1592038420 XRB30-60-70-77CH EN v1.1 2021.09.15
XRB
23/38
NOTES:
-
In case of any blackout, the calculated energy saving model will be reset.
-
ErA
can exclusively drive the light output by using the
LdE
parameter. When
LdE=YES
, the light output
status will change according to the energy saving (ES) status:
•
OFF if ES is active
•
ON if ES is not active
-
It is always possible to override the light output status by using the frontal button. Anyway, this
modification will have a temporary impact on the lights if
LdE=YES
. In fact,
ErA
will take the control after
the next ES status change.
-
ErA
does not need and does not use any door switch input or motion sensor (i2F=EMt) to work
.
-
Be sure to place the room temperature probe in near the upper zone of the cabinet: this gives the best
results in terms of temperature variation analysis.
-
The
Aid
parameter indicates the interval of analysis as “number of days”. The suggested values for it are
1 or 7, depending on the application.
-
When
Aid=1
, the first day will be used to analyze the temperature behavior and to build the model to
apply to the second day. The model will be updated every day to better match the working conditions.
-
When
Aid=7
, the first 7 days will be used to analyze the temperature behavior and to build the model to
apply to the next 7 days. The model will be updated every 7 days to better match the working conditions.
-
When
Aid=7
, the first 7 days after power on will use a sub analysis base on 1-day model.
10.2.2 INTERACTION WITH OTHER SENSORS
The following table indicates the interaction between advanced energy saving mode (
ErA=Aut
) and various
digital input functions. Par.
EtS
,
StE
are not considered when
ErA=Aut
.
i1F
i2F
MSF
How it works
dor
Any
≠
EMt
,
ES
Any
The function of digital input 1 does not interact with ES algorithm.
dor
ES
Any
The function of digital input 1 does not interact with ES algorithm. The
function of the second digital input is disabled.
dor
EMt
ES
The function of digital input 1 and 2 does not interact with ES
algorithm.
dor
EMt
LiG
or
ALL
The function of digital input 1 and 2 does not interact with ES
algorithm. Digital input 2 can activate light output according with par.
n01
and
t01
.
Any ≠
dor
,
ES
dor
Any
The function of digital input 2 does not interact with ES algorithm.
Any
≠
dor
,
ES
EMt
ES
The function of digital input 2 does not interact with ES algorithm.
Any
≠
dor
,
ES
EMt
LiG
or
ALL
The function of digital input 2 does not interact with ES algorithm.
Digital input 2 can activate light output according with par.
n01
and
t01
.
ES
dor
Any
Digital input 1 has priority. The ES algorithm and the function of the
second digital input are disabled. The counter of the number of
activations of digital input 2 stays active.
ES
EMt
ES
or
ALL
The function of digital input 1 has priority. The ES algorithm and the
function of the second digital input are disabled. The counter of the
number of activations of digital input 2 remains active.
Any
≠
dor
,
ES
ES
Any
ES algorithm is disabled. Digital input 2 changes the ES status.
