Workbench User Guide

Version 1.6.0

© Microsol Limited 2002 This document contains proprietary information of Microsol Limited. The information and designs in the document are covered by international copyright and a number of international patents existing and pending. Microsol, and its legally appointed licensees, reserve the right to seek full redress in the case of any infringement. The information in this document is subject to change without prior notice. Microsol does not assume responsibility for any errors in fact or design in this publication. Specifications can and do vary in different applications. The publication is provided for general information only and shall not form part of any contact.

Microsol Contact Information Address: Microsol Limited, Advanced Technology Solutions Trinity Complex, Pearse Street, Dublin 2, Ireland. Phone:

+353-1-415 3700

Fax:

+353-1-671 6343

email:

[email protected]

web:

www.microsol.com

Document Change Control Date th

12 December 2002

Document Status st

1 Draft For Review

Agent / Authors Anglobyte (Software Solutions)

Sign Offs / Draft / Rev

Contents Document Change Control ____________________________________________ 3 Contents ___________________________________________________________ 5 Reference Documents_________________________________________________ 7 Introduction to Microsol Workbench ____________________________________ 9 Installation ________________________________________________________ 10 System Requirements ___________________________________________________ 10 Installation ____________________________________________________________ 10 Uninstalling ‘Microsol Workbench’ _______________________________________ 13 Starting ‘Microsol Workbench’ ___________________________________________ 13

User Interface ______________________________________________________ 14 The Workspace ________________________________________________________ 14 The Work Areas________________________________________________________ 15 The ‘Tool Box’ _______________________________________________________________ 15 The ‘RTU Live’ Panel _______________________________________________________ 16 The RTU icon menu _______________________________________________________ 17 The Hub Menu ___________________________________________________________ 18 The Software Menu _______________________________________________________ 19 Downloading the current project______________________________________________ 20 The ‘Elements’ Panel ________________________________________________________ 20 Configuring the Elements Panel ______________________________________________ 22 The ‘Project’ Area ____________________________________________________________ 23 The 'Add Records' Menu _____________________________________________________ 24 The 'Data Manipulation' Menu _________________________________________________ 24 The ‘Message’ Box____________________________________________________________ 28

The Main Menu ________________________________________________________ 30 File Menu ___________________________________________________________________ 30 Edit Menu ___________________________________________________________________ 32 View Menu __________________________________________________________________ 32 Window Menu _______________________________________________________________ 32 Help Menu __________________________________________________________________ 34 The Tool Bar_________________________________________________________________ 34

Tutorial ___________________________________________________________ 35 Start a New Project (Workbench 1)________________________________________ 36 Create an RTU with a single bay with a single unit in the bay __________________ 36 Add I/O and protocol to the unit __________________________________________ 37 Configure the I/O points and protocols _____________________________________ 38 Download complete configuration to an XCell RTU __________________________ 41 Upload the stored configuration from the RTU.______________________________ 42

Glossary___________________________________________________________ 43 Troubleshooting and Technical Support_________________________________ 44

Appendices ________________________________________________________ 45 Appendix 1 ____________________________________________________________ 45 Tutorial SDI Configuration______________________________________________________ 45 Tutorial DOT Configuration _____________________________________________________ 45 Tutorial AIN Configuration _____________________________________________________ 45 IEC60870-5-101 Slave Configuration _____________________________________________ 46 IEC60870-5-101 Slave Gen Table ______________________________________________ 46 IEC60870-5-101 Slave Map Table ______________________________________________ 47

Interpretation of the 'Change Messages' ____________________________________ 48 I/O Status Field (Field 6) _______________________________________________________ 48 Field Description (Field 4) ______________________________________________________ 49

Reference Documents The following documents should be used in conjunction with this document “Microsol Workbench Users Guide” to provide complete information for the configuration and use of the XCell RTU. 1. 2. 3.

Workbench Type Editors Users Guide, Version 1.00, Microsol Ltd, January 2003 XCell User Manual, Version 1.09, Microsol Ltd. December 2001 eXpress Users Guide, Version 1.xx, Microsol Ltd. December 2001

4.

