Busch-Jaeger mini KNX 6131/20 series Technical Manual

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2CKA001473B8667 │ 23.02.2017

KNX Technical Manual

Busch-Presence detector KNX / Busch-Watchdog Sky KNX

Busch-Presence detector mini

KNX

6131/20-xxx

Busch-Presence detector mini,

premium, KNX

6131/21-xxx

Busch-Presence detector KNX

6131/30-xxx

Busch-Presence detector

Premium KNX

6131/31-xxx

Busch-Watchdog Sky KNX

6131/40-24

Busch-Presence detector

Corridor KNX

6131/50-xxx

Busch-Presence detector

Corridor Premium KNX

6131/51-xxx

Table of Contents

Summary of Contents for Busch-Jaeger mini KNX 6131/20 series

Page 1 2CKA001473B8667 │ 23.02.2017 KNX Technical Manual Busch-Presence detector KNX / Busch-Watchdog Sky KNX Busch-Presence detector mini 6131/20-xxx Busch-Presence detector mini, premium, KNX 6131/21-xxx Busch-Presence detector KNX 6131/30-xxx Busch-Presence detector Premium KNX 6131/31-xxx Busch-Watchdog Sky KNX 6131/40-24 Busch-Presence detector Corridor KNX 6131/50-xxx Busch-Presence detector Corridor Premium KNX...
Page 2: Table Of Contents
Table of contents Table of contents Notes on the instruction manual ..........................14 Safety ..................................15 Symbols used ............................... 15 Intended use ..............................16 Improper use ..............................16 Target group / Qualifications of personnel ....................17 2.4.1 Operation ..............................17 2.4.2 Installation, commissioning and maintenance .....................
Page 3 Table of contents Mounting ................................... 40 Detection range ............................40 6.1.1 Busch-Presence detector mini KNX (6131/20-xxx) / Busch-Presence detector mini Premium KNX (6131/21-xxx) ............................... 40 6.1.2 Busch-Presence detector KNX (6131/30-xxx) / Busch-Presence detector Premium KNX (6131/31-xxx) ............................... 41 6.1.3 Busch-Watchdog Sky KNX (6131/40-24) ....................42 6.1.4 Busch-Presence detector Corridor, KNX (6131/50-xxx) / Busch-Presence detector Corridor Premium, KNX (6131/51-xxx) ........................
Page 4 Table of contents Description of application and parameters ........................ 64 11.1 Application program ............................64 11.2 Overview of applications ..........................64 11.3 "Detector" application ........................... 65 11.3.1 General parameters — Type of output ......................65 11.3.2 General parameters — Slave input ......................65 11.3.3 General parameters —...
Page 5 Table of contents 11.3.41 Enable — Use of enable detector object ..................... 79 11.3.42 Enable — Enable with..........................79 11.3.43 Enable — After bus voltage recovery detector is..................79 11.3.44 Enable — Output sends at enable ....................... 79 11.3.45 Enable — Output sends at blockage ......................80 11.3.46 Extended parameter settings (monitoring) —...
Page 6 Table of contents 11.5 "Constant light controller" application ......................96 11.5.1 General parameters — Output is of type ..................... 96 11.5.2 General parameters — Bottom limit output 1 (%) ..................96 11.5.3 General parameters — Upper limit output 1 (%) ..................96 11.5.4 General parameters —...
Page 7 Table of contents 11.6 Application "HVAC" (Heating, ventilation, air-conditioning) ................ 109 11.6.1 General parameters — Output is of type ....................109 11.6.2 General parameters — Use of slave input ....................110 11.6.3 General parameters — Slave sends ......................110 11.6.4 General parameters —...
Page 8 Table of contents 11.8.12 Basic stage heating ............................ 124 11.8.13 Basic stage heating — Status object heating .................... 124 11.8.14 Basic stage heating — Mode of the control value ..................124 11.8.15 Basic stage heating — Hysteresis (x 0.1°C) ..................... 124 11.8.16 Basic stage heating —...
Page 9 Table of contents 11.8.55 Additional cooling stage ..........................139 11.8.56 Additional cooling stage — Mode of the control value ................139 11.8.57 Additional cooling stage — Hysteresis (x 0.1°C) ..................139 11.8.58 Additional cooling stage — Control value difference for sending of cooling control value ......139 11.8.59 Additional cooling stage —...
Page 10 Table of contents 11.8.102 Temperature reading — Operating mode for fault ..................152 11.8.103 Temperature reading — Control value for fault (0 - 255) ................152 11.8.104 Alarm functions ............................153 11.8.105 Alarm functions — Condensate water alarm ..................... 153 11.8.106 Alarm functions —...
Page 11 Table of contents 11.13 Communication objects — Presence detector — Slave ................166 11.13.1 Px: Enable movement ..........................166 11.13.2 Px: Actuator status ............................. 166 11.13.3 Px: Detection independent of brightness ....................166 11.13.4 Px: External brightness ..........................166 11.13.5 Px: External brightness-value threshold ....................
Page 12 Table of contents 11.17 Communication objects — Presence detector — HVAC ................176 11.17.1 P3: HVAC ..............................176 11.17.2 P3: Slave ..............................176 11.17.3 P3: Enable HVAC ............................176 11.17.4 P3: Light-on time ............................176 11.17.5 P3: Switch-on delay ........................... 177 11.17.6 P3: Force-position ............................
Page 13 Table of contents 11.19.33 Summer compensation active ........................190 11.19.34 Setpoint reached ............................191 11.19.35 Fahrenheit ..............................191 11.19.36 Display backlighting ........................... 191 11.19.37 On/Off request ............................192 11.19.38 Setpoint display ............................192 11.19.39 Request setpoint ............................192 11.19.40 Confirm setpoint ............................192 11.19.41 Heating/cooling request ..........................
Page 14: Notes On The Instruction Manual
If you pass the device on, also pass on this manual along with it. Busch-Jaeger accepts no liability for any failure to observe the instructions in this manual. If you require additional information or have questions about the device, please contact Busch- Jaeger or visit our Internet site at: www.BUSCH-JAEGER.com...
Page 15: Safety
However, residual hazards remain. Read and adhere to the safety instructions to prevent hazards of this kind. Busch-Jaeger accepts no liability for any failure to observe the safety instructions. Symbols used The following symbols point to particular hazards involved in the use of the device or provide practical instructions.
Page 16: Intended Use
Each use not listed in chapter 2.2 is deemed improper use and can lead to personal injury and damage to property. Busch-Jaeger is not liable for damages caused by use deemed contrary to the intended use of the device. The associated risk is borne exclusively by the user/operator.
Page 17: Target Group / Qualifications Of Personnel
Safety Target group / Qualifications of personnel 2.4.1 Operation No special qualifications are needed to operate the device. 2.4.2 Installation, commissioning and maintenance Installation, commissioning and maintenance of the product must only be carried out by trained and properly qualified electrical installers. The electrical installer must have read and understood the manual and follow the instructions provided.
Page 18: Safety Instructions
Safety Safety instructions Danger - Electric voltage! Electric voltage! Risk of death and fire due to electric voltage of 100 to 240 V. Dangerous currents flow through the body when coming into direct or indirect contact with live components. This can result in electric shock, burns or even death.
Page 19: Information On Protection Of The Environment
Information on protection of the environment Information on protection of the environment Consider the protection of the environment! Used electric and electronic devices must not be disposed of with domestic waste. – The device contains valuable raw materials which can be recycled. Therefore, dispose of the device at the appropriate collecting depot.
Page 20: Product Description
Product description Product description Device overview Note The following descriptions apply to all types of the Busch-Presence detector KNX / Busch-Watchdog Sky KNX. Fig. 1: Product overview [A] IR receiver (only premium) [B] Programming button [C] Sensor for brightness detection [D] Programming LED [1-4] Individual sectors with switch-off function (via parameter setting) For numbering, see the rear of the device...
Page 21: Scope Of Supply
Product description Note The device does not fit in the BS and VDE flush-mounted box. Recommendation: HaloX-O flush-mounted box from Kaiser (article no. 1290-40) with ■ corresponding cover (article no. 1290-47 or article no. 1290-85 for exposed concrete) IBTronic H120-68 from Spelsberg (article no. 97600501) ■...
Page 22: Overview Of Types
Product description Overview of types Article Product Detection Mounting Usage name range height 6131/20 Busch- Circular For detection range of 2.5 m, 3 m -xxx Presence (details under up to 8 m → individual detector mini "Technical rooms (e.g. office, living Data") room, etc.).
Page 23: Function Overview
Product description Function overview The following tables provide an overview of the possible functions and applications of the devices. 4.4.1 Busch-Presence detector mini KNX Standard (6131/20-xxx) Premium (6131/21-xxx) Detector including surveillance Detector including surveillance Constant light switch Constant light switch Brightness detection HVAC (heating, ventilation, air-conditioning) Constant light switch...
Page 24: Busch-Presence Detector Knx
