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PTQ-104S Rev2

Quantum Platform

IEC 60870-5-104 Server for

Quantum

February 22, 2013

USER MANUAL

Summary of content (195 pages)

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PTQ-104S Rev2 Quantum Platform IEC 60870-5-104 Server for Quantum February 22, 2013 USER MANUAL
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Your Feedback Please We always want you to feel that you made the right decision to use our products. If you have suggestions, comments, compliments or complaints about our products, documentation, or support, please write or call us. ProSoft Technology 5201 Truxtun Ave., 3rd Floor Bakersfield, CA 93309 +1 (661) 716-5100 +1 (661) 716-5101 (Fax) www.prosoft-technology.com support@prosoft-technology.com Copyright © 2013 ProSoft Technology, Inc., All rights reserved.
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Information for ProTalk® Product Users The statement "power, input and output (I/O) wiring must be in accordance with Class I, Division 2 wiring methods Article 501-10(b) of the National Electrical Code, NFPA 70 for installations in the U.S., or as specified in section 181J2 of the Canadian Electrical Code for installations within Canada and in accordance with the authority having jurisdiction".
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Markings: CSA/cUL CSA CB Certified ATEX Important Notice: CAUTION: THE CELL USED IN THIS DEVICE MAY PRESENT A FIRE OR CHEMICAL BURN HAZARD IF MISTREATED. DO NOT DISASSEMBLE, HEAT ABOVE 100°C (212°F) OR INCINERATE. Maximum battery load = 200 μA. Maximum battery charge voltage = 3.4 VDC. Maximum battery charge current = 500 μA. Maximum battery discharge current = 30 μA.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Contents User Manual Contents Your Feedback Please ........................................................................................................................ 2 ® Information for ProTalk Product Users .............................................................................................. 3 Warnings ..........................................................................................................................
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Contents User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 5.2.2 5.2.3 5.2.4 5.2.5 5.2.6 5.2.7 5.2.8 5.2.9 5.3 5.3.1 5.3.2 5.3.3 5.3.4 5.3.5 5.3.6 5.4 5.4.1 5.4.2 5.4.3 5.4.4 5.5 5.6 5.6.1 5.6.2 5.6.3 5.6.4 5.6.5 5.6.6 5.6.7 5.6.8 5.6.9 5.6.10 5.6.11 5.6.12 5.6.13 5.6.14 5.6.15 5.6.16 5.6.17 5.6.18 5.6.19 5.6.20 5.6.21 5.6.22 5.6.23 5.6.24 5.6.25 5.6.26 5.6.27 5.6.28 5.7 5.7.1 5.7.2 5.7.3 Page 6 of 195 Read Register Count ....................................................
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 5.7.4 5.7.5 5.7.6 5.7.7 5.8 5.9 5.10 5.11 5.12 5.13 5.14 5.15 5.16 5.17 5.18 5.19 5.20 5.21 5.22 5.23 5.24 5.25 5.26 6 Override Command Qualifier .................................................................................. 83 Point Count .............................................................................................................. 83 Sequence Flag ......................................................................
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Contents User Manual 9 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference 123 9.1 Product Specifications .......................................................................................... 124 Standards .............................................................................................................. 124 General Specifications .......................................................................................... 124 Hardware Specifications ..............
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Start Here User Manual Guide to the PTQ-104S User Manual Introduction (Must Do)  Start Here (page 11) This section introduces the customer to the module. Included are: package contents, system requirements, hardware installation, and basic configuration. Diagnostic and Troubleshooting  Diagnostics and Troubleshooting (page 111) This section describes Diagnostic and Troubleshooting procedures.
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Start Here User Manual Page 10 of 195 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum ProSoft Technology, Inc.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 1 Start Here User Manual Start Here In This Chapter    Hardware and Software Requirements ................................................. 12 Install ProSoft Configuration Builder Software....................................... 13 Setting Up the ProTalk Module .............................................................. 14 Note: The PTQ-104S Rev2 manual is intended for v2.07.000 and newer firmware. For v1.25.
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Start Here User Manual 1.1 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Hardware and Software Requirements 1.1.1 Package Contents ProTalk Module Null Modem Serial Cable ProSoft Solutions DVD 1.1.2 Quantum Hardware This guide assumes that you are familiar with the installation and setup of the Quantum hardware.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Start Here User Manual 1.1.3 PC and Software    Windows-based PC with at least one COM port Quantum programming software installed on machine or Concept™ PLC Programming Software version 2.6 or ProWORX PLC Programming Software or Unity™ Pro PLC Programming Software Note: ProTalk modules are compatible with common Quantum programming applications, including Concept and Unity Pro.
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Start Here User Manual 4 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Double-click the SETUP CONFIGURATION TOOL folder, double-click the PCB_*.EXE file and follow the instructions on your screen to install the software on your PC. The information represented by the "*" character in the file name is the PCB version number and, therefore, subject to change as new versions of PCB are released.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Start Here User Manual Install the ProTalk Module in the Quantum Rack 1 Place the Module in the Quantum Rack. The ProTalk module must be placed in the same rack as the processor. 2 Tilt the module at a 45 angle and align the pegs at the top of the module with slots on the backplane. 3 Push the module into place until it seats firmly in the backplane.
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Start Here User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 1.3.2 Connect the PC to the ProTalk Configuration/Debug Port Make sure you have exited the Quantum programming software before performing these steps. This action will avoid serial port conflict.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 3 Start Here User Manual This action opens the DIAGNOSTICS dialog box. Press [?] to open the Main Menu. Important: The illustrations of configuration/debug menus in this section are intended as a general guide, and may not exactly match the configuration/debug menus in your own module. If there is no response from the module, follow these steps: 1 Click to configure the connection.
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Start Here User Manual 4 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum If you are still not able to establish a connection, contact ProSoft Technology for assistance. 1.3.3 Ethernet Configuration Use this procedure to configure the Ethernet settings for your module. You must assign an IP address, subnet mask and module address. After you complete this step and download the configuration to the module, you can connect to the module with an Ethernet cable.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Start Here User Manual This action opens the EDIT dialog box. 3 4 Edit the values for my_ip, netmask (subnet mask) and gateway (default gateway). When finished editing, click OK to save the changes and return to the ProSoft Configuration Builder window. ProSoft Technology, Inc.
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User Manual Page 20 of 195 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum ProSoft Technology, Inc.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 2 Configuring the Processor with Unity Pro User Manual Configuring the Processor with Unity Pro In This Chapter      Create a New Project ............................................................................ 22 Add the PTQ Module to the Project ....................................................... 24 Build the Project ....................................................................................
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Configuring the Processor with Unity Pro User Manual 2.1 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Create a New Project The first step is to open Unity Pro and create a new project. 1 In the New Project dialog box, choose the CPU type. In the following illustration, the CPU is 140 CPU 651 60. Choose the processor type that matches your own hardware configuration, if it differs from the example. Click OK to continue. 2 Next, add a power supply to the project.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Configuring the Processor with Unity Pro User Manual 3 Select the rack position for the power supply, and then click the right mouse button to open a shortcut menu. On the shortcut menu, choose NEW DEVICE. 4 Expand the Supply folder, and then select your power supply from the list. Click OK to continue. 5 Repeat these steps to add any additional devices to your Quantum Rack. ProSoft Technology, Inc.
