IntesisBox
®
PA-AC-ENO-1i / 1iC
User’s Manual r1 eng
© Intesis Software S.L. - All rights reserved
This information is subject to change without notice
IntesisBox
®
is a registered trademark of Intesis Software SL
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tel
http://www.intesis.com
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6.5 MultiTeach-in procedure
AC units have a lot of parameters to control and supervise and with only one 4BS telegram
all this information cannot be fitted in. For this reason the IntesisBox
®
implements, besides
standard Teach-in, a MultiTeach-in procedure where more than one EEP is sent at the same
time in order to be linked. In the next lines this procedure is going to be further explained.
This procedure is performed only when the profile selector (S2) is set to profiles E or F (the
ones that implement the HVAC generic EEPs). The way it is implemented is simple. A
different Base ID is assigned to each EEP and it is actually performing 3 consecutive Teach-
in procedures. This allows devices that support the 3 EEP’s to automatically link them.
It might happen that the device in learning mode does not support the MultiTeach-in
procedure. In that case profiles 5, 6 and 7 can be used in order to perform the Teach-in one
by one due to the fact that these profiles have the same EEPs as profile E or F.
It needs to be taken into account that used in this profile the IntesisBox
®
is working as if it
was three different EnOcean devices at a time.
If this procedure is performed in the opposite way (the IntesisBox
®
is in Learning mode in
profile E or F) 3 devices positions would be taken, implying that only 1 device using
MultiTeach-in would be able to be fully linked in each profile. If tried again with another
device only 2 of the different EEPs are going to be stored.
6.6 Binary inputs
The device IntesisBox
®
has four potential-free binary inputs. Each one of these inputs can
be configured to behave according to the following functionalities:
a)
NONE: Input sate is sent but no other action is performed.
b)
ON_OFF: Input is able to change the ON/OFF state of the AC unit.
c)
WINDOW_CONTACT: Input is used as a window contact.
d)
KEY_CARD: Input behaves as a key card reader.
e)
OCCUPANCY: Input is used as an occupancy sensor.
By default, the four inputs are configured as NONE.
6.7 Setpoint
When a device is linked to Rx profile 4, E or F, it will be able to modify the setpoint
temperature of the AC unit. Nevertheless the following differences between these profiles
must be taken into account (check the supported EEPs for each profile in section 14):
-
Profile E & F:
the setpoint temperature is sent through one byte of the EEP (0...255),
and its scale will always be 0...40ºC.
-
Profile 4:
the setpoint can be sent either by a rocker switch (it will
increment/decrement the setpoint) or through one byte of the EEP (0...255). In case
of an EEP which sends one byte for the setpoint, its scale will be
MIN.SETPOINT...MAX.SETPOINT. Depending on the mode of the AC unit and the
configuration of machine mode (see section 5.3.1), the value of MIN. SETPOINT and
MAX. SETPOINT could change. Therefore the scale of the setpoint in profile 4 might
change depending on the AC unit’s mode and machine mode’s configuration.
