User Manual

ManualsBrandsSiemens ManualsBuilding automationDesigo Building Automation System 6.2 - Technical Principles

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Table Of Contents

1 Cyber security disclaimer
2 Preconditions of this document
3 System overview
- 3.1 Management level
- 3.2 Automation level
- 3.3 Room automation
- 3.4 Field level
- 3.5 Desigo Open
- 3.6 Workflow and tools
- 3.7 Topologies
- 3.8 Communication principles
- 3.9 Data maintenance
- 3.10 Views
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
- 5.1 Control concept and control blocks
- 5.2 Local control design
- 5.3 Superposed plant controls
- 5.4 Closed-loop control strategy
- 5.5 Desigo room automation
6 Technical view
- 6.1 Standard plant structures
- 6.2 Technical text labels
7 Global objects and functions
- 7.1 Ensuring data consistency
- 7.2 Roles in the system
- 7.3 Life check
- 7.4 Time synchronization
- 7.5 Examples of global objects
8 Events and COV reporting
- 8.1 Sources and causes of system events
- 8.2 Routing system events
- 8.3 Sources and causes of COVs
- 8.4 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
- 10.1 Schedule
- 10.2 Calendar
- 10.3 Wildcards
- 10.4 Alarm messages
11 Trending
- 11.1 Trend functions
- 11.2 Editing parameters
- 11.3 Processing trend data in Desigo CC
12 Reports
13 Data storage
- 13.1 Data categories
- 13.2 Program data
- 13.3 Libraries
- 13.4 Project data
- 13.5 Plant data
- 13.6 Data transfer processes
- 13.7 Texts
14 Network architecture
- 14.1 BACnet architecture (MLN & ALN)
- 14.2 LonWorks architecture (ALN)
- 14.3 KNX architecture (ALN)
- 14.4 KNX PL-Link architecture (FLN)
- 14.5 DALI architecture (FLN)
15 Remote access
- 15.1 Remote access methods
- 15.2 Choosing a suitable access technology
- 15.3 Technical details
16 Management platform
- 16.1 User functions
- 16.2 Main components
- 16.3 Access and security
- 16.4 Event management
- 16.5 Installation, setup and engineering
- 16.6 Graphics libraries
- 16.7 Graphics engineering
- 16.8 Virtual environment
17 Desigo Control Point
- 17.1 Functions
18 Automation stations
- 18.1 Device object
- 18.2 Device info object
- 18.3 Error sources and monitoring functions
- 18.4 Operating states
- 18.5 Data storage
19 Logical I/O blocks
- 19.1 General functions
- 19.2 Input blocks
- 19.3 Output blocks
- 19.4 Value objects
- 19.5 Value objects for operation
- 19.6 Addressing the I/O blocks
- 19.7 Discipline I/Os
- 19.8 Reliability table
- 19.9 Slope [Slpe] and Intercept [Icpt]
- 19.10 Addressing entries for PXC…-U, PTM and P-Bus
20 Room automation
- 20.1 Desigo room automation
- 20.2 Desigo RXB
21 Desigo Open
- 21.1 Integration on management level
- 21.2 Integration on automation level
- 21.3 Integration on field level
- 21.4 Integration on room level
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
- 22.5 Applications
  - 22.5.1 Peak Demand Limiting (PDL)
23 Compatibility
- 23.1 Desigo version compatibility definition
- 23.2 Desigo system compatibility basics
- 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

Automation stations

Data storage

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Downloading the D-MAP program

1. The D-MAP program (code and data blocks) is copied to the flash memory (1a). A copy of the data

blocks is created in the RAM (1b) for later modification by the D MAP program.

Read/Write via communication system

2. When writing data, the data is written to the RAM (2a) and the flash memory (2b). Read access to the

data is via the RAM (2c).

Processing the D-MAP program

3. The D-MAP program code is read from the flash memory (3a). The program data is modified in the RAM

(3b). Non-volatile process variables (e.g., adaptive control parameters, hours run, etc.) are written by the

function blocks into the flash memory (3c) at regular intervals (once per day) or saved in the battery

supported RAM.

Starting the automation station

4. At each restart of the automation station, a copy of the data (data blocks) is created in the RAM (4) from

the flash memory (including all communication and D-MAP changes).

PXM20

XWP

D-MAP

Application

Communication

RAMFlash