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Configuring the Processor with Unity Pro User Manual 2.2 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Add the PTQ Module to the Project 1 Expand the Communication tree, and select GEN NOM. This module type provides extended communication capabilities for the Quantum system, and allows communication between the PLC and the PTQ module without requiring additional programming. 2 Next, enter the module personality value.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 3 4 2.3 Configuring the Processor with Unity Pro User Manual Before you can save the project in Unity Pro, you must validate the modifications. Open the EDIT menu, and then choose VALIDATE. If no errors are reported, you can save the project. SAVE the project.
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Configuring the Processor with Unity Pro User Manual 2.4 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Connect Your PC to the Processor The next step is to connect to the processor so that you can download the project file. The processor uses this project file to communicate over the backplane to modules identified in the project file.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Configuring the Processor with Unity Pro User Manual 3 If the MEDIA dropdown list does not contain the connection method you wish to use, click the COMMUNICATION PARAMETERS button in the PLC area of the dialog box. This action opens the PLC Communication Parameters dialog box. 4 Click the DRIVER SETTINGS button to open the SCHNEIDER Drivers management Properties dialog box.
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Configuring the Processor with Unity Pro User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 2.4.1 Connecting to the Processor with TCPIP The next step is to download (copy) the project file to the processor. The following steps demonstrate how to use an Ethernet cable connected from the Processor to your PC through an Ethernet hub or switch.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Configuring the Processor with Unity Pro User Manual 3 Click the TRANSFER button to download the project to the processor. As the project is transferred, Unity Pro reports its process in a PROGRESS dialog box, with details appearing in a pane at the bottom of the window. When the transfer is complete, place the processor in Run mode. ProSoft Technology, Inc.
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Configuring the Processor with Unity Pro User Manual Page 30 of 195 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum ProSoft Technology, Inc.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 3 Configuring the Processor with Concept User Manual Configuring the Processor with Concept The following steps are designed to ensure the processor is able to transfer data successfully with the PTQ module. As part of this procedure, Concept configuration software from Schneider Electric will be used to create a project, add the PTQ module to the project, set up data memory for the project, and download the project to the processor.
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Configuring the Processor with Concept User Manual 3.1 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Information for Concept Version 2.6 Users This guide uses Concept PLC Programming Software version 2.6 to configure the Quantum PLC. The ProSoft Solutions DVD includes MDC module configuration files that help document the PTQ installation. Although not required, these files should be installed before proceeding to the next section. 3.1.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 4 Choose the MDC file and help file for the version of Concept: o Concept 2.6 users: select PTQ_2_60.mdc and PTQMDC.hlp o Concept 2.5 users: select PTQ_2_50.mdc and PTQMDC.hlp. Select the files that go with the Concept version being used, and then click OK. This action opens the Add New Modules dialog box. 5 Click the ADD ALL button. A series of message boxes may appear during this process. Click YES or OK for each message that appears.
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Configuring the Processor with Concept User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 2 Open the File menu, and then choose NEW PROJECT. This action opens the PLC Configuration dialog box. 3 In the list of options on the left side of this dialog box, double-click the PLC SELECTION folder. This action opens the PLC Selection dialog box. Page 34 of 195 ProSoft Technology, Inc.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Configuring the Processor with Concept User Manual 4 In the CPU/Executive pane, use the scroll bar to locate and select the PLC to configure. 5 Click OK. This action opens the PLC Configuration dialog box, populated with the correct values that were selected for the PLC. 6 Make a note of the holding registers for the module. This information will be needed when modifying the application.
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Configuring the Processor with Concept User Manual 3.3 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Adding the PTQ Module to the Project 1 In the list of options on the left side of the PLC Configuration dialog box, double-click I/O MAP. This action opens the I/O Map dialog box. 2 Click the EDIT button to open the Local Quantum Drop dialog box. This dialog box is where rack and slot locations are identified. Page 36 of 195 ProSoft Technology, Inc.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Configuring the Processor with Concept User Manual 3 Click the MODULE button next to the rack/slot position where the ProTalk module will be installed. This action opens the I/O Module Selection dialog box. 4 In the Modules pane, use the scroll bar to locate and select the ProTalk module, and then click OK.
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Configuring the Processor with Concept User Manual 5 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Repeat steps 3 through 5 for each ProTalk module that is being installed. When finished installing the ProTalk modules, click OK to save the settings. Click YES to confirm the settings. Tip: Select a module, and then click the Help on Module button for help pages. Page 38 of 195 ProSoft Technology, Inc.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 3.4 Configuring the Processor with Concept User Manual Setting the Time of Day 1 In the list of options on the left side of the PLC Configuration dialog box, double-click SPECIALS. 2 This action opens the SPECIALS dialog box. ProSoft Technology, Inc.
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Configuring the Processor with Concept User Manual 3.5 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 3 Select (check) the Time of Day box, and then enter the value 00001 as shown in the following illustration. This value sets the first time of day register to 400001. 4 Click OK to save your settings and close the Specials dialog box. Saving the Project 1 In the PLC Configuration dialog box, choose FILE / SAVE PROJECT AS. Page 40 of 195 ProSoft Technology, Inc.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 3.6 Configuring the Processor with Concept User Manual 2 This action opens the Save Project As dialog box. 3 Name the project, and then click OK to save the project to a file. Downloading the Project to the Processor Next, download (copy) the project file to the Quantum Processor. 1 Use the null modem cable to connect the PC’s serial port to the Quantum processor, as shown in the following illustration.
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Configuring the Processor with Concept User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 3 In the PLC Configuration dialog box, open the ONLINE menu, and then choose CONNECT. This action opens the Connect to PLC dialog box. 4 Leave the default settings as shown and click OK. Note: Click OK to dismiss any message boxes that appear during the connection process. 5 In the PLC Configuration window, open the ONLINE menu, and then choose DOWNLOAD.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Configuring the Processor with Concept User Manual 6 Click ALL, and then click DOWNLOAD. If a message box appears indicating that the controller is running, click YES to shut down the controller. The Download Controller dialog box displays the status of the download as shown in the following illustration. 7 When the download is complete, a prompt to restart the controller will display. Click YES to restart the controller.
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Configuring the Processor with Concept User Manual Page 44 of 195 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum ProSoft Technology, Inc.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 4 Configuring the Processor with ProWORX User Manual Configuring the Processor with ProWORX When you use ProWORX 32 software to configure the processor, use the example SAF file provided on the ProTalk Solutions DVD. Important Note: ProWORX software does not report whether the PTQ module is present in the rack, and therefore is not able to report the health status of the module when the module is online with the Quantum processor.
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Configuring the Processor with ProWORX User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 3 Select the .SAF File that is located on the DVD shipped with the PTQ module. 4 After clicking OPEN, select the I/O SERIES as QUANTUM SERIES. Also, select the MODULE as PTQ: Page 46 of 195 ProSoft Technology, Inc.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Configuring the Processor with ProWORX User Manual 5 Close the Schneider Alliances application. 6 Run the ProWORX 32 software. Whether a new or existing project is used, click on the Traffic Cop section to display the rack to be edited. 7 Highlight Slot x by clicking on the slot in the rack display. In this case, the PTQ module will be placed in slot 3. ProSoft Technology, Inc.
