telegram OFF telegram ON telegram cyclically OFF telegram cyclically no telegram 130 ms 2 1s 34s 9 min 10 not available available do not send a telegram send telegram at movement once send telegr once after detection do not send a telegram send telegram at movement once send telegr once after detection Switching EIS 1 Value EIS 6 100 90 10 OFF no telegram 100 90 10 OFF no telegram ETS Lux1 potentiometer 100 Els Illumination potentiometer 0 5 ms 8 2 ms 130 ms 2 1s 34s 9 min 100 switched controlled constant brightness ETS HVAC potentiometer 100 ETS Illumination potentiometer 0 5ms 8 2 ms 130 ms 2 1s 34 s 9 min 100 switched controlled constant brightness 2
43. s voltage recovery communication objects Contact at bus recovery FM switch act Function Switching Status normal operation Staircase lighting function yes no 0 5ms 8 2 ms 130 ms 2 1s 34s 9 min 10 yes no 0 5 ms 8 2 ms 130 ms 2 1 s 34s 9 min 10 0 5 ms 8 2 ms 130 ms 2 1 s 34s 9 min 10 yes no Normally opened contact Normally closed contact ON OFF May 2002 ABB i bus EIB Switch Value Cyclic HVAC Monitoring 1 mi Selection in ETS2 ABB LPhys Sensors resence detector May 2002 Busch Watchdog presence detector Type 6131 74 101 The application program is intended for the presence detector in connection with the switch actuator sensor FM Note The descriptions for switch value cyclic setting of the channels brightness dependent switching light source HVAC and monitoring have already been outlined in the application description Switch Value Cyclic HVAC Monitoring The function of the relay output is described in the following section Relay The relay contact can be parameterised for various applications as a normally closed or normally open contact The relay output has its own communication object available Output Switching The relay output can thus be switched via the EIB independently of the presence detector If the relay of the presence detector should be triggered the communication objec
44. se till watchdog is in monitoring function Time factor till watchdog is in monitoring function Behaviour on bus voltage recovery communication objects Only if brightness object is enabled Brightness dependent switching Illumination channel 1 Movement Illumination channel 1 Movement HVAC channel 2 Illumination channel 1 Activation object movement Only if object is available enabling movement at Type of movement object Sending at detection yes no not available available ON telegram OFF telegram Switching EIS 1 Value EIS 6 ON telegram OFF telegram ON telegram cyclically OFF telegram cyclically no telegram ON telegram OFF telegram ON telegram cyclically OFF telegram cyclically no telegram 130 ms 2 1 s 34s 9 min 100 100 90 20 10 OFF no telegram 100 90 20 10 OFF no telegram 0 4 0 5 ms 8 2 ms 130 ms 2 1 s 34s 9 min 100 disabled enabled disabled enabled disabled enabled not available available ON telegram OFF telegram Switching EIS 1 ON telegram OFF telegram ON telegram cyclically OFF telegram cyclically no telegram 2 87 ABB i bus EIB Parameters for Low Access The default setting for the values is printed in bold type Parameters for High Access The default setting for the values is printed in bold type 2 88 Busch Watchdog presence detector Type 6131 74 101
45. see example If the user leaves the room the presence detector starts its normal recovery time which can be set on the tab Adjustments channel 1 However if the user has previously adapted the brightness value to his requirements via the dimming objects the presence detector starts the recovery time for an inactive constant brightness controller once the normal recovery time has elapsed This means that if someone enters the room during this period the combined presence detector and bus coupler will not directly start the constant brightness controller The object Dimmer Brightness value will switch on with its last active brightness value The presence detector can switch on or disable the constant brightness controller mode directly after bus voltage recovery There is a corresponding option on the General tab The current Brightness setpoint act value is not stored after a bus voltage failure If a specific brightness value should be set after bus voltage recovery it should be sent again to the object Constant brightness controller Brightness setpoint act value Example A constant brightness controller should be used in a sports hall for energy saving In leisure mode the lighting should be regulated to a brightness level of 200 lux while in competition mode the brightness should be regulated to 500 lux The presence detector is used together with a bus coupler FM and a 1 fold
46. select a constant value between 10 brightness and 100 brightness With the 1 byte communication object Dimmer Brightness value one of 256 brightness values in a range between 0 switched off and 255 full brightness can be given to the connected luminaires Constant brightness The constant brightness controller can influence one or several dimming actuators The current brightness value is sent via the communication object Dimmer Brightness value It should be ensured that the dimming actuators that are used in this case have entered the same group address for the brightness object The constant brightness controller can be activated or deactivated at any time via the EIB The object Constant brightness controller Activation is used for this purpose If a telegram with the value 1 is received at this object the constant brightness controller is switched on The controller is switched off when a telegram with the value 0 is sent to the object If the constant brightness controller should be switched on directly e g on detection of movement the objects Movement Telegr switch and Constant brightness controller Activation should be linked together via a common group address If an On telegram is sent to the 1 bit object Output Switching the constant brightness controller is switched off and the parameterised initial brightness value is sent to the obje
