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
Input blocks
19
254 | 351 CM110664en_07
Status Flag [StaFlg]
The status flag [StaFlg] indicates the state of the I/O block. This pin consists of four Boolean values:
● IN_ALARM: Logic 1 (TRUE) if the event state pin [EvtSta] does not display NORMAL as its value.
● FAULT: Logic 1 (TRUE) if the [Rlb] pin does NOT display the value NO_FAULT_DETECTED.
● OVERRIDDEN: Logic 1 (TRUE) if the block point was overridden locally (e.g., manual switch on I/O
module). If this flag is set, [PrVal] and [Rlb] will no longer display any changes in the physical
input/output.
● OUT_OF_SERVICE: Logic 1 (TRUE) if the out-of-service pin [OoServ] is active.
Default Value [DefVal]
For an input block, [DefVal] is transmitted to [PrVal] when [OoServ] is set to TRUE.
For an output block, value [DefVal] is transmitted to [PrVal] when none of the priorities (1…16) is active.
19.2 Input blocks
An input block is used to enable an input signal (e.g., a measured value) in the program to be handled as a
process value.
Analog Input (AI)
The analog input is the logical image, or memory map, of an analog measured value and describes its
properties. The raw data is converted and made available in the form of a current value (Present Value) at
the block output for further processing within the program.
The following functions are integrated in the block:
● Conversion of the input signal with slope [Slpe] and intercept [Icpt].
● Interruption of input signal [OoServ] and replacement with [DefVal]
● Limit value monitoring (OFFNORMAL alarm)
● Reliability monitoring [Rlb] (FAULT alarm)
● Change of state messages (events / system events)
Processing and displaying the current value
The measured raw value is converted into the measured present value in accordance with a conversion
curve. This present value is available at [PrVal] for further processing within the program.
Slope/Intercept
The conversion curve is a linear function which takes the following form:
[PrVal] = Raw value * Slope + Intercept
The values for slope [Slpe] and intercept [Icpt] must be defined specifically for the application concerned
in accordance with the I/O system in use and the signal type.
For slope and intercept values for SBT products, see
Slope [Slpe] and Intercept [Icpt]
. For sensors not
listed, the following applies:
Calculating [Slpe] and [Icpt]
The values for [Slpe] and [Icpt], which are to be entered in the block, must first be calculated. These values
are derived from the individual [Slpe] and [Icpt] values of the signal type and the signal transducer in
accordance with the following formula:
[Slpe] = (Slope
SignalType
/ Slope
SignalTransducer
)