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Configuring the Processor with ProWORX User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Below the rack display is the Properties drop-down box for slot 3, click and select PTQ. 8 Save the project. It is now ready to be downloaded to the Processor. Page 48 of 195 ProSoft Technology, Inc.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 5 Module Configuration User Manual Module Configuration In This Chapter                             Using ProSoft Configuration Builder ...................................................... 50 [Backplane Configuration] ..................................................................... 54 Backplane Data Exchange .................................................................... 56 [SNTP CLIENT] .........
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Module Configuration User Manual 5.1 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Using ProSoft Configuration Builder ProSoft Configuration Builder (PCB) provides a quick and easy way to manage module configuration files customized to meet your application needs. PCB is not only a powerful solution for new configuration files, but also allows you to import information from previously installed (known working) configurations to new projects. 5.1.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual Your first task is to add the PTQ-104S module to the project. 1 Use the mouse to select DEFAULT MODULE in the tree view, and then click the right mouse button to open a shortcut menu. 2 On the shortcut menu, choose CHOOSE MODULE TYPE. This action opens the CHOOSE MODULE TYPE dialog box. ProSoft Technology, Inc.
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Module Configuration User Manual 3 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum In the PRODUCT LINE FILTER area of the dialog box, select PTQ. In the SELECT MODULE TYPE dropdown list, select PTQ-104S, and then click OK to save your settings and return to the PROSOFT CONFIGURATION BUILDER window. The next task is to set the module parameters. Page 52 of 195 ProSoft Technology, Inc.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual 5.1.2 Set Module Parameters Notice that the contents of the information pane and the configuration pane changed when you added the PTQ-104S module to the project. At this time, you may wish to rename the "Default Project" and "Default Location" folders in the tree view. To rename an object 1 Select the object, and then click the right mouse button to open a shortcut menu.
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Module Configuration User Manual 2 3 4 5.2 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum On the shortcut menu, choose VIEW CONFIGURATION. This action opens the View Configuration window. On the View Configuration window, open the FILE menu, and choose PRINT. This action opens the Print dialog box. On the Print dialog box, choose the printer to use from the dropdown list, select printing options, and then click OK.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual Double click the [Module] icon to edit. 5.2.1 Read Register Start 0 through 3999 Database start register to move to processor 5.2.2 Read Register Count 0 through 3999 Number of words moved from module to processor 5.2.3 Write Register Start 0 through 3999 Database start register where data placed from processor 5.2.4 Write Register Count 0 through 3999 Number of words moved from processor to module 5.
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Module Configuration User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 3x start register where data moved from module to processor 5.2.6 4X Register Start 1 through 65535 4x start register where data moved from processor to module 5.2.7 Module Name Name to display on module 5.2.8 Error Offset 1 through 65535 Internal register of module to store error and status – recommended within the read data range of module memory. Example: 1000-1099 according to screenshot above. 5.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual Read Register Start: 1000 Read Register Count: 100 Write Register Start: 0 Write Register Count: 100 Note: The diagram above shows the memory addresses for a Quantum processor. If using a Unity processor, substitute %MW for read only data, and %IW for read/write data. Words 0 through 63 in each read/write block are reserved for special functions.
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Module Configuration User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Processor Memory Address 40065 40066 40067 40068 40069 … 40164 Module Database Address 0 1 2 3 4 … 99 The data mapping in the following example shows the relationship between processor and PTQ-104S memory addresses, assuming a 3x register start value of 30001 and a PTQ-104S database start value of 2000.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Type ID 7 Type M_BO_NA_1 (7.3.1.7) 9 M_ME_NA_1 (7.3.1.9) 11 M_ME_NB_1 (7.3.1.11) 13 M_ME_NC_1 (7.3.1.13) 15 M_IT_NA_1 (7.3.1.15) 45 C_SC_NA_1 (7.3.2.1) C_DC_NA_1 (7.3.2.2) Module Configuration User Manual 47 C_RC_NA_1 (7.3.2.3) 48 C_SE_NA_1 (7.3.2.4) Description Monitored Bitstring of 32-bit data --This data type stores 32-bit data in binary form. Each bit in the string has a value of 0 or 1.
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Module Configuration User Manual Data Normalized Measured Value Scaled Measured Value Short Float Point Measured Value Integrated Total Point PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Size 1 word 1 word 2 words 2 words Example Address 100 refers to word 100 in database Address 100 refers to word 100 in database Address 50 refers to words 100 and 101 in database Address 50 refers to words 100 and 101 in database Another important concept to understand is the direction of data tra
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual Descriptions Status Data Event messages Set PLC time using module’s time Set module’s time using PLC time Warm Boot Request from PLC (Block contains no data) Cold Boot Request from PLC (Block contains no data) Block Range 9250 9958 9970 9971 9998 9999 Block identification codes 9901 to 9999 are used for special control blocks to control the module.
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Module Configuration User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Note: The command code in the I/O area is also referred to as the block ID. Implementing Ladder to Support Special Functions In order to use Special Functions, some form of control logic must be implemented. The following section uses structured text language to illustrate how a typical function might be implemented. Example: Rebooting the Module.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual IF (MyTrigger=9970) THEN OutputControl1[1] :=MyTrigger; Temp:=WORD_TO_INT(OutputControl1[0]); Temp:=Temp+1; OutputControl1[0]:=INT_TO_WORD(Temp); END_IF; When the request is processed, the module will send the block response and increment the received output sequence number by 1. So the output sequence number is one less than the input sequence number the module has sent a new block.
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Module Configuration User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Once the request was processed the module will send the block response and increment the received output sequence number by 1. So the output sequence number is one less than the input sequence number the module has sent a new block. *). 5.3.2 Read Status (Block 9250) This block is used to request status data from the module by the processor.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 18 Cmd Count 19 Cmd Delay 20 Cmd Queue 21 Cmd Queue Count 22 to 23 Online Status 24 25 26 27 SNTP Valid NTP Request NTP Response SNTP Computation SNTP Set NTP Timeout 28 29 Module Configuration User Manual This word contains the count of the number of commands configured for the module. This word contains the command delay counter preset.
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Module Configuration User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Block Format for Write Word Offset in Block 1 Data Field(s) Block ID 2 Event Count 3 18 33 48 Event #1 Event #2 Event #3 Event #4 Description This field contains the value of 9958 identifying the block type to the module. Number of events present in the block. Valid Values: 1 to 4. Event data to add to event message queue. Event data to add to event message queue.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual Block Format for Read Word Offset in Block Data Field(s) Block ID 1 Description This word will contain the value of 9958 5.3.4 Read Module's Time to Processor (9970) If a value of 9970 is placed in the control register, the processor will read the module's current time.
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Module Configuration User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 5.3.5 Block 9971: Set Module Time If a value of 9971 is placed in the control register, Module time is set using the processor's time. The following table shows the block format for write. Block 9971: Block Format for Write Word Offset in Block 0 1 Data Field(s) Write Block ID Year 2 Month 3 Day 4 Hour 5 Minute 6 Seconds 7 Milliseconds Description This word will contain the value of 9971.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 5.4 Module Configuration User Manual [SNTP CLIENT] The [SNTP CLIENT] section is used to specify the parameters for the Simple Network Time Protocol (SNTP) Client provided with the protocol driver. This client is read in order to keep the driver's internal clock set correctly. This version of the driver supports SNTP Revision 3 and stratum between 1 and 14. SNTP is used for time synchronization of produced and consumed commands.