Product description 4.4.2 Busch-Presence detector KNX Standard (6131/30-xxx) Premium (6131/31-xxx) Detector including surveillance Detector incl. monitoring 1) Constant light switch Constant light switch Brightness detection HVAC (heating, ventilation, air-conditioning) Constant light switch Brightness detection Room temperature controller object IR reception (24 free IR channels) Logics (5 logic functions) Table 3: Function overview of Busch-Presence detector KNX [1] Detector application with 2-stage switch-off function or with integrated monitoring function.
Page 25: Busch-Watchdog Sky Knx
Product description 4.4.3 Busch-Watchdog Sky KNX 6131/40-24 Detector including surveillance Constant light switch Brightness detection Table 4: Function overview of Busch-Watchdog Sky KNX [1] Detector application with 2-stage switch-off function or with integrated monitoring function. [2] Constant light switch with up to 2 independent channels or with a maximum of 2 outputs for brightness- dependent switching of 2 light rows in the room.
Page 26: Busch-Presence Detector Corridor, Knx
Product description 4.4.4 Busch-Presence detector Corridor, KNX Standard (6131/50-xxx) Premium (6131/51-xxx) Detector including surveillance Detector including surveillance Constant light switch Constant light switch Brightness detection Brightness detection HVAC (heating, ventilation, air-conditioning) Constant light switch Brightness detection Room temperature controller object IR reception (24 free IR channels) Logics (5 logic functions) Table 5: Function overview of Busch-Presence detector Corridor KNX...
Page 27: Description Of Functions
Product description Description of functions Note A more detailed description is available in the Description of parameters and objects. The devices described here can, depending on the device type, be used either as presence and/or movement detector. 4.5.1 The difference between movement detector and presence detector: The main application of the movement detector is the switching of light when persons are moving toward something.
Page 28: Busch-Presence Detector Knx / Busch-Presence Detector Mini Knx
Product description 4.5.2 Busch-Presence detector KNX / Busch-Presence detector mini KNX The Busch-Presence detector KNX / Busch-Presence detector mini KNX is available in two versions: The Standard version (6131/30-xxx + 6131/20-xxx), ■ The Premium version (6131/31-xxx + 6131/21-xxx). ■ The Standard version (6131/30-xxx + 6131/20-xxx) offers movement detection with 2 channels, as well as constant light switching.
Page 29: Busch-Presence Detector Corridor Knx / Busch-Presence Detector Corridor Premium Knx
Product description 4.5.3 Busch-Presence detector Corridor KNX / Busch-Presence detector Corridor Premium The Busch-Presence detector Corridor KNX / Busch-Presence detector Corridor Premium KNX is available in two versions: The Standard version (6131/50-xxx) ■ The Premium version (6131/51) ■ The Standard version (6131/50) offers movement detection with 2 channels, as well as constant light switching.
Page 30: Constant Light
Product description 4.5.4 Constant light Depending on the version, the devices offer various options to ensure that the brightness in the room is maintained at a more pleasant level. There is a difference between the functions of the constant light switch and the constant light controller. Both functions ensure that the brightness does not drop below a certain level when persons are in the room.
Page 31 Product description To set up a constant light switch function certain parameters settings must be made which lead to dependencies. These dependencies are displayed in the above diagram. A switch-off delay can be set. This time expires when the presence detector no longer senses movement.
Page 32: Constant Light Switch
Product description Constant light switch In contrast to the constant light switch, there is the possibility of switching in several stages. Both the constant light controller and the constant light switch ensure that the level of brightness in the room does not drop below the desired level. However, the brightness controller is additionally able to send telegrams for dimming lamps to the KNX bus.
Page 33: Detection Range
Product description Detection range Note For device-specific information regarding the detection ranges, see Chapter 6.1. The detection range of the KNX presence detector depends on the movement of persons and the mounting height in the room. The movement sensor detects the smallest of movements, e.g. at PC work stations, at desks, etc.
Page 34: Outer Detection Range (Walking Persons)
Product description 4.6.2 Outer detection range (walking persons) For the detection of walking persons, a larger detection range is available. The reference level for detection is the floor. A mounting height of 3 m results, as example for the Busch-Presence detector mini KNX, in a diameter of approx.
Page 35 Product description Note - Limited detection The detection range of the presence detector can be restricted. The device does not need to be covered mechanically for this. Individual sectors can be deactivated in the application. Note regarding 6131/50-xxx and/or 6131/51-xxx: The sectors are combined into 2 sensor groups (1/2 and 3/4).
Page 36: Technical Data
Technical data Technical data Overview Busch-Presence detector mini KNX (6131/20-xxx) / Busch-Presence detector mini Premium ■ KNX (6131/21-xxx) Busch-Presence detector KNX (6131/30-xxx) / Busch-Presence detector Premium KNX ■ (6131/31-xxx) Busch-Watchdog Sky KNX (6131/40-24) ■ Busch-Presence detector Corridor, KNX (6131/50-xxx) / Busch-Presence detector Corridor ■...
Page 37: Dimensions
Technical data Dimensions Note All dimensions are in mm. 5.2.1 Busch-Presence detector mini KNX (6131/20-xxx) / Busch-Presence detector mini Premium KNX (6131/21-xxx) Fig. 8: Dimensions of Busch-Presence detector mini KNX / Busch-Presence detector mini Premium KNX 5.2.2 Busch-Presence detector KNX (6131/30-xxx) / Busch-Presence detector Premium KNX (6131/31-xxx) Fig.
Page 38: Busch-Watchdog Sky Knx (6131/40-24)
Technical data 5.2.3 Busch-Watchdog Sky KNX (6131/40-24) Fig. 10: Dimensions of Busch-Watchdog Sky KNX 5.2.4 Busch-Presence detector Corridor, KNX (6131/50-xxx) / Busch-Presence detector Corridor Premium, KNX (6131/51-xxx) Fig. 11: Dimensions of Busch-Presence detector Corridor KNX / Busch-Presence detector Corridor Premium KNX KNX Technical Manual 2CKA001473B8667 │...
Page 39: Electrical Connection
Technical data Electrical connection – – Fig. 12: Electrical connection KNX Technical Manual 2CKA001473B8667 │ 06.02.2017 │39...
Page 40: Mounting
Mounting Mounting Detection range Note If the height of installation is greater than 2.5 m, the detection range is extended while the precision of detection and the sensitivity are reduced. 6.1.1 Busch-Presence detector mini KNX (6131/20-xxx) / Busch-Presence detector mini Premium KNX (6131/21-xxx) 0,8 m Fig.
Page 41: Busch-Presence Detector Knx (6131/30-Xxx) / Busch-Presence Detector Premium Knx (6131/31-Xxx)
Mounting 6.1.2 Busch-Presence detector KNX (6131/30-xxx) / Busch-Presence detector Premium KNX (6131/31-xxx) 0,8 m Fig. 14: Detection ranges of Busch-Presence detector KNX / Busch-Presence detector Premium KNX [B] Mounting height [B1] Wide inner detection range (seated person) [B2] Wide outer detection range (walking person) Mounting height (B) Wide inner detection range Wide outer detection range...
Page 42: Busch-Watchdog Sky Knx (6131/40-24)
Mounting 6.1.3 Busch-Watchdog Sky KNX (6131/40-24) Fig. 15: Detection ranges of Busch-Watchdog Sky KNX [B] Mounting height [B1] Wide outer detection range (walking person) Mounting height (B) Wide outer detection range 18 m max. 12 m max. 24 m Table 9: Detection ranges of Busch-Watchdog Sky KNX KNX Technical Manual 2CKA001473B8667 │...
Page 43: Busch-Presence Detector Corridor, Knx (6131/50-Xxx) / Busch-Presence Detector Corridor Premium, Knx (6131/51-Xxx)
Mounting 6.1.4 Busch-Presence detector Corridor, KNX (6131/50-xxx) / Busch-Presence detector Corridor Premium, KNX (6131/51-xxx) Fig. 16: Detection ranges of Busch-Presence detector Corridor KNX / Busch-Presence detector Corridor Premium KNX [H] Mounting height [L1] Length of maximum detection range in case of centralised approach [L2] Length of maximum detection range crosswise to the detector [B1] Width of maximum detection range Length L1 (centralised...
Page 44: Sources Of Interference
Mounting Sources of interference The presence detector detects the movement of heat sources. If a foreign heat source is in close proximity, this can cause false triggering. Here a distinction must be made between foreign heat sources and limited visibility as a source of interference. Limited view of the device The detection range of the device may be obstructed by various objects, e.g.:...
Page 45: Positioning Examples For Busch-Presence Detector Corridor Knx And Busch-Presence Detector Corridor Premium Knx
Mounting Positioning examples for Busch-Presence detector Corridor KNX and Busch-Presence detector Corridor Premium KNX The presence detectors must be installed and aligned in the direction of the hallway using the arrows printed on the inside of the device. If this does not happen and the detectors are rotated by 90 degress, the correct function of the detector is not guaranteed.
Page 46: Normal Hallway Smoke Section With 2 Doors (Max. 30M) With Two Presence Detectors
Mounting 6.3.3 Normal hallway smoke section with 2 doors (max. 30m) with two presence detectors Use of two presence detectors: 3/5 (18m) 1/5 (6m) 1/5 (6m) Fig. 19: Positioning example of normal floor smoke section with 2 doors – Better detection, especially in the end areas! –...
Page 47: Installation
Mounting Installation The device is designed for mounting on ceilings. The overall function of the device also depends on the mounting height (see chapter 6.2). Note The device does not fit in the BS and VDE flush-mounted box. Recommendation: – HaloX-O flush-mounted box from Kaiser (article no.
Page 48 Mounting Carefully slide the connected device into the recess. ■ Ø 68 mm The clamps must be pressed toward the top. ATTENTION (applies only for devices 6131/50-xxx and/or 6131/51-xxx): The arrows on the device must be aligned in a ■ longitudinal direction to the corridor.
