s Synco™, Synco™ living Web server OZW772... V5.2 Commissioning instructions CE1C5701en 2014-10-15 OZW772.01 OZW772.04 OZW772.16 OZW772.
Siemens Switzerland Ltd Building Technologies Division Gubelstrasse 22 6301 Zug Switzerland Tel. +41 41-724 24 24 www.siemens.com/sbt © 2009-2014 Siemens Switzerland Ltd Subject to change 2 / 172 Siemens Building Technologies Web server OZW772... V5.
Table of contents 1 Overview .................................................................................................. 7 1.1 Introduction ............................................................................................... 7 1.2 Web server display and operating elements ............................................. 8 1.3 1.3.1 User interface ............................................................................................ 9 User levels ..................................
Operate using a web browser .............................................................. 47 4.1 Overview ................................................................................................. 47 4.2 4.2.1 4.2.2 4.2.3 Operate the plant .................................................................................... 49 Operate Synco device ............................................................................. 49 Operate web server ................................................
7.5 7.5.1 7.5.2 7.5.3 E-mail with "Energy indicator" for the plant ............................................. 98 E-mail receiver configuration .................................................................. 98 Mail inbox ................................................................................................ 99 E-mail contents ..................................................................................... 100 7.6 Exceptions .............................................................
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Type summary Document contents 1 Overview 1.1 Introduction Type designation OZW772.01 OZW772.04 OZW772.16 OZW772.250 Max. number of devices on KNX bus 1 device 4 devices 16 devices 250 devices The document describes commissioning and operating the web server OZW772. In this edition "Web-Server OZW772, V5.2", Section 3 describes the newly included access to OZW via the portal Synco IC. Changes were made throughout the document to reflect this. The latest edition is available on www.siemens.
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1.3 User interface A web browser is used to access the user interface for the web server. The web server provides text-based operation of the web server and connected Synco devices as a standard (Section 4). You can also set up visualized operation (Section 5). The following describes the display areas for the text-based standard user interface (display areas for visualization are outlined in Section 5). The main window is sub-divided into various areas.
Plant name Displays plant name as entered. Display The display range displays content corresponding to the selected function via primary and secondary navigation. Logo area Shows Logo 1 and Logo 2. 1.3.1 User levels Displays and operates based access level for the logged on user: End user Service Same as end user. In addition: Operate service data Documents, message history Administrator Same as service.
Symbols 1.4 Symbols, notations, abbreviations 1.4.
1.4.2 Path indications Notations Paths are printed as follows: Web server: Home > 0.2.150 OZW772.xx > Settings > Time of day/date. PC: Start > Settings > Network connections > Local Area Connection. OZW772.xx stands for: IP address, domains Enter in the browser address line: IP address: Domain: Portal: Buttons 192.168.2.10 www.siemens.com https://www.siemens-syncoic.com Buttons depicted as follows: [ Add ] 1.4.3 Abbreviations OZW772.01 or OZW772.04 or OZW772.16 or OZW772.
2 Commissioning This section describes how to commission the web server. 2.1 General Prerequisites The following conditions must be met to commission the web server: The web server is mounted and wired (see Installation instructions, G5701). The connected KNX devices are commissioned. The KNX devices have a valid KNX address [1...253] are operating. Note: Web servers are delivered with KNX address 150. As a result KNX address range [1…253], except for 150, applies to all other devices.
Turn on web server 2.2 Getting started 2.2.1 Turn on web server Connect the web server to the power supply and connect it to the PC: 1. Connect power supply to turn on power on web server. The web server is operational, when the green LED is lit. 2. Check additional displays: LED Green light if the KNX bus power supply is available. Check KNX bus wiring and setting for bus power supply on the KNX devices if no bus power supply is available. LED Dark if no fault pending.
2.2.2 Log on Log into web server A PC with USB interface and web browser is used to commission the web server. 1. 2. Start web browser. In the address line, enter the USB IP address (192.168.250.1). 3. First time Login User name Administrator Password Password 4. 5. Click [ Login ] to finish. After logging on the first time, the dialog box is displayed to define a new password. Important note A new password must be defined the first time you log in (you can also change the language).
2.3 Administer user accounts Administer user accounts The "User Accounts" ("User accounts") menu changes the administrator password at delivery and sets up additional user accounts. Note The user account settings equally apply to access via Smartphone app and other applications via Web API. Change administrator data Procedure: 1. Click red pencil The "Change user" dialog box opens. Add a new user 2.
Change user data Delete user account Procedure: 1. Click the red pencil for the corresponding user The "Change user" dialog box opens. 2. Change user data: - User name - Password - Repeat password - Description (optional) - E-mail address (optional) - Language: English - User group. 3. Close with [ OK ] Procedure: 1. Click the red recycle bin for the corresponding user. The "User accounts" dialog box opens. 2. Notes Click [ Yes ] to confirm "User to be deleted?".
2.4 Create device web pages Create device websites The associated devices must be recorded and the device websites generated before operating the web server and the Synco devices. Use the "Device web pages" menu. Note Device web pages can only be created on the "Administrator" user level.
4. Select devices whose web pages you want to create. 5. Click [ Generate ] Device web pages are generated. The process may take a few minutes. 6. Wait until the message " 7. Close with [ OK ] Process finished" is displayed. The device list for the web server and Synco devices displays status "Generated". Delete device Procedure: 1. Select the Synco device you want to remove from the device list 2. Click [ Delete ] 3. Confirm with [ Yes ] 4.
Update device web pages The following changes to user defined texts result in outdated device web pages: Menu tree names *, e.g. Message receiver 1…4. Web server plant names. Plant names for Synco devices (e.g. QAX913). The impact and restore differ for the three changes mentioned above based on internal KNX data storage. Change Menu tree names *, e.g. Message receiver 1…4 Web server plant name Plant name for Synco device(s) Device list (device web pages) Texts in sec.
2.5 Web server settings The "Home" menu is used to set the web server. The web server and then the corresponding operating page are selected in secondary navigation. Notes The settings depend on the user level. Only data points that can be read are described in this section. 2.5.1 Operating page settings "Time of day/date" Time of day/date Time/data can be set during operation. Path: Home > 0.2.150 OZW772.xx > Time of day/date Power reserve The clock has a backup battery for at least 72 hours.
2.5.2 Operating page "Faults current" Local faults and faults in system are displayed under “Faults current”. Path: Home > 0.5 OZW672… > Faults current A description of faults is available in Section 4.3,”Faults” Language and code number 2.5.3 Operating page "Settings" 2.5.3.1 Web server Path: Home > 0.2.150 OZW772.xx > Settings > Web server Data point Explanation, example Language Web server language: Is used for web server fault texts, message history, messages and system reports.
2.5.3.3 KNX Communication Path: Home > 0.2.150 OZW772.xx > Settings > Communication > KNX Data point Range Line Device address Default val: 150 Setting val: 1... 253 Time synchronization Default value: Slave on bus Setting values: Slave on Bus Quartz Clock time mode KNX Default val: Autonomous Setting val: Autonomous/Master Clock slave remote adj KNX Default val: Yes Setting val: Yes / No Explanation, example Displays the range within the KNX bus. e.g. 0 for address 0.2.150 The range is set in ETS.
Ethernet Path: Home > 0.2.150 OZW772.xx > Settings > Communication > Ethernet Notes Enter these settings if you intend to operate the web server on a local area network (LAN) or via the Internet. Alternative settings are available for operating with DHCP client switched off. Entries for the various network topologies are described in Section 8.1.