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Module Configuration User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum The SNTP driver will compute a new clock value every 5 minutes using the average value of 10 samples each collected over an approximate 6-second period. This new value will be used to adjust the clock maintained by the SNTP driver and used by the application. If a valid database register is specified, the driver will place the time value into the module's database.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual 5.4.3 Use Daylight Savings Time Yes or No This parameter specifies if daylight savings time will be used in the time computation. 5.4.4 Database Register -1 or 0 to 3992 as an even value This parameter specifies if the NTP time computed by the driver is to be placed into the module’s database. If a value of -1 is specified, the time will not be placed into the database.
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Module Configuration User Manual 5.6 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum [I104S] > [IEC-870-5-104] This section provides information required to configure a server application with the module. An item of concern is the maximum size of the total database. Although it is possible to configure a database of considerable size, the maximum Class 0 request may not exceed 2048 bytes in size. 5.6.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual 5.6.3 Clear Queue on Close NO (0) or YES (1) Use this command to define whether the module will store the unacknowledged buffers in the unit after the connection is closed. If the specification is to be followed, set this parameter to NO (0) and the packets will be resent after a connection is made.
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Module Configuration User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 5.6.9 w (latest ack threshold) 1 to 20 This parameter must match that of the host unit and specifies the number of messages the module will receive before sending an S-format sequence acknowledge message when no I-format data is ready to send. It is recommended to set this value to 2/3 the value of k. 5.6.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual 5.6.12 Command Delay Timer 1000 to 60000 milliseconds This value is used for time-tag validity verification for the ASDUs listed below. The received commands will only be accepted if [timestamp + Command Delay Timer] is greater than the module's own time.
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Module Configuration User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum This parameter sets the number of milliseconds to wait for a valid execute command after receiving a select command. The range of values allow for update times between 1 millisecond and 49.7 days. Set this parameter to 0 to disable this feature. 5.6.18 Use ACTTERM with Setpoint Y - YES or N - NO This parameter determines if an ACTTERM will be sent.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual Each of the ASDUs affected by this feature must be assigned a unique priority index from 0 to 7. Events of the ASDU with a priority of 0 will always be reported before any others when they are present. For more information, refer to Event Priority (page 167). 5.6.
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Module Configuration User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum The IV Bits are checked at the interval specified by the IV Check Delay Time parameter. At the end of each check delay interval, if an IV Bit for any IEC database point is ON, an IV Bit Check Fail accumulator for that point will be incremented.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual 5.6.25 IV Fail Count 1 to 65535 seconds, or 0 to disable Invalid Bit Monitoring This parameter sets the number of successive IV Bit check failures which must occur before the data from a IEC database monitor point will be reported to the remote Client as invalid data.
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Module Configuration User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 5.6.27 Time Type 0 = NONE, 1 = CP24, or 2 = CP56 Separate parameters exist for multiple point types. This parameter defines the time format used with data events. 5.6.28 Use Recent 0 = REPORT MULTIPLE, 1 = REPORT SINGLE This parameter determines how the events will be stored at the event queue and reported to the remote Client.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual If this parameter is set to 0 - REPORT MULTIPLE (the default), events for each configured IEC monitor-type data point will be stored in a buffer. Each monitor point data type has its own unique buffer that can hold to 99 events.
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Module Configuration User Manual 5.7 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum [I104S] > [IEC-870-5-104 Database] This section describes parameters in the [I104S]>IEC-870-5-104 Database section. 5.7.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual 5.7.3 Default Command Qualifier SHORT PULSE (1), LONG PULSE (2), or PERSISTENT OUTPUT (3) The protocol specification defines values for a Qualifier Flag, which is part of every command message, and associates those values to specific command (control) points. The value zero (0) is specified as Undefined.
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Module Configuration User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum These parameters specify the number of point values that can be assigned for each database.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual If this parameter is set to YES, this feature is selected, the module will send the object point address and value for only the first point of a sequence of points, send only the data value without point address for any remaining points in the sequence, and the Sequence Flag (SQ) will be set to one (1).
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Module Configuration User Manual Point Threshold Low Limit High Limit 5.8 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Value Determined by the deadband set in the configuration file or altered by the write command. Last reported event value - threshold. Last reported event value + threshold. [I104S] > [IEC-870-5-104 IP ADDRESSES] This section enters the IP addresses for the hosts to connect to this unit. The unit will only accept connections from hosts listed here.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 5.10 Module Configuration User Manual [I104S] > [M_DP_NA_1 104] This section defines the monitored dual-point database. This information is sourced from the database and is transferred to the remote Client unit. Each point in the database can have one of four possible states, 00 = intermediate, 01 = Point Off, 10 = Point On, and 11 = intermediate).
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Module Configuration User Manual 5.13 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum [I104S] > [M_ME_NA_1 104] This section defines the monitored measured value, normalized database. This information is sourced from the database and is transferred to the remote Client unit. To determine the IOA (Information Object Address) for each object, add the Point # (IOA) in the following section to the value of the M_ME_NA Parameter Offset as entered in the [IEC-870-5-104 Database] section.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual This section takes the following parameters:  Point #  DB Address  Groups  Default Deadband  IV DB Bit Each point is one word and the DB Address value corresponds to the word offset in the database. The Database Address value should be located in a database area that is constantly being moved from the Quantum processor to the PTQ-104S module.
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Module Configuration User Manual 5.18 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum [I104S] > [C_DC_NA_1 104] This section defines the double point command database. This information is sourced from the remote Client and is transferred to the database. You can associate a command with a monitored double point database value to coordinate the command/monitor operation. You must enter the correct Monitor Point # and Monitor DB Address values in the table.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Module Configuration User Manual  DB Address  Monitor Point #  Monitor DB Address Each point is four, 8-bit bytes and the DB Address value corresponds to the double-word offset in the module memory database. The DB Address should be located in a database area that is being constantly moved from the Master to the Quantum. For additional information on how to set these parameters, see the Reference chapter of this manual. 5.
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Module Configuration User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Each point is one 16-bit word and the DB Address value corresponds to the word offset in the module memory database. For additional information on how to set these parameters, see the Reference chapter of this manual. 5.23 [I104S] > [C_SE_NC_1 104] This section defines the short-float setpoint database. This information is sourced from the remote Client and is transferred to the database.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Group Code 0x00010000 0x00020000 0x00040000 0x00080000 0x00100000 0x00200000 0x40000000 0x80000000 Module Configuration User Manual Description Interrogated by group 16 interrogation Interrogated by general counter request Interrogated by group 1 counter request Interrogated by group 2 counter request Interrogated by group 3 counter request Interrogated by group 4 counter request Disable event scanning of this point Periodic/cyclic data r
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Module Configuration User Manual 5.26 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum To print a configuration file 1 2 3 4 Select the module icon, and then click the right mouse button to open a shortcut menu. On the shortcut menu, choose VIEW CONFIGURATION. This action opens the View Configuration window. On the View Configuration window, open the FILE menu, and choose PRINT. This action opens the Print dialog box.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 6 Downloading the Project to the Module User Manual Downloading the Project to the Module In This Chapter   Downloading via serial connection ...................................................... 102 Downloading via Ethernet connection ................................................. 106 ProSoft Technology, Inc.