Page 49: Surface-Mounted" Ceiling Mounting With Surface -Mounted Housing (Optional Housing, Article No. 6131/X9)
Mounting 6.4.2 "Surface-mounted" ceiling mounting with surface -mounted housing (optional housing, article no. 6131/x9) Slide the KNX bus line into the surface-mounted ■ housing through one of the specified openings. A sufficient length of KNX bus line must project from the hole.
Page 50 Mounting Now slide the connected device into the surface ■ mounted housing according to the illustration shown opposite. Take note of the guide rails. This is the only way the device can be inserted! ATTENTION (applies only for devices 6131/50-xxx and/or 6131/51-xxx): The arrows on the device and in the surface-mounted ■...
Page 51 Mounting Now turn the device in a clock-wise direction until it is ■ aligned with the surface-mounted housing. KNX Technical Manual 2CKA001473B8667 │ 06.02.2017 │51...
Page 52: Surface-Mounted" Ceiling Installation On Vde Flush-Mounted Box With Intermediate Ring (Optional Intermediate Ring, Article No. 6131/38-Xxx) (With Exception Of 6131/20-Xxx + 6131/21-Xxx)
Mounting 6.4.3 "Surface-mounted" ceiling installation on VDE flush-mounted box with intermediate ring (optional intermediate ring, article no. 6131/38-xxx) (with exception of 6131/20-xxx + 6131/21-xxx) Slide the KNX bus line into the intermediate ring ■ through one of the specified openings. A sufficient length of KNX bus line must project from the hole.
Page 53 Mounting Now slide the connected device into the intermediate ■ ring according to the illustration shown opposite. Take note of the guide rails. This is the only way the device can be inserted! ATTENTION (applies only for devices 6131/50-xxx and/or 6131/51-xxx): The arrows on the device and in the intermediate ring ■...
Page 54: Dismantling
Mounting Dismantling Note Dismantling is carried out in the reverse order. KNX Technical Manual 2CKA001473B8667 │ 06.02.2017 │54...
Page 55: Commissioning
Commissioning Commissioning Note The devices are a product of the KNX system and meet KNX guidelines. Detailed expert knowledge by means of KNX training sessions for a better understanding is assumed. Hardware Note Please observe the mounting instructions in Chapter 6. The detection range can additionally be adapted through individual sectors with switch-off function (through parameter settings).
Page 56: Assigning A Physical Address
Assigning the group address(es) The group addresses are assigned in connection with the ETS. 7.2.4 Selection of software application Please contact our Internet Support Unit (www.Busch-Jaeger.com). The application is loaded into the device via the ETS. 7.2.5 Description of software applications Various functions can be implemented via the ETS commissioning software.
Page 57: Instructions On The Calibration Of The Internal Light Controller
Commissioning 7.2.6 Instructions on the calibration of the internal light controller To commission the presence detector with a constant light function you have various parameters available in the ETS. These parameters allow numerous options for setting, in order to adapt the working mode of the device to individual requirements and circumstances. Therefore, the type of furniture, floor coverings or sources of interference in the room is of significance.
Page 58: Use Objects For Brightness Adjustment
Commissioning Use objects for brightness adjustment There is the option of carrying out a brightness adjustment for daylight and artificial light via the brightness detection application with the aid of the following three objects: (a) Brightness adjustment (daylight) ■ (b) Brightness adjustment (output 1) ■...
Page 59 Commissioning To complete the adjustment for the constant light controller, a further step is required during which the characteristic of the connected lamp is automatically measured in dependence of the output value of the controller. To be able to carry out the brightness calibration, the device must have been already programmed in such a way that aside from the "Start brightness calibration"...
Page 60: Additional Comments
Commissioning 7.2.7 Additional comments Setpoint Note The following information is relevant only if no adjustment of brightness has been carried out. Please note that the lux value to be set in the parameters does not correspond to the value required at the height of the desk. The light sensor is installed on the ceiling and can only measure the luminosity that is reflected from the opposite surfaces.
Page 61: Updating Options
Always use the latest firmware. The latest download files for the firmware update are contained in the electronic catalogue (www.busch-jaeger-catalogue.com). They are also available via the KNX online shop. A firmware update is carried by means of an ETS application via the bus.
Page 62: Operation
M1. RC-5 Code Fig. 21: RC-5 code Note Please observe also the supplement and the technical reference manual of the IR remote control. These can be downloaded via the electronic catalogue (www.busch-jaeger-catalogue.com). KNX Technical Manual 2CKA001473B8667 │ 06.02.2017 │62...
Page 63: Maintenance
Maintenance Maintenance The device is maintenance-free. In case of damage (e.g., during transport or storage), do not perform repairs. Once the device is opened, the warranty is void! Access to the device must be guaranteed for operation, testing, inspection, maintenance and repairs (according to DIN VDE 0100-520).
Page 64: Description Of Application And Parameters
Description of application and parameters Application program Description of application and parameters 11.1 Application program The following application program is available: Presence detector xxx KNX TP/1 ■ 11.2 Overview of applications The application program for the devices contains the KNX applications listed in the following: Detector ■...
Page 65: Detector" Application
Description of application and parameters "Detector" application 11.3 "Detector" application 11.3.1 General parameters — Type of output Options: Master Slave – Master: In master mode On and Off telegrams are sent (to an actuator) dependent on movement. – Slave: In slave mode On telegrams are sent cyclically (to the extension unit input of a master detector) when movement is detected.
Page 66: General Parameters - Output Object Sends At
Description of application and parameters "Detector" application 11.3.4 General parameters — Output object sends at Options: Switch-on / switch-off Switch-on Switch-off – Switch-on/switch-off: Sends a telegram at the start of movement and at the end of switch-off delay. – Switch-on: Only sends a telegram at the start of movement. –...
Page 67: General Parameters - Cyclic Repeat Time (Hh:mm:ss)
Description of application and parameters "Detector" application 11.3.7 General parameters — Cyclic repeat time (hh:mm:ss) Options: 00:00:10 ... 00:00:30 ... 18:12:15 – Here the time which lies between the sending of two telegrams (no change in value) is set. 11.3.8 General parameters —...
Page 68: General Parameters - Brightness-Value Threshold Internal (Lux)
Description of application and parameters "Detector" application 11.3.12 General parameters — Brightness-value threshold internal (lux) Options: 1 .. 400 .. 1000 – The brightness-value threshold is used to specify the lux value at which the detector is to start to respond. If the detector does not switch on and the measured brightness lies above the set threshold, no telegram is sent during movement.
Page 69: Extended Parameter Settings - Operating Mode
Description of application and parameters "Detector" application 11.3.15 Extended parameter settings — Operating mode Options: Automatic mode Automatic switch-off Automatic switch-on Survey – Automatic = automatic switch-on and switch-off. In the "Automatic" mode, the detector switches on automatically when detecting a movement.
Page 70: Extended Parameter Settings - Use Of A Two-Stage Switch-Off
Description of application and parameters "Detector" application 11.3.16 Extended parameter settings — Use of a two-stage switch-off Note This parameter is only displayed when "Output is of type" is set on 1 byte 0 - 100% or 1 byte 0 - 255. Options: –...
Page 71: Extended Parameter Settings - Use Of Forced Switch-Off
Description of application and parameters "Detector" application 11.3.19 Extended parameter settings — Use of forced switch-off Options: – No: The detector does not switch off after a specific time to carry out a new brightness measurement. – Yes: The detector switches off once after 3x switch-off delay or at a minimum of 90 minutes or a maximum of 24 hours to carry out a new brightness measurement.
Page 72: Extended Parameter Settings - Use Of Object For Test Mode
Description of application and parameters "Detector" application 11.3.22 Extended parameter settings — Use of object for test mode Options: – No: There is no possibility to set the detector to test mode to test the detection range. – Yes: There is a separate 1-bit “test mode activation” object (input) for activating the test mode with a 1.
Page 73: Extended Parameter Settings - Pause Time (Ss.fff)
Description of application and parameters "Detector" application 11.3.25 Extended parameter settings — Pause time (ss.fff) Options: 00.100 .. 01,250 .. 59,999 – The set pause time is started after the detector has been switched off due to expiry of the switch-off delay or when a switch-off telegram is received on objects “external push-button”...
Page 74: Brightness Parameter - Use Of Object For Detection Independent Of Brightness
Description of application and parameters "Detector" application 11.3.27 Brightness parameter — Use of object for detection independent of brightness Options: – No: There is no separate object for detection independent of brightness. – Yes: A 1-bit communication object for “brightness-independent detection” (input) is being enabled.
Page 75: Brightness Parameter - Used Brightness
