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ii • Uniformance - PHD OPC Server User Guide
Copyright, Notices, and Trademarks © Honeywell Inc. 2010. All Rights Reserved. While this information is presented in good faith and believed to be accurate, Honeywell disclaims the implied warranties of merchantability and fitness for a particular purpose and makes no express warranties except as may be stated in its written agreement with and for its customers.
In no event is Honeywell liable to anyone for any indirect, special or consequential damages. The information and specifications in this document are subject to change without notice.
Honeywell, TotalPlant, Uniformance PHD, and Business FLEX are U.S. registered trademarks of Honeywell Inc.
Other brand or product names are trademarks of their respective owners.
Release Information Uniformance 300 Document Revision: 12 Document Revision Date: January, 2010 Document ID: pim2901.pdf Document PARs Fixed:
Document Revision
PAR
12 n/a Revised the document for R300.
Honeywell Process Solutions
1860 W. Rose Garden Ln
Phoenix, Arizona 85027-2708 USA
WWW.HONEYWELL.COM/PS
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Support and Other Contacts
United States and Canada Contact: Honeywell Solution Support Center Phone: 1-800 822-7673. Calls are answered by dispatcher between 6:00 A.M. and 4:00 P.M. Mountain
Standard Time. Emergency calls outside normal working hours are received by an answering service and returned within one hour.
Mail: Honeywell HPS TAC, MS L17 1860 W Rose Garden Ln Phoenix, Arizona 85027-2708
Europe Contact: Honeywell TAC-EMEA Phone: +32-2-728-2732 Facsimile: +32-2-728-2696 Mail: TAC-BE02 Hermes Plaza Hermeslaan, 1H B-1831 Diegem, Belgium
Pacific Contact: Honeywell Global TAC – Pacific Phone: 1300-300-4822 (toll free within Australia) +61-8-9362-9559 (outside Australia) Facsimile: +61-8-9362-9564 Mail: Honeywell Limited Australia 5 Kitchener Way Burswood 6100, Western Australia Email: [email protected]
India Contact: Honeywell Global TAC – India Phone: +91-20- 66039400 Facsimile: +91-20- 66039800 Mail: Honeywell Automation India Ltd. 56 and 57, Hadapsar Industrial Estate Hadapsar, Pune –411 013, India Email: [email protected]
Support and Other Contacts
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Korea Contact: Honeywell Global TAC – Korea Phone: +82-2-799-6317 +82-11-9227-6324 Facsimile: +82-2-792-9015 Mail: Honeywell Co., Ltd 4F, Sangam IT Tower B4-4 Block 1590, DMC Sangam-dong, Mapo-gu, Seoul, 121-836, Korea Email: [email protected]
People’s Republic of China Contact: Honeywell Global TAC – China Phone: +86- 21-52574568 Mail: Honeywell (China) Co., Ltd 33/F, Tower A, City Center, 100 Zunyi Rd. Shanghai 200051, People’s Republic of China Email: [email protected]
Singapore Contact: Global TAC – South East Asia Phone: +65-6580-3500 Facsimile: +65-6580-3501 +65-6445-3033 Mail: Honeywell Private Limited Honeywell Building 17, Changi Business Park Central 1 Singapore 486073 Email: [email protected]
Taiwan Contact: Global TAC – Taiwan Phone: +886- 7- 536 2567 Facsimile: +886-7-536 2039 Mail: Honeywell Taiwan Ltd. 17F-1, No. 260, Jhongshan 2nd Road. Cianjhen District Kaohsiung, Taiwan, ROC Email: [email protected]
Support and Other Contacts
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Japan Contact: Global TAC – Japan Phone: +81-3-6730-7160 Facsimile: +81-3-6730-7228 Mail: Honeywell Japan Inc. New Pier Takeshiba, South Tower Building, 20th Floor, 1-16-1 Kaigan, Minato-ku, Tokyo 105-0022, Japan Email: [email protected]
Elsewhere Call your nearest Honeywell office.
