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Change [2-47]=0, 2-7 in function of required operation
method during heat recovery operation.
For more information and advice about the effect of these
settings, see 15.3. Energy saving and optimum operation.
[2-49]= Height difference setting
Default value=0.
In case the outdoor unit is installed in the highest position
(indoor units are installed on a lower position than outdoor
units) and the height difference between the lowest indoor
unit and the outdoor unit exceeds 164 ft. (50 m), the setting
[2-49] has to be changed to 1.
Other changes/limitations to the circuit apply, for more
information see 7.5. System piping (length) limitations on
page 11.
[2-60]= Gas furnace setting
Default value=0.
When a gas furnace is connected, the setting [2-60] has to
be changed to 1.
[2-62]= Cooling and heating capacity learning control
Default value=0.
Value
[2-62]
Description
0
OFF
1
Cooling adjustment
2
Heating adjustment
3
Cooling and heating adjustment
Adjust cooling and heating system operation to achieve
stable capacity.
Note: This setting may result in a longer reaction time to
large load variations.
[2-81]= Cooling comfort setting
Default value=1.
Value
[2-81]
Cooling comfort setting
0
Eco
1
Mild (default)
2
Quick
3
Powerful
Change [2-81]=0, 1, 2 or 3 in function of required limitation.
This setting is used in conjunction with setting [2-8] and
[2-47].
For more information and advice about the effect of these
settings, see 15.3. Energy saving and optimum operation.
[2-82]= Heating comfort setting
Default value=1.
Value
[2-82]
Heating comfort setting
0
Eco
1
Mild (default)
2
Quick
3
Powerful
Change [2-82]=0, 1, 2 or 3 in function of required limitation.
This setting is used in conjunction with setting [2-9].
For more information and advice about the effect of these
settings, see 15.3. Energy saving and optimum operation.
[2-92]= Te target temperature upper limit
Default value=1.
Value
[2-92]
Te target temperature upper limit
0
L
1
M
2
H
If Auto Te, then use this setting to address different load pro-
files. If the frequent operation is at lower system load, then
use a higher setting under [2-92].
Note: In high humid areas, it is recommended to keep this
setting to 0 or 1.
15 .3 . Energy saving and optimum operation
REYQ-T units are equipped with advanced energy saving function
-
ality. Depending on the priority, emphasizes can be put on energy
saving or comfort level. Several parameters can be selected, resulting
in the optimal balance between energy consumption and comfort for
the particular application.
Several patterns are available and explained below. Modify the pa
-
rameters to the needs of your building and to realize the best balance
between energy consumption and comfort.
15 .3 .1 . Three main operation methods are available:
•
Basic
The refrigerant temperature is fixed independent from the situation.
It corresponds to the standard operation which is known and can be
expected from/under previous VRV systems:
•
To activate this operation method under cooling operation:
change field setting [2-8]=2 and [2-47]=2.
•
To activate this operation method under heating operation:
change field setting [2-9]=6.
•
Automatic
The refrigerant temperature is set depending on the outdoor ambi-
ent conditions. As such adjusting the refrigerant temperature to
match the required load (which is also related to the outdoor ambi-
ent conditions).
E.g., when your system is operating in cooling, you do not need as
much cooling under low outdoor ambient temperatures (e.g., 77°F
(25°C)) as under high outdoor ambient temperatures (e.g., 95°F
(35°C)).
Using this idea, the system automatically starts increasing its refrig-
erant temperature, automatically reducing the delivered capacity
and increasing the system’s efficiency.
•
To activate this operation method under cooling operation:
change field setting [2-8]=0 (default) and [2-47]=0 (default).
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