Description of application and parameters "Detector" application 11.3.31 Brightness parameter — Used brightness Options: Brightness-independent Internal only External only internal or external – Brightness-independent: The detector functions independent of brightness and will switch during each movement. – Only internal: The detector uses its own measured brightness and brightness-value threshold internally to decide whether to switch on during movement.
Page 76: Brightness Parameter - Use Object For External Brightness-Value Threshold
Description of application and parameters "Detector" application 11.3.33 Brightness parameter — Use object for external brightness-value threshold Options: – No: There is no separate “external brightness-value” threshold object. – Yes: A 2-byte “external brightness-value threshold” communication object (input) is being enabled.
Page 77: External Push-Button Parameter - Use Of External Push-Button Object
Description of application and parameters "Detector" application 11.3.35 External push-button parameter — Use of external push-button object Options: – No: There is no separate “external push-button” object. – Yes: A 1-bit “external push-button” communication object (input) is being enabled. Via this object it is possible to manually change the (output) status of the detector with the aid of a 1- bit telegram.
Page 78: Sensor Selection - Use Of Sensors 1 - 4
Description of application and parameters "Detector" application 11.3.39 Sensor selection — Use of sensors 1 - 4 Options: – Yes: This sensor is active and detects movement. – No: This sensor is switched off and movement is no longer detected in this area. Note Does not apply for devices 6131/50-xxx and/or 6131/51-xxx.
Page 79: Enable - Use Of Enable Detector Object
Description of application and parameters "Detector" application 11.3.41 Enable — Use of enable detector object Options: – No: There is no object with which the detector can be blocked or enabled. – Yes: A 1-bit “enable movement” communication object (input) is being enabled. This object allows the detector to be enabled or blocked.
Page 80: Enable - Output Sends At Blockage
Description of application and parameters "Detector" application 11.3.45 Enable — Output sends at blockage Options: No telegram OFF after expiration of the light-on time Single value for switching off Single value for switching on – No telegram: No telegram is sent during blockage. –...
Page 81: Extended Parameter Settings (Monitoring) - Monitoring Time Window
Description of application and parameters "Detector" application 11.3.46 Extended parameter settings (monitoring) — Monitoring time window Options: 00:00:01 .. 00:00:30 .. 00:10:00 hh:mm:ss – The monitoring time window correlates with minimum activity in the monitoring time window. The telegram is only sent when a movement is detected within the monitoring time window, e.g.
Page 82: Extended Parameter Settings (Monitoring) - Overwriting Settings During A Download
Description of application and parameters "Detector" application 11.3.49 Extended parameter settings (monitoring) — Overwriting settings during a download Options: – Yes: When the application is reloaded into the detector, the values changed via the bus are overwritten with the parameterised values of the ETS application. –...
Page 83: Constant Light Switch Application
Description of application and parameters Constant light switch application 11.4 Constant light switch application 11.4.1 General parameters — Output is of type Options: 1 bit 1 byte 0 - 100% 1 byte 0 - 255 Light scene number (1-64) RTC operating mode switchover (1 byte) 2-byte float –...
Page 84: General Parameters - Cyclic Repeat Time (Hh:mm:ss)
Description of application and parameters Constant light switch application 11.4.3 General parameters — Cyclic repeat time (hh:mm:ss) Options: 00:00:10 .. 00:00:30 .. 18:12:15 Here the time which lies between the sending of two telegrams is set. 11.4.4 General parameters — Value for switching on output 1 Options: –...
Page 85: General Parameters - Hysteresis (%)
Description of application and parameters Constant light switch application 11.4.7 General parameters — Hysteresis (%) Options: 10 .. 12 .. 100 – Switching threshold = brightness threshold ± hysteresis The hysteresis prevents excessive switching when the current ambient brightness is close to the brightness threshold.
Page 86: General Parameters - Sensitivity Of The Watchdog
Description of application and parameters Constant light switch application 11.4.10 General parameters — Sensitivity of the watchdog Options: High Medium Maximum – High: Standard - intended for indoor use. – Medium: To be used when there are small interfering heat sources within the detection range.
Page 87: Extended Parameters - Operating Mode
Description of application and parameters Constant light switch application 11.4.12 Extended parameters — Operating mode Options: Automatic mode Automatic switch-off Movement-dependent operation – Automatic = automatic switch-on and switch-off. In "Automatic" mode, in case it is too dark, the presence detector switches on automatically when detecting a movement.
Page 88: Extended Parameters - Use Of Output 2
Description of application and parameters Constant light switch application 11.4.15 Extended parameters — Use of output 2 Options: – No: There is only output 1, which sends its telegrams to an actuator. – Yes: An “output 2” communication object (output) is being enabled. The lighting can be now switched on and off in two stages.
Page 89: Extended Parameters - Value For Switch-Off At Output 2
Description of application and parameters Constant light switch application 11.4.17 Extended parameters — Value for switch-off at output 2 Options: – Off: If movement is no longer detected and the switch-off delay has expired, value 0 is sent through the bus. –...
Page 90: Extended Parameters - Use Of Object For Brightness-Value Threshold
Description of application and parameters Constant light switch application 11.4.20 Extended parameters — Use of object for brightness-value threshold Options: – No: There is no separate “external brightness-value threshold” object. – Yes: A 2-byte “brightness-value threshold” communication object (input/output) is being enabled.
Page 91: Extended Parameters - Actual Brightness Is Sent Every (Hh:mm:ss)
Description of application and parameters Constant light switch application 11.4.24 Extended parameters — Actual brightness is sent every (hh:mm:ss) Options: 00:00:10 .. 00:05:00 .. 00:30:00 Here the time which lies between the sending of two telegrams is set. 11.4.25 Extended parameters — Use of object for automatic / manual off Options: –...
Page 92: Extended Parameters - Use Of Status Of Control Object
Description of application and parameters Constant light switch application 11.4.28 Extended parameters — Use of status of control object Options: – No: There is no separate “status of control” object. – Yes: A 1-bit “status of control” communication object (output) is being enabled. This object sends a 1 telegram when the constant light switch functions automatically.
Page 93: Sensor Selection - Use Of Sensors 1 - 4
Description of application and parameters Constant light switch application 11.4.30 Sensor selection — Use of sensors 1 - 4 Options: – Yes: This sensor is active and detects movement. – No: This sensor is switched off and movement is no longer detected in this area. Note Does not apply for devices 6131/50-xxx and/or 6131/51-xxx.
Page 94: Enable - Use Of Presence Detector Enable Object
Description of application and parameters Constant light switch application 11.4.32 Enable — Use of presence detector enable object Options: – No: There is no object with which the constant light switch can be blocked or enabled. – Yes: A 1-bit “enable presence” communication object (input) is being enabled. This object allows the constant light switch to be enabled or blocked.
Page 95: Enable - Output Sends At Blockage
Description of application and parameters Constant light switch application 11.4.36 Enable — Output sends at blockage Options: No telegram OFF after expiration of the light-on time Single value for switching off Single value for switching on – No telegram: No telegram is sent during blockage. –...
Page 96: Constant Light Controller" Application
Description of application and parameters "Constant light controller" application 11.5 "Constant light controller" application 11.5.1 General parameters — Output is of type Options: 1 byte 0 - 100% 1 byte 0 - 255 – 1 Byte 0 - 100%: For activating dimmers. –...
Page 97: General Parameters - Setpoint Brightness (Lux)
Description of application and parameters "Constant light controller" application 11.5.6 General parameters — Setpoint brightness (lux) Options: 1 .. 400 .. 1000 – Here the desired brightness of the room is to be set. Below this threshold - hysteresis the presence detector starts the control and starts to adjust the light until the setpoint has been reached again.
Page 98: General Parameters - Value For Switch-Off (%)
Description of application and parameters "Constant light controller" application 11.5.9 General parameters — Value for switch-off (%) Options: 0 .. 100 – If movement is now no longer detected and the switch-off delay has expired, the value is sent via the bus. 11.5.10 General parameters —...
Page 99: Extended Parameters - Operating Mode
Description of application and parameters "Constant light controller" application 11.5.12 Extended parameters — Operating mode Options: Automatic mode Automatic switch-off Light controller (independent of movement) – Automatic = automatic switch-on and switch-off. In the "Automatic" mode, the presence detector switches on automatically when detecting a movement.
Page 100: Extended Parameters - Value For Reduced Brightness (%)
Description of application and parameters "Constant light controller" application 11.5.14 Extended parameters — Value for reduced brightness (%) Options: 0 .. 20 .. 100 Here the value for the reduced brightness is set. After the switch-off delay has expired the detector is to dim the light to this value.