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Downloading the Project to the Module User Manual 6.1 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Downloading via Serial Connection For the module to use the settings you configured, the Project file must be downloaded from your PC to the module. To Download the Project File 1 2 In the tree view in ProSoft Configuration Builder, click once to select the PTQ104S module. Open the PROJECT menu from the top of the PCB window, and mouse-over MODULE. Select DOWNLOAD FROM PC TO DEVICE.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Downloading the Project to the Module User Manual Or, right-click the PTQ-104S icon in PCB and select DOWNLOAD FROM PC TO DEVICE. 3 The program will scan the PC for a valid com port (this may take a few seconds). When PCB has found a valid com port, the DOWNLOAD dialog box will open. 4 Choose the com port to use from the dropdown list, and then click the DOWNLOAD button. ProSoft Technology, Inc.
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Downloading the Project to the Module User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum The module will perform a platform check to read and load its new settings. When the platform check is complete, the status bar in the DOWNLOAD dialog box will display the message Module Running. 6.2 Downloading the Project via Ethernet Connection This procedure cannot be done unless the IP address has been initially configured and downloaded serially (page 18) to the module.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Downloading the Project to the Module User Manual Or, right-click the PTQ-104S icon in PCB and select DOWNLOAD FROM PC TO DEVICE. 3 The DOWNLOAD dialog box will open. Select Ethernet as the Connection Type and enter the IP Address that was assigned in the [Ethernet Configuration] section of PCB. 4 Click the DOWNLOAD button. ProSoft Technology, Inc.
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Downloading the Project to the Module User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum The module will perform a platform check to read and load its new settings. When the platform check is complete, the status bar in the DOWNLOAD dialog box will display the message Module Running. Page 100 of 195 ProSoft Technology, Inc.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 7 Hot Standby Support User Manual Hot Standby Support In This Chapter   Hot Standby Overview ......................................................................... 102 Setting Up the Modicon Quantum Hot Standby with Unity System ..... 106 ProSoft Technology, Inc.
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Hot Standby Support User Manual 7.1 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Hot Standby Overview This section describes the PTQ-104S IEC 60870-5-104 Server module specifications and startup support for Modicon Quantum Hot Standby system. A Modicon Quantum Hot Standby with Unity system can be used when downtime cannot be tolerated. Hot standby systems deliver high availability through redundancy. A hot standby system consists of two identical configurations.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Hot Standby Support User Manual 7.1.3 System Components The following illustration shows the components required for a Modicon Quantum Hot Standby with Unity system.
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Hot Standby Support User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 7.1.4 Modicon Quantum Hot Standby with Unity and IEC Logic Overview A Modicon Quantum Hot Standby with Unity system requires two backplanes configured with identical hardware, software, and firmware. One of the controllers (PLC) functions as the Primary controller and the other as a Standby controller.  The Primary updates the Standby after every scan.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Hot Standby Support User Manual A Hot Standby system Most of the time, the MAST scan hides the network scan. However, when some application programs are processed, additional system overhead may occur. Example #1   Stand-alone application scan time: 80 ms Data (state RAM + unallocated variables): 100 Kb ProSoft Technology, Inc.
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Hot Standby Support User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Example #2   Stand-alone application scan time: 80 ms Data (state RAM + unlocated variables): 300 Kb Note: In addition to the above times for system overhead, the PTQ-104S module may acquire from 100 ms to 300 ms of switch-over time.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Hot Standby Support User Manual 7.2.2 Mapping the Backplane Extensions A Modicon Quantum Hot Standby with Unity requires two backplanes with at least four slots.
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Hot Standby Support User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum %SW60 Hot Standby Command Register %SW60.0: This bit, if set to 1, allows the Command Register RUN status of the PLC to be set through the LCD Keypad. Warning: If the keypad override is enabled while the Hot Standby system is running, the Primary PLC will immediately read bits 14 and 15 to determine its own state and the state of the Standby.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Hot Standby Support User Manual %SW60.5: Setting this bit = 1 commands the standby station to initiate an application transfer. That function is not required in UNITY V1. %SW60.8: If this bit is set = 1 the Modbus address on port 1 will be swapped when a switchover occurs. Swapping means to change address by ± 128 to keep the address in the range of 1 to 247.
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Hot Standby Support User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum %SW61.14: If set = 1 it indicates that a logic mismatch has been detected that disallows Unlocated Variables to be transferred from Primary to Standby. This feature was canceled for UNITY V1.1 because it was determined that a switchover with a partial application context posed too great a hazard. %SW61.15: If set = 1 it indicates that the Copro device is set up correctly and working.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 8 Diagnostics and Troubleshooting User Manual Diagnostics and Troubleshooting In This Chapter   The Configuration/Debug Menu .......................................................... 112 LED Indicators .....................................................................................
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Diagnostics and Troubleshooting User Manual 8.1 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum The Configuration/Debug Menu The Configuration and Debug menu for this module is arranged as a tree structure, with the Main Menu at the top of the tree, and one or more sub-menus for each menu command. The first menu you see when you connect to the module is the Main menu.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 2 Diagnostics and Troubleshooting User Manual On the shortcut menu, choose DIAGNOSTICS. This action opens the DIAGNOSTICS dialog box. ProSoft Technology, Inc.
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Diagnostics and Troubleshooting User Manual 3 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Press [?] to open the Main Menu. Important: The illustrations of configuration/debug menus in this section are intended as a general guide, and may not exactly match the configuration/debug menus in your own module. If there is no response from the module, follow these steps: 1 Click to configure the connection.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Diagnostics and Troubleshooting User Manual 3 On computers with more than one serial port, verify that your communication program is connected to the same port that is connected to the module. If you are still not able to establish a connection, contact ProSoft Technology for assistance. 8.1.3 Navigation All of the sub-menus for this module contain commands to redisplay the menu or return to the previous menu.
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Diagnostics and Troubleshooting User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 8.1.4 Main Menu When you first connect to the module from your computer, your terminal screen will be blank. To activate the main menu, press the [?] key on your computer’s keyboard. If the module is connected properly, the following menu will appear.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Diagnostics and Troubleshooting User Manual Press [?] to view a list of commands available on this menu. Viewing Register Pages To view sets of register pages, use the keys described below: Command [0] [1] [2] Description Display registers 0 to 99 Display registers 1000 to 1099 Display registers 2000 to 2099 And so on. The total number of register pages available to view depends on your module’s configuration.
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Diagnostics and Troubleshooting User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Moving Back Through 5 Pages of Registers Press [-] from the Database View menu to skip five pages back in the database to see the previous 100 registers of data start 500 registers before the currently displayed page. Moving Forward Through 5 Pages of Registers Press [+] from the Database View menu to skip five pages ahead in the database to see the next 100 registers of data.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Diagnostics and Troubleshooting User Manual IEC 870-5-104 Menu Press [ I ] to view all data associated with the IEC 60870-5-104 server driver. Viewing SNTP Status Press [N] to view configuration information of the SNTP client. Refer to SNTP Support for more information on configuring and using this function. Viewing Version Information Press [V] to view Version information for the module.
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Diagnostics and Troubleshooting User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Warm Booting the Module Caution: Some of the commands available to you from this menu are designed for advanced debugging and system testing only, and can cause the module to stop communicating with the processor or with other devices, resulting in potential data loss or other failures.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Diagnostics and Troubleshooting User Manual Exiting the Program Caution: Some of the commands available to you from this menu are designed for advanced debugging and system testing only, and can cause the module to stop communicating with the processor or with other devices, resulting in potential data loss or other failures. Only use these commands if you are specifically directed to do so by ProSoft Technology Technical Support staff.