World Wide Web Honeywell Solution Support Online: http://www.honeywell.com/ps
Training Classes Honeywell Automation College: http://www.automationcollege.com
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Contents
1. About This Document..........................................................................................9 1.1 Document Scope.......................................................................................9 1.2 Intended Audience ....................................................................................9 1.3 Additional References ...............................................................................9
2. Getting Started ...................................................................................................11 2.1 Introduction to the PHD OPC Server ......................................................11
Supported OPC standards ...................................................................11 2.2 PHD OPC Server Requirements.............................................................12 2.3 Where to Install PHD OPC Server Software...........................................12 2.4 PHD OPC Server Registry Settings........................................................13
To enable/disable tag browsing............................................................13 Cached browsing..................................................................................14 To enable AFM tag routing and put download .....................................14
3. Configuring the PHD OPC Server.....................................................................15 3.1 Overview .................................................................................................15 3.2 View/Modify DCOM Configuration of PHD OPC Server .........................15
To configure DCOM settings for the machine default ..........................16 To configure properties of the PHD OPC Server COM components ...28
4. Overview of Uniformance PHD .........................................................................37 4.1 Uniformance PHD Components..............................................................37 4.2 PHD Server Functionality........................................................................39 4.3 Multiple PHD Server Systems.................................................................40 4.4 PHD OPC Server Instances....................................................................42 4.5 Read/Write Access to PHD Data ............................................................43 4.6 Introduction to PHD Security...................................................................43
Enabling/disabling PHD Server security...............................................44 Changing user rights ............................................................................44
Contents
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4.7 PHD Server's interpolation and extrapolation .........................................45
5. Using the PHD OPC Server ...............................................................................47 5.1 Overview .................................................................................................47 5.2 Guidelines for Accessing PHD Values....................................................47 5.3 Creating a PHD OPC Server Client Application......................................48
Required expertise ...............................................................................48 Software developer tools ......................................................................48
5.4 PHD OPC Data Standards for Client Applications..................................49 PHD OPC name forms .........................................................................50 Supported data types ...........................................................................50 Array indexing.......................................................................................51 Enumerated data types ........................................................................51 Interpreting data quality ........................................................................53 Data confidence versus data quality ....................................................54 Out of range and NaN values...............................................................54 Data for requested time of NOW ..........................................................54 Extrapolated values ..............................................................................55 Interpolated values ...............................................................................55 INTERPOLATIVE (snapshot) ...............................................................55
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1. About This Document
1.1 Document Scope This guide describes how to use the PHD OPC Server, primarily from the perspective of a client application developer and systems integrator. It is intended to provide information necessary to configure, manage, and use the PHD OPC Server.
This guide is organized into the following major sections. It also has an extensive glossary for a quick reference for acronyms, terminology, and definitions.
This section… Tells you this…
Configuring the PHD OPC Server
How to configure the PHD OPC Server.
Using the PHD OPC Server General information useful to the application developer. This section also describes the server name forms and data types supported.
Glossary Definitions to industry terminology and Honeywell Uniformance-specific terminology.
1.2 Intended Audience The document assumes you are skilled in performing Windows operating system administrative tasks.
1.3 Additional References The following list identifies documents that may be sources of reference for the material discussed in this publication.
Document Title Document ID
Uniformance - PHD System Manual pim0301
Uniformance - PHD User Guide pim0201
Uniformance – PHD Installation Guide in6001
Uniformance - Database System Specification and Technical Data ph03300
OLE for Process Control Data Access Standard Version 3 See NOTE
OLE for Process Control Data Historical Data Access Version 1.2 See NOTE
NOTE: Information on OPC automation standards can be found in the publicly available OPC specifications at www.opcfoundation.org.
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2. Getting Started
2.1 Introduction to the PHD OPC Server The PHD OPC Server is a Uniformance component that implements OLE for Process Control (OPC) interfaces as a method of access to a Uniformance Process History Database (PHD) Server. The interfaces enable client applications to access a single Uniformance PHD Server.
A Uniformance PHD Server stores variable data from a variety of process related sources. All data values stored in a PHD Server are maintained over time in history archives. The PHD Server provides interfaces through which clients may access the current or historical values from its storage.
The PHD OPC Server is an independent executable program – it can reside on the same machine as the PHD Server or on a remote server.
The OPC standard interface specifies a standard set of interface semantics for access to data values. The PHD OPC Server is compliant with both the OPC DA and OPC HDA standards, described as follows:
OPC DA The OPC Data Access (DA) standard interface allows clients to gain
access to real-time (current) data values maintained by a PHD Server.
OPC HDA The OPC Historical Data Access (HDA) standard interface allows clients to gain access to historical data values maintained by a PHD Server.
Supported OPC standards
The PHD OPC Server is compliant with the following OPC standard versions:
• DA Versions 1.0A, 2.05, 3.0
• HDA Versions 1.1, 1.2
2 Getting Started 2.2 PHD OPC Server Requirements
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2.2 PHD OPC Server Requirements
Hardware environment
Item Requirement (minimum)
CPU Intel Pentium Pro
Memory 64 MB
Hard Disk 128 MB free space
Software environment
Item Requirement
Operating System • A supported Microsoft Windows operating system. (See the Uniformance Software Change Notice for details.)
• Windows NT File System (NTFS) is required for security purposes.
PHD OPC Server Requires the installation of PHD Server software on at least one computer system within the same network domain.
Network environment
Item Requirement
Network Protocols Ethernet, TCP/IP, Microsoft application layer software (RPC and DCOM). One of the following name services must be available: • DNS • WINS • Local Host File
2.3 Where to Install PHD OPC Server Software During installation of the PHD OPC Server software from the Uniformance DVD, you must choose an install type - Client or Server:
Install Type
Description
Client Installs the OPC Client DLLs and registers the OPC Server name on this machine.
2 Getting Started 2.4 PHD OPC Server Registry Settings
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Install Type
Description
Server Installs the complete OPC server, registers the OPC Client DLLs, and registers the OPC Server name.
You must install Server on one of the following:
• the PHD Server node,
• the client node, or
• another node. If you install Server on a separate node from the PHD Server, then the PHD OPC Server will use the PHD Server's API Server instead of accessing the PHD Server directly. You should be aware that this connection counts against the maximum number of users for the API Server. (For information on the APIServer registry settings, refer the PHD System Manual, pim0301.pdf.) You only need to install Client on client nodes that are separate from the Server node. Note: For security reasons, Honeywell recommends that Server and Client be on the same side of a firewall as the PHD Server; otherwise, OPC requires that you open additional ports in the Firewall. Since OPC uses DCOM, and DCOM uses many dynamically assigned ports, OPC will not work well with a firewall.
