Specifications
15
This architecture example is a distributed peripheral architecture with a centralized Premium PLC (1)
and a standalone Vijeo Citect SCADA system (2). A Magelis HMI XBT-GT (3) is used to allow local control
and monitoring.
Ethernet network (11) connects all process steps in order to allow good diagnostics and performance. Thanks
to Ethernet communication, the SCADA system and HMI can easily access all process data. Embedded web
diagnostic services which is available from any standard web browser facilitate the maintenance phase. The
motor control devices are distributed in the plant with connection to Ethernet network.
In the same way Advantys STB islands (12) communicate with controller via Ethernet. These islands also
connect DOL starter (10) and other starters through î‚¿eldbuses (6 & 8).
ATV 61 (4): They are directly connected to Ethernet. All monitoring functions and control are allowed. v
An embedded web server can be used for maintenance.
ATS 48 (5): A Transparent Ready gateway ETG100 (13) is used to connect this device to the architecture. v
TeSys U with Advanced and Multifunction control unit (6): In order to reach a high level of monitoring and v
metering, the TeSys-U are connected to Advantys STB extension bus.
TeSys U with standard control unit (7): A cost effective solution is illustrated here with a pre-wired solution using v
the Advantys 2145 EPI module.
ATV31 (8): The CANopen extension of Advantys STB guarantees a cost effective connection to ATV31 v
with a high level of diagnostics.Remark: CAnNopen port is embedded on ATV31.
TeSys-T (9): A Transparent Ready gateway ETG100 is used to connect this device to the architecture. v
Communication transparency allows controller to get all monitoring and metering data offered by this device.
The TeSys-T Ethernet port allows the gateway to be removed, which improves performance.
Contactor (10): The selected solution is wired directly to the contactors to the Advantys STB I/O module v
This architecture combines various motor control device solutions to be detailed in the following chapters of this
technical guide.
Operator workstation Engineering Web client
Ethernet
1
2
3
4
12
5
6
7
8
9
10
11
Architecture
example
2-Selection phase
Selecting architecture
13