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Diagnostics and Troubleshooting User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 8.2.1 Ethernet LED Indicators LED Data Link State Off Green Flash Off Green Solid Description No activity on the Ethernet port. The Ethernet port is actively transmitting or receiving data. No physical network connection is detected. No Ethernet communication is possible. Check wiring and cables. Physical network connection detected.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 9 Reference User Manual Reference In This Chapter         Product Specifications ......................................................................... 124 PTQ-104S Protocol Implementation .................................................... 127 Cable Connections .............................................................................. 170 Error Status Table ...............................................................
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Reference User Manual 9.1 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Product Specifications 9.1.1 Standards The standards used in developing the product are listed in the following table.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual 9.1.3 Hardware Specifications Specification Backplane Current Load Operating Temperature Storage Temperature Relative Humidity Vibration Shock Dimensions (HxWxD), Approx. LED Indicators Value 1100 mA maximum @ 5 Vdc ± 5% 0°C to 60°C (32°F to 140°F) -40°C to 85°C (-40°F to 185°F) 5% to 95% (without condensation) Sine vibration 4-100 Hz in each of the 3 orthogonal axes 30G, 11 mSec.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum The supported database point types are: Database Type M_SP_NA M_DP_NA M_ST_NA M_ME_NA M_ME_NB M_ME_NC M_IT_NA C_SC_NA C_DC_NA C_RC_NA C_SE_NA C_SE_NB C_SE_NC Description Monitored single-point database Monitored dual-point database Monitored step-point database Monitored normalized-point database Monitored scaled-point database Monitored short-float point database Monitored integrated total database Command single-p
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 9.2 Reference User Manual PTQ-104S Protocol Implementation The intent of this section is to provide a quick understanding of how the PTQ104S module implements the IEC-60870-5-104 protocol, without going into complex details of the specification. The IEC-60870-5-104 protocol applies to Telecontrol equipment and systems with data transmission for monitoring and controlling geographically widespread processes.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum The following example lists the default contents of the WATTCP.CFG file: In this example, the PTQ-104S module is identified by IP address 192.168.0.250 in the IEC-60870-5-104 network, with a netmask (subnet mask) of 255.255.255.0 and a default gateway address of 192.168.0.1.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual If the Use IP List parameter is set to YES, the module will only accept a connection from one of the three IP addresses listed, as in the example above. The following illustration shows that the Server will accept a connection from Client A, whose address is on the list, but will reject a connection from Client B, whose address is not on the list.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum If the Client sends a message to a different Common ASDU, the module ignores the command. To configure the Common ASDU Address for the PTQ-104S, use the Common Address of ASDU parameter in the configuration file. 9.2.2 Monitor Direction and Control Direction: Point Definition The protocol specification defines two directions of data: monitor direction and control direction.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual The points that are typically transferred from a server to a Client are also known as Monitor Points (or Monitor Information Objects). The points that are typically transferred from a Client to a server are also known as Control Points (or Command Information Objects). The PTQ-104S contains an internal database of 4000 16-bit words.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum The following illustration shows an example configuration: In this example, all monitor points are located between database addresses 0 and 199, and all control points are located between address 200 and 399. 9.2.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual Deadband - Sets the deadband for each measured point. If the value changes from more than the configured deadband, the module will generate an event for this point. IV DB Bit - This feature allows the application to set the invalid (IV) quality bit of the protocol for all the monitored ASDU types supported.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum The Cyclic Set IV Time parameter must be set to determine how frequently the IV Checks will be performed. If the IV bit is ON for a number of times given by the IV Fail Count parameter the module will consider the point as invalid. The following illustration shows how these parameters are implemented: If the IV bit field is absent or set to 0, the invalid quality state for the point will always be reported as valid.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual Monitor Data Transfer Typically, you should properly configure the group code for each monitor point to define how the Master will poll for the point.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum The module will periodically send all points configured for periodic/cyclic poll (0x80000000) at every x milliseconds, where x is configured with the following parameter: Example - Periodic Monitor Polling The Cyclic Data Transmission parameter above is configured for 10 seconds (10000 milliseconds). If the following point is configured for monitor polling: Page 136 of 195 ProSoft Technology, Inc.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual The following illustration shows the communication procedure: Therefore, the point configured for a cyclic poll is periodically reported to the Master. You may also create groups of points allowing the Master to poll certain points more frequently than other points.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum This feature allows you to separate the points into different groups according to the priority level that these should be reported to the Master. In the example above, points 100 and 101 would be returned with a General Interrogation for Group 1 and point 102 would be returned with a General Interrogation for Group 2.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual Example I - Freeze Start Type If the gateway powers up with the following date and time clock: 03/25/2004 18:07:42 If you configure the Interval For Freeze parameter at ‘15’ (pictured above), the gateway would send the counter messages every 15 seconds.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Mode D To select the Mode D. configure the Freeze Start Type parameter as "N". For this mode the master would periodically send Counter Interrogation Commands to perform the freeze operation. After the values are frozen the gateway will return the counter points as events. The counter points must be properly configured for counter interrogation groups for Mode D operation.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual M_ST_NA A Monitored Step-Point occupies one byte and uses byte-addressing.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum The following table describes how these points would be stored in the module: Word 10 (Word address 10) Word 12 (Word address 12) Word 18 (Word address 18) 400 401 402 Monitored Measured Normalized points use a data representation defined by the protocol specification to represent fractional decimal values.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual For example, if you configured the following points: The following table describes how these points would be stored in the module: 500 501 502 Words 40 and 41 (Double-word address 20) Words 64 and 65 (Double-word address 32) Word 104 and 105 (Double-word address 52) 9.2.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Example (C_SC_NA) In the example above, each time the module receives a command for singlecommand point 700, it sends a response containing a monitored single-point (information object address 100 with the value at database bit-address 1600). Require Select: This parameter configures the point to require a Select request before the Operate command.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual Refer to the following parameter to configure the select/operate timeout period. After the module receives the SELECT operation it will wait for this period of time for the EXECUTE operation. If the module does not receive an EXECUTE operation within this period of time it will require another SELECT operation before the EXECUTE operation.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum C_SC_NA and C_DC_NA The single-point command and dual-point command points use one bit with bit addressing. For example, if you configure the following points: These points would be used as follows: Inf.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual C_RC_NA A Step-Point Command point occupies one byte and uses byte addressing. For example, if you configured the following points: The following table describes how these points would be used. Inf. Object Address 1000 300 1001 301 1002 302 ProSoft Technology, Inc. February 22, 2013 Module Database Address Low Byte of word 250 (Byte address 500) Low Byte of word 20 (Byte address 40.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum C_SE_NA and C_SE_NB The measured normalized point command uses one word with word-addressing. For example, if you configured the following points: The following table describes how these points would be used. Module Database Address Word 2000 (Word address 2000) Word 10 (Word address 10. Must match the configuration of point 400 in M_ME_NA.) Word 2001 (Word address 2001) Word 12 (Word address 12.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 15 Bit 3210h 0.395751953125 0 Reference User Manual 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 0 1 1 0 0 1 0 0 0 0 1 0 0 0 0 Examples: A value of 4000hex (only Bit 14 set, all others clear) is interpreted as 0.5 decimal A value of 2000hex (only Bit 13 set, all others clear) is interpreted as 0.25 decimal A value of 1000hex (only Bit 12 set, all others clear) is interpreted as 0.125 decimal ... and so on until...