Page 101: Extended Parameters - Used Brightness
Description of application and parameters "Constant light controller" application 11.5.17 Extended parameters — Used brightness Options: Internal External – Internal: The presence detector uses its own measured brightness and brightness-value threshold to decide whether the presence detector is to be activated or deactivated. –...
Page 102: Extended Parameters - Bottom Limit Output 2 (%)
Description of application and parameters "Constant light controller" application 11.5.21 Extended parameters — Bottom limit output 2 (%) Options: 0 .. 100 – Here the bottom control limit is specified and up to which minimum value a dimmer is controlled. 11.5.22 Extended parameters —...
Page 103: Extended Parameters - Use Of Object For Setpoint Brightness
Description of application and parameters "Constant light controller" application 11.5.25 Extended parameters — Use of object for setpoint brightness Options: – No: There is no separate “brightness” object. – Yes: A 2-byte “brightness setpoint” (input/output) object is being enabled. This can be used to change the switching threshold, while the presence detector is activated or deactivated.
Page 104: Extended Parameters - Sending Of Actual Brightness Every (Hh:mm:ss)
Description of application and parameters "Constant light controller" application 11.5.29 Extended parameters — Sending of actual brightness every (hh:mm:ss) Options: 00:00:05 .. 00:05:00 .. 00:30:00 Here the time which lies between the sending of two telegrams is set. 11.5.30 Extended parameters — Use of brightness calibration object Options: –...
Page 105: Extended Parameters - Dimming Step Size Darker (1 To 15)
Description of application and parameters "Constant light controller" application 11.5.34 Extended parameters — Dimming step size darker (1 to 15) Options: 1 .. 4 .. 15 – Here the step size for reducing the dimming value during blind movement is specified. Note If the dimming step size is set too high, the dimming steps will be clearly visible in the lighting.
Page 106: Extended Parameters - Pause Time (Ss.fff)
Description of application and parameters "Constant light controller" application 11.5.39 Extended parameters — Pause time (ss.fff) Options: 00.100 .. 01,250 .. 59,999 – The set pause time is started after the detector has been switched off due to expiry of the switch-off delay or when a switch-off telegram is received on objects “external push-button”...
Page 107: Sensor Selection - Use Of Sensors 1 - 4
Description of application and parameters "Constant light controller" application 11.5.42 Sensor selection — Use of sensors 1 - 4 Options: – Yes: This sensor is active and detects movement. – No: This sensor is switched off and movement is no longer detected in this area. 11.5.43 Enable —...
Page 108: Enable - At Enable, Output Sends
Description of application and parameters "Constant light controller" application 11.5.46 Enable — At enable, output sends Options: Current output value Start value – Current output value: During enable it is checked whether a movement has taken place. If yes, the lighting is switched on. If no, the lighting is switched off. –...
Page 109: Application "Hvac" (Heating, Ventilation, Air-Conditioning)
Description of application and parameters Application "HVAC" (Heating, ventilation, air-conditioning) 11.6 Application "HVAC" (Heating, ventilation, air-conditioning) 11.6.1 General parameters — Output is of type Options: 1 bit 1 byte 0 - 100% 1 byte 0 - 255 Light scene number (1-64) RTC operating mode switchover (1 byte) 2-byte float –...
Page 110: General Parameters - Use Of Slave Input
Description of application and parameters Application "HVAC" (Heating, ventilation, air-conditioning) 11.6.2 General parameters — Use of slave input Options: – No: The option of receiving telegrams from a slave is not available. – Yes: A 1-bit “slave” communication object (input) is being enabled. Via this input the master detector receives the (On) telegrams of the connected slaves or of a push-button.
Page 111: General Parameters - Value For Switch-Off
Description of application and parameters Application "HVAC" (Heating, ventilation, air-conditioning) 11.6.5 General parameters — Value for switch-off Options: Auto Comfort Standby Frost/heat protection – Auto: When movement is no longer detected and the switch-off delay has expired, value 0 (auto) is sent superimposed via the “HVAC” object on the bus to the “operating mode”...
Page 112: General Parameters - Sensitivity Of The Watchdog
Description of application and parameters Application "HVAC" (Heating, ventilation, air-conditioning) 11.6.8 General parameters — Sensitivity of the watchdog Options: High Medium Maximum – High: Standard - intended for indoor use. – Medium: To be used when there are small interfering heat sources within the detection range.
Page 113: Extended Parameters - Operating Mode
Description of application and parameters Application "HVAC" (Heating, ventilation, air-conditioning) 11.6.10 Extended parameters — Operating mode Options: Heating/air-conditioning Ventilation – Heating/air-conditioning: The switch-on delay time starts with a movement. If movement is no longer detected during the switch-on delay time, the switch-on delay time is reset. If movement continues and the switch-on delay time has expired, the output is activated with the programmed switch-on value.
Page 114: Extended Parameters - Use Of Object For Switch-Off Delay
Description of application and parameters Application "HVAC" (Heating, ventilation, air-conditioning) 11.6.13 Extended parameters — Use of object for switch-off delay Options: – No: The only option available is to change the switch-off delay via the “switch-off delay” parameter setting. – Yes: There is a separate 2-byte “switch-off delay”...
Page 115: Extended Parameters - Overwriting Settings During A Download
Description of application and parameters Application "HVAC" (Heating, ventilation, air-conditioning) 11.6.16 Extended parameters — Overwriting settings during a download Options: – Yes: When the application is reloaded into the detector, the values changed via the bus are overwritten with the parameterised values of the ETS application. –...
Page 116: Enable - After Bus Voltage Recovery The Device Is
Description of application and parameters Application "HVAC" (Heating, ventilation, air-conditioning) 11.6.20 Enable — After bus voltage recovery the device is Options: Enabled Blocked – Enabled: The device is enabled and functions normally when the bus voltage is interrupted or the device has been reprogrammed, as well as after a reset. Blocked: The device is blocked and must be enabled for normal function when the bus –...
Page 117: Brightness Detection" Application
Description of application and parameters "Brightness detection" application 11.7 "Brightness detection" application 11.7.1 General parameters — Sending of brightness every (hh:mm:ss) Options: 00:00:05 .. 00:00:30 .. 18:12:15 – Here it is specified how often the brightness is sent on the bus. 11.7.2 General parameters —...
Page 118: General Parameters - Fade In Extended Parameters
Description of application and parameters "Brightness detection" application 11.7.4 General parameters — Fade in extended parameters Options: – No: Only the most important parameters for setting the detector are displayed. – Yes: All parameters are displayed, also those that are not required in most cases. 11.7.5 Extended parameters —...
Page 119: Application "Rtc Object
Description of application and parameters Application "RTC object" 11.8 Application "RTC object" 11.8.1 General — Device function Options: Single device Master device Slave device – Single device: The device is used singly in a room as room temperature controller. – Master device: At least two room temperature controllers are located in one room.
Page 120: General - Operating Mode After Reset
Description of application and parameters Application "RTC object" 11.8.3 General — Operating mode after reset Options: Comfort Standby Eco mode Cooling with additional stage Frost/heat protection After a reset the device will run in the operating mode after a restart until a new operating mode is set as the result of device operation or by communication objects, as the case may be.
Page 121: Heating Control
Description of application and parameters Application "RTC object" 11.8.6 Heating control Note Only available when the "Device function" parameter is set on either "Single device" or "Master device" and the control function parameter is set on either "Heating," "Heating with additional stage," "Heating and cooling" or "Heating and cooling with additional stages".
Page 122: Heating Control - Heating Type
Description of application and parameters Application "RTC object" 11.8.8 Heating control — Heating type Options: PI continuous, 0 – 100% and PI PWM, On/Off: – Area (e.g. floor heating) 4°C 200 min – Convector (e.g. heater) 1.5°C 100 min – Free configuration Fan coil: –...
Page 123: Heating Control - I-Component (Min.)
Description of application and parameters Application "RTC object" 11.8.10 Heating control — I-component (min.) Options: Setting option between 0 - 255 The I-component refers to the reset time of a control. The integral component has the effect of moving the room temperature slowly toward, and ultimately reaching, the setpoint value. Depending on the type of system used, the reset time has to have different values.
Page 124: Basic Stage Heating
Description of application and parameters Application "RTC object" 11.8.12 Basic stage heating Note Only available when the "Extended settings" parameter under "Heating control" is set on "Yes". 11.8.13 Basic stage heating — Status object heating Options: – This parameter enables the "Status heating" communication object. 11.8.14 Basic stage heating —...
Page 125: Basic Stage Heating - Control Value Difference For Sending Of Heating Control Value
