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
72/140
Siemens RXB (KNX) Applications library CLC and RAD description of functions for CC-02 CM110384en_04
Building Technologies Setpoint calculation 21 Sep 2010
In a building automation and control system, the central setpoint shift can be controlled
via the following S-mode communication objects (triplets):
Setpoint shift heating (input communication object)
Setpoint shift cooling (input communication object)
Flags
R W C T U
Type Receive timeout States
0 1 1 0 0 222.101
DPT_TempRoomSetp
SetShiftF16[3]
Yes 3 floating point values
– Comfort (K)
– Precomfort (K)
– Economy (K)
in LTE-mode, the central setpoint shift is transmitted via the following communication
objects (triplets):
Setpoint shift heating (input)
Setpoint shift cooling (input)
Possible partner
function blocks)
Known partner devices
TempRoomSetpSetHeatShift
TempRoomSetpSetCoolShift
Geographical zone
115 HVACOPT
HVAC Optimizer
Siemens:
Synco RMB795
6.5 Local setpoint shift
If setpoints are shifted locally and corrected by the controller, local shift is applied.
Two methods are available for local setpoint shift:
– Using a series QAX... room unit (local PPS bus) providing a rotary button or rocker
switch to adjust the room temperature setpoint
– or via EIB/KNX bus.
If multiple sources command local setpoint shift, "last one wins" applies.
The S-mode communication object is used for setpoint shift via the EIB/KNX bus:
Setpoint offset (input communication object)
Flags
R W C T U
Type Receive timeout Value
0 1 1 0 0 9.002
DPT_Value_Tempd
No Floating point (K)
The following communication object is used in LTE-mode:
Setpoint offset (input)
Possible partner
function blocks)
Known partner devices
TempRoomSetpUserOffset
Geographical zone
384 UHRS
User HVAC
Room settings
Siemens:
Synco QAW740
KNX
R
CO
KNX
R
CO