Conguration process
The diagram below illustrates the phases of the "conguration process" required for conguring the board correctly:
Fichier XML
Sans adresse
de groupe
kSET :
Entrer les adresses
de groupes
ETS
Créez les liens entre
les divers datapoints,
c.à.d., affectez le
groupe adresses
OFF-line : liaison des variables
ETS
Assignez les adresses
de la centrale de traitement
d’air et configurez
les autres produits
Projet ETS
Fichier .pr5
Fichier XML
complet
FIN
d’installation
Fichier XML
Téléchargement du
fichier XML dans la
centrale de traitement
d’air (table avec
adresses de groupe)
XML le
Without group
address
ETS project
.pr5 le
kSET:
Enter the group
addresses
ETS
Create the links between
the various datapoints,
i.e., allocate the group
addresses
ETS
Assign the addresses for
the air handling unit and
congure the other products
XML le
complete
XML le
Download the XML le in
the air handling unit
(table with group addresses)
END of installation
OFF-line laison des variables
The rst step of the conguration is performed OFFline (i.e. disconnected from the network). It consists of dening, within ETS, the list of
products used in the project and of dening the group addresses (i.e. the data which will be exchanged between the KNX controllers).
The special feature of the KNX controller for air handling units is that the allocation of the group addresses is not performed from
ETS but from the KSet software.
The creation of air handling controllers in the ETS project requires the use of a plug-in, which also enables the xml le generated
with KSet to be imported and uploaded to the air handling unit controller.
KSet software
To allocate the group addresses OFFline, install and open the KSet software. In the File menu, open the xml le provided.
The Group column has already been completed with the default group addresses. Delete the group addresses opposite the KNX
datapoints which do not apply to the project, and edit the group addresses for the variables relevant to the project if the
defaults do not apply.
Do not make any changes to the other columns.
Group Name Datapoint type IN/OUT Index COIL/REG
Conversion
Rule
Conversion
Value
1 1/1/1 Filter 1 16-bit oat OUT 1112 Register Multiply 10
2 1/1/2 PressionGaine 16-bit oat OUT 1110 Register Multiply 10
3 1/1/3 Supply air temperature 16-bit oat OUT 1100 Register None
4 1/1/4 TemperatureReprise 16-bit oat OUT 1111 Register None
5 1/1/5 Filtre2 16-bit oat OUT 1113 Register Multiply 10
6 1/1/6 EncrassRecuperateur 16-bit oat OUT 1117 Register Multiply 10
7 1/1/7 TemperatureNeuf 16-bit oat OUT 1103 Register None
8 1/1/8 Temperatureambiante 16-bit oat OUT 1102 Register None
9 1/1/9 DebitVentilSoufage 16-bit oat OUT 1108 Register Multiply 10
10 1/1/10 DebitVentilReprise 16-bit oat OUT 1109 Register Multiply 10
11 1/1/11 QualiteAir 16-bit oat OUT 1116 Register Multiply 10
12 1/1/12 TemperatureReseau 16-bit oat OUT 1104 Register None
13 1/1/13 Filtre3 16-bit oat OUT 1114 Register Multiply 10
14 1/1/14 Humidite 16-bit oat OUT 1106 Register None
15 1/1/20 Batterie1 16-bit oat OUT 1142 Register None
16 1/1/21 VitesseRecupRotatif 16-bit oat OUT 1144 Register None
17 1/1/22 VitesseVentilSoufage 16-bit oat OUT 1140 Register None
18 1/1/23 VitesseVentilReprise 16-bit oat OUT 1141 Register None
19 1/1/24 Batterie2 16-bit oat OUT 1143 Register None
20 1/1/25 BipasseRecup 16-bit oat OUT 1180 Register None
21 1/1/26 Triac 16-bit oat OUT 1159 Register None
22 1/1/27 Melange 16-bit oat OUT 1169 Register None
6 - CONNECTION TO A CMS
EN-43 FLOWAY ACCESS
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