Description of application and parameters Application "RTC object" 11.8.16 Basic stage heating — Control value difference for sending of heating control value Options: Send cyclic only The control values of the 0 - 100% PI continuous controller are not transmitted after every calculation.
Page 126: Basic Stage Heating - Maximum Control Value (0 - 255)
Description of application and parameters Application "RTC object" 11.8.19 Basic stage heating — Maximum control value (0 - 255) Options: Setting option between 0 - 255 The maximum control value of the PI controller defines the maximum value outputted by the controller.
Page 127: Control Of Additional Heating Stage
Description of application and parameters Application "RTC object" 11.8.21 Control of additional heating stage Note Only available when the "Device function" parameter is set on either "Single device" or "Master device" and the control function parameter is set on either "Heating with additional stage"...
Page 128: Control Of Additional Heating Stage - Additional Heating Type
Description of application and parameters Application "RTC object" 11.8.23 Control of additional heating stage — Additional heating type Options: PI continuous, 0 – 100% and PI PWM, On/Off: – Area (e.g. floor heating) 4°C 200 min – Convector (e.g. heater) 1.5°C 100 min –...
Page 129: Control Of Additional Heating Stage - Temperature Difference To Basic Stage (X 0.1°C)
Description of application and parameters Application "RTC object" 11.8.26 Control of additional heating stage — Temperature difference to basic stage (x 0.1°C) Options: Setting option between 0 - 255 The setpoint temperature of the additional stage is defined as a function of the current setpoint temperature of the base stage and is expressed as a difference.
Page 130: Additional Heating Stage
Description of application and parameters Application "RTC object" 11.8.28 Additional heating stage Note Only available when the "Extended settings" parameter under "Control of additional heating stage" is set on "Yes". 11.8.29 Additional heating stage — Mode of the control value Options: Normal Inverse...
Page 131: Additional Heating Stage - Cyclic Sending Of The Control Value (Min)
Description of application and parameters Application "RTC object" 11.8.32 Additional heating stage — Cyclic sending of the control value (min) Options: Setting option between 1 - 60 minutes The current control value used by the device can be cyclically transmitted to the bus. Note This parameter is only available when the "Control value type"...
Page 132: Cooling Control
Description of application and parameters Application "RTC object" 11.8.35 Cooling control Note Only available when the "Device function" parameter is set on either "Single device" or "Master device" and the control function parameter is set on either "Cooling," "Cooling with additional stage," "Heating and cooling" or "Heating and cooling with additional stages".
Page 133: Cooling Control - Cooling Type
Description of application and parameters Application "RTC object" 11.8.37 Cooling control — Cooling type Options: PI continuous, 0 – 100% and PI PWM, On/Off: – Area (e.g. cooling ceiling) 5°C 240 min – Free configuration Fan coil: – Fan coil 4°C 90min –...
Page 134: Basic Stage Cooling
Description of application and parameters Application "RTC object" 11.8.41 Basic stage cooling Note Only available when the "Extended settings" parameter under "Cooling control" is set on "Yes". 11.8.42 Basic stage cooling — Status object cooling Options: This parameter enables the "Status cooling" communication object. 11.8.43 Basic stage cooling —...
Page 135: Basic Stage Cooling - Control Value Difference For Sending Of Cooling Control Value
Description of application and parameters Application "RTC object" 11.8.45 Basic stage cooling — Control value difference for sending of cooling control value Options: Send cyclic only The control values of the 0 - 100% PI continuous controller are not transmitted after every calculation.
Page 136: Basic Stage Cooling - Maximum Control Value (0 - 255)
Description of application and parameters Application "RTC object" 11.8.48 Basic stage cooling — Maximum control value (0 - 255) Options: Setting option between 0 - 255 The maximum control value of the PI controller defines the maximum value outputted by the controller.
Page 137: Control Of Additional Cooling Stage
Description of application and parameters Application "RTC object" 11.8.50 Control of additional cooling stage Note Only available when the "Device function" parameter is set on either "Single device" or "Master device" and the control function parameter is set on either "Cooling with additional stage"...
Page 138: Control Of Additional Cooling Stage - P-Component (X 0.1°C)
Description of application and parameters Application "RTC object" 11.8.52 Control of additional cooling stage — P-component (x 0.1°C) Options: Setting option between 10 - 100 The P-component refers to the proportional band of a control. It fluctuates around the setpoint value and can be used to influence control speed with a PI controller.
Page 139: Additional Cooling Stage
Description of application and parameters Application "RTC object" 11.8.55 Additional cooling stage Note Only available when the "Extended settings" parameter under "Control of additional cooling stage" is set on "Yes". 11.8.56 Additional cooling stage — Mode of the control value Options: Normal Inverse...
Page 140: Additional Cooling Stage - Cyclic Sending Of The Control Value (Min)
Description of application and parameters Application "RTC object" 11.8.59 Additional cooling stage — Cyclic sending of the control value (min) Options: Setting option between 1 - 60 minutes The current control value used by the device can be cyclically transmitted to the bus. Note This parameter is only available when the "Control value type"...
Page 141: Settings Of Basic Load
Description of application and parameters Application "RTC object" 11.8.62 Settings of basic load Note Only available when the "Device function" parameter is set on either "Single device" or "Master device" and the control function parameter is set on either "Heating with additional stage," "Cooling with additional stage," "Heating and cooling"...
Page 142: Combined Heating And Cooling Modes
Description of application and parameters Application "RTC object" 11.8.64 Combined heating and cooling modes Note Only available when the "Device function" parameter is set on either "Single device" or "Master device" and the control function parameter is set on either "Heating and cooling"...
Page 143: Combined Heating And Cooling Modes - Additional Heating/Cooling Stage Control Value Output
Description of application and parameters Application "RTC object" 11.8.68 Combined heating and cooling modes — Additional heating/cooling stage control value output Options: Via 1 object Via 2 objects This parameter is used to define whether the control value is transmitted to the climate control actuator using one or two objects.
Page 144: Setpoint Settings
Description of application and parameters Application "RTC object" 11.8.69 Setpoint settings Note This parameter is only available if the "Device function" parameter is set on either "Single device" or "Master device". 11.8.70 Setpoint settings — Setpoint for heating comfort = setpoint for cooling comfort Options: This parameter is used to configure the manner in which the setpoint adjustment functions.
Page 145: Setpoint Settings - Setpoint Temperature For Heating Comfort (°C)
Description of application and parameters Application "RTC object" 11.8.73 Setpoint settings — Setpoint temperature for heating comfort (°C) Options: Setting option between 10 - 40 Specifies the comfort temperature for heating when people are present. Note This parameter is only available when the "Control function" parameter is set on "Heating"...
Page 146: Setpoint Settings - Setpoint Temperature For Cooling Comfort (°C)
Description of application and parameters Application "RTC object" 11.8.77 Setpoint settings — Setpoint temperature for cooling comfort (°C) Options: Setting option between 10 - 40 Specifies the comfort temperature for cooling when people are present. Note This parameter is only available when the "Control function" parameter is set on "Cooling"...
Page 147: Setpoint Settings - Display Indicates
Description of application and parameters Application "RTC object" 11.8.81 Setpoint settings — Display indicates Options: Current setpoint Relative setpoint The display can indicate either the absolute or relative setpoint value. – Current setpoint: On devices with a display, the setpoint is shown as an absolute temperature, e.g.
Page 148: Setpoint Adjustment
Description of application and parameters Application "RTC object" 11.8.84 Setpoint adjustment Note This parameter is only available if the "Device function" parameter is set on either "Single device" or "Master device". 11.8.85 Setpoint adjustment — Maximum manual increase during heating mode (0 - 15°C) Options: Setting option between 0 - 15 This preset can be used to limit the manual increase during heating.
Page 149: Setpoint Adjustment - Resetting Of The Manual Adjustment For Receipt Of A Basic Setpoint
Description of application and parameters Application "RTC object" 11.8.89 Setpoint adjustment — Resetting of the manual adjustment for receipt of a basic setpoint Options: Activating this parameter will cause the manual adjustment to be deleted and the new setpoint value to be provided when a new value is received via the "Basic setpoint" object. If the parameter is deactivated, the manual adjustment is added to the new base setpoint value.
Page 150: Temperature Reading - Inputs Of Temperature Reading
Description of application and parameters Application "RTC object" 11.8.93 Temperature reading — Inputs of temperature reading Options: Internal measurement External measurement Weighted measurement The room temperature can be measured at the device or fed to the device by an object via the bus.
Page 151: Temperature Reading - Weighting Of External Measurement 2 (0 To 100%)