WinIEC Users Guide, Version X.XX, Microsol Ltd, December 2001

Introduction to Microsol Workbench The Microsol ‘XCell’ group of products is a complex, configurable Remote Telemetry Unit (RTU) that comprise ‘XCell’ racks, cards and associated software modules enabling the user to specify an RTU that will be ‘custom built’ to his requirements. It is because of the great flexibility of the 'XCell' system that an simple but effective configuration tool is required to enable the full scope of the 'XCell' functionality to be realised, 'Microsol Workbench' fulfils that requirement. The ‘Microsol Workbench’ has very low resource requirements (it will run successfully on most 'modern' PC's running Microsoft Windows NT4, Windows 2000 and Windows XP). It is a PC based graphical tool for producing configurations for the Microsol ‘XCell’ series of Remote Telemetry Units (RTU’s). Using a ‘Drag-and-Drop’ RTU contruction interface in a Microsoft Windows environment it allows the user to set-up and maintain configurations for RTU's of various sizes from the simplest single Unit RTU to complex RTU's with up to 254 units distributed over many racks and Bays. To aid configuration of the RTU, data may be imported into 'Workbench' from Microsoft Excel spreadsheets. Once the individual RTU configuration has been created by 'Workbench' it, or any structural part (Bay or Unit) can be downloaded to the 'XCell' hardware via the host computers RS-232 serial interface port where it is distributed by the 'XCell' network to the relevant unit processor in the RTU. Additionally it is possible to store archive copies of the configuration, in compressed format, on the target RTU so that these may act as a reference for later retrieval should modification be required at a later date. As well as the main configuration function 'Workbench' has the ability, while connected to the 'XCell' network to act as an RTU monitor displaying 'change messages' that are being transmitted around the 'XCell' network. This facility is useful in debugging configurations before the configured RTU's 'golive' in the field.

Installation System Requirements In order to run the ‘Microsol Workbench’ configuration program you will require a computer system with at least the following minimal resources: 1.

A 500MHz or better Pentium class PC processor

2. 3.

32 Mbytes or more of Random Access Memory (RAM) Minimum 40 Mbytes of Hard Disk Space for the program, additional hard disk space will be required for storing the individual configurations A Windows supported graphics adapter supporting 256 colours or more and a 4x CD-ROM drive. Microsoft NT Workstation 4.0 or better (Windows 2000 or Windows XP are OK) An RS-232 serial communications port, although this is not necessary to run the configuration program you will not be able to download the configuration to the 'XCell' unit or monitor the unit without it.

4. 5. 6.

Installation To install ‘Microsol Workbench’ on your computer you need to: 1. 2. 3. 4. 5.

Turn on your computer. Remove the installation CD from the case and place it in your CD-ROM drive. Double-click the ‘My Computer’ icon on your desktop. Double-click the CD-ROM icon Double-click the ‘Setup.exe’ program icon, this should then start the installation program and display the dialog shown in Figure 1.

Figure 1 - Microsol Workbench installer welcome screen

6.

If at this point you do not require to install ‘Workbench’, click ‘Cancel’ and the installer will abort the installation, otherwise click

‘Next’ and the installer will present the installation folder selection dialog as shown in Error! Reference source not found..

Figure 2 - Select Installation Folder Screen

7.

8.

Although it is recommended that you install the program into the default folder you can use this dialog to select another location for the installation. Additionally the ‘Workbench’ can be installed in a ‘singleuser’ or ‘multi-user’ environment. You can select whether you require a single user (‘Just Me’ radio button) or multi-user (‘Everyone’ radio button) installation. Although the installation disk space requirements of the program are modest you may wish to check that sufficient space is available on your hard disk, if you do, click the ‘Disk Cost’ button. This will present you with a list of your hard drives and the amount of space available for installation and the amount of space require for installation of the program (currently ~27Mbytes), ensure that you install the program on a drive with sufficient space. Once you have finished the selections click ‘Next’ and the installer will ask you to confirm the installation, as shown in Figure 3

Figure 3 - Installation confirmation

9.

Once you have confirmed that it is OK to proceed by clicking ‘Next’ the installation will start showing the progress bar as shown in Figure 4.