E-mail Path: Home > 0.2.150 OZW772.xx > Settings > Communication > E-mail Notes Enter these settings if the web server sends e-mails (report faults / send consumption file). Additional information on e-mail settings is available in Section 8.2. Automatically negotiate the securest connection: TLS mode is selected automatically if the device sending the email and the email provider support TLS.
Services Pfad: Home > 0.5 OZW672... > Settings > Communication > Services Data point Explanation, example ACS access Permits access by ACS operating software to the web server (only possible via direct connection – not possible via the portal). For security reasons, ACS access should be switched off after commissioning. Permits communication using the http protocol rather than the secured https connection. Siemens recommends https. The user is responsible for using http liegt.
Receiver type Default value: --Setting values: --, E-mail Fault priority Default value: All Setting values: All, Only urgent ones E.mail address Default value: messagereceiver @example.com Setting values:max. 49characters Number of messages for send All Receiver types are available: "---": No messages to this message receiver. "E-mail": Configure message receiver for email. — The setting value "Only urgent ones" acts as a filter for sending fault messages.
Notes Check to enable switching points. You can copy the switching times for a day of the week by clicking [ Copy ] from one day to a selection of other days Click [ Check ] to sort and check the data before saving. Holidays/special days Path: Home > 0.2.150 OZW772.xx > Settings > Message receiver > Message receiver 1…4 > Holidays/special days No messages are sent during vacation/holidays. For special days, sending periods are defined via "Send messages".
Notes Check to select active entries. Select "Annually" to set repetitive switching points. Click [ Check ] to sort and check the data before saving. 2.5.3.5 System report Path: Home > 0.2.150 OZW772.xx > Settings > System report Note Enter these settings if the web server is to regularly send an e-mail for a fault. Data point Explanation, example Signal time The setting value corresponds to the time of day when a system report is sent (once every 24 hours).
2.5.3.6 Consumption data Web server provides consumption data functionality in the form of consumption data files. See Section 6 for additional information. Plant information Path: Home > 0.2.150 OZW772.xx > Settings > Consumption data > Plant information Note The settings set user defined data fields, section display and one centralized due date for the consumption data file. Data point Explanation, example Plant name Web server or plant name. — Header for consumption data file.
Receiver Path: Home > 0.2.150 OZW772.xx > Settings > Consumption data > Receiver > E-mail receiver 1…2 Notes The settings configure sending the consumption data file per e-mail. The e-mail signature (sender name, address, etc.) is set under "Settings > Communication > E-mail". The settings are independent of the settings for the message receiver (Section Message receiver 1…4). Data point Explanation, example E-mail address The setting must match the consumption data receiver’s e-mail address.
2.5.3.8 Trend 2 e-mail receivers can be defined for the trend function. Each of the 4 trend channels can send its information at the defined interval to one or both e-mail receivers. The settings is at: Path: Home > 0.2.150 OZW772.xx > Settings > Trend A description is available in Section 9.3, “Send trend data by e-mail”. 2.5.3.9 Faults Enter these settings if the web server is to send an e-mail for a fault. Path: Home > 0.2.150 OZW772.
2.5.3.10 Texts Path: Home > 0.2.150 OZW772.xx > Settings > Texts Data point Explanation, example Plant name User definable text for the plant displayed by web server and transmitted in the message. Update note on menu texts => Update or regenerate web server device web page. Default val: OZW772.01 OZW772.04 OZW772.16 OZW772.250 Setting val: max. 20 characters 2.5.
2.6 Commissioning Commission network components The web server can be operated from a PC with web browser on a local area network (LAN) or via the Internet. The illustration shows a typical application with operation via Internet and home network. Use can use "Network connection" to issue IP address, subnet mask, standard gateway and preferred DNS server if the PC is connected to the home network. 2.6.
2.6.2 Access via a local area network (LAN) Operator station The operator station requires these settings, if the web server is operated from a PC with web browser on a local area network (LAN): IP address Subnet mask Note Settings depend on network type and application. The different variants are described in Section 8.1.2. 35 / 172 Siemens Building Technologies Web server OZW772... V5.
2.6.3 Access via direct connection “Direct connection” access the plant via the Internet by querying a fixed IP address for the web server or by querying a dynamic IP address forwarded via a server. Router Remote access (e.g. DSL router with Internet connection) is already set up. The firewall must permit plant access to the Internet.
2.7 Functional check Test condition Connections must be tested if all settings were made to the web server as well as to KNX devices. LAN A PC on the local network is used to test operations via LAN. The log in dialog box must appear after entering the local IP address for the web server (see Section 2.2.2). Internet We recommend using mobile participants with Internet access (Smart phone, mobile phone) to test operation over the Internet.
Fault message, E-mail A fault message is sent to the appropriate message receiver and the reason displayed if an e-mail cannot be sent error-free to a message receive. A specific cause can originate in different sources. The problem must be solved accordingly. Reset fault messages Cause Cause of error Solution --- No error --- Network cable No network cable or no active network connected. Connect cable or active network. LEDs must be lit at Ethernet connection.
Test e-mail receiver consumption data Pfad: Home > 0.2.150 OZW772.xx > Settings > Consumption data > Receiver Note Do the test if the web server sends consumption data via e-mail. Data point Explanation, example Test receiver "Test receiver" tests the connected to the selected receiver. — The display changes after a few seconds from "---" to Yes: Message sent successfully. No: Message receiver not reached. — "Cause" displays the results of "Test receiver".
2.9 Final steps 2.9.1 Check faults Fault indication The fault indicator displays the plant state. Notes No faults may be pending after commissioning. Additional information on faults is available in Section 4.3. No fault The fault indicator remains green as long as no fault is pending. Fault The fault indicator changes to red for faults. The most severe plant faults are displayed. Device name Fault text 2.9.
2.10 Restore default state Supply state The web server can be reset to factory default settings. This is probably a good idea when using the web server for another plant. Procedure: 1. Simultaneously press "Long" (> 6 seconds) on the "Remote" button and "Prog" The LED "On" turns off. The web server restarts. 2. Wait until the web server is operational (LED "Run" is green). Note When restoring default state: All settings are reset to default state. Plant diagrams are deleted.
3 Remote access via portal Siemens offers with the Synco IC Internet portal simple and secure access to web serves (available as of web server version 5.2). It permits remote servicing of the plant at any time and from any location. The user logs on via an html5 compatible web browser (e.g. IE10+, FF18+) on the portal and has access there to all portal settings and plant data for the user level and plant role. This section describes how to set up access to the web server via Synco IC Internet portal.
Data access Only users with the appropriate access rights have access to the data (see Section 3.1.1, “Portal and plant roles”.) For a customer (typically OEM customers), another domain name can be used to set up a different portal appearance. Query portal The portal can be queried via the following domains: https://www.siemens-syncoic.com Operating language The button in the upper right corner selects the portal operating language.
Log in You must log in with user name and password each time. The “operation” page of the portal is displayed. Activate plant A new plant is activated in the portal under menu “Administration” using the button [Activate Site]. After entering the plant data, activate using the button [Activate]. Activate additional plants One user can activate multiple plants. The number is based on assigned roles. The workflow for activating an additional plant is the same as described under “Activate plant”.
Query plant In the “Operation” menu list the plant and can be queried by clicking the plant name. The button [Web access] displays the user interface for OZW. Note The user interface is opened in a new tab with button [ ] and have the exact same view as the direct connection to web server without portal (local or via the Internet). Operation is the same as described in Section 4.2, “Operate the plant”. 45 / 172 Siemens Building Technologies Web server OZW772... V5.