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 9.2.5 Data Communication Group Communication The Group parameter in the module configuration file controls how each monitored point is transferred between the PTQ-104S and the client unit. The Group parameter is described in detail in Group Definition (page 92) The following example configures this point to be repeated either during cyclic polls, or when the module General Interrogation request for group 1 occurs.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual You can also divide the monitored points into different groups, allowing the client to periodically poll only certain points. This also allows some points to be polled more frequently than others. Note: You should configure the counter points (M_IT_NA) for general counter interrogation or group counter interrogations.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum The client unit sends the following requests:  General Interrogation for Group 1 every 12 seconds  General Interrogation for Group 2 every 15 seconds The following illustration shows how the communication would be performed between the client and the gateway. Page 152 of 195 ProSoft Technology, Inc.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual STARTDT & STOPDT STARTDT (Start Data Transfer) and STOPDT (Stop Data Transfer) are used by the client to control the data transfer from the PTQ-104S module. When the connection is established, user data is not automatically enabled in the server until it receives a STARTDT act request from the client. The server should respond with a STARTDT con response to acknowledge the Client request.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum TESTFR Requests Connections that are unused (but opened) may be periodically tested in both directions by sending test messages (TESTFR=act) which are confirmed by the receiving station sending TESTFR=con messages. The PTQ-104S module can be configured to periodically send this message using the following parameter: In the example above, the module would send a TESTFR.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual If the module does not receive the TESTFR.con message within a certain amount of time, it will timeout and close the connection. You can configure the timeout period using the following parameter: ProSoft Technology, Inc.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum When closing the connection, the module can be configured to clear all the messages in its queue. The following parameter is used to implement this task: The above configuration would cause the module to delete all pending messages/events while closing the connection to the Client. 9.2.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual Deadbands The Monitored Measured points (M_ME_NA and M_ME_NB) will generate events only if the data value changes an amount greater than or equal to the configured deadband value. For example, with the following point configured: If the current value for this point is 130, it would only generate an event, only if: NEW VALUE is less than or equal to 30 OR NEW VALUE is greater than or equal to 230.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum The protocol specification explains that the qualifier value for these commands should be configured as: Bits 1 to 6 7 8 Value 0 Description Not Used 1 Threshold Value (Deadband) 2 3 4 5..
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual Example: Assume the following Monitored Measured points are configured as shown: [M_ME_NA_1 # # IOA # ------START 400 401 402 403 404 pressure 405 406 407 408 409 [M_ME_NB_1 # # # IOA # ------START 500 501 502 503 504 505 506 507 508 509 [M_ME_NC_1 # # IOA # ------START 600 601 602 603 604 605 606 607 608 609 104] DB Address ---------- Group(s) -------- Default Deadband -------- 10 11 12 13 14 00000002 00000002
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum It would imply that the parameter points would be configured as follows: M_ME_NA Monitored Measured Normalized Point 400 401 402 403 ... 409 Associated Parameter Point 2400 2401 2402 2403 ... 2409 In order to send a change of deadband for M_ME_NA Point 400, the Client would send a command type 110 to point 2400. M_ME_NB Monitored Measured Normalized Point 500 501 502 503 ...
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual M_ME_NC Monitored Measured Normalized Point 600 601 602 603 ... 609 Associated Parameter Point 2600 2601 2602 2603 ... 2609 In order to send a change of deadband for M_ME_NC Point 600, the Client would send a command type 110 to point 2600. Controlling the Generation of Events Some applications may require that only some points should generate events.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum If this parameter is set to 0, the module will not generate events for any points. A non-zero value will configure how frequently the module will scan for events in the database. Data Type Level The user may configure if a data type should generate events or not. Each data type has a configuration parameter to control the generation of events: In the example above, only the M_SP_NA points would generate events.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual Time Information Each event may also send the date and time when it occurred. The PTQ-104S module supports the CP56 time format (as defined in the protocol specification). This format contains the millisecond, second, minute, hour, day, month and year when the event occurred. The PTQ-104S gateway may also be configured not to send any time information with each event for certain data types.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum The parameters required to support this feature are:  Cyclic Set IV Time  IV Check Delay Time  IV Fail Count To disable this feature, set the IV Fail Count parameter to 0. If the IV bit field is absent or set to 0, the invalid quality state for the point will always be reported as valid. If used, the Cyclic Set IV Time parameter must be at least 3 times larger than the IV Check Delay Time.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual In order to configure points for this feature, the IV DB BIT field for each data type must be set to the database configuration records in the configuration file. For example: ProSoft Technology, Inc.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum The following illustration shows how these parameters are implemented: If a database bit address (1 to 64000) is present, the application may consider the point with an invalid flag if the previous logic checks the IV bit as 1 during consecutive IV Check Delay scans. The IV bits would have to be reset to 0 to set the point to valid state.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual Event Priority Event Priority permits ASDUs that generate events to be placed in priority queues that are set by the user. The configuration file contains the following parameters to support this feature: The Set Priority Queues parameter must be enabled for this feature to be used. Each of the ASDUs affected by this feature must be assigned a unique priority index from 0 to 7.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum The module will respond to a class one data request from the controlling station by returning the data in the event queue in the order shown in the following table. Packet Order 1 2 3 Content M_DP_NA events 3 and 5 M_SP_NA events 1, 2, and 6 M_ST_NA event 4 The module responds in order of the priority settings in the configuration, not the order in which it was requested from the processor.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual 9.2.7 Sequence Flag YES or NO In order to save bandwidth, you can configure the Sequence Flag feature using the following parameters: If this parameter is set to NO, this feature is not selected, the module will send the object address and value for every monitored point sent to the Client, and the Sequence Flag (SQ) will be set to zero (0).
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Reference User Manual 9.3 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Cable Connections The PTQ-104S module has the following communication connections on the module:  One Ethernet port (RJ45 connector)  One RS-232 Configuration/Debug port (DB9 connector) 9.3.1 Ethernet Connection The PTQ-104S module has an RJ45 port located on the front of the module, labeled Ethernet, for use with the TCP/IP network.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 9.4 Reference User Manual Error Status Table This section contains a listing of the PTQ-104S module's status data area, copied automatically to the database starting at address 4000. To request the complete status block, refer to Read Status (9250) on page 64.
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Reference User Manual Word Offset in Block 4033 4034 4035 4036 4037 4038 4039 4040 4041 4042 4043 4044 4045 4046 4047 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Description This word contains the number of sequence number errors recognized by the module.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Word Offset in Block 5 to 6 Data Field(s) Op Sys # 7 to 8 Run Number 9 Reserved Reference User Manual Description This two-word data area contains the text values for the operating system number. This two-word data area contains the text values for the run number. Reserved [IEC-870-5-104] section: Error Offset Word Offset in Block 0 1 2 3 4 5 6 7 8 9 10 11 ProSoft Technology, Inc.