REFERENCE: For the software installation procedure, refer to the PHD Installation Guide (in6001.pdf).
2.4 PHD OPC Server Registry Settings The following registry settings are read-only when the PHD OPC Server process is started up. If you modify the registry settings while the PHD OPC Server is running, these will not be read until the PHD OPC Server is restarted.
To enable/disable tag browsing PHD OPC Server tag browsing is disabled by default. The tag browsing can be enabled by changing the registry setting under the following key:
HKEY_LOCAL_MACHINE\SOFTWARE\Honeywell\Uniformance\OPCServer
Set the following REG_DWORD value to control the PHD OPC Server’s browse capabilities:
BrowseMode = 0 Automatic Mode - Disabled if on PHD Server machine
2 Getting Started 2.4 PHD OPC Server Registry Settings
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- Enabled if on Client machine
1 Always enabled
2 Always disabled Cached browsing
Tag browsing has the potential to be a slow and memory intensive process. Browsing may be performed in a cached mode. If cached browsing is enabled, all PHD tags "queried" during the first browse are "cached" in memory. Any subsequent requests to browse for tags will go to this cache for tag information. If disabled, each browse request will go to PHD for tag information. The advantage of caching is that any subsequent browse request is quicker after the first request; however, with cached browsing enabled, you will not see updated or new PHD tags through the browse.
The cached browsing can be enabled by changing the registry setting under the following key:
HKEY_LOCAL_MACHINE\SOFTWARE\Honeywell\Uniformance\OPCServer\ CacheBrowseInfo
Valid options are: 0 : Disabled 1 : Enabled
To enable AFM tag routing and put download For the output of an Advanced Formula Manager (AFM) tag to be routable and put downloadable, the HDAInsertsUsePutData registry key MUST have value of 1.
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3. Configuring the PHD OPC Server
3.1 Overview This section shows you how to configure the PHD OPC Server in your system.
When you install the PHD OPC Server in your system, a default set of system parameters is created in the Windows Registry.
You may need to modify the default configuration for the PHD OPC Server on your system to accomplish either of the following:
• To establish specific user rights to launch, access, and configure the PHD OPC Server.
• To run the server on a remote computer.
3.2 View/Modify DCOM Configuration of PHD OPC Server This section provides information regarding the configuration of DCOM server properties using the Microsoft DCOMCNFG utility.
The PHD OPC Server is implemented using the Microsoft Distributed Component Object Model (DCOM) technology. Its execution environment is defined by the system level settings established for DCOM components. These settings can be customized using the tool provided by Microsoft (DCOMCNFG).
DCOM has settings for:
- the machine default, and
- each COM server.
You can view/modify the DCOM settings for the individual PHD OPC Server components by selecting the component name (Uniformance PHD OPC DA Server or Uniformance PHD OPD HDA Server).
The machine default settings are used when there are no custom settings for the specific COM (OPC) server. If a server has custom settings, then changes in the default settings have no effect for this server.
REFERENCE – EXTERNAL
For information on OPC DCOM communications with Windows XP and Windows 2003 , refer to the white paper 'Using OPC via DCOM with XP SP2.pdf', available at http://opcfoundation.org. This white paper also applies to Windows 2003 SP1 and greater.
3 Configuring the PHD OPC Server 3.2 View/Modify DCOM Configuration of PHD OPC Server
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Note: Do not attempt to modify DCOM settings without a thorough understanding of the impact it may have on your system.
To configure DCOM settings for the machine default
Step Action
1 Click Start on the Windows taskbar. Click Run. The Run dialog box appears.
Type DCOMCNFG and click OK.
2 On Windows 2000: The 'Distributed COM Configuration Properties' window appears.
On Windows 2003/XP: The Component Services window appears, as shown below.
Expand Component Services, expand Computers, right-click My Computer, and choose Properties.
The 'My Computer Properties' window appears.
3 Configuring the PHD OPC Server 3.2 View/Modify DCOM Configuration of PHD OPC Server
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Step Action
RESULT:
On Windows 2003/XP:
On Windows 2000:
Note:
For Windows 2000, the tabs in the “Distributed COM Configuration Properties’ screen appear slightly different than those in the Windows 2003/XP ‘My Computer Properties’ screen. In most of the steps in this procedure, we used Windows 2003/XP screen examples to illustrate the correct settings.
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Step Action
Default Properties
3 Click the Default Properties tab.
4 Set the Default Properties as shown in the following screen example:
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Step Action
Default Protocols
5 Click the Default Protocols tab.
6 Ensure that Connection-oriented TCP/IP is the first protocol listed.
7 Click OK to close the window.
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Step Action
Default COM Security
8 On Windows 2003/XP: Click the COM Security tab.
On Windows 2000: Click the Default Security tab.
Default COM Security - Access Permissions - Edit Limits
9 On Windows 2003/XP: Under ‘Access Permissions’, click Edit Limits.
On Windows 2000: Steps 6, 7, and 8 are not applicable - skip to Step 12.