3.1.1 Portal roles Portal and plant roles The portal role defines rights for portal settings, has users manage customers and assign roles. Menu specific to the portal are displayed or hidden based on the portal role. A detailed description of portal roles is available in the portal’s documentation. Note A newly created user receives an e-mail with access data (link to portal, user name, password).A new password must be defined the first time a user log’s on.
4 Operate using a web browser This section describes how to operate the web server and connected devices. 4.1 Overview Overview The plant is operated via PC, smart phone or mobile phone with compatible web browsers (e.g. IE10+, FF18+) via USB interface, LAN/Ethernet or Internet (with or without portal). Connection To access the portal, enter the address https://www.siemens-syncoic.com.
Automate and “Deep Link” when accessing without portal You can automate the process by adding the login information to the web browser’s address line. Format: /main.app?user=&pwd= Example: 10.169.9.121/main.app?user=Administrator&pwd=myPassword Note Only provide login information without private networks. Do not create “deep links” with login information on public networks.
4.2 Operate the plant Device ready to operate are display via "Home". 4.2.1 Operate Synco devices Operate the plant Operate Synco device Select the device in the left part of the menu to operate KNX devices. Web server displays the top level of the menu tree. From here, you can go to all operating pages and data points. Operation of devices integrated via KNX S-Mode with ETS (Light, blinds, meters, etc.), is described in Section 10.2 ”Operation KNX S-mode“. 4.2.
Switch views Only the following parts of the user interface are displayed to operate the web server from a smaller screen or to hide navigation: Plant state Plant name Display The double arrow in the upper left-hand corner switches the view. Full screen Partial screen Note In partial view, navigation to other plant web pages must be implemented using user-defined links. You can return to the full view at any time for navigation. 50 / 172 Siemens Building Technologies Web server OZW772... V5.
4.2.3 Web server diagnostics Diagnostics The following information is required to identify product version and settings. Information on faults is available in Section 4.3.2. Geräte-Informationen Die Geräte-Informationen dienen der Identifikation des Web-Servers. Notes Entries on the operating page “Device information” our for information purposes only and cannot be edited here. Web server Path: Home > 0.2.150 OZW772.xx > Device information > Web server.
Ethernet You can consult the following information as needed to analyze problems on the Ethernet. It displays the current settings for the subnet. The Ethernet settings are made in Section 2.5.3, Operating page "Settings". Path: Home > 0.2.150 OZW772.xx > Device information > Ethernet. Data point Explanation, example DHCP client Displays whther the DHCP client is switched on. IP address Web server IP address. The factory IP address for the web server on the Ethernet is: 192.168.2.
Services The following information displays the current serve settings. The service settings are made in Section 2.5.3, Operating page "Settings" Path: Home > 0.2.150 OZW772.> Device information > Services Data point Explanation, example ACS access With “On” access to ACS operating software is permitted on the web server. With “Off”, there is not access (only via direct connection – not possible via the portal). With “On” access is permitted with http and https.
Fault overview 4.3 Faults 4.3.1 Overview The "Faults" function displays the most severe fault on a Synco device in the device list. It is available to all user levels. The following information helps identify the fault: Notes Fault Device name Fault information (date, time, fault code). Fault text Device address Device type An overview of web server faults is available in Section 11.2.1. Faults for Synco devices are listed in the documentation for the corresponding devices.
System faults The most severe faults are displayed for each device on the KNX bus. Path: Home > 0.2.150 OZW772.xx > Faults current > System > Fault 1…n Note Data point Explanation, example Fault 1..n Displayed under "Fault 1..n": Device name, Fault information, Fault text, Area, Line, Device address, Device type Faults for Synco devices are listed in the documentation for the corresponding devices. 55 / 172 Siemens Building Technologies Web server OZW772... V5.
4.4 File transfer "File transfer": Create and manage trend functions Downloads consumption data Download message history as Excel or text file Upload documents to the web server Upload logos Upload system definitions Creating and managing trend functions is described in Section 9 "Trend functions". Download consumption data Note The file can also be sent by e-mail, in addition to the download of consumption data described here. Proceed as follows: 1.
3. Open the file with the application or save it to any location. Notes Message history export is available to administrator and service user levels. The message history remains intact when resetting the web server to default. History data The message history includes the last 500 events on faults, fault messages, and system reports.
Upload documents Procedure: 1. Select File transfer in primary navigation. 2. Select documents in secondary navigation 3. Click [ Add ] 4. Click [Browse] and select desired file. 5. The upload starts directly after selecting the desired files and clicking [Open]. Notes Make sure there is enough memory for uploading. The Administrator and Service levels allow for uploading documents. Upload logos Procedure: 1. Select l from secondary navigation. 2. Save existing logo(s) as needed (see below). 3.
Upload system definitions Procedure: 1. Select System definitions from secondary navigation. 2. Click [ Update ] 3. 4. 5. 6. Select the desired file. Click [ Upload ] to finish. Restart web server with power-down, power-up. You must recreate the devices following a system definition upload. Notes System definition file transfer is available to administrator and service user levels. Uploading and installing make take more than 5 minutes.
5 Visualize plants 5.1 Overview Web server OZW772... visualizes technical equipment in buildings (HVAC, electrical, energy values) via plant web pages. The plant is operated and monitored via one or more generated plant web page(s). Download plant diagram Web-capable plant diagrams can be downloaded from the HIT (HVAC Integrated Tool by Siemens) online platform for Synco 700 devices, RXB/RXL room controllers and RDG/RDF/RDU room thermostats standard applications.
5.2 Example of a plant web page Background image All surfaces, symbols and the diagram. Data point element Two data point elements: Present supply air setpoint (orange), supply air actual value (white). Text element Explanation text. Link element Link to Internet. Part. pic. element Integrated web cam image. The example above is an extension to a web-capable plant diagram downloaded from HIT.
5.3 Background image Plant web page features A plant web page has an expandable area that can be used to place web page elements. The display area has a minimum size of 800px (width) and 580px (height). The minimum display area is filled with a transparent background image if no background image is explicitly selected. The display area can be expanded to any size by adding a larger background image.
5.4 Toolbar Note The menus described below are only displayed and operable on the "Administrator" user level. View mode, no web page available The following toolbar is displayed at home and on the device nodes, if no plant web pages are generated: Menu New Import View mode, web page available The toolbar is as follows for an existing plant web page: Menu Properties New Import Edit Copy Export Delete Edit Description (in German) Properties dialog for the plant web page.
5.5 Import web-capable plant diagrams HIT has web-based plant diagrams for download and import to the web server for Synco 700 standard applications as well as the room controllers RXB and RXL. Prerequisites The drafter is logged on to the web server as an administrator. The web server is connected via KNX with one or more devices (Synco 700 devices, room controllers). A standard application is loaded on the device. The device web page is generated, see Section 2.4.
Import plant diagram to web server Workflow on web server: 1. 2. 3. 4. 5. 6. 7. 8. Result Start at the home node in secondary navigation, select the Synco controller. Click Import. The import dialog ("file name (*.tar)") is displayed. "Search..." to go to the .tar file saved on the computer. Click Open. Click Upload. Import information is displayed while the file is being read; the property dialog box now opens. Check "Replace datapoint addresses".
