Basic Documentation
Table Of Contents
- 1 About this document
- 2 Overview
- 3 Notes
- 4 Functions
- 4.1 Temperature control
- 4.2 Operating modes
- 4.3 Room temperature setpoints
- 4.4 Application overview
- 4.5 Power supply selection for RDG200KN
- 4.6 Additional functions
- 4.7 Control sequences
- 4.7.1 Sequence overview (setting via P001)
- 4.7.2 Application mode
- 4.7.3 2-pipe fan coil unit
- 4.7.4 2-pipe fan coil unit with electric heater
- 4.7.5 2-pipe fan coil unit with radiator or floor heating
- 4.7.6 2-stage heating and cooling
- 4.7.7 4-pipe fan coil unit
- 4.7.8 4-pipe fan coil unit with electric heater
- 4.7.9 Chilled/heated ceiling and radiator applications
- 4.7.10 Compressor applications
- 4.7.11 Applications with external AQR sensor or QMX room operator unit
- 4.7.12 Setpoints and sequences
- 4.8 Control outputs
- 4.9 Fan control
- 4.10 Multifunctional input, digital input
- 4.11 Handling system faults
- 4.12 KNX communications
- 4.12.1 S-Mode
- 4.12.2 Master/slave configuration in KNX S-Mode
- 4.12.3 LTE-Mode
- 4.12.4 Zone addressing in LTE-Mode (with Synco)
- 4.12.5 Master/slave configuration in LTE-Mode
- 4.12.6 Example of heating and cooling demand zones
- 4.12.7 Send heartbeat and receive timeout
- 4.12.8 Startup
- 4.12.9 Heating and cooling demand
- 4.12.10 Fault and alarms function on KNX
- 4.13 Communication objects
- 4.14 Communication objects (LTE-Mode)
- 4.15 Control parameters
- 5 Supported KNX tools
- 6 Connection
- 7 Technical data
- 8 Dimensions
- Index
Functions
Control outputs
4
94 | 170
A6V11545892_en--_b
The demand calculated by PI control from the current room temperature and
setpoint is provided via Y10, Y20, Y30 and U1 (U1, for 4-pipe/2-stage applications)
to the valve actuator as a continuous DC 0...10 V signal.
● Parameter P256 (RDG260KN) sets the heating flow limitation if PICV is
installed at output for heating and cooling. See Additional functions [➙ 45].
● For P-band (P050, P052, P054), see Control sequences [➙ 67].
● The demand calculated by PI control from the current room temperature and
setpoint is provided via Y20 as a continuous DC 0...10 V signal
● The signal converter (SEM61.4) converts the DC 0...10 V signal to AC 24 V
PDM pulses for the current valve
● The current valve (SEA45.1) supplies the electric heater with pulsed current
The electric heater can be controlled via the On/Off control output (Q2) by setting
P203 or P204 to 4. For adaptive temperature compensation, see 2-pipe fan coil
unit with electric heater [➙ 71].
N1 RDG260KN
C1 Signal converter
SEM61.4
(see Data Sheet N5102)
Y1 Current valve SEA45.1
(see Data Sheet N4937)
K… Safety loop (e.g. safety
thermostat and high-
temperature cutout)
FF Very fast-acting fuse
F… Overcurrent trip
The RDG260KN can control a 6-port control ball valve that provides heating and
cooling within one DC 0…10 V or DC 2…10 V signal.
These 2 signals allow for controlling Siemens valves as well as DC 2…10 V valves
by other suppliers.
For the same application, RDG260KN can also provide an inverse signal
DC 10…0 V or DC 10…2 V signal for inversed hydraulic connections on the valve.
The selection of the signal is set with P201.
* Inverting the signal might cause hydraulic balancing issues
Description
Explanations
P201 = 6
6-port valve (DC 0…10 V control signal)
Suitable for Siemens and competitor 6-port control
valves and actuators with DC 0…10 V signal
P201 = 7
6-port valve (DC 2…10 V control signal)
Suitable for competitor 6-port control valves and
actuators with DC 2…10 V signal (e.g. Belimo)
P201 = 8
inverse signal, 6-port valve (DC 10…0 V
control signal)
Useful for inversed hydraulic connection on the 6-port
control ball valve with Siemens or competitor
DC 0…10 V actuator*
P201 = 9
inverse signal, 6-port valve (DC 10…2 V
control signal)
Useful for inversed hydraulic connection on the 6-port
control ball valve with competitor DC 2…10 V actuator
(e.g. Belimo)*
DC 0...10 V
for valve actuators
Note
DC 0...10 V
for electric heaters
Note
DC 0...10 V
DC 2…10 V
for 6-port control ball valve
(RDG260KN only)