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Hitachi SD.LINK User Manual
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Hitachi SD.LINK User Manual

Hitachi SD.LINK User Manual

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USER'S MANUAL
OPTION
SD.LINK
(LQE530)
SVE-1-115(G)

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  • Page 1 USER'S MANUAL OPTION SD.LINK (LQE530) SVE-1-115(G)
  • Page 3 Fifth Edition, September 2008, SVE-1-115(F) (out of print) Sixth Edition, January 2013, SVE-1-115(G) All Rights Reserved, Copyright © 2003, 2013, Hitachi, Ltd. The contents of this publication may be revised without prior notice. No part of this publication may be reproduced in any form or by any means without permission in writing from the publisher.
  • Page 4 SAFETY PRECAUTIONS Before installation, operation, maintenance, and/or inspection of this product, be sure to read through carefully this manual and other related manuals. Do not use this product until you are familiar with all the information concerning this product, safety information, and precautions provided in those manuals.
  • Page 5 Do not install, wire, handle, modify, or use maintenance parts in any manner not described in this manual. Such a practice may result in breakdown of this equipment or peripherals, injury or even death. Hitachi will not be responsible for any accident or failure resulting from such mishandling.
  • Page 6 During work For each procedure, follow the given sequence of steps. Use the special tools and instruments, specified for the work in the manual or commercially available tools and instruments which fit the purpose. Use measurement instruments and powered tools which are properly calibrated or periodically inspected.
  • Page 7 Prevention of electric shocks Before starting work, make sure that, unless otherwise specifically instructed, there is no potential electric hazard in the maintenance area such as insufficient grounding or a wet floor. Before starting work, note where the emergency power-off switches are located and make sure you know how to operate them.
  • Page 8 Procedures in an emergency For electric shock Do not panic. Do not become another victim through contact with the injured person. First, shut off the electric current passing through the victim. Use the emergency power-off switch, if there is one, or, otherwise, a normal power- off switch.
  • Page 9 Hazard Warning Statements The following are the hazard warning statements contained in this manual. WARNING Statements (chapter 3, page 3-5) WARNING Switch off the power supply before making connections to the terminal block. Making connections with the power supply being switched on may incur electrical shock hazards.
  • Page 10 -14 dBm to -31 dBm. The SD.LINK involves such large current dissipation that a limit is placed on the maximum number of modules that can be mounted in an S10mini CPU unit eight-slot mount base.
  • Page 11 If the module number setting switch is set to ‘E’ or ‘F’ and then the power to the SD.LINK module is cycled or it is reset, its error LED will glow but this is not a sign of fault.
  • Page 12 (chapter 3, page 3-3) NOTICE Dust or other foreign matter might accumulate on the connector, resulting in poor contact. Immediately after the module is unpacked, perform the mounting and wiring procedures. To prevent the module from being damaged, observed the following precautions when you mount or demount the module: •...
  • Page 13 (chapter 3, page 3-6) NOTICE Optical fiber cable wiring is an error-prone task. Mark each optical fiber cable with the wire gauge before connecting it. S-10...
  • Page 14 (chapter 3, page 3-7) NOTICE Insert the optical connector key into the key slot in the optical module receptacle deep enough to hide the white mark on the optical connector. The primary ring and the secondary ring involve opposite directions of data transmission as shown on the previous page.
  • Page 15 (chapter 4, page 4-3) NOTICE The following settings are not supported. • The switch is set to an existing CPL number on the SD.LINK. • A CPL number out of bounds (40 to FF) is set. (chapter 4, page 4-4) NOTICE Relationship between the SD.LINK module and the CPU or LPU switches.
  • Page 16 (chapter 4, page 4-8) NOTICE The S10V Base System is required for operating the S10V OD.RING/SD.LINK system. If it is not installed, you cannot install the S10V OD.RING/SD.LINK system. Before installing the S10V OD.RING/SD.LINK system, be sure to exit all the currently open Windows®...
  • Page 17 Customers are advised to program all modules to detect a fault as soon as a breakage occurs at an one point and report an alarm condition accordingly. [Example] The CPL numbers of SD.LINK modules connected are 0 to 5 and the RAS table starting address is set to RWF00 (YF70 is assigned as an alarm reporting coil in the example below).
  • Page 18 Clean the optical module receptacle and optical connectors after measurement. Because the SD.LINK module (LQE530) uses a Type SC (or 2SC) optical connector, the optical power meter must support Type SC (or 2SC) accordingly. Use a Type SC (or 2SC) connector adapter (included with the optical power meter or sold separately).
  • Page 19 “4.6 Commands.” Specifically, these two cases are conceivable: Case 1: If an SD.LINK module for which parameters have been set with the S10V is mounted in the S10mini, either “SDM PRME” or “SDS PRME” is displayed in the CPU module indicator.
  • Page 20 Hitachi Engineering & Services Co., Ltd. The malfunctioning part will be replaced or repaired free of charge. If the malfunctioning is shipped, however, the shipment charge and packaging expenses must be paid for by the customer.
  • Page 21 This Page Intentionally Left Blank...
  • Page 22 This manual provides information on the following hardware and program products: <Hardware product> SD.LINK (LQE530) <Program products> S-7890-28, OD.RING/SD.LINK SYSTEM, 07-03 S-7895-28, S10V OD.RING/SD.LINK SYSTEM, 01-03...
  • Page 23 Revision record Revision record Revision No. Month, Year Remarks (revision details and reason for revision) First edition February 2003 Section 6.4, “Replacing or Adding On the Module” September 2008 is newly added. • Changes are added to the Table 6-6“Error Status January 2013 Details.”...
  • Page 24 PREFACE Thank you for purchasing the SD.LINK module, which is an option for use with the S10mini/S10V. This manual, named “USER’S MANUAL OPTION SD.LINK,” describes how to use the SD.LINK module. For proper use of the SD.LINK module, it is requested that you thoroughly read this manual.

