Operating Instructions
Table Of Contents
- RXB (KNX) applications library
- CLC and RAD description of functions for CC-02
- Table of contents
- 1 Introduction
- 2 Definitions / Tools
- 3 Select communications mode
- 4 Applications / Parameters
- 5 Room operating modes
- 5.1 Description
- 5.2 Overview
- 5.3 Determine the room operating mode with DESIGO (S-mode)
- 5.3.1 Local control of room operating mode via a window contact
- 5.3.2 Central control of room operating mode via input from the Use schedule
- 5.3.3 Central and local control of room operating modebased on occupancy
- 5.3.4 Central control of room operating mode via room operating mode schedule
- 5.3.5 Local control of room operating mode with a room unit
- 5.3.6 Local control of room operating mode via the Temporary Comfort mode input
- 5.3.7 Effective room operating mode
- 5.3.8 DESIGO examples
- 5.4 Determine the room operating mode with third-party products (S-mode)
- 5.4.1 Local control of room operating mode via window contact input
- 5.4.2 Central control of room operating mode with an input from the room operating mode schedule
- 5.4.3 Central control of the room operating mode via the schedules Use and Occupancy
- 5.4.4 Central and local control of room operating mode based on occupancy
- 5.4.5 Local control of room operating mode with a room unit
- 5.4.6 Local control of room operating mode via the Temporary Comfort mode input
- 5.4.7 Effective room operating mode
- 5.4.8 Third-party (S-mode) examples
- 5.5 Determine the room operating mode with Synco (LTE mode)
- 5.5.1 Local control of room operating mode via window contact input
- 5.5.2 Central room operating mode control via Enable Comfort
- 5.5.3 Central control of room operating mode via room operating mode input
- 5.5.4 Local control of room operating mode via presence detector
- 5.5.5 Local control of room operating mode with a room unit
- 5.5.6 LTE mode examples
- 5.6 Determine the room operating mode without a bus (stand-alone)
- 6 Setpoint calculation
- 7 Temperature measurement
- 8 Control sequences
- 9 Master/slave
- 10 General / central functions
- 10.1 Send heartbeat and Receive timeout
- 10.2 Digital inputs
- 10.3 Temporary Comfort mode
- 10.4 Presence detector switch-on and switch-off delay
- 10.5 Heating and cooling demand
- 10.6 Heating/cooling signal output
- 10.7 Special functions
- 10.8 Morning boost (Morning Warmup, 2)
- 10.9 Precooling (Precool, 5)
- 10.10 Test mode (Test, 7)
- 10.11 Emergency heat (8)
- 10.12 Free cooling (Freecool, 10)
- 10.13 Alarm
- 10.14 Reset setpoint shift
- 10.15 Free inputs/outputs
- 10.16 Software version
- 10.17 Device state
- 11 Room unit
- 12 KNX information
- 12.1 Reset and startup response
- 12.2 LED flashing pattern
- 12.3 Startup delay
- 12.4 Bus load
- 12.5 S-mode communication objects for RAD/CLC
- 12.6 LTE-mode communication objects
- 12.7 HandyTool parameters by number
- 12.8 HandyTool parameters, alphabetical
- 12.9 HandyTool enumerations
- 12.10 Data point type description
- 13 FAQ
- 14 Integration of RXB in DESIGO/Synco
- 14.1 Case 1: Integration in Synco
- 14.2 Case 2: Integration in DESIGO
- 14.3 Case 3: Display in DESIGO, with shared Synco schedule
- 14.4 Case 4: Display in DESIGO/Synco, with shared Synco schedule
- 14.5 Case 5: Display in DESIGO, separate schedules
- 14.6 Case 6: Separate display, separate schedules
- 14.7 Case 7: Separate display, shared Synco schedule
- 15 Working with different tools
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Siemens RXB (KNX) Applications library CLC and RAD description of functions for CC-02 CM110384en_04
Building Technologies Select communications mode 21 Sep 2010
The ACS service tool is used in Synco networks.
It has access to LTE mode only.
HandyTool
Setting Mode
*006 Communication mode 0 S-mode
1 LTE and S-mode
3.1 Address zones in LTE mode
(together with Synco)
This section applies only to LTE mode.
Zone addresses must be allocated in cases where RXB Konnex controllers are used in
LTE mode (e.g. together with Synco). These must be defined together with the Synco
devices at the planning stage.
The zones to be defined are:
Geographical zone
(Apartment . Room . Subzone)
Apartment = ---, 1...126
Room = ---, 0...63
Subzone = ---, 0...15
Zone in which an RXB Konnex controller is located.
Other room-specific devices may also be located in this
zone.
The designations "Apartment, Room and Subzone do
not need to be taken literally. For example, Apartment
can be used to refer to a group of rooms, floor, or
section of a building.
Room, however, really does refer to a room..
Subzone is unlikely to be used much for HVAC devices
– it is more relevant to other disciplines such as lighting
(keep the setting 1).
Time switch zone
(Apartment . Room . Subzone)
Apartment = ---, 1...126
Room = ---, 0...63
Subzone = ---, 0...15
This zone has the same structure as the geographical
zone. It indicates the source of the schedule for the
RXB Konnex controllers.
The same zone must also contain a device to provide
the schedule (e.g. a Synco RMx7xx or RMB795).
In a Synco network, Room and Subzone must always
be set to 1.
Refrig distr zone cooling
surface
Zone = ---, 1...31
Chilled water-specific information of a chilled ceiling is
exchanged within this zone (e.g. cooling demand). This
zone also includes a Synco device to process the
information (e.g. RMU7xx or RMB7xx).
Heat distr zone heating
surface
Zone = ---, 1...31
Hot water-specific information of a radiator is
exchanged within this zone (e.g. heating demand). This
zone also includes a Synco device to process the
information (e.g. RMU7xx or RMB7xx).
ACS Service