3 Configuring the PHD OPC Server 3.2 View/Modify DCOM Configuration of PHD OPC Server
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Step Action
On Windows 2003/XP only: Edit Limits, continued
10 Add the local group NETWORK to the list, and make sure Remote Access is allowed, as shown in the following screen example.
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Step Action
TIP:
On Windows 2003/XP, to add the local group NETWORK, do the following:
1) Click Add.
2) From the 'Locations' window, select the name of this machine.
3) Click OK.
4) The 'Select Users or Groups' window appears. Click Advanced.
5) Click Find Now (shown in the following screen example)
6) In the search results, select NETWORK.
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Step Action
7) Click OK.
8) Click OK.
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Step Action
11 Click OK to close the 'Access Permission' window.
Default COM Security - Access Permissions - Edit Default
12 On Windows 2003/XP: Under ‘Access Permissions’ click Edit Default.
On Windows 2000: Under ‘Default Access Permissions’ click Edit Default.
13 Add the Everyone group and ensure that it has the correct permissions, as shown in the following screen examples.
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Step Action
On Windows 2003/XP: Ensure that the Everyone group has Remote Access, as shown in the following screen example.
On Windows 2000: Ensure that the Everyone group has Allow Access selected for ‘Type of Access’.
3 Configuring the PHD OPC Server 3.2 View/Modify DCOM Configuration of PHD OPC Server
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Step Action
14 Click OK to close the window.
Default COM Security - Launch Permissions - Edit Default
15 On Windows 2003/XP: Under ‘Launch Permissions’ click Edit Default.
On Windows 2000: Under ‘Default Launch Permissions’ click Edit Default.
16 Add the Everyone group and ensure that it has the correct permissions, as shown in the following screen examples.
Windows 2003/XP:
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Step Action
On Windows 2000:
17 Click OK to close the window.
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To configure properties of the PHD OPC Server COM components
Step Action
1 On Windows 2003/XP: In the Component Services console tree, expand the following directories: Component Services>Computers>My Computer>DCOM Config. A list of the components will appear.
On Windows 2000: Click the Applications tab on the main DCOMCONFG.
2 Right-click Uniformance PHD OPC HDA Server and select Properties.
(You will need to repeat the following steps for the Uniformance PHD OPC DA Server component.)
Windows 2003/XP:
3 Configuring the PHD OPC Server 3.2 View/Modify DCOM Configuration of PHD OPC Server
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Step Action
Windows 2000:
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Step Action
3 Click the Location tab. Edit the properties as shown in the following screen example.
The PHD OPC Server runs on the local system by default. If you wish to run the Server on a remote machine, select 'Run application on the following computer' and enter the computer name.
You may need to install the PHD OPC Server software on the remote computer before you can configure it to execute there.
3 Configuring the PHD OPC Server 3.2 View/Modify DCOM Configuration of PHD OPC Server
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Step Action
4 Click the Security tab.
The Security tab is used to customize the access, launch, and configuration permissions for a selected individual COM component.
On Windows 2000, normally you need not change these settings. Skip to Step X.
On Windows 2003/XP, under Launch and Activation Permissions, select Customize and click Edit.
3 Configuring the PHD OPC Server 3.2 View/Modify DCOM Configuration of PHD OPC Server
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Step Action
5 Add the Distributed COM Users group to the list if it is not there already.
Ensure the Distributed COM Users group has Remote Launch and Remote Activation enabled, as shown in the following screen example.
6 Click OK.
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Step Action
7 On the Security tab, under Access Permissions, select Customize and click Edit.
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Step Action
8 Add the Distributed COM Users group to the list if it is not there already.
Ensure the Distributed COM Users group has Remote Access enabled, as shown in the following screen example.
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Step Action
9 Select the Identity tab.
By default, the PHD OPC Server runs under the identity of The Launching user - the user who initially launches it. If you wish the server to run under a specific user identity, select This User and enter the username and password. Launch of the PHD OPC Server with the identity of The interactive user is often used for interactive client applications that use asynchronous operations that require the server to execute callbacks with the appropriate identity. Note: Ensure that the selected user identity has rights to access and launch the component.
10 Repeat this procedure (steps 1-9) for the Uniformance PHD OPC DA Server component.
3 Configuring the PHD OPC Server 3.2 View/Modify DCOM Configuration of PHD OPC Server
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4. Overview of Uniformance PHD
4.1 Uniformance PHD Components The following diagram illustrates the relationships of OPC client to the PHD OPC Server, PHD Server, and other Uniformance components.
4 Overview of Uniformance PHD 4.1 Uniformance PHD Components
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Figure 1 Uniformance PHD Components
4 Overview of Uniformance PHD 4.2 PHD Server Functionality
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4.2 PHD Server Functionality The Uniformance PHD Server is an autonomous server that maintains historical archives of process variables and other related data samples. Data values are stored in the PHD history database by application programs and through periodic collection from control systems.
The PHD Server uses a configuration database containing the descriptive information, such as name, data type, source RDI, collection rate, and so on, for each data parameter. This database may also contain the identities and access privledges of individual users who can access the values stored for each variable. The database is hosted by a SQL Server RDBMS. The RDBMS may be physically hosted by the same computer as the PHD Server, or it may be on another system.