5.6 Create own plant web pages You can generate complete plant web pages yourself. As an option, you can change and extend any imported plant diagrams (see Section 5.5) as needed. This section presents the steps required to generate and design a customized plant web page. Prerequisites The drafter is logged on to the web server as an administrator. The web server is connected via KNX with one or more devices. The device web pages for the web server and devices are generated, see Section 2.4.
Notes Double-click the data point element in edit to reopen the settings dialog box for an already created data point element. The data point element can also be deleted in the settings dialog box. This note applies as well to other web page elements. As an alternative to setting the X/Y position in the data point dialog box, you can also position data point elements using drag and drop in edit mode. The element can no longer be moved after switching to view mode.
Link to another plant web page 1. Tip We recommend adding a link on the target web page to return to the previous page. Notes Links are broken after importing a plant web page to another web server and must be restored per the instructions above. The links to other plant web pages are also broken after a firmware update for web pages exported in advance and then imported and must be restored per instructions above. Links to an external web page 1. Click Edit. The plant web page switches to edit.
Add partial picture The following describes how to add two partial pictures to the plant web page: A static picture downloaded to the web server. A link to an external picture on a server, e.g. continuously updated images from a webcam. Static partial picture 1. Dynamic partial picture 1. Click Edit. The plant web page switches to edit. 2. Click Partial picture. The partial picture dialog box is displayed. 3. Select "Picture source" in File field. 4. Click the red pencil in the same field.
6 Record consumption data You can record consumption data for heating, hot water, chilled water, cooling electricity, natural gas or other media depending on the installed energy or volume meters. You can precisely track energy consumption by querying consumption data. Daily updated values, monthly values and for QAX9… annual due date values are available. Energy and volume meters that use KNX data points are also supported as of integration of KNX S-Mode as of web server V5.0.
Notes Compatible M-bus meters are listed in data sheet N2735 on the consumption data interface WRI982. The QAX9…. documentation includes additional information on meter integration and consumption data acquisition up to QAX9… Information on pulse processing for Synco 700 controllers is available in the corresponding documentation on basic. Information on KNX S-Mode products is available in the manufacturer’s product documentation. 6.
Meter data Meter data is mapped in the web server based on information from Synco devices entered and generated under Device web pages. Meter exchange The entire data set for the meter is moved when replacing a meter from the "Meter data" area to "Meter replacement". In generation, the "Meter replacement" function ensures that last available values for any meter is retained even for billing purposes even after replacement. Notes The entire "Meter replace" area can be deleted (see Section 2.5.3.
Initialize QAX9… The listed values are available for the first time on the QAX9…: For initial commissioning: After the connection test of WRI982 or automatically after 4 hours. For meter replacement: After two connection tests of WRI982 or automatically after 8 hours. Web server constructs Web server copies data to "Last but one due date" (F2) from "Last due date" each time a new "Last due data" is read from QAX9….
OZW772… Reading The user determines the read time for consumption data file via file transfer. With daily readings, the user can read the web server value up to 24 hours after the web server reading. The consumption data file is sent by e-mail as soon as the consumption data is collected. Summary Via the chain (1) (3) (5) (6), the current values for WRI982 pulse meters are a maximum of 5 hours old plus read delay.
Time ratios WRI982 QAX9… Due day values are transmitted every 4 hours. QAX9… OZW772… The due day values are transmitted on the third day of the month between 5 am and 10 pm. Please note the following for the web server at the conclusion of the comments under "Due day formation": The temporary due day value and its dates is written to the due day field for in the consumption data file if the QAX9... has not yet achieved a due day by the first transmission to the web server.
Time ratios The following time ratios apply to meter replacement: It last up to 8 hours from the time the meter (as defined above) is replaced until the information is available on a consistent basis on the QAX9… The following midnight (12:00 am) OZW772… automatically re-generates all devices where it has detected a meter replacement. You must also wait 8 hours after meter replacement when generated manually. The following information is available immediately for Synco 700 controllers.
"Energy indicator" function 7 "Energy indicator" function 7.1 Introduction 7.1.1 Function description The OZW772… web server from Version 4.0 supports the "Energy indicator" function. The web server uses the "Energy indicator" function to read selected data point values from the bus devices and to compare the values to energy-related limit values, or so-called "Green limits". The data points are also monitored for adherence to the "Green limits".
Example: Web page "Energy indicator" Web page with "Energy indicator" function; example with data points from "Room 1" and open dialog box to set data point value "Comfort heating setpoint" and its "Green limit" (for "Room 1"). 7.1.2 KNX bus topology The OZW772.01 web server can monitor 1 bus device via the "Energy indicator" function. The OZW772.04 web server can monitor up to 4, OZW772.16 up to 16, and OZW772.250 up to 250 bus devices via the "Energy indicator" function.
7.1.3 Synco product range The following KNX devices from the Synco range can be connected to the OZW772… web server. Synco range Synco devices Universal controller Heating controller Boiler sequence controller Central control unit Switching & monitoring unit Room unit Data sheet no.
7.1.4 Navigation Navigation and device web pages Go to the "Energy indicator" function as follows: Via primary navigation, main function "Energy indicator". Click the "Plant state Energy indicator" pane (top right field pane tree leaf in the screenshot below). Primary navigation On the web page, you can select the "Energy indicator" function from the primary navigation next to "Home".
7.2 Level designations "Energy indicator" function levels The contents of the "Energy indicator" function are distributed across 2 or 3 levels depending on the functionality of the respective device. Simple devices have 2 levels: – "Plant" – "Data points" Complex devices have 3 levels: – "Plant" – "Partial plants" – "Data points" 7.2.
Device name, device type The device name is displayed if defined (prior to creating the "Device list"), otherwise the device type. The devices are sorted by device address in ascending order. Device address Network address (area.line.device address) Device type Device type (technical device designation) Monitored data points Indication of the number of actively monitored data points (x) for possible number of data points to be monitored (y) for each device; see Section 7.2.4.
Notes When level "Partial plants" is selected, they are sorted by "Device description". Users cannot change the sort order. In functionally complex devices with many data points, they are assigned to the partial plants. The data points of the partial plants (per partial plant) are displayed at the "Data point" level; see below. The "Partial plants" level is not available in functionally simple devices with few data points. 7.2.
7.2.4 Number of "Monitored data points" Column "Monitored data points" The "Monitored data points" column shows the number of actively monitored data points (x) compared to the number of data points (y) that could be monitored. "Plant" level "x of y" is displayed for each device and partial plant in the corresponding row. The sum of all devices and partial plants is displayed in the bottom row.
7.2.5 Configuration of visibility "Energy indicator" visibility Visibility of the "Energy indicator" symbol is configured at the "Administrator" access level and "Service" in the web server. Path: OZW772.xx > Settings > Energy indicator > Energy indicator on the web (very bottom of web page) Notes "Energy indicator" remains active even if "Energy indicator on the web = Not visible" is selected.
7.2.6 Summary display Summary display "Energy indicator" for a plant The "Energy indicator" of the plant OR-links the "Energy indicators" of all devices across all levels. It is displayed as a summary: LED on the web server (see figure in Section 1.2). Web page "Plant" in the "Plant state Energy indicator" pane. LED on web server The following colors of LED on the web server front mean: LED is lit green "Energy indicator" of the plant = "Green leaf".
Prerequisites 7.3 "Energy indicator" commissioning function 7.3.1 Commissioning notes Prerequisites for commissioning the "Energy indicator" function: Login with "Administrator" access right. Generating the devices in the web server. This generates the "Energy indicator" data points for each device. Devices on the Device web pages must have status "Generated". Device web pages 7.3.