47. t 1 bit Type 1 byte 1 bit 1 byte 1 bit Type 1 bit 1 bit Type 1 byte 1 bit Type 1 bit Object name Movement channel 1 Movement channel 1 Movement HVAC Movement HVAC Object name Movement channel 1 Movement channel 1 Movement HVAC Movement HVAC Object name Signal Signal Object name Signal Signal Object name Brightness dependent switching channel 1 Function Telegr switch Activation Telegr switch Activation Function Telegr value Activation Telegr value Activation Function Telegr switch Activation Function Telegr value Activation Function Activation May 2002 ABB i bus EIB Parameters for Low Access The default setting for the values is printed in bold type May 2002 Busch Watchdog presence detector Type 6131 74 101 Parameters for presence detector with Low Access General Monitoring function Only if yes is selected Monitoring function Activation object monitoring Only if available enabling monitoring function at Type of monitoring object Only for Switching EIS 1 Sending at the beginning of detection Sending at the end of detection Time base for cyclical sending Time factor for cyclical sending Only for Value EIS 6 Sending at the beginning of detection Sending at the end of detection No alarm sends Threshold 1 sensitive 255 insensitive Time ba
48. t the presence detector is activated or deactivated With the parameters At the movement it is possible to select whether a telegram is sent once at movement or once after detection of movement or no telegrams are sent via the communication object Movement channel Telegr switch Example In a functional building all the presence detectors should be enabled at a specific time in the morning A 1 is therefore sent to a central location with a time switch and then received at the communication objects Movement channel Activation In this example the parameter Activation object movement is set to ON telegram Value Value telegrams can also be sent on detection of movement To do so the parameter Type of movement object must be changed from Switching EIS 1 to Value EIS 6 Dimming actuators can thus be dimmed to a value that is lower than the maximum value e g in order to dim on with base lighting The value that is sent is defined with the parameters Sending at the beginning end of detection It is also possible to select that no telegrams are sent Cyclic All switching telegrams can also be sent cyclically It should be ensured that the respective parameter setting ON telegram cyclically or OFF telegram cyclically is selected The total cyclic time can be set using the parameters Time base for cyclical sending and Ti
49. tching EIS 1 Value EIS 6 100 90 10 OFF no telegram 100 90 10 OFF no telegram ETS HVAC potentiometer 0 5 ms 8 2 ms 130 ms 2 1s 34s 9 min 100 automatically by ETS 0 5 ms 8 2 ms 130 ms 2 1s 34 s 9 min 100 2 89 ABB i bus EIB Switch Dim Cyclic HVAC Monitoring Bright control 1 res Selection in ETS2 ABB LPhys Sensors resence detector 2 90 Busch Watchdog presence detector Type 6131 74 101 The application program is intended for the presence detector in connection with a bus coupler FM Note The descriptions for switch value cyclic setting of the channels brightness dependent switching light source HVAC and monitoring have already been outlined in the application description Switch Value Cyclic HVAC Monitoring The dimming function and constant brightness control are described in the following section Dim The application has a 1 bit communication object Output Switching and a 4 bit communication object Dimming Rel dimming Both objects are used to detect whether the brightness of the luminaires has been modified manually by a switching or dimming telegram If the presence detector senses a switching or dimming telegram via these objects it switches the constant brightness controller off temporarily The initial brightness value is defined in the parameters It is possible to
50. tector can be enabled disabled separately The communication objects Movement channel Activation are used for this purpose The objects can be made visible with the parameter If the presence detector receives a telegram at this object the presence detector is activated or deactivated With the parameters At the movement it is possible to select whether a telegram is sent once at movement or once after detection of movement or no telegrams are sent via the communication object Movement channel Telegr switch Example In a functional building all the presence detectors should be enabled at a specific time in the morning A 1 is therefore sent to a central location with a time switch and then received at the communication objects Movement channel Activation In this example the parameter Activation object movement is set to ON telegram Value Value telegrams can also be sent on detection of movement To do so the parameter Type of movement object must be changed from Switching EIS 1 to Value EIS 6 Dimming actuators can thus be dimmed to a value that is lower than the maximum value e g in order to dim on with base lighting The value that is sent is defined with the parameters Sending at the beginning end of detection It is also possible to select that no telegrams are sent Cyclic All switching telegrams can also be sent