The PHD Server maintains data samples for each point variable in a data cache in memory, and periodically flushes its contents to the history archive files. The data cache contains the most recent values input to PHD for each point variable.
Data can be placed in PHD history storage by application programs, such as statistical analysis and laboratory data collection software.
Periodic data collection and input to the PHD Server historical database is also performed by Real-time Data Interfaces (RDIs). Each RDI, such as an interface to a DCS, encapsulates the data access mechanism compatible with the specific system to which it interfaces. You can configure multiple RDIs to collect data from a multitude of Honeywell or other vendor DCS, Laboratory, PLC, or other process related systems.
4 Overview of Uniformance PHD 4.3 Multiple PHD Server Systems
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4.3 Multiple PHD Server Systems The Uniformance PHD end user may choose to configure multiple PHD Servers in a system in order to distribute history collection and storage. There are three possible configuration options that may be used. You can configure multiple PHD Servers to:
• Operate so a single server effectively hides, or Shadows, one or more additional servers from view by some client applications. In this configuration, all servers share the identical configuration data. Shadow servers provide for isolation of the client from other server environments while also distributing the dynamic load.
• Operate as peers, where clients must access each server directly. Unlike the Shadow server configuration, peer servers are autonomous, each having its own unique configuration data.
• Operate as a mixture of both shadow and peer configurations.
The following figure illustrates the complexity you may encounter in a multiple PHD Server system where multiple DCS systems have also been integrated, and the historical real-time database is configured for use by applications in both the Level 3 and Level 4 operating domains.
The configuration illustrated in the following figure is representative of many existing Uniformance PHD installations. When DCS systems are introduced to such configurations, the PHD OPC Server provides the consistent interface to each PHD Server; however, the DCS system and its functions for system management and security introduce additional complexity which should be considered in the system configuration.
4 Overview of Uniformance PHD 4.3 Multiple PHD Server Systems
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Figure 2 Multiple PHD Server System Example
The system configuration represented in the previous figure has three Uniformance PHD Servers used by clients.
Multiple PHD Servers often provide distributed history storage to a varied group of clients, thereby providing better security and more predictable system loading. In this example diagram, the client applications executing on computers in the Level 4 LAN are isolated from
4 Overview of Uniformance PHD 4.4 PHD OPC Server Instances
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access to Level 3 and the control system environment by the “Shadow” PHD server. They are still able to access data provided to the “Shadow” by the PHD Servers on the Level 3 LAN.
The previous diagram illustrates the following configuraton:
• “Shadow” and “Collector” PHD Servers share a common reference database, maintained by a SQL Server RDBMS located on “Shadow”. Both servers share the identical configuration information. This allows “Shadow” to maintain identical data as “Collector” by retrieving its data and storing it locally.
• The Clients accessing history data through “Shadow” (typically, the Level 4 clients) are able to access data collected by “Collector” transparently. This configuration is commonly used to isolate a Level 3 history server, in this case, “Collector”, from any dynamic load imposed by client data queries from Level 4. In addition, the existence of PHD Server “Collector” is unknown to the Level 4 clients, allowing greater control on the security of the Level 3 system.
• “Peer” PHD Server uses its own reference data independent from that shared by the other two servers, effectively isolating this server from Level 4 entirely. Its configuration and the data values it stores are not accessable to Level 4 clients; however, you can replicate configuration information from this server in a configuration database used by the other two PHD Servers, so they provide access to a portion, or all, of the historical data maintained by “Peer”.
• Both “Collector” and “Peer” are configured to use real-time interfaces that collect data from the same DCS. These two servers, using separate databases, operate as peers and may be configured to store data samples for the same point variable.
4.4 PHD OPC Server Instances You must install and configure a separate PHD OPC Server for each PHD Server in the system. The PHD OPC Server can be installed in the following locations:
• On each PHDServer,
Or
• On each client that wants to use OPC to connect to a particular PHD Server.
4 Overview of Uniformance PHD 4.5 Read/Write Access to PHD Data
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4.5 Read/Write Access to PHD Data Uniformance client applications access the PHD Server to obtain current and historical values from the archival database. These clients use an application interface provided by Uniformance PHD. In addition, these clients may also request specific data reductions to be performed, such as average and standard deviation.
The ability to read or write values of a PHD tag is controlled by a PHD tag security configuration for each tag in the PHD Server database.
You can restrict access to a PHD tag to specific users.
You can configure values written to PHD to be forwarded to the DCS.
4.6 Introduction to PHD Security You administer PHD security through the Uniformance PHD Configuration Tool application (previously named TPI) – it enables you to configure individual users and their access rights. You control PHD security through the configuration of security attributes in the PHD database, enabling or restricting access to PHD data and functions on a per user basis. The security configuration is based on the definition of users and roles.
A user is configured in PHD with a name and password used to connect or log on to the PHD system. Once configured, the user becomes an authorized client of the server.
Roles specify the level of access available to a user after they connect to the server. Access is granted to a PHD configurable object of the following types:
− a Tag (that is, a point.variable),
− a Real-time Data Interface (RDI), or
− a Function.