7.3.3 Estimated processing time After starting the "Energy indicator" function, the "Plant" web page contains the following: Summary display "Energy indicator"; see Section 7.2.6. Number of monitored data points; see Section 7.2.4. "Estimated processing time"; see below. Estimated processing time The "Estimated processing time" is displayed in hours and minutes.
"Plant" level Selecting the checkbox deactivates the data points for the selected device (can be reactivated). Selecting the summary checkbox (green/red, bottom row) deactivates the data points for the plant (can be reactivated)). Note A confirmation message is displayed when data point monitoring for a device or plant is deactivated; see below. "Partial plants" level Selecting the checkbox deactivates the data points for the selected partial plant (can be reactivated)).
7.3.5 Activation Activating "Data point monitoring" Monitoring "Energy indicator" data points is activated automatically following device list creation. Data point monitoring can thus be activated only following deactivation; see Section 7.3.4. Activation for "Data point monitoring" requires "Administrator" access rights. The checkbox in the "Energy indicator" column allows for activating monitoring of one or multiple data points e.g. following temporary deactivation.
"Data points" level Selecting the checkbox activates the selected data point. Example Starting point: All data points of partial plant "Room 2" are deactivated. Activating just one data point (of partial plant "Room 2") also activates the partial plant. A data point of partial plant "Room 2" is activated. Note Partial plant "Room 2" is automatically activated. Note that "Monitoring activated" at the "Partial plants" level does not mean that all subordinate data points are activated and monitored also.
Open a dialog box 7.4 Dialog boxes, data points, and "Green limits" 7.4.1 General dialog boxes Clicking the red pen symbol opens the dialog box for the selected data point. This allows you to either change the data point value and/or the "Green limit". Example: Dialog box Comfort heating setpoint Contents The dialog box contains the following information (example: Comfort heating setpoint): Name (data point) Comfort heating setpoint Value (data point) 21.
Notes The default values defined for data point and "Green limit(s)" in the "Device description" are displayed in the corresponding entry field. After values are changed (by the user), default values can be regenerated only by deactivating "Data point monitoring" (with summary checkbox). 7.4.2 Dialog boxes with numeric data points In numeric data points such as Comfort heating setpoint and Comfort cooling setpoint, the "Green limits" may depend on neighboring values.
Readjustment room unit In the "Readjustment room unit" dialog box, the adjustable data point value corresponds to the adjustment range, symmetrical to the zero-point axis. This requires 2 "Green limits". 7.4.3 Dialog boxes with enumeration data points A dialog box with enumeration values, at least one "Green limit" for a value to be monitored needs to be set. Preselection operating mode Note The enumeration values are predefined as per the data point type.
7.4.4 Dialog boxes with variable unit data points Synco 700 universal devices can be used either to control temperature, humidity, or other physical variables. The setpoint is thus set with the corresponding variable, e.g. in [°C], [% r.h.] or [Pa] . Dialog boxes with variable unit data points contain a disabled checkbox □ to set the "Green limit". The entry field and the arrows◄ ► are grayed and the "Green limit" slider is hidden. The entire setting range bar is green.
7.4.5 Dialog boxes for data points with manually set value The device presets the value during normal operation. You can manually set the value as an exception. Dialog boxes for data points with a manually set value contain a checkbox. The value cannot be entered manually if the checkbox is cleared □. The entry field and the arrows◄ ► are grayed and the "Value" slider is hidden. The value can be set if the checkbox is selected compared to the "Green limit". .
7.4.6 User groups "Service" and "End user" The dialog boxes for the "Energy indicator" data points can be opened also in the "Service" and "End user" user groups. However, contrary to the "Administrator" user groups, only data point values can be set, not "Green limits". The entry fields for the "Green limits" are grayed, i.e. they are unavailable for editing. Other than that, the dialog boxes are the same as for the "Administrator" user group.
7.5 E-mail with "Energy indicator" for the plant 7.5.1 E-mail receiver configuration Either no E-mail (no transmit time = Default) or one or two e-mails (Transmit time 1 and/or Transmit time 2) can be sent with the plant's "Energy indicator". E-mail receiver configuration E-mail receivers 1 and 2 can be configured with "Administrator" and "Service" access rights on the web server. Path: OZW772.
"Energy indicator transmitted" and "Reason" The values of the data points "Energy indicator transmitted" and "Reason" are displayed after testing until: Another test is triggered manually. The next transmitted e-mail is transmitted as per Transmit time 1 and/or 2. The device supply is switched on and off.
7.5.3 E-mail contents E-mail Energy indicator contents The contents of the e-mails comprises (see screenshot below): Reference field The Reference field comprises the following information: E-mail format Text only (see message field below). E-mail sender As per the settings (e.g. ozw772@siemens.com). E-mail Receiver As per the settings (e.g. first name.lastname@example.com). Plant name: OZW type or user-defined name (see examples). Energy indicator Fixed text (e.g.
7.6 Regenerate bus devices Exceptions The following applies to the "Energy indicator" function when regenerating bus devices: Existing data points and their "Green limits" as well as the set status for "Data point monitoring activated/deactivate" remain as is. Data points no longer available and their "Green limits" are deleted from the "Energy indicator" database. New data points and their "Green limits" are taken over into the "Energy indicator" database and data point monitoring is activated.
Note 8 Communications 8.1 Remote operation The web server is not suited for direct connection to the Internet, but rather must be connected through a firewall. A router typically includes a firewal. The firewall must be configured to permit only outgoing connections. Incoming connections must be suppressed. The web server can be operated from a PC with web browser on a local area network (LAN) or via the Internet.
8.1.2 Access via Local area network (LAN) The PC and web server must be on the same IP subnet to communicate. You must first determine the subnet as well as the IP addresses. Local area network with router A router normally serves as the DHCP server if installed on a local area network (e.g. DSL router for Internet access). As such, it automatically assigns IP addresses to all participants that are DHCP clients.
In the example, the PC is assigned the IP address 192.168.2.199 and subnet mask 255.255.255.0. The default gateway and DNS server have IP address 192.168.2.1. You can use the data to set the web server: IP address: an unused address on the subnet. For example 192.168.2.10 is still available, if the PC uses 192.168.2.199 and the router uses 192.168.2.1. Subnet mask: 255.255.255.0 Default gateway: 192.168.2.1 Preferred DNS server: 192.168.2.1 Alternate DNS server (empty).
Local area network without router IP addresses and subnet masks must be entered manually if a local area network is installed with PC and web server, but without a router. On the PC, set as follows: 1. 2. Select Start > Control Panel > Network connections > Local Area Connection. Select the "General" tab. 3. Click [ Properties ] 4. 5. 6. Select "Internet Protocol (TCP/IP)". Click [ Properties ] Select "Use the following IP address". Continued on next page.
7. Enter the IP address and subnet mask. 8. Click [ OK ] In the example, the PC is assigned IP address 192.168.2.199 and subnet mask 255.255.255.0. You can now set the web server: IP address: An unused address in subnet, e.g. 192.168.2.10 Subnet mask: 255.255.255.0 Default gateway (empty). Preferred DNS server (empty). Alternate DNS server (empty). Notes In the example, the subnet has an address of 192.168.2.x. Devices must have the same subnet address to communicate directly (i.e.