Figure 4 - Installation progression

10.

The final dialog will confirm the installation is complete and the ‘Workbench’ is ready to be used; this is shown in Figure 5.

11.

Finally the installer will place the Microsol Workbench icon on your desktop.

Figure 5 - Installation Completion

Figure 6 - Microsol Workbench desktop icon

Uninstalling ‘Microsol Workbench’ If at any time you require to uninstall ‘Microsol Workbench’ you will have to out the following steps: 1. Click the ‘Start’ menu, then ‘Settings’ and finally ‘Control Panel’. 2. 3. 4.

Double click the ‘Add/Remove Programs’ icon. Find the ‘Microsol Workbench’ entry in the list displayed and singleclick it. Finally click the ‘Remove’ button, this will then remove the program from your computer, it will not however remove any 'XCell' configurations that you have created, these must be removed separately using Windows Explorer.

Starting ‘Microsol Workbench’ Microsol Workbench can be started by double clicking the icon on the desktop (Figure 6) or selecting the program from the ‘Start’ program menu, then selecting 'Programs' followed by 'Microsol Workbench' as shown in Figure 7. The program will then present a blank workspace to enable you to begin configuration of the RTU.

Figure 7 - Microsol Workbench Start-up

User Interface The Workspace When ‘Microsol Workbench’ starts it will present the default workspace similar to that shown in Figure 8 below. This provides the blank project workspace from which you are able to create a new configuration for a single RTU. This RTU can contain any of the structural items available (Bays or Units) from the 'Toolbox' area while these in turn can contain combinations of I/O points and protocols depending on your requirements. The default workspace comprises three main areas or panels, ‘Tool Box’, ‘Project’ and ‘Messages’ panels, the usage of the three work areas is controlled by menu's available by 'right-clicking' in the required panel, general actions on the complete project workspace are controlled by the workspace menu and the toolbar. The purpose of the workspaces menu and toolbar and use of each panel and their associated menu's will be described in more detail in the following sections of this the Reference chapter. An example of using the panels to create a complete configuration will be described in the Tutorial section later in this document. Each of the three panels within the workspace can be resized by dragging the edge of the pane to the required size, appropriate readjustments will be made to the surrounding panels. In addition the ‘Tool Box’ and ‘Messages’ panels are also ‘dockable’ by double clicking the docking icon and removable by double clicking the close icon (see Figure 8). Panels that have been removed can be restored using the relevant 'check box' in the ‘View’ menu.

Menu Toolbar Docking Icon Toolbox

Project

Remove Icon

Messages

Figure 8 - The Microsol Workbench

Network Communications Status

The Work Areas This section of the User Interface Guide contains detailed functional descriptions of the three main work areas, the ‘Tool Box’, ‘Project’ and ‘Messages’ panels within ‘Microsol Workbench’ project workspace. These three areas and other notable parts of the 'Workbench' user interface are shown in Figure 8. This section of the Users Guide provides a description of 'what each action does’; further details of 'how the panels are used to create a complete although rudimentary configuration' are given in the Tutorial section later in this document. A number of functions are available across the workspace, each panel can be resized both horizontally and vertically by 'dragging' the appropriate edge to the required position. If the width of the 'Tool Figure 9 - The 'Elements' Box' panel or any panel in 'Workbench' has panel showing the panel menu been reduced in such a way that all of the and 'small' icons tabs cannot be seen at once. Then the partial tab and any hidden tabs are replaced by the first panel in the tab list from the left and a pair of 'scroll' arrows. The hidden panes can be made visible by clicking the relevant scroll arrow and then clicking the required tab. The filled arrow shows that there are further elements to be displayed while the empty arrow shows the end of the list of tabs has been reached. The 'Toolbox' and 'Messages' panels can be removed by clicking the 'remove' icon and restored using the 'View' menu options. These two panels Figure 10 can also be detached from their position in the workspace and made to 'Toolbox' 'float' over the remaining panels, using the docking icon, allowing them to showing tab be positioned where required. scroll arrows