  • Page 25: Table Of Contents

    4.5.4 Changing connections ....................4-12 4.5.5 Selecting an edition file ....................4-13 4.5.6 Closing the system ...................... 4-15 4.6 Commands.......................... 4-16 4.6.1 OD.RING/SD.LINK system function architecture ............ 4-16 4.6.2 Main module (submodule) parameter information ............. 4-17 4.6.3 Main module (submodule) error information ............. 4-20...
  • Page 26 4.6.4 Module error ....................... 4-21 4.6.5 Status .......................... 4-22 4.6.6 RAS table ........................4-23 4.6.7 Printing ........................4-24 4.6.8 CSV output ......................... 4-26 4.6.9 Setting transfer areas where an S10mini and an S10V are intermixed ...... 4-28 5 PROGRAMMING ........................5-1 5.1 Operation ..........................
  • Page 27 Figure 4-9 [Creation confirmation] Dialog Box ..............4-14 Figure 4-10 Error Message Dialog Box Reporting on an Invalid OD.RING/SD.LINK Setup Info File Specified ..................4-15 Figure 4-11 OD.RING/SD.LINK System Function Architecture ..........4-16 Figure 4-12 [Set parameter] Window -- an Example ............... 4-17 Figure 4-13 [Print] Dialog Box ....................
  • Page 28 Figure 6-3 Locating Faults ..................... 6-10 Figure 6-4 Example of Measuring the Optical Transmit Level ..........6-11 Figure 6-5 Error Freeze Information Format ................. 6-18 Figure 6-6 Stack Frame Format ..................... 6-20 Figure 6-7 Trace Buffer ......................6-21 Figure 6-8 Trace Control Table....................
  • Page 29 Types of System Software Package (Tool) .............. 1-4 Table 2-1 Module Number Setting Switch ................Table 3-1 Mount Bases Applicable to the SD.LINK Module ..........3-2 Table 3-2 Types of Optical Fiber Cable ................... 3-8 Table 3-3 Optical Fiber Cable Specifications ................3-9 Table 4-1 Module Number and CPL Number Setting Switch ..........

  • Page 30: Specifications

    1 SPECIFICATIONS...

  • Page 31: Use

    1 SPECIFICATIONS 1.1 Use The SD.LINK module allows data to be shared between CPU or LPU units by transferring memory between them. Up to 4,096 items of I/O data, and up to 4,096 words of data can be shared. When the module (Model: LQE530) is used with an S10mini CPU unit, it can be intermixed with an SD.LINK module (Model: LQE030) that is dedicated to the S10mini.
  • Page 32 -14 dBm to -31 dBm. The SD.LINK involves such large current dissipation that a limit is placed on the maximum number of modules that can be mounted in an S10mini CPU unit eight-slot mount base.

  • Page 33: System Software Specifications

    1.3 System Software Specifications 1.3.1 System overview When you use the SD.LINK module, you must register various items of information in the module. Register the module information using the following system software (tool) and by performing operating procedures similar to those for general Windows® applications.
  • Page 34 1 SPECIFICATIONS (2) For S10V • Personal computer (main unit) containing a Pentium 300 MHz of faster CPU, or a 1 GHz or faster CPU (when Windows® 7 (32-bit version) is used) • Display having a resolution of 800 × 600 dots (SVGA) or higher •...
  • Page 35 This Page Intentionally Left Blank...

  • Page 36: Names And Functions Of Each Part

    2 NAMES AND FUNCTIONS OF EACH PART...

  • Page 37: Table 2-1 Module Number Setting Switch

    If the module number setting switch is set to ‘E’ or ‘F’ and then the power to the SD.LINK module is cycled or it is reset, its error LED will glow but this is not a sign of fault.