A user's access right to each configurable object in the PHD database (Tag, Interface, and Function) may be granted by a Role. A role is a configuration entity in PHD, reflecting the set of privileges that may be assumed by a given user on an object. The basic privileges that may be granted are Read, Write and Configure.
For example, you can define a role that enables the user to write values to tags configured in PHD. You can assign this role to individual PHD Tags, or to an RDI that in turn has numerous tags assigned to it. A user with this role can write data to a tag with the same role.
However, the ability to write data to a tag in PHD, and to the data source, such as the DCS, is restricted by additional configuration options on each individual tag.
4 Overview of Uniformance PHD 4.6 Introduction to PHD Security
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Once implemented, PHD security is absolute. All access is governed by the privileges granted by the roles assigned to the user and PHD objects. There are no default privileges.
Enabling/disabling PHD Server security
The security configuration controlled by the PHD Server is optional, and may be enabled or disabled:
When security is… PHD data is…
Disabled “Public”, and security is limited to the validation of a user name and password when connection is made to the server. All requests to read and write values are honored, with the exception that the ability to write data values may be restricted by configuration attributes for each point.variable.
Enabled "Private", and users must be configured by name in PHD before access to any data is allowed. In addition, a user is configured with a specific set of rights, or role, which governs the operations that may be performed.
Changing user rights
It is not possible for a PHD user to dynamically assume a new role. Since users are associated with roles after logging on to the PHD Server, changing a user’s access rights requires you to first change the PHD reference database. The user must log out and log back in to assume the new rights.
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4.7 PHD Server's interpolation and extrapolation PHD uses both interpolation and extrapolation to provide a value at any given time. This anticipates what the value would be at a specific time, based on known data.
• Interpolation derives a value at a specific time between stored data values.
• Extrapolation derives values for a point in time that has not yet been stored.
REFERENCE: For detailed descriptions of PHD interpolation and extrapolation, refer to the PHD User Guide (pim0201).
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5. Using the PHD OPC Server
5.1 Overview This section describes how an OPC client application accesses data through the PHD OPC Server.
The client must use the OPC interfaces to read data from the PHD OPC Server cache or from the device (in this case, the PHD Server), and to write data to the PHD Server Database.
The PHD OPC Server allows OPC client applications to access the same PHD functionality as Uniformance clients using a combination of Data Access (DA) and Historical Data Access (HDA) standard interfaces.
The PHD OPC Server does the following:
• Reads values from PHD for
− a single point variable
− each point variable in a list
• Writes values to PHD for
− a single point variable
− each point variable in a list
5.2 Guidelines for Accessing PHD Values Any call to read data returns a maximum of 2000 values by default. The OPC Specification states that a client requiring more than this will see a OPC_S_MOREDATA error condition and should repeat the call to obtain the next block of values until the condition no longer occurs.
The maximum number of values returned by a single call to the OPC Server can be modified by issuing a 'PHDMAN SET DEFPHDATAVAL xxxx' command where 'xxxx' is the number of values to return.
Groups with a high item count may cause excessive CPU usage by the PHD OPC Server. When a client is accessing a large quantity of items, Honeywell recommends that the items be split into multiple groups of about 250.
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5.3 Creating a PHD OPC Server Client Application The PHD OPC Server is designed to be used by any client application implemented to support OPC Data Access interface standards or OPC Historical Data Access interface standards. There are numerous existing commercial software products that provide this functionality; however, you may need to create a custom application to meet the requirements of an operational environment.
Required expertise Developing an OPC client application is not a trivial undertaking. You must be familiar with OPC and the underlying Microsoft DCOM architecture, and should be well versed in the development of applications in Visual C++ or Visual Basic. There are numerous documents available that will help you obtain the necessary expertise.
If you are developing an OPC client application that uses the PHD OPC Server, become familiar with the Uniformance PHD to understand the fundamentals of its implementation and the services it provides.
Software developer tools
The standard OPC interface definitions and run-time libraries are provided by Microsoft Corporation on Windows development platforms. Any client application developed using Microsoft tools and libraries can access data through the PHD OPC Server.
Typically, Microsoft Visual Basic and Visual C++ are used to create a client application that uses OPC methods to access data from an PHD OPC Server. You can choose from several commercially available software tool sets to accomplish this task.
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5.4 PHD OPC Data Standards for Client Applications The PHD OPC Server is compliant with the IOPCServer definition of the latest OPC Data Access Standard. All mandatory interfaces are implemented per the standard specification; however, not all optional interfaces are implemented.
The client application should use the QueryInterface mechanism as specified by OLE and OPC to determine if a server supports a given interface. For all interfaces that are not implemented, the PHD OPC Server returns the status E_NOTIMPL as specified by the standard.
HRESULT
In order to make the return interface consistent with OPC APIs, the PHD OPC Server uses a consistent 32-bit return value called HRESULT. Each API description includes a table of returned HRESULT values.
PHD OPC interfaces return the following status values:
• S_OK
• E_FAIL
• E_ABORT
• OPC_E_UNKNOWNITEMID
• OPC_E_BADRIGHTS
• E_ACCESSDENIED
• E_NOTIMPL
• E_INVALIDARG
• E_UNEXPECTED
• E_NOINTERFACE
• E_POINTER
• E_OUTOFMEMORY
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PHD OPC name forms You can access data items by name using the OPC standard interfaces. The PHD OPC Server accepts item names as identifiers of PHD Server tags. The name syntax is a free form text string.