The ‘Tool Box’ The ‘Tool Box’ is a dockable (see above), tabbed panel that provides two stacked panels (the 'RTU Live' panel is displayed by default) that is located in the upper left of the project workspace by default. The default panel, (‘RTU Live’) provides access to the ‘on-line’ ‘XCell’ RTU. Allowing reporting of the network structure, both hardware and software (software modules can be downloaded and uploaded to and from the RTU). Monitoring of the ‘XCell’ communications network via the 'Change Messages' pane in the 'Messages' panel, see the relevant section for details. Downloading of all or part of the configuration created by ‘Workbench’ and uploading of archived configurations stored on the RTU processor hardware for modification within 'Workbench' should this become necessary. However, the facilities of the 'RTU Live' panel are only available if ‘Workbench’ is connected to the ‘XCell’ network via the RS-232 communications port. Both of these tabs can be seen in the ‘Workbench’ image in Error! Reference source not found.. The second panel, (‘Elements’) contains the library of objects that can be used by 'Workbench' to create an RTU. The 'Elements' panel allows the selection, by dragging and

dropping into the 'Project' panel, of these iconic representations to hierarchically construct a representation of the RTU hardware. Configuration of the I/O and protocols is carried out in the 'Project' panel, see the relevant section for the description of the 'Project' panel. The library of components is divided into four panes, one group per pane, they are the 'Project', 'Point', 'eXpress' and 'Slave Protocols' groups. Each of these panes may be sub divided further for ease of manipulation of the supported groups where necessary. Further groups may be added to the 'Elements' panel when new components become available or are constructed using the Microsol Type Workbench program that is included with the 'Workbench' distribution but is the subject of another User Guide, see that document for details of constructing new 'Workbench' components.

The ‘RTU Live’ Panel The ‘RTU Live’ panel allows ‘Workbench’ to report on and perform a large variety of operations on the XCell RTU connected to the computer running 'Workbench'.

Figure 11 - Workbench to XCell Communications Not Working

Figure 13 - The RTU Live Panel

NOTE: This panel will Figure 12 - Workbench only provide useful information to XCell if the PC running 'Workbench' Communications is connected to the RTU via a Working serial link. After physically connecting the 'Workbench' host PC to the XCell RTU you must select the required network protocol using the protocol selection menu. This is activated by right clicking on a blank area in the 'RTU Live' panel or right clicking on the RTU icon in the panel, this menu is

Figure 14 - XCell network protocol selection menu

shown in Figure 14. Selecting the protocol will enable another dialog from which you must select the communications port used to connect 'Workbench' to the XCell RTU, this is shown in Figure 15.

Successfully completing these two steps will enable 'Workbench' to begin communicating with the RTU. Once 'Workbench' is in communication with the RTU it will update the Network status icon in the bottom right of the 'Project' work area, see Figure 8. If there is no connection the 'blocked' icon is shown, if the connection is good the network icon is displayed unblocked. These two icons are shown in the Figure 15 - Serial Port selection for RTU accompanying Figure 12 and 13 respectively. communications As an additional check that the network is functioning correctly it is possible to detect communications activity on the network by monitoring the 'Workbench' host and RTU icons in Figure 13. The relevant icon (host computer on the left and RTU on the right) will briefly flash when the relevant unit is transmitting a message. The first action ‘Workbench’ will carry out when it is connected to the RTU is to interrogate it to determine the hardware structure of the RTU and the software (NAMED BLOCK's), including configuration data that are present in the system. This structure is

displayed in the 'RTU Live' panel as an iconic system map as shown in Figure 16. In addition the current network time will be displayed at the top left of the 'RTU Live' panel, this also can be seen in the Figure. This map comprises three columns as can be seen from Figure 16, these are: •

The diagrammatic (iconic) representation of the 'Workbench' host PC (254-Windows) and connected RTU including all processors and software function modules (NAMED BLOCK's).

•

The version number detected software (NAMED BLOCK)

of each module

Figure 16 - The 'RTU Live' panel after connecting to the XCell RTU

•

The start address of each NAMED BLOCK in the processor memory address space. Once the structure of the RTU has been determined by 'Workbench' the operations that can be carried out are accessed through a series of context sensitive menus applicable to each of the major units within the RTU (these are the RTU, the Hub or the Software). Many of the options are common to several menu's therefore where common options are available they will only be detailed in one menu.