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Reference User Manual 9.5 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Group Codes One aspect of the point configuration database that leads to confusion is the group definition field, which assigns each point to one or more interrogation groups. Use of interrogation groups permits the controlling unit to interface with a specific set of data. Refer to the IEC 60870-5-104 standard for a full discussion of interrogation groups.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 9.6 Reference User Manual IEC 60870-5-104 Server Interoperability Statement This companion standard presents sets of parameters and alternatives from which subsets have to be selected to implement particular telecontrol systems. Certain parameter values, such as the number of octets in the COMMON ADDRESS of ASDUs represent mutually exclusive alternatives. This means that only one value of the defined parameters is admitted per system.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Information object address (System-specific parameter)  One octet  Structured Two octets  Unstructured  Three octets Cause of transmission (System-specific parameter)  One octet  Two octets (with originator address) Length of APDU (System-specific parameter, specify the maximum length of the APDU per system) The Maximum length of the APDU is 246 (default). The maximum length may be reduced by the system.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Type ID  <18>  <19>  <20>  <21>  <30>  <31> <32>  <33>  <34>  <35>  <36>  <37>  <38>  <39>  <40> Description Packed start events of protection equipment with time tag Packed output circuit information of protection equipment with time tag Packed single-point information with status change detection Measured value, normalized value without quality description Single-point information with time
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Type ID  <62>  <63>  <64> Description Set point command, scaled value with time tag CP56Time2a Set point command, short float value with time tag CP56Time2a Bitstring of 32 bit with time tag CP56Time2a Type C_SE_TB_1 C_SE_TC_1 C_BO_TA_1 Either the ASDUs of the set <45>-<51> or of the set <58>-<64> are used.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual File transfer (Station-specific parameter, mark each Type ID "X" if it is only used in the standard direction, "R" if only used in the reverse direction, and "B" if used in both directions) Type ID  <120>  <121>  <122>     <123> <124> <125> <126> Description File ready Section ready Call directory, select file, call file, call section Last section, last segment Ack file, ack section Segment Directory
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Type Identification Cause of transmission 1 2 3 4 5 6 7 8 10 11 12 13 20 37 44 45 46 47 to to 36 41 X <37> M_IT_TB_1 <38> M_EP_TD_1 <39> M_EP_TE_1 <40> M_EP_TF_1 <45> C_SC_NA_1 X X X X X X X X X <46> C_DC_NA_1 X X X X X X X X X <47> C_RC_NA_1 X X X X X X X X X <48> C_SE_NA_1 X X X X X X X X X <49> C_SE_NB_1 X X X X X X X X X <50> C_SE_NC_1 X X X X X X X X X <51> C
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual 9.6.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Station Interrogation (Station-specific parameter, mark "X" if function is only used in the standard direction, "R" if only used in the reverse direction, and "B" if used in both directions)  global  group 1  group 7  group 13  group 2  group 8  group l4  group 3  group 9  group 15  group 4  group 10   group 16  group 5  group 11  group 6  group 12 Clock synchronization (Station-specific parameter,
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual Transmission of Integrated totals (Station- or object-specific parameter, mark "X" if function is only used in the standard direction, "R" if only used in the reverse direction, and "B" if used in both directions)  Mode A: Local freeze with spontaneous transmission  Mode B: Local freeze with counter interrogation  Mode C: Freeze and transmit by counter-interrogation commands  Mode D: Freeze by counter-interrogati
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum File transfer (Station-specific parameter, mark "X" if function is used) File transfer in monitor direction  Transparent file  Transmission of disturbance data of protection equipment  Transmission of sequence of events  Transmission of sequence of recorded analogue values  File transfer in control direction  Transparent file Background scan (Station-specific parameter, mark "X" if function is only used in the
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual RFC 2200 suite RFC 2200 is an official Internet Standard which describes the state of standardization of protocols used in the Internet as determined by the Internet Architecture Board (IAB). It offers a broad spectrum of actual standards used in the Internet. The suitable selection of documents from RFC 2200 defined in this standard for given projects has to be chosen by the user of this standard.  Ethernet 802.
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Reference User Manual 9.7 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum PTQ-104S Database Design Forms This section contains a set of forms that can be used to design the databases required by the module. 9.7.1 M_SP_NA_1, M_DP_NA_1, M_ST_NA_1 and M_IT_NA_1 Form Point Number Page 186 of 195 Database Address Group Assignment ProSoft Technology, Inc.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual 9.7.2 M_ME_NA_1 and M_ME_NB_1 Form Point Number ProSoft Technology, Inc.
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Reference User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum 9.7.3 Form for All C_ (Command) Data Types, Except C_RC_NA_1 Point Number Page 188 of 195 Database Address Monitor Point # Monitor Database Address Require Select ProSoft Technology, Inc.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Reference User Manual 9.7.4 C_RC_NA_1 Form Point Number ProSoft Technology, Inc.
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Reference User Manual 9.8 PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Frequently Asked Questions 9.8.1 How fast do the "Backplane Data Exchange" commands run? The "Backplane Data Exchange" commands will execute one at a time during the I/O service interval of the PLC. What this means is that if you had a list of 10 commands at the end of every PLC scan one command would execute.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Support, Service & Warranty User Manual 10 Support, Service & Warranty In This Chapter   10.1 Contacting Technical Support ............................................................. 191 Warranty Information ........................................................................... 192 Contacting Technical Support ProSoft Technology, Inc. (ProSoft) is committed to providing the most efficient and effective support possible.
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Support, Service & Warranty User Manual Internet PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Web Site: www.prosoft-technology.com/support E-mail address: support@prosoft-technology.com Tel: +603.7724.2080, E-mail: asiapc@prosoft-technology.com Languages spoken include: Chinese, English Tel: +86.21.5187.7337 x888, E-mail: asiapc@prosoft-technology.com Languages spoken include: Chinese, English Tel: +33 (0) 5.34.36.87.20, E-mail: support.EMEA@prosoft-technology.
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Index % %SW60 Hot Standby Command Register • 108 %SW61 Hot Standby Status Register • 109 [ [Backplane Configuration] • 54 [C_BO_NA_1 104] • 90 [C_DC_NA_1 104] • 90 [C_RC_NA_1 104] • 90 [C_SC_NA_1 104] • 89 [C_SE_NA_1 104] • 91 [C_SE_NB_1 104] • 91 [C_SE_NC_1 104] • 92 [IEC-870-5-104 Database] • 82 [IEC-870-5-104 IP Addresses] • 86 [IEC-870-5-104] • 72 [M_BO_NA_1 104] • 87 [M_DP_NA_1 104] • 87 [M_IT_NA_1 104] • 89 [M_ME_NA_1 104] • 88 [M_M
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Index User Manual PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Functional Specifications • 125 G General (All Points) • 161 General Specifications • 124 Group Codes • 87, 89, 92, 150, 174 Group Communication • 150 Guide to the PTQ-104S User Manual • 9 H Hardware and Software Requirements • 12 Hardware Specifications • 125 Hot Standby Overview • 102 Hot Standby Support • 190 How do I configure the module? • 190 How fast do the • 190 HSBY Operating Modes • 107 I Identical Configura
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PTQ-104S Rev2 ♦ Quantum Platform IEC 60870-5-104 Server for Quantum Index User Manual R Read Module's Time to Processor (9970) • 67 Read procedure • 181 Read Status (9250) • 64, 171 Redisplaying the Menu • 115 Reference • 9, 123 Required Hardware • 112 Returning to the Main Menu • 118, 120 RFC 2200 suite • 185 RS-232 Configuration/Debug Port • 170 S Scan Events • 79 Select/Operate Timeout • 75 Selection of standard ASDUs • 176 Sequence Flag • 84, 169 Set Module Parameters • 53 Set Priority Queues • 76 Se