Item name conventions
The system-wide naming conventions used to identify a DCS point.variable must be consistent throughout all system components. Variable names configured in the DCS must match, and be closely coordinated with those configured in PHD Server database.
PHD tag name conventions
REFERENCE: For PHD tag naming conventions, refer to the Tag Configuration form in the PHD User Guide (pim0201).
Supported data types
The following table shows the supported data types common to Honeywell, and how the PHD OPC Server maps them into OPC data.
The PHD OPC Server supports access of the following data types. In the case where the source attribute is set to BARRAY the OPC Server will return an array of values. The actual data type will depend on the data stored in PHD, since the data is actually stored as a Safe Array and can contain different data types. Otherwise each item maps to a single PHD tag whether or not it came from an array on the source system.
This Honeywell data type… Maps to this OPC type…
Real – 32 bit IEEE format (float) VT_R4
Real – 64 bit IEEE format (double) VT_R8
Standard and Self Defining Enumeration VT_BSTR
Ordinal VT_I4
String VT_BSTR
Integer – 32 bit signed VT_I4
Integer – 64 bit signed VT_CY
Binary – SRC_ATTRIB is set to BARRAY VT_* | VT_ARRAY
Binary – All other cases VT_UI1 | VT_ARRAY
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Array indexing PHD support for array data types depends on the real-time data interface (collector) being used. Each element of an array type DCS parameter must be configured as a separate PHD Tag.
If you need to access an array element through the PHD OPC Server, you must configure a corresponding PHD Tag for the element. For example, the following DCS names would map to specific PHD tags, each of which must be configured in PHD to reference a specific element of the point parameter named A100.PV:
[lcn1\]A100.PV[(1)
[lcn1\]A100.PV[(2)
[lcn1\]A100.PV[(n)
REFERENCE: For more information about configuring tags in PHD, please refer to the PHD User Guide (pim0201).
REFERENCE: For more information about binary array tags in PHD, please refer to the PHD Array Tag User Guide (pim3701).
Enumerated data types PHD provides two methods for managing ordinal/enumeration data.
Method 1:
In PHD 210 and later, you can create an enumeration string table and PHD chooses the correct string from the enumeration table based on the ordinal value collected from the control system. The digital enumeration ordinal would be defined as integer tag.
To designate the integer tag as a digital enumeration, you must enable the tag’s Digital Enumeration flag, and then specify the name of the digital enumeration table, allowing PHD to map the enumeration in the table to that ordinal. Users can request the data as a string, in which case PHD returns the enumeration rather than the ordinal.
Method 2:
Alternatively, the collector can retrieve the enumeration string from the control system. You can configure values for enumeration variables in PHD as either of the base types, Integer or String. To obtain values for both types from a single variable, you must configure two independent PHD tags, one to store the Integer value for the enumeration ordinal, and the other to store the string representation. When you configure PHD to store enumeration types, use a convenient convention to select the PHD name. For example:
• LCN1.GEN1MODE (string value)
• LCN1.GEN1MODE.internal (ordinal value)
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• LCN1.GEN1MODE.string (string value)
The above examples are item names as referenced through the PHD OPC Server. Each would be configured in PHD to reference the same DCS point.variable, such as GEN1.MODE. The data type stored for the PHD variable would be either Integer or String. The use of convention, which adds subscript text in the name to differentiate the data type, simplifies application development and system administration of the name space.
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Interpreting data quality The PHD Server represents data quality as a percentage of confidence, with a range of 0 to 100 %. Under most conditions, a data value is always represented by a confidence of 100%, indicating a good value, a confidence of 0, indicating a uncertain value. Normally, values between 0 and 100 are reserved for representation of confidence as a result of extrapolation from known good values.
A special confidence factor value of –1 is reserved to indicate when data is not available and must be considered bad quality. This Bad Data status normally indicates a period of outage caused by server shutdown or loss of communications with the DCS.
The confidence factor assigned to a value is derived at the time the data value is collected from the remote data owner, such as the DCS. The confidence is derived from the specific status of the value as reflected by the underlying DCS system.
Using a simple percentage of confidence in value storage relieves the PHD Server from having to store specific status indication that would require distinct interpretation for each type of DCS or other equipment from which data is collected.
The PHD OPC Server translates the PHD confidence factor to the appropriate OPC Data Quality indications.
PHD Confidence OPC Quality
Factor Quality Sub-Status
100 Good Non-Specific
-1 Bad No Data
(Comm Failure, Nan)
>0 and <100 Uncertain Non-Specific
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Data confidence versus data quality Applications programs that insert data into PHD, for example, using PHD Manual Input tags, should (but are not guaranteed to) follow these conventions. An application may choose to assign any confidence between -1 and 100 to a PHD data value when it is stored.
A confidence of… Is assigned to this data value…
100% A data value known to be accurate.
0 A data value that is derived, extrapolated or otherwise "assumed".
50% (degraded confidence) A data value which can be accurately extrapolated by regression formula using values recently stored in the PHD database that are known to be valid.