The RTU icon menu The RTU network menu, accessed by right-clicking the RTU icon in the network diagram, is shown in Figure 17, this menu has a number sub-menus to access the various function groups, these functions are described briefly below: Update All Units – Will force 'Workbench' to interrogate the connected XCell RTU and update the 'RTU Figure 17 - RTU Network Live' display. This should be used if any hardware or function menu software, and this includes a new configuration download, has been changed in the target XCell RTU. Project Sub-Menu This sub-menu contains 'Workbench' configuration project related operations that can be carried out in the 'RTU Live' panel, this sub-menu is shown in Figure 18. Download DMF – Downloads the last version of the current project, saved as a DMF file, to the RTU, the master Figure 18 - The Project Sub-Menu processor within the RTU then distributes the configuration data to the relevant processors as required. Upload Project – Uploads the local copy (held in the memory of the Master Processor of the connected RTU) of the last downloaded project from the RTU to 'Workbench'. The project file is stored on the unit as a compressed 'ZIP' file, this is what is uploaded and can then be opened and modified in 'Workbench'. The option is not available ('greyed-out' see

Figure 18) unless the RTU reports the presence of the archived configuration file when 'Workbench' first interrogates it. 1.RTU Database Messages Sub-Menu This sub-menu contains the options for enabling and disabling RTU database message reporting in ‘Workbench’; these change messages are then displayed in the 'Change Messages' pane of the 'Messages' panel. Details for interpreting the data displayed in the 'Change Messages' panel are given in that section and it's associated Appendix, this sub-menu is shown in Figure 19. Enable All Change Messages – Enables the reception and logging of all Figure 19 - The RTU Database Messages Sub-Menu change messages transmitted on the connected XCell network, these messages are displayed in the 'Change Messages' pane of the 'Messages' panel as shown in Figure 20. Disable All Change Messages – Disables the logging of the network change messages for the connected RTU.

Figure 20 - Change Messages From Connected RTU

The Protocol Sub-Menu This sub-menu contains the XCell RTU communications protocol selection options between 'Workbench' and the RTU, this menu is identical to the protocol selection menu described in the protocol selection section above and shown in Figure 21.

The Hub Menu By right Figure 21 - The Protocol Sub-Menu clicking on the 'Hub' icon in the 'RTU Live' panel a different menu is available as shown in Figure 22. This menu contains three sub-menus, Project, Figure 22 - The HubMenu

Front Panel Display and Database Messages, the Database Messages menu is identical in function to that described in the RTU menu above and will not be described here.

The Project Sub-Menu This sub-menu contains 'Workbench' software NAMED BLOCK and archived configuration related operations that can be carried out using the 'RTU Live' panel, this sub-menu is shown in Figure 23. Upload – Uploads the local archived copy (held in the memory of the connected RTU) of the last downloaded project from the RTU to 'Workbench'. The project file is Figure 23 - The Project Sub-Menu stored on the unit as a compressed 'ZIP' file, this is what is uploaded and can then be opened and modified in 'Workbench'. The option is not available ('greyed-out' see Figure 17) unless the RTU reports the presence of the archived configuration file when 'Workbench' first interrogates it. Download - This option allows you to download new software modules (NAMED BLOCKS) to the relevant processor thereby allowing 'on-line' updating of the processor software. Please note that this option is NOT available where the XCell processor module is not fitted with a Flash EPROM memory module, the FXP-010. The Front Panel Display SubMenu This sub-menu contains 'Workbench' options to change the front panel display of the attached RTU mimicking the actions of the FUNCTION button on the front panel of the processor module of the XCell unit, this sub-menu is shown in Figure 24. Group A, Group B, Group C and Group D – The maximum number of I/O points that are currently supported by a Figure 24 - The Front-Panel Display Sub-Menu single XCell unit is 256 (four digital input cards with 64 digital I/O per card). As the front panel of the XCell processor unit has only 64 status LED's these 256 I/O points are split into four groups of 64 (Groups A-D). These four menu options allow you to see the status of one of these I/O point groups on the front panel status display (Group A 0-63, Group B 64-127, Group C 128-191 and Group D 192-255). Online Units – This changes the processor unit front panel display to show the XCell units that are currently communicating on the network, only the first 64 units can be shown. Debug – This option changes the XCell processor front panel display LED's into a debug panel, the LED's reflect the status of the processes currently active in the XCell processor unit, please refer to the relevant process (I/O point or protocol) debug manual for information to interpret this display.