Description of application and parameters Application "RTC object" 11.8.97 Temperature reading — Weighting of external measurement 2 (0 to 100%) Options: Setting option between 0 - 15 Specifies the weighting of the external measurement 2 at a level between 0% and 100%. When added together with the (0%...100%) weighting of the external measurement, the result must be 100%.
Page 152: Temperature Reading - Monitoring Time For Temperature Reading (0 = No Monitoring) (Min)
Description of application and parameters Application "RTC object" 11.8.101 Temperature reading — Monitoring time for temperature reading (0 = no monitoring) (min) Options: Setting option between 1 - 120 If no temperature is read within the parameterised time period, the device switches to error mode.
Page 153: Alarm Functions
Description of application and parameters Application "RTC object" 11.8.104 Alarm functions Note This parameter is only available if the "Device function" parameter is set on either "Single device" or "Master device". 11.8.105 Alarm functions — Condensate water alarm Options: If a fan coil is used, condensation may form during operation as a result of excessive cooling and/or humidity.
Page 154: Alarm Functions - Frost Alarm Temperature For Hvac And Rhcc Status (°C)
Description of application and parameters Application "RTC object" 11.8.107 Alarm functions — Frost alarm temperature for HVAC and RHCC status (°C) Options: Setting options between 0 and 15 The RHCC status and HVAC objects have a frost alarm bit. It the input temperature of the controller drops below the temperature set in this parameter, then the frost alarm bit is set in the status objects.
Page 155: Fan Coil Settings - Fan Speed Levels
Description of application and parameters Application "RTC object" 11.8.109 Fan coil settings — Fan speed levels Note This parameter is only available if the "Device function" parameter is set on either "Single device" or "Master device" and the "Control value type" parameter is set on "Fan coil".
Page 156: Fan Coil Settings - Fan Speed Levels - Lowest Manually Adjustable Level
Description of application and parameters Application "RTC object" 11.8.113 Fan coil settings — Fan speed levels — Lowest manually adjustable level Options: Speed level 0 Speed level 1 This parameter is used to preselect the lowest fan speed level that can be set by an operation performed at the device.
Page 157: Fan Coil Settings Heating
Description of application and parameters Application "RTC object" 11.8.115 Fan coil settings heating Note This parameter is only available if the "Device function" parameter is set on either "Single device" or "Master device" and the "Control value type" parameter is set on "Fan coil". In addition, the "Control function" parameter must be set on either "Heating,"...
Page 158: Fan Coil Settings For Cooling
Description of application and parameters Application "RTC object" 11.8.119 Fan coil settings for cooling Note This parameter is only available if the "Device function" parameter is set on either "Single device" or "Master device" and the "Control value type" parameter is set on "Fan coil".
Page 159: Summer Compensation
Description of application and parameters Application "RTC object" 11.8.123 Summer compensation Note This parameter is only available if the "Device function" parameter is set on either "Single device" or "Master device". 11.8.124 Summer compensation — Summer compensation Options: In order to save energy, and to ensure that the temperature difference occurring during entry and exit of a climate-controlled building stays within comfortable limits, the excessive reduction of room temperature should be prevented during high temperatures in the summer ( Summer compensation according to DIN 1946).
Page 160: Summer Compensation - (Lower) Starting Temperature For Summer Compensation (°C)
Description of application and parameters Application "RTC object" 11.8.125 Summer compensation — (Lower) Starting temperature for summer compensation (°C) Options: Setting option between -127 to + 127 The parameter defines the lower outside temperature value from which temperature value the setpoint correction (summer compensation) is performed based on too high an outside temperature.
Page 161: Summer Compensation - Offset Of The Setpoint Temperature For The Exit From Summer Compensation (X 0.1°C)
Description of application and parameters Application "RTC object" 11.8.128 Summer compensation — Offset of the setpoint temperature for the exit from summer compensation (x 0.1°C) Options: Setting option between -127 to + 127 The parameter is used to define how many degrees Kelvin the setpoint value will be increased by during summer compensation when the upper temperature value is reached.
Page 162: Application: "Ir Functions (White)
Description of application and parameters Application: "IR functions (white)" 11.9 Application: "IR functions (white)" 11.9.1 Button 1 – 5 (left/right) / memo button M1/M2 The premium version and the Busch-Watchdog Sky KNX have a sensor for receiving infrared signals. This allows the IR remote control 6010-25 to be used, for example. Two channels that can be selected on the transmitter are available for operation: the blue and the white channel.
Page 163: Application: "Logic Functions
Description of application and parameters Application: "Logic functions" 11.11 Application: "Logic functions" 11.11.1 Channal 1 – 5 Various logic functions can be assigned to the channels. Options (application): Inactive Logic gate Gate Delay Staircase lighting – Inactive: No logic functions assigned. –...
Page 164 Description of application and parameters Application: "Logic functions" – Gate: The "Gate" application allows specific signals to be filtered and the signal flow to be temporarily blocked. The function has three communication objects: "Control input," "Input" and "Output". The input or output object can assume different sizes. The bit size can be freely assigned with the "Not assigned"...
Page 165: Communication Objects - Presence Detector - Master
Description of application and parameters Communication objects — Presence detector — Master 11.12 Communication objects — Presence detector — Master 11.12.1 Px: switchover of manual operation Number Name Object function Data type 12 | 30 | 48 | Px: switchover of manual Input 1.001 switch operation...
Page 166: Communication Objects - Presence Detector - Slave
Description of application and parameters Communication objects — Presence detector — Slave 11.13 Communication objects — Presence detector — Slave 11.13.1 Px: Enable movement Number Name Object function Data type 1 | 19 | 37 | Px: Enable movement 1.001 switch The detector can be blocked or enabled via the object.
Page 167: Internal Brightness-Value Threshold
Description of application and parameters Communication objects — Presence detector — Slave 11.13.6 Internal brightness-value threshold Number Name Object function Data type 8 | 26 | 44 | Internal brightness-value 9.* 2-byte float value threshold The internal brightness-value threshold can be adjusted via this object. If this value is not to be overwritten during each download, the parameter "Overwrite setting during download"...
Page 168: Communication Objects - Presence Detector - Monitoring
Description of application and parameters Communication objects — Presence detector — Monitoring 11.14 Communication objects — Presence detector — Monitoring 11.14.1 Px: Enable movement Number Name Object function Data type 1 | 19 | 37 | Px: Enable movement Input 1.001 switch The detector can be blocked or enabled via the object.
Page 169: Communication Objects - Presence Detector - Constant Light Switch
Description of application and parameters Communication objects — Presence detector — Constant light switch 11.15 Communication objects — Presence detector — Constant light switch 11.15.1 P1: Output 1 Number Name Object function Data type P1: Output 1 1.001 switch 5.001 percentage (0..100%) 5.010 counter pulses (0..255) 18.001 scene control 20.102 HAVC mode...
Page 170: Px: Slave
Description of application and parameters Communication objects — Presence detector — Constant light switch 11.15.4 Px: slave Number Name Object function Data type Px: Slave 1.001 switch The constant light switch can be switched on with a 1 from a different movement or presence detector via the object.
Page 171: Px: Saving Brightness-Value Threshold
Description of application and parameters Communication objects — Presence detector — Constant light switch 11.15.9 Px: Saving brightness-value threshold Number Name Object function Data type Px: Saving brightness-value 1.001 switch threshold If value = 1 is sent on this communication object, the current measured brightness value is saved as the new switching threshold of the control.
Page 172: Communication Objects - Presence Detector - Constant Light Controller
Description of application and parameters Communication objects — Presence detector — Constant light controller 11.16 Communication objects — Presence detector — Constant light controller 11.16.1 Px: Output 1 Number Name Object function Data type 1 | 19 Px: Output 1 Output 5.001 percentage (0..100%)
Page 173: Px: Slave
Description of application and parameters Communication objects — Presence detector — Constant light controller 11.16.6 Px: slave Number Name Object function Data type 6 | 24 Px: slave Input 1.001 switch The constant light controller can be switched on with a 1 from a different movement or presence detector via the object.
Page 174: Px: Saving Setpoint Brightness
Description of application and parameters Communication objects — Presence detector — Constant light controller 11.16.11 Px: Saving setpoint brightness Number Name Object function Data type 12 | 30 Px: Saving setpoint brightness Input 1.001 switch The desired brightness value is set with a control element via communication objects automatic / manual off, relative dimming (dimmer) and / or value (dimmer).
Page 175: Px: Brightness Reduced According To Switch-Off Delay
