User Manual
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-pipe/2-stage heating or 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
- 4.13 Communication objects (S-Mode)
- 4.14 Communication objects (LTE-Mode)
- 4.15 Control parameters
- 5 Supported KNX tools
- 6 Connection
- 7 Technical data
- 8 Dimensions
- Index /
Functions
Control sequences
4
74 | 150 A6V11545892_en--_a
When control sequences change, the thermostat closes the combi valve and
releases the corresponding relay to operate the ball valve.
A delay of 120 seconds is needed before the combi valves can be operated by the
thermostat.
When the relay to ensure the ball valve is in the right H/C position, the control
signal for the combi valve is released.
If the thermostat is set with control sequence “H/C ceiling with PICV and 6-port ball
valve for changeover”:
● For PICV control, only output Y10 can be used to control the combi valve.
● For 6-port ball valve as changeover :
– Relay Q1 is energized, if “Heating sequence active” (P400 = 5, fixed,
cannot be changed)
– Relay Q2 is energized, if “Cooling sequence active” (P401 = 6, fixed,
cannot be changed)
The wiring diagram of the application H/C ceiling with PICV and 6-port ball valve
for changeover is available in Connection diagrams [➙ 129].
4.7.10 Compressor applications
For compressor applications,
● Set the corresponding basic application as per Application overview [➙ 37].
● Disable the fan (P350) or set the type of fan speed (P351)
● Select the type of control outputs (On/Off, P201, P203, P204)
The following applications are available:
Application for
compressor in DX-
type equipment
Basic application Section Sequences
1-stage compressor 2-pipe
2-pipe fan coil unit
[➙ 59]
H ( \ )
C ( / )
1-stage compressor
with reversing valve
2-pipe
2-pipe fan coil unit
[➙ 59]
H + C ( \ / )
1-stage compressor
and electric heater
(cooling only:
disable electric
heater via P027)
2-pipe with electric
heater
2-pipe fan coil unit
with electric heater
[➙ 60]
El. H + H ( ↯\ \ )
El. H + C ( ↯\ /)
C ( / )
1-stage compressor
for heating and
cooling
4-pipe
4-pipe fan coil unit
[➙ 66]
H + C ( \ / )
2-stage compressor
2-stage heating or
cooling
2-pipe/2-stage
heating or cooling
[➙ 64]
H + H ( \ / )
C + C ( / / )
Minimum On/Off time:
Fan operation:
Fan speed:
Control outputs On/Off:
Control outputs DC 0...10 V:
P212/P213 (only with On/Off control outputs)
P350 (0 = disabled, 1 = enabled)
P351 (1 = 1-speed, 2 = 3-speed,
3 = DC 0...10 V)
P201 = 4 (V1) P203 = 4 (V2) (DC 0…10 V fan
only)
P201 = 5 (V1) P203 = 5 (V2)
Control output
Note