51. this case the communication object Output Status is available If the value 1 is sent this means that the relay has picked up The sending of the status is not dependent on the setting Normally opened contact or Normally closed contact The behaviour of the relay output on bus voltage recovery is by default set to OFF If the relay should be switched on after bus voltage recovery the parameter Contact at bus recovery should be changed to ON 2 95 ABB i bus EIB Additional communication objects for relay output Parameters for Low Access The default setting for the values is printed in bold type 2 96 Busch Watchdog presence detector Type 6131 74 101 No Type Object name 8 1bit Output 10 1 bit Output Parameters for presence detector with Low Access Output switch act FM Operation mode Switch ON delay Only if yes is selected Time base for switch ON delay Factor for switch ON delay iter Zo5 Only for normal operation Switch OFF delay Only if yes is selected Time base for switch OFF delay Factor for switch OFF delay 1 255 Only for Staircase lighting function Time base for staricase lighting function Factor for staircase lighting function 1 255 Status response Relay is Additional parameters for High Access General Behaviour on bu
52. tional communication objects No Type Object name for relay output me 8 libit Output 10 11bit Output Parameters for Low Access The default setting for the values is printed in bold type Parameters for presence detector with Low Access Output switch act FM Operation mode Switch ON delay Only if yes is selected Time base for switch ON delay Factor for switch ON delay iter Zo5 Only for normal operation Switch OFF delay Only if yes is selected Time base for switch OFF delay Factor for switch OFF delay 1 255 Busch Watchdog presence detector Function Switching Status normal operation Staircase lighting function yes no 0 5ms 8 2 ms 130 ms 2 1s 34s 9 min 10 yes no 0 5 ms 8 2 ms 130 ms 2 1 s 34s 9 min 10 Only if Staircase lighting function is selected Time base for staircase lighting function Factor for staircase lighting function ier 2o5 Status response Relay is Additional parameters for High Access General Behaviour on bus voltage recovery communication objects Contact at bus recovery FM switch act 2 94 0 5 ms 8 2 ms 130 ms 2 1 s 34s 9 min 10 yes no Normally opened contact Normally closed contact ON OFF May 2002 ABB i bus EIB Switch Value Cyclic HVAC 1 a Selection in ETS2 ABB LPhys Sensors resence detector May
53. ts Movement channel Telegr switch and Output Switching should be linked with a common group address During normal operation the relay output can also be assigned ON and OFF switching times These times are composed of a base and a factor In the operating mode Staircase lighting function an ON delay is available during normal operation The time of the staircase lighting function is parameterised via a base and a factor The actuator can send its status on the EIB To do so the parameter Status response must be set to yes In this case the communication object Output Status is available If the value 1 is sent this means that the relay has picked up The sending of the status is not dependent on the setting Normally opened contact or Normally closed contact The behaviour of the relay output on bus voltage recovery is by default set to OFF If the relay should be switched on after bus voltage recovery the parameter Contact at bus recovery should be changed to ON 2 97 ABB i bus EIB Additional communication objects for relay output Parameters for Low Access The default setting for the values is printed in bold type 2 98 Busch Watchdog presence detector Type 6131 74 101 No Type Object name 8 1bit Output 10 1 bit Output Parameters for presence detector with Low Access Output switch act FM Op
54. when a strong energy source is registered by the presence detector in a short space of time or several weak sources are detected during a longer period 2 71 ABB i bus EIB 2 72 Busch Watchdog presence detector Type 6131 74 101 If the monitoring function is activated a further communication object is available Signal Telegr The presence detector records the intensity and number of movements within a time period and only sends telegrams when a set sensitivity level has been exceeded On a further parameter page Monitoring function it is possible to set the type of the monitoring object 1 bit or 1 byte the type of telegram at both the start and end of detection as well as the cyclical sending behaviour The parameter Threshold indicates the sensitivity range The value 0 denotes maximum sensitivity while the value 255 means minimum sensitivity It can also be parameterised when the presence detector switches to the monitoring function once it has been activated This period is again composed of a time base and factor in the same way as the cyclic time If the monitoring function should be enabled externally this can be carried out with the communication object Signal Activation To do so the parameter Activation object monitoring must previously be set to available Bus voltage recovery The states of the communication objects Movement chan
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