User Manual
Table Of Contents
- 1 Cyber security disclaimer
- 2 Preconditions of this document
- 3 System overview
- 4 Desigo workflow, tools and programming
- 4.1 Coverage of the technical process
- 4.2 Coverage of the system
- 4.3 Main tasks
- 4.4 Tools for different roles
- 4.5 Working with libraries
- 4.6 Working in parallel and subcontracting
- 4.7 Workflow for primary systems
- 4.8 Workflow for room automation classic
- 4.9 Workflow for Desigo room automation
- 4.10 Desigo Configuration Module (DCM)
- 4.11 Desigo Xworks Plus (XWP)
- 4.12 Desigo Automation Building Tool (ABT)
- 4.13 Programming in D-MAP
- 5 Control concept
- 6 Technical view
- 7 Global objects and functions
- 8 Events and COV reporting
- 9 Alarm management
- 9.1 Alarm sources
- 9.2 Alarm example
- 9.3 Effects of BACnet properties on alarm response
- 9.4 Alarm response of the function blocks
- 9.5 Alarm functions
- 9.6 Alarm management by notification class
- 9.7 Alarm routing over the network
- 9.8 Alarm queuing
- 9.9 Common alarms
- 9.10 Alarm suppression
- 9.11 Alarm message texts
- 10 Calendars and schedulers
- 11 Trending
- 12 Reports
- 13 Data storage
- 14 Network architecture
- 15 Remote access
- 16 Management platform
- 17 Desigo Control Point
- 18 Automation stations
- 19 Logical I/O blocks
- 20 Room automation
- 21 Desigo Open
- 22 System configuration
- 22.1 Technical limits and limit values
- 22.2 Maximum number of elements in a network area
- 22.3 Desigo room automation system function group limits
- 22.4 Devices
- 22.4.1 PXC..D automation stations / system controllers
- 22.4.2 LonWorks system controllers
- 22.4.3 Automation stations with LonWorks integration
- 22.4.4 PX Open integration (PXC001.D/-E.D)
- 22.4.5 PX Open integration (PXC001.D/-E.D + PXA40-RS1)
- 22.4.6 PX Open integration (PXC001.D/-E.D + PXA40-RS2)
- 22.4.7 PX KNX integration (PXC001.D/-E.D)
- 22.4.8 TX Open integration (TXI1/2/2-S.OPEN)
- 22.4.9 Number of data points on Desigo room automation stations
- 22.4.10 Number of data points for PXC3
- 22.4.11 Number of data points for DXR1
- 22.4.12 Number of data points for DXR2
- 22.4.13 PXM20 operator unit
- 22.4.14 PXM10 operator unit
- 22.4.15 Desigo Control Point
- 22.4.16 PXG3.L and PXG3.M BACnet routers
- 22.4.17 SX OPC
- 22.4.18 Desigo CC
- 22.4.19 Desigo Insight
- 22.4.20 Desigo Xworks Plus (XWP)
- 22.4.21 Desigo Automation Building Tool (ABT)
- 22.5 Applications
- 23 Compatibility
- 23.1 Desigo version compatibility definition
- 23.2 Desigo system compatibility basics
- 23.2.1 Compatibility with BACnet standard
- 23.2.2 Compatibility with operating systems
- 23.2.3 Compatibility with SQL servers
- 23.2.4 Compatibility with Microsoft Office
- 23.2.5 Compatibility with web browsers
- 23.2.6 Compatibility with ABT Go
- 23.2.7 Compatibility with VMware (virtual infrastructure)
- 23.2.8 Compatibility of software/libraries on the same PC
- 23.2.9 Hardware and firmware compatibility
- 23.2.10 Backward compatibility
- 23.2.11 Engineering compatibility
- 23.2.12 Compatibility with Desigo Configuration Module (DCM)
- 23.2.13 Compatibility with Desigo PX / Desigo room automation
- 23.2.14 Compatibility with Desigo RX tool
- 23.2.15 Compatibility with TX-I/O
- 23.2.16 Compatibility with TX Open
- 23.3 Desigo Control Point
- 23.4 Upgrading from Desigo V6.2 Update (or Update 2) to V6.2 Update 3
- 23.5 Siemens WEoF clients
- 23.6 Migration compatibility
- 23.7 Hardware requirements of Desigo software products
- 24 Desigo PXC4 and PXC5
- 25 Compatibility of Desigo V6.2 Update 3 with PXC4 and PXC5
Logical I/O blocks
Addressing entries for PXC…-U, PTM and P-Bus
19
CM110664en_07 283 | 351
Desigo
PX
compact
PXC10-TL
1
PXC12
PXC12-T
PXC22
PXC22-T
PXC36
PXC36-T
PXC52 Signal
type
Module Channel Module Channel Module Channel Module Channel Module Channel
Info LED 8 1 8 1 8 1 8 1 8 1 Q_LED
PPS-2
signal
3
3
1..5
3
1..5
3
1..5
3
1..5
3
1..5 R1K,
U10, D20
PXC52
from
Desigo
V5
4
: Uni-
versal
Inputs /
Outputs
1
4
1…16
X1…X16
1…8
Y1…Y8
D20, C
R1K,
U10, D20
T1, P1K,
N1K,
Y10S
Key
1
For PXC10-TL the two Alarm1/2 buttons and the DIL switches1/2 are mapped to the modules with the Address 3.
2
The manual switch can only be loaded into the application if the DIL switches (in the cover of the PXC36-S) are set correctly.
3
Syntax for PPS-2 signal: Q=Romm device number.Object number (profile number). Up to five devices can be connected.
4
The current UI and AO can all be configured as AI, DI, CI, or AO.
Signal type if no application is loaded (wiring test): X1...X16 = Y10S, Y1...Y8 = R1K.
Module 4
For Module 4, the universal outputs (UO for AO and DO) not only control proportional actuators (AO), but
can also be used as binary switch commands (DO).
● Analog Output = 0…10 V
● Binary Output = DC 0 or 24 V, max. 22 mA with the use of an additional external relay.
Layout of PXC52 housing with address ranges
Addressing multistate I/Os with PTM
Multistate input
The multistate value is made up of several separate binary measured values.
X
1
0
X
1
1
X
1
2
D
1
D
2
D
3
D
4
D
5
D
6
D
7
D
8
X
1
3
X
1
4
X
1
5
D
9
X
1
6
C
P
-
C
P
+
AC24V
X1..16
MD001
D5..D16
MD003
51..62 = MD005
Y1..Y8 = MD004
G
N
D
G
N
D
G
N
D
G
N
D
G
N
D
G
N
D
G
N
D
G
N
D
26VA
D1..D4
MD002