8.1.3 Access via direct connection Internet connection An appropriate connection is required (e.g. DSL router) for a direct connection via Internet. Setting up Internet access is not described here. The web server is not suitable for connecting directly to the Internet, since it does not have a firewall. This is normally a component of the DSL router.
Firewall We recommend enabling the firewall to protect the local area network: Firewall: On Address translation (NAT) Activate NAT to ensure that the web server can be reached via the Internet: NAT: On 108 / 172 Siemens Building Technologies Web server OZW772... V5.
Port forwarding (PAT) Port Forwarding is used to determine which local IP addresses/ports the router translates to which public IP addresses/ports. Web operating pages are preset on the web server via Port 80 (HTTP) or port 443 (HTTPS). As a result, queries from the Internet must be translated using the public IP address/port to the private IP address/port 80 or 443 for the web server.
Dynamic DNS The web server can communicate directly with the fixed IP address or domain if a fixed IP address or domain (e.g. www.myname.com) is available for the Internet connection. Dynamic IP address For dynamic IP addresses, the Internet provides free-of-charge Dynamic DNS services that connect user-defined domain names to dynamic IP addresses. The router must support Dynamic DNS to use this function.
8.2 E-mail Messages via e-mail SMTP is used to send fault messages, system reports and consumption data via email. The mail server (SMTP server, outgoing mail server) must be known to the web server to send e-mails to the Receivers (see Section 2.5.3.3 “Communication”, E-mail). Email address of sender e.g. myaccount@bluewin.ch Email address receiver e.g. service@bluewin.ch Internet DSL router DSL router Ethernet DNS server Mail server mail.bluewin.ch TCP/IP OZW772.
Web server fault Example of an e-mail From: myhome@bluewin.ch Data point, information …> Communication > E-mail: E-mail address sender To: service@siemens.com …> Message receiver > Message receiver 1…4: E-mail address Subject: OZW772.16: Message central unit …> Texts: Name: Message type Device: OZW772.16 (0.2.
Fault eliminated Example of an e-mail From: myhome@bluewin.ch Data point, information …> Communication > E-mail: E-mail address sender To: service@siemens.com …> Message receiver > Message receiver 1…4: E-mail address Subject: OZW772.16: Message central unit …> Texts: Plant name: Message type Device: OZW772.16 (0.2.252) or QAX913 (0.2.
System report without fault Example of an e-mail From: myhome@bluewin.ch Data point, information …> Communication > E-mail: E-mail address sender To: service@siemens.com …> Message receiver > Message receiver 1…4: E-mail address Subject: OZW772.16: System report central unit …> Texts: Plant name: Message type Status: OK Status myhome.dyndns.info …> Communication > E-mail: Signature line 1...10 Consumption data Example of an e-mail From: myhome@bluewin.
MS Outlook You can provide the required information as follows for an e-mail account under MS Outlook: 1. Start Outlook. 2. 3. Notes Go to Tools / E-mail accounts… View or change existing e-mail accounts. 4. Click [ Next > ] 5. Select the desired account. 6. Click [ Change ] The e-mail account dialog box is displayed with the data on the e-mail account. 7. Click [ More settings… ] If required, authentication is displayed here. 8. Click [ Cancel ] to exit the account settings.
9 Trend functions 9.1 Overview The Web-Server OZW772... can create trends for any data points. The trend can be labeled with its own name and the sampling rate set. The maximum period of trending is derived from the number of data points selected and the sampling rate. A web browser is used to set the trend. As an alternative, you can also set trends via the ACS Tool. Select trend function Select the web server. The Home page is displayed. Under primary navigation, select File transfer menu.
Trend information The following information is displayed for a maximum of 5 trends: Name Status Query interval Circular logging (length of the history window) Bus load per trend The sum of the bus load for all active trends is displayed below the table using the "Bus load" bar.
3. Select query interval (1 s, 2 s, 5 s, 10 s, 15 s, 30 s, 1 m, 2 m, 5 m, 10 m, 15 m, 30 m, 1 h, 2 h, 3 h, 6 h, 12 h, 24 h). 4. Click to add a data point. The Data point address is displayed with available devices. As of OZW version 5.0, data points integrated in the system via KNX S-Mode (e.g. lighting, blinds, energy and volume measured values) are available to the trend function. 118 / 172 Siemens Building Technologies Web server OZW772... V5.
5. To record outside temperature in this example, , the data point "Actual value outside temp" is used under "0.2.230 Old Theater>Inputs" . 6. The trend settings and the resulting, maximum trend length and bus load is displayed in the window. "Edit" displayed. Click to add up to a maximum of 100 data points. To conclude, confirm settings with OK. The trend is created and automatically started. Note Trend stops is a data point cannot be read five times in a row at the set interval.
9.2.2 Restriction to bus load Bus load by the trend function is restricted to 1 data point per second (corresponding to 100 %). The sum of the loads of all 5 trend channels cannot exceed this value. No new trends can be started once the value is reached. In the example below, the query interval of the outside temperature of 1 second already results in a bus load of 100 %. As a consequence, an additional query of the room temperature at 50 % load can no longer be started.
9.2.4 Add data points Add trend data points Additional data points are added to an existing trend as follows: 1. Click the red pencil symbol The Edit window opens. to open an existing trend. 2. Use the plus symbol to add an additional data point address as data point to the trend. The selected data points are listed in the data point list. 3. You can add a maximum of 100 data points to the trend using the plus symbol . Bus load and trend period is adapted to the number of data points accordingly.
Notes The data points within a trend are all queried at the same interval. The entire path for a data point is always displayed simply identifying the source of the data point. Sort data points Data points can be moved within the list. Simply left-click the sort symbol for the data point and keep it pressed until the data point is moved to the new position. Delete data points from the list A single left-click of the waste can symbol point list without additional confirmation. 9.2.
9.3 Send trend data by e-mail Trend data can be sent as an appendix to an email. Settings to sent trend data by e-mail occur in the following area: 1. In primary navigation, click Home. 2. In secondary navigation, click 0.x.y OZW… . 3. Click Settings. 4. Click Trend. In secondary navigation, the menus Trend channel 1…5 and E-mail receiver are now available. 9.3.1 Configure E-mail receiver OZW can send trend data to a total of 2 e-mail receivers for each trend channel.
Send test e-mail to receiver You can send a test e-mail to the receiver to ensure the settings are correct. 1. Click Test receiver or the red pencil symbol . 2. In the Edit window, select the Trigger option. 3. Confirm with OK. OZW sends a test e-mail to the entered receiver and confirms the transmission under the data point Trend data sent with Yes. If transmission failed, a possible cause is provided under Reason, see Section 2.7, Functional check, "Test message receiver". 4.
2. Set the desired transmit interval. The following options are available: Automatic (default value): The e-mail is sent after the history window expires. All trend data is sent going back to the start of trend logging. Daily: An e-mail is sent each day. All trend data is sent from the last day. Weekly: An e-mail is sent every week. All trend data is sent from the last week. Monthly: An e-mail is sent each month. Trend data for the last month is sent. 3.
In addition, the text field lists the current status of the corresponding trend: State: Running: Trending is still running. State: Completed: Trending is completed. Appendix content The appendix to the sent e-mail is a .csv (comma-separated values) file and can be opened using a common spreadsheet programs and text editors.
9.4 Download trend file via web Trend data can be downloaded via the OZW web user interface. Notes Downloading via the web does not influence transmission of the data by e-mail. Logging of trend data continues unabated while downloading via web. Trend data is downloaded via web as follows: 1. Under primary navigation, select File transfer menu (see Section 9.1 "Overview"). 2. For the desired trend, click the symbol Download trend data . 3.