The Software Menu This is similar to the above two sub-menu's, by right-clicking on the individual software items displayed in the system map the 'Software Menu' shown in Figure 25 will be displayed. This simple menu allows you to upload the relevant named block or to delete it from the system. (Please note however that deleting the named block is not possible unless the processor containing the named block is fitted with the Microsol Flash Memory Module FXP-010, the named block is not protected, and the named block is loaded into this unit).

Figure 25 Software SubMenu

Downloading the current project The main function of the 'RTU Live' panel is to allow you to download to the XCell RTU part or the entire current project. Note, however that the project must be saved before you can download it to the RTU and the XCell RTU MUST be online. Starting the download of the project Figure 26 - Project download progress box data is achieved simply by dragging the project element (this can be either the whole RTU, a bay, unit or I/O Group) from the 'Project' panel into the 'RTU Live' panel, this action will start the download operation. A series of progress boxes, see Figure 26 for an example, and will be displayed showing the download status of each individual item in the download. If you have specified a redundant unit in the 'Project Information' box and this unit is not online, 'Workbench' will advise you of this, and give you the opportunity to abort the operation. If you continue to download, the configuration for the online units will be downloaded but the archive copy of the project WILL NOT be downloaded and as such will NOT appear in the 'RTU Live' RTU structure display. Project 1 Download After the completion of the project download you can use the 'Update All Units' menu item, see above, to force 'Workbench' to Figure 27 - The XCell RTU after unit 1 update the RTU structure display, Figure 27 project download shows status of the test RTU after downloading the project data for Unit 1 only.

The ‘Elements’ Panel The ‘Elements’ panel contains the library of components used to make an XCell RTU configuration. By default it is composed of four tabbed sub-panes, these are the 'Project', 'Point', Slave Protocols' and 'eXpress' panes, and is used to create the configuration for the ‘XCell’ RTU in 'Workbench', clicking on one of the four tabs will bring the named pane to the front. Each of these panes is itself divided into sub-panes containing linked groups of components. Clicking on the name bar of the sub-pane will display the contents, these sub-panes may be renamed, deleted or new sub-panes added to incorporate new components from updates to 'Workbench' or created using the 'Microsol Type Workbench' utility included as part of this package. Please see the 'Type Workbench' user Figure 28 - The Elements manual for details about creating new types for 'Workbench'. Panel The 'Elements' panel allows you to select the hierarchical elements from the sub-panes that are required by the RTU configuration, these can then be drag-and-dropped onto the ‘Project’ panel to build the required configuration. Once an item has been added to the 'Project' pane it can be deleted by right clicking on the icon and selecting 'Delete'

The ability, or not, of an item to be connected to another item is indicated by a pair of icons, shown in Figures 29 and 30. Figure 29 shows that an item CAN be connected to the existing item while Figure 30 shows that it CANNOT.

Figure 29 - Item CANNOT Connect

Figure 30 - Item CAN Connect

The 'Elements' panel contains the following panes: Project – This pane contains the highest level items for the overall hardware structure of the project, RTU's, Bay's and XCell units, these items can only be added to the 'Project' panel in certain predefined orders. All projects must start with an RTU to which can be added any combination of Bays and Units up to a limit of 254 units, as shown in the following table. Table 1 - Project Item Construction Hierarchy

Can be added to RTU Bay Unit

Project

RTU

Bay

Unit

Y N N

N Y Y

N N Y

N N N

As can be seen from the table above the icons in the 'Project' pane are structural (i.e. they contain collections of hardware and software products). Briefly,




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