-1 Any error that prevents an RDI from presenting a data value obtained from the DCS interface, for example, a communications error, is a No Data condition. This has a data value of 0.
Out of range and NaN values
By definition, an Out of Range data value is any value that exceeds the configured Range Hi or Range Low for the PHD tag. With only one exception, all out of range values are arbitrarily assigned a confidence of zero when inserted into PHD by collectors. In addition, Out of Range values are clamped to the PHD configured range limit that was exceeded.
The only exception to this convention is NaN (not a number) values collected from the DCS by the collector. PHD assigns NaN values a confidence factor of –1, the same as No Data.
Data for requested time of NOW The PHD OPC Server, by default, returns as-stored (or raw) data values obtained from the PHD Server. Process data values are periodically collected and stored in the history database. This means that data values are periodic, and a data value returned to a client for a requested time of NOW may actually be the most recent value, not a real-time current value.
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Extrapolated values You can use the PHD OPC Server to return extrapolated values. To use extrapolation, the OPC items specified by the client must refer to PHD tags that are configured appropriately.
The PHD Server configuration allows you to use syntax to specify the dynamic use of extrapolation when values are referenced - this syntax is specified in the source tag specification of the tag configuration. The specific notation invokes a dynamic data reduction (virtual calculation) by the PHD Server to perform the extrapolation.
For example, the following syntax specified in the source tag specification field of the PHD tag SRC_A.A100PV.extrap invokes extrapolation of the current value from the PHD tag SRC_A.A100.PV:
SRC_A.A100.PV{,,NOW,NOW,}
Since an extrapolated value is derived from actual data prior to the specific request time, it has a confidence factor of less than 100%.
The PHD OPC Server translates the PHD value confidence to OPC data quality. For extrapolated values, the OPC data quality is always Uncertain, and the sub-status is Non-Specific.
For the definition of the mapping of PHD data confidence to OPC data quality, refer to Interpreting data quality in this guide.
Interpolated values The PHD OPC Server calculates interpolative and time average aggregates as follows.
INTERPOLATIVE (snapshot)
For PHD tags configured with non-float data types (not Float or Double), or with Manual Input enabled, or with Interpolation Method of Step, the PHD OPC Server uses stepped interpolation; otherwise it uses linear interpolation.
TIMEAVERAGE
For the time-weighted average aggregate, the PHD OPC Server uses linear interpolation.
REFERENCE: For other aggregates, refer to the OPC HDA Specification (Custom Interface Specification Version 1.2_Errata 1) Feb 9, 2004. http://www.opcfoundation.org/forum/viewtopic.php?t=345&postdays=0&postorder=asc&start=0
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Index array indexing
for client applications, 51
client applications
creating for PHD OPC Server, 48
creating standard for OPC, 48
common reference database, 42
confidence
interpreting data quality, 53
confidence versus quality, 54
configuring PHD OPC Server
using default installation configuration, 15
creating
client applications for PHD OPC Server, 48
data quality
interpreting, 53
data standards
array indexing, 51
for client applications, 49
interpreting data quality, 53
OPC standards and conventions, 49
PHD OPC name forms, 50
supporting data types, 50
supporting enumerated data types, 51
understanding confidence versus quality, 54
using extrapolated values, 55
using NaN values, 54
using out of range values, 54
data types
for client applications, 50
DCOM
running DCOMCNFG, 15
setting up when configuring, 15
DCOMCNFG, running, 15
default installation configuration, using, 15
setting up the DCOM, 15
defining
array indexing, 51
confidence, 54
data data quality, 53
data types, 50
enumerated data types, 51
extrapolated values, 55
interpolated values, 45
name syntax, 50
NaN values, 54
out of range values, 54
peer server, 40
quality, 54
shadow server, 40
Distributed COM Users group, 34
document
Index
58 • Uniformance - PHD OPC Server User Guide
about the sections, 9
document, about, 9
references, 9
enumerated data types
supporting for client applications, 51
example PHD server setup, 40
extrapolated values, using, 55
HRESULT
OPC standards and conventions, 49
indexing, array, 51
interpolation, defining, 45
Launch and Activation Permissions, 31
modifying
configuration properties for COM components, 15
multiple PHD Servers, 40
configuring peer server, 40
configuring shadow server, 40
name forms for PHD OPC, 50
naming PHD Servers, 50
NaN values, using, 54
OPC standards and conventions
for client applications, 49
HRESULT, 49
out of range values, using, 54
peer server, configuring in PHD, 40
typical system, 40
PHD OPC name forms
for client applications, 50
PHD OPC Server
about the User Guide, 9
configuring using default installation, 15–35
PHD security
administering, 43
user rights, 44
using from PHD Server, 44
PHD Server
configuring multiple, 40
naming conventions in TPS domain, 50
PHD servers
example, 40
security
change of user rights, 44
using PHD Server configuration, 44
setting up
DCOM for default installation configuration, 15
shadow server, configuring in PHD, 40
standard OPC client application
creating, 48
Uniformance client applications, 43
Uniformance PHD OPC HDA Server, 28
User Guide, about, 9
references, 9
Index
Uniformance - PHD OPC Server User Guide • 59
user rights,change, 44
using PHD OPC Server
creating client applications, 48
data standards, 49