7. In the following window, select either Open or Save. The file name is composed as follows: - trend_data_x_ (with x representing trend channel 1…5) - Download date (yyyymmdd) - Datum des Downloads (yyyymmdd) Example using Internet Explorer Example with Firefox Note Files can be exported whether trends are ongoing or stopped. Download last encoded file Another possibility exists, in addition to direct save of data on the PC (Step 7).
9.5 Import/export trend definitions Trend definitions can be exported and imported as a file. The following buttons Export and Import are available to this end. The export is individual for each trend channel. Note Export trend definition Export/Import includes only the trend definitions. The logged trend data is neither exported nor imported. 1. Under primary navigation, select File transfer menu (see Section 9.1 "Overview"). 2. On the desired trend channel, click Export symbol. 3.
4. In the following window, Browse to select the file with the desired trend definition. 5. Click Open to confirm. 6. The name of the selected file is displayed. 7. Click OK to confirm. 8. The data point address must be changed in the following window if the device of the trend definition for import does not match with the device on the plant; true even if the data point matches (the data point address is specific to the device). 9. Select checkbox. 10.
15. Click OK to confirm the action. Trend data is imported and the trend goes to the defined state as per the imported file: – A trend exported in the state "Running" is started automatically after the import is completed, as long as bus load does not exceed 100%. – A trend exported in state "Completed", is not started after import. Note Only trend definitions of version V2.0 can be imported. Copy trend definition within OZW A trend definition can be copied as follows within the same OZW: 1.
ACS V9.00 or older 9.6 ACS Trend 9.6.1 ACS offline trend compatibility Offline trend definitions from ACS V9.00 or older can still be written to OZW, run there and read. Trends are listed on the OZW trend overview page, but cannot be exported or edited there. They are displayed in gray on the overview page and the buttons are hidden. A struck out pencil symbol indicates that this trend cannot be edited in OZW. These trends may only be operated via ACS.
10 KNX S-Mode Web Server OZW772.xx supports KNX S-Mode. This section describes the supported properties for KNX S-Mode. S-mode "S-Mode stands for system mode. This mode primarily is characterized by the assignment of (logical) group addresses to S-mode data points to communicate process values. Supported properties OZW772.01 supports the following functions: System time Alarm info The following supplemental functions are integrated as of version OZW772.
KNX interfaces The web server OZW772.xx also assumes the KNX USB and KNX interface (KNXnet/IP) using its built-in USB and Ethernet interfaces. Separate devices to connect the ETS to the KNX bus or via USB and Ethernet are no longer necessary. Acronyms Abbr. DP DPT ETS KNX S-mode Additional information Addition information on KNX and Synco devices with S-Mode data points can be found in document CE1Y3110. Meaning Data point Data point type. Engineering Tool Software.
10.1 Configuration/commiss ioning workflow Configuration in KNX S-Mode After installing the controller and the web server, the plant is commissioned as follows: Plant commissioning via ETS (addressing and S-Mode binding)* Controller commissioning with ACS* Web server commissioning via web browser or ACS Generate web pages on the web server. Important note * Both tools include parameters for RDG/RDF controllers, but ETS can only write. Reset is only possible with ACS790.
Page names The pages can be given names in ETS with a maximum of 20 characters. As a default, they are numbered with KNX page 1 … KNX page 10. Allowable characters for names: a-z, A-Z, 0-9, space ! ” # $% & ‘ ( ) * , - . / : ; < = > ? @ [ ] \ ^ _ ` { } | ~ (ASCII 20-7Fh) Typical page names include: Living room, kitchen, bedroom, kids rooms, etc. or Lighting, blinds, temperature values, energy values, etc.
Data point names Each data point can be assigned a name in ETS up a maximum of 36 characters. The same characters as for page names are allowed. Typical data point names include: Example Time Ceiling light living room Floor light living room Blinds 1 living room Temperature sensor outside B9 Temperature sensor boiler B10 Energy consumption heating Data points in ETS4 Data points in OZW772 ETS issues an error message if you exceed the maximum entry length of 36 characters.
Data point types and sub-types An appropriate data point type and sub-type is preselected based on the desired data point function. Data point types Data point sub-types The data point sub-types are available in the following number: Data point sub-types No.
Description of data point types Below is a listing of all available data point types, data point sub-types, and possible settings. System time and faults Data point number 1…7: Standard data points Setting for ID/Decoding is defaults on these data points: Number/name 1: System time 2: Date 3: Time of day 4: Fault information 5: Confirm faults 6: Fault state (normal/faulty) 7: Fault transmission (enable/disable) All following data points ID 19.001 11.001 10.001 219.001 1.016 1.005 1.
1 bit data points Data point numbers 8…47: Change/display value 1…40" Uneven values are used for "edit"; even for "display". Available settings for the data point type: Data point numbers 48…67: "Change value 1…20" Available settings for the data point type: 140 / 172 Siemens Building Technologies Web server OZW772... V5.
Data point numbers 68…87: "Blinds 1…20" Available settings for the data point type: Data point numbers 88…107: "Display value 1…20" Available settings for the data point type: 2 bit data points Data point numbers 108…112: "Switching controlled 1…5“ Available settings for the data point type: 141 / 172 Siemens Building Technologies Web server OZW772... V5.
1 byte data points Data point numbers 113…132: "Display value 1…20" Available settings for the data point type: Data point numbers 133…152: 1 "Value change+display 1…20" Available settings for the data point type: 142 / 172 Siemens Building Technologies Web server OZW772... V5.
Data point numbers 153…157: "Scene 1…5" Available settings for the data point type: The field "Scene number" defines which scene number [1…64] is affected by the command. 2 byte data points Data point numbers 158…177: "Display value 1…20" Available settings for the data point type: 143 / 172 Siemens Building Technologies Web server OZW772... V5.
Data point numbers 178…197: "Value change+display 1…20" Available settings for the data point type: 4 byte data points Data point numbers 198…237: "Display value 1…40" Available settings for the data point type: 144 / 172 Siemens Building Technologies Web server OZW772... V5.
For energy meters, the same data type must be used as specified by the producer for display purposes. This is the only way to avoid a loss in accuracy on large numbers, since large floating point numbers it is rounded off to the next displayable value. Data points for types 12.xxx, 13.xxx and 14.xxx are labeled with the definition of the counter medium as energy meter. So that the following data is written once a day to the consumption data file. See sections: Meter medium. Identification number.
Data exchange via group addresses Data points must be connected in order to exchange them. This occurs in ETS via the group address pane. Example The room unit in the living room transmits its room temperature actual value to the web server OZW so that it is available there for the trend function and display of the plant diagram. Procedure A group is created in the ETS where the two data points are connected to one another.
The data point is now linked to the group address "Living room" and added to the list of object. An available 2-byte data point is required to display a temperature in OZW. It is select from the ETS device list under "OZW772 web server" and defined. Select "9.001 temperature (°C)" as the data point type. Furthermore, the data point should be names in a meaningful manner and assigned a page on the web server. In this case, page 2, which was defined as the living room when the page name was issued.
Result: Both data points are now linked to the group address "Living room" and added to the list of object. The room unit sends its measured temperature which is received by OZW. Transmit project data When transmitting the project or portions of the project from ETS to the devices on the bus, all the changes are saved on the applicable devices. The various possibilities are described in the ETS documentation. When ETS is connected to the KNX bus via OZW, ETS has the KNX address 15.15.254.