Description of application and parameters Communication objects — Presence detector — Constant light controller 11.16.15 Px: Brightness reduced according to switch-off delay Number Name Object function Data type 16 | 34 Px: Brightness reduced according Input 7.005 time (s) to switch-off delay If no movement is detected after the switch-off delay has expired, the function enters the programmed switch-off delay and then switches off.
Page 176: Communication Objects - Presence Detector - Hvac
Description of application and parameters Communication objects — Presence detector — HVAC 11.17 Communication objects — Presence detector — HVAC 11.17.1 P3: HVAC Number Name Object function Data type P3: HVAC Output 1.001 switch 5.001 percentage (0..100%) 5.010 counter pulses (0..255) 18.001 scene control 20.102 HAVC mode 9.* 2-byte float value...
Page 177: P3: Switch-On Delay
Description of application and parameters Communication objects — Presence detector — HVAC 11.17.5 P3: Switch-on delay Number Name Object function Data type P3: Switch-on delay Input 7.005 time (s) The switch-on delay can be reprogrammed at all times via this object from a different control element without the aid of ETS.
Page 178: Communication Objects - Presence Detector - Brightness Detection
Description of application and parameters Communication objects — Presence detector — Brightness detection 11.18 Communication objects — Presence detector — Brightness detection 11.18.1 BR: Brightness Number Name Object function Data type BR: Brightness Output 9.* 2-byte float value This object sends the brightness value calibrated via the daylight correction. 11.18.2 BR: Alarm Number Name...
Page 179: Br: Brightness Adjustment (Output 1)
Description of application and parameters Communication objects — Presence detector — Brightness detection 11.18.6 BR: Brightness adjustment (output 1) Number Name Object function Data type BR: Brightness adjustment Input 9.* 2-byte float value (output 1) The measured value for output 1 (light row 1) is sent to this object during the brightness adjustment.
Page 180: Communication Objects - Object Rtc
Description of application and parameters Communication objects — Object RTC 11.19 Communication objects — Object RTC 11.19.1 Heating control value Number Name Object function Data type Heating control value (control Output 1. Switching value heating/cooling) 2. Percent (0..100%) Description: 1. This object is used to operate a switching actuating drive, e.g. a thermoelectric positioner, that is controlled by a switching/heating actuator.
Page 181: Additional Cooling Stage
Description of application and parameters Communication objects — Object RTC 11.19.4 Additional cooling stage Number Name Object function Data type Additional cooling stage Output 1. Switching 2. Percent (0..100%) Description: 1. This object is used to operate a switching actuating drive, e.g. a thermoelectric positioner, that is controlled by a switching/heating actuator.
Page 182: Actual Temperature
Description of application and parameters Communication objects — Object RTC 11.19.6 Actual temperature Number Name Object function Data type 1. Actual temperature Output 2-byte floating point value 2-byte floating point 2. Actual temperature weighted value 1. The object outputs the measured (room) temperature, adjusted by the calibration value. 2.
Page 183: Fault, Actual Temperature
Description of application and parameters Communication objects — Object RTC 11.19.9 Fault, actual temperature Number Name Object function Data type 1. Fault, actual temperature Output Switching 2. Fault, actual temperature Output Switching (master) 3. Fault, actual temperature Output Switching (slave) If one of the parameterised input temperatures is unavailable to the controller for a period longer than the monitoring time, the controller enters the error mode.
Page 184: Working Mode
Description of application and parameters Communication objects — Object RTC 11.19.12 Working mode Number Name Object function Data type 1. Operating mode Input / output HVAC mode 2. Operating mode (master) Input / output HVAC mode 3. Operating mode (slave) Input / output HVAC mode The "Operating mode"...
Page 185: Window Contact
Description of application and parameters Communication objects — Object RTC 11.19.14 Window contact Number Name Object function Data type 1. Window contact Input Switching 2. Window contact (master/slave) Input Switching The object uses the value 1 to signal an open window to the controller. If no other object with a higher priority is present, then the "Window contact"...
Page 186: Cooling Status
Description of application and parameters Communication objects — Object RTC 11.19.17 Cooling status Number Name Object function Data type Cooling status Output Switching The room temperature controller sends an ON telegram via the "Cooling status" object as soon as it is active in the cooling mode. If the controller is in the inactive zone between heating and cooling or is in heating mode, the room temperature controller transmits an OFF telegram on the "Cooling status"...
Page 187: Fan Coil Manual
Description of application and parameters Communication objects — Object RTC 11.19.20 Fan coil manual Number Name Object function Data type 1. Fan coil manual Output Switching 2. Fan coil manual (master) Output Switching 3. Fan coil manual (slave) Output Switching Using this 1-bit communication object, a fan coil actuator can be placed in manual fan mode or returned to automatic fan mode.
Page 188: Fan Coil Step Status
Description of application and parameters Communication objects — Object RTC 11.19.22 Fan coil step status Number Name Object function Data type Fan coil step status Input / output 2-byte floating point value Using the "Fan coil step status" object, the room temperature controller receives the current fan speed level of the fan coil actuator.
Page 189: Fan Speed Level 5
Description of application and parameters Communication objects — Object RTC 11.19.27 Fan speed level 5 Number Name Object function Data type Fan speed level 5 Output Switching This 1-bit communication object is used to output the active status (1) of the fan speed level, while the other fan speed levels are deactivated (0), depending on the parameter setting.
Page 190: Condensate Water Alarm
Description of application and parameters Communication objects — Object RTC 11.19.31 Condensate water alarm Number Name Object function Data type 1. Condensate water alarm Input Switching 2. Condensate water alarm Input Switching (master/slave) This 1-bit communication object is used to place the controller in the condensation alarm mode. This causes the current setpoint value to be set to the heat protection setpoint value in order to keep the structure from being damaged by an overflowing condensation container.
Page 191: Setpoint Reached
Description of application and parameters Communication objects — Object RTC 11.19.34 Setpoint reached Number Name Object function Data type Setpoint reached Output Switching When the setpoint set on the device in comfort mode has been reached it is sent by means of value (1) as information to the KNX bus via the 1-bit communication object.
Page 192: On/Off Request
Description of application and parameters Communication objects — Object RTC 11.19.37 On/Off request Number Name Object function Data type 1. On/off request (master) Input Switching 2. On/off request (slave) Input Switching This 1-bit communication object must be connected to the respective slave communication object in order to synchronise the devices in the master/slave configuration.
Page 193: Request Manual Fan Speed Level
Description of application and parameters Communication objects — Object RTC 11.19.42 Request manual fan speed level Number Name Object function Data type 1. Request manual fan speed Input Switching level (master) 2. Request manual fan speed Input Switching level (slave) This 1-bit communication object must be connected to the respective slave communication object in order to synchronise the devices in the master/slave configuration.
Page 194: Controller Status Hvac
Description of application and parameters Communication objects — Object RTC 11.19.46 Controller status HVAC Number Name Object function Data type 1. Controller status HVAC Output Percent (0..100%) 2. Controller status HVAC Output Percent (0..100%) (master) 3. Controller status HVAC (slave) Output Percent (0..100%) This communication object outputs the current operating mode, the heating/cooling mode,...
Page 195: Communication Objects - Logic Functions
Description of application and parameters Communication objects — Logic functions 11.20 Communication objects — Logic functions 11.20.1 Logic gate Object name Data type Flags Output (1 Bit) 1 Bit EIS1 / DPT 1.001 C, W, T Output (1 Byte) 1 Byte EIS14 / DPT 5.010 C, W, T Input 1 (1 Bit) 1 Bit EIS1 / DPT 1.001...
Page 196: Gate
Description of application and parameters Communication objects — Logic functions 11.20.2 Gate Gate objects Object name Data type Flags Input C, W, T Output C, W, T Control input 1 bit EIS1 / DPT 1.001 C, W 11.20.3 Delay Delay objects Object name Data type Flags...
Page 197: Staircase Lighting
Description of application and parameters Communication objects — Logic functions 11.20.4 Staircase lighting Staircase lighting objects Object name Data type Flags Input (1 Bit) 1 Bit EIS1 / DPT 1.001 C, W Input (1 Byte) 1 Bit EIS14 / DPT 5.010 C, W Input_Output (1 Bit) 1 Bit EIS1 / DPT 1.001...
Page 198 A member of the ABB Group Note We reserve the right to at all times Busch-Jaeger Elektro GmbH make technical changes as well as Postfach changes to the contents of this 58505 Lüdenscheid, Germany document without prior notice. The agreed detailed specifications Freisenbergstraße 2...

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Busch-Jaeger mini KNX 6131/20 series Technical Manual

1 Notes on the Instruction Manual

2 Safety

3 Information on Protection of the Environment

4 Product Description

5 Technical Data

6 Mounting

7 Commissioning

8 Updating Options

9 Operation

10 Maintenance

11 Description of Application and Parameters

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Summary of Contents for Busch-Jaeger mini KNX 6131/20 series