Update transmitted project data in OZW. The device stats of changed devices is no longer up-to-date after transmitted project data from ETS to the OZW. OZW must be selected and updated with "Generate". Administrator or service user rights are required. Confirm with "OK". OZW is now updated. The changes can now be viewed in the menu tree.
10.2 Privileges Operation KNX S-mode All KNX pages and S-Mode data points are access as of end-user level. Page display in OZW772 The pages defined via ETS are displayed in OZW772 in the secondary navigation between "New plant diagram" and "Time/date". Only defined pages are displayed. For example, only 5 entries are located in secondary navigation is only 5 pages were defined. ETS takes over page names and they cannot be changed in OZW. Changing the user language on OZW does not affect these texts.
The dialog depends on the type of data point. Here is an example for air quality: Dynamic display The value is displayed as is the pencil depending on the type of data point. Display examples Data point type Send Displays Send and display The value for the send data points is displayed as "- - -". The setting values are accessed by opening the operating dialog via the pencil symbol, as illustrated in the example for "ceiling lighting". The value is sent, but the displayed remains fixed on "- - -".
Default KNX subtype Data points can be defined in ETS that are not explicitly supported by OZW. OZW converts any such data points received from ETS into its default subtypes. KNX main type Default KNX subtype 1.* 2.* 5.* 6.* 7.* 8.* 9.* 12.* 13.* 1.001 2.001 5.001 6.001 7.001 8.001 9.001 12.001 13.001 Name and decoding Switching (Off/On) Prio.
Text entry 11 Appendix 11.1 General notes Names of data points and message text, e.g. of faults, cannot contain special characters or umlauts. Valid characters: a…z and A…Z 0…9 ! „ $ % & ‚ ( ) * + ` - . / : ; < = > ? "Space Note Fault codes When sent, invalid characters will be converted to "?" (question marks). 11.2 Diagnostics 11.2.
11.2.2 Windows Commander Windows Commander You can use the Windows Commander to check availability of IP addresses, domains or servers: 1. Open Windows commander: Start > Run. 2. Enter "cmd". 3. Click [ OK ] 4. Enter the desired command in the command line C:\>: Command ping or Result, application Response times to the query: Checks whether an IP address can be reached in the network.
Private networks 11.3 Communications 11.3.1 Internet protocol The following IP addresses are reserved for private networks: Class A: 10.0.0.0–10.255.255.255. Class B: 172.16.0.0–172.31.255.255. Class C: 192.168.0.0–192.168.255.255 (typical for home networks).
11.3.3 Install RNDIS driver RNDIS driver The PC requires a USB RNDIS driver for the connection between the PC and the web server. Windows hardware recognition recognizes the web server when the USB cable is plugged into the USB cable. You can start the Add Hardware Wizard if no RNDIS driver is installed. The driver is installed in the background with an Internet connection as long as the online update service is enabled by the network administrator.
Manual installation The RNDIS driver is supplied on the web server at http:///drivers/ can be accessed via Ethernet connection (see Section 2.6.2). The driver Siemens_RNDIS_Driver_x64.msi is installed on a 64-bit operating system; on a 32-bit operating system Siemens_RNDIS_Driver_x86.msi. The installation file for the driver can be executed directly on the PC. Following the steps for the installation wizard. Result The RNDIS driver is now installed.
11.3.4 Alternative configuration Alternative network configuration We recommend setting up IP settings for commissioning as an alternative configuration if a PC, connected to a network, is temporarily used to commission the web server and the local area network. On the PC, set as follows: Result 1. 2. Select Start > Control Panel > Network connections > Local Area Connection. Select the "General" tab. 3. 4. Click [ Properties ] Select "Internet Protocol (TCP/IP)". 5. 6. 7.
11.4 ADSL Glossary of Ethernet and Internet terms Upstream and downstream channel transport data at different rates, i.e. asymmetrically via a two-wire line (DLS, copper phone line) on a broadband network. Very little data is sent upstream, i.e. to the server, when surfing. The requested data, however, are sent at high speed downstream to the requesting computer. You can call or e.g. send faxes while transmitting data. The Internet Service Provider ISP provides the ADSL connection.
DSL DSL is a type of data transmission allowing for 1.5 Mbps access to the Internet on standard copper phone lines. The Internet Service Provider ISP provides the DSL connection. You need a DSL modem for this type of connection. DSL router The DSL router has several functions. It connects the Ethernet network (LAN) and the internal network devices to the Internet. The router then requests the IP addresses for the internal network devices from the DNS server.
Hyper Text Transfer Protocol Secure see HTTPS. Internet The Internet is a data network with millions of members. A number of protocols are used to exchange data, summarized under the term TCP/IP. All devices connected to the Internet can be identified via IP address. The DNS server assigns domain names to IP addresses. Internet Protocol see IP. Internet Service Provider see ISP. IP The IP protocol is a TCP/IP protocol.
NAT NAT is a method to translate IP addresses (private IP addresses) in a network into one or several public IP addresses on the Internet. NAT allows us to use several network devices in a LAN together with a public IP address of a router for Internet access. The network devices of the local network are masked by the IP address (router) registered on the Internet. Thanks to this security function, NAT often is used as a part of a network's firewall.
PPPoE Protocol used to connect to the Internet via ADSL or DSL. Private IP address The private IP address (local IP address) is the address of a network device on a local network (LAN). The provider assigns this address at will. DSL routers have a public IP address for the WAN and a private IP address for the LAN. The following IP ranges are recommended for private IP addresses: 10.0.0.0…10.255.255.255 Class A. 172.16.0.0…172.31.255.255 Class B. 192.168.0.0…192.168.255.255 Class C.
Static IP address Network devices, and servers in particular, integrated permanently in a network, have static IP addresses. Clients often have a dynamic IP address. Web server (integrated permanently in a network) has a static IP address and can thus be reached easily by clients. Subnet A subnet subdivides a network into smaller network segments. Subnet mask A subnet mask masks the IP address, i.e.
Uniform Resource Locator See URL. Universal Plug and Play See UPnP. UPnP UPnP technology was designed for home and office networks. Devices supporting UPnP automatically configure their network settings as soon as connected to a network. In addition, they automatically provide, depending on class, own services or use services of other devices on the network. URL A URL refers to an information source, e.g. http://www.siemens.com.
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Index 1 1 bit data points .................................................. 140 1 byte data points ............................................... 142 2 2 bit data points .................................................. 141 2 byte data points ............................................... 143 4 4 byte data points ............................................... 144 A Abbreviations ........................................................ 12 ACS trend ......................................................
Temporary status ............................................... 87 Visibility.............................................................. 85 Energy values ..................................................... 133 ETS ............................................................. 135, 146 Example of a plant web page ............................... 61 F Fault codes ......................................................... 153 Faults current ........................................................ 22 Local .
R Remote access via portal ..................................... 42 Remote operation via the Internet ...................... 107 RNDIS driver ....................................................... 156 S Scene control ...................................................... 133 Secondary navigation ............................................. 9 Send messages .................................................... 27 Services ..........................................................
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Siemens Switzerland Ltd Building Technologies Division Gubelstrasse 22 6301 Zug Switzerland Tel. +41 41-724 24 24 www.siemens.com/sbt © 2009-2014 Siemens Switzerland Ltd Subject to change 172 / 172 Siemens Building Technologies Web server OZW772... V5.