  • Page 38: Mounting And Wiring

    3 MOUNTING AND WIRING...

  • Page 39: Mount Base

    S10mini. S10V Series There are no specific rules about the mounting position or unoccupied slots. The LQE030 SD.LINK module cannot be used as it is specially designed for use with the S10mini.

  • Page 40: Figure 3-1 Mounting The Option Module

    3 MOUNTING AND WIRING Mount base Option slots Power supply module CPU or LPU module Option module Figure 3-1 Mounting the Option Module NOTICE Dust or other foreign matter might accumulate on the connector, resulting in poor contact. Immediately after the module is unpacked, perform the mounting and wiring procedures.

  • Page 41: Ground Wiring

    FG terminal (with a wire diameter of 2.0 mm or more). • The SD.LINK module (LQE530) does not have an FG terminal. • For information about other option modules, refer to the manuals supplied with the modules. (Some option modules do not have an FG terminal.) ②...
  • Page 42 3 MOUNTING AND WIRING WARNING Switch off the power supply before making connections to the terminal block. Making connections with the power supply being switched on may incur electrical shock hazards. Electric shock hazards exist so that you might suffer burns or become electrocuted.

  • Page 43: Wiring

    3.4 Wiring (1) Primary ring (PR) wiring Connect the TX and RX terminals of each SD.LINK module and those of the adjoining SD.LINK module with optical fiber cables to form a ring as shown in Figure 3-3. Communications data will transit from TX to RX in the arrow direction.

  • Page 44: Figure 3-4 Optical Fiber Cable Handling

    3 MOUNTING AND WIRING NOTICE Insert the optical connector key into the key slot in the optical module receptacle deep enough to hide the white mark on the optical connector. The primary ring and the secondary ring involve opposite directions of data transmission as shown on the previous page.

  • Page 45: Optical Fiber Cables

    3 MOUNTING AND WIRING 3.5 Optical Fiber Cables 3.5.1 Types of optical fiber cables It would be technically difficult for customers to purchase an optical fiber cable and an optical connector separately and then attach the optical connector. Instead, customers are advised to purchase a cable with double-ended connectors or have a professional contractor carry out the cabling work.

  • Page 46: Optical Fiber Cable Specifications

    3 MOUNTING AND WIRING 3.5.2 Optical fiber cable specifications The kinds of optical fiber cables that can be used with the SD.LINK module are limited. When customers order an optical fiber cable, they should purchase one that meets the following...

  • Page 47: Recommended Cables

    Specify a branch length in meters. (7) to (9) These specifications are unnecessary for single-ended connectors. When using optical fiber cables with the SD.LINK module, however, specify (4) to (6) because they come essentially with double-ended connectors. (10) Cable length Specify in meters.

  • Page 48: Operation

    4 OPERATION...

  • Page 49: Startup Procedure

    ① Switch off the CPU or LPU module and mount the Mount the module. SD.LINK module. ② Set the module number setting switch of the SD.LINK Set the module number switch. module to designated it as a main module or submodule.

  • Page 50: Setting Switches

    6, 7 Option value between 00 and 07 NOTICE The following settings are not supported. • The switch is set to an existing CPL number on the SD.LINK. • A CPL number out of bounds (40 to FF) is set.

  • Page 51: Switching On

    (2) Open the power supply module cover, set the POWER switch to “ON” to switch on the power. NOTICE Relationship between the SD.LINK module and the CPU or LPU switches. Functioning of the CPU or LPU switches affects the operations of the SD.LINK module. STOP The SD.LINK module receives data transmitted from another module and updates memory transfer areas.

  • Page 52: Data Transmission

    4 OPERATION 4.4 Data Transmission Set the CPU or LPU module LADDER switch to “RUN” to start data transmission.

  • Page 53: Installing And Starting Up The System

    S10mini OD.RING/SD.LINK system again. (2) Installing the S10V OD.RING/SD.LINK system To install the S10V OD.RING/SD.LINK system, you must execute the setup program that is stored in the S10V OD.RING/SD.LINK system DISK1 folder on the CD. Double-click “setup.exe” that is stored in the DISK1 folder on the S10V OD.RING/SD.LINK system CD.
  • Page 54 When you have so logged on, you can then double-click “setup.exe” that is stored in the DISK 1 folder on the S10V OD.RING/SD.LINK system CD. When “setup.exe” is started, the dialog box as shown below will appear. Click the button to continue the execution of the setup program.

  • Page 55: Uninstalling

    “4.5.2 Uninstalling,” exit all the Windows® Programs, and then install the S10V OD.RING/SD.LINK system again. 4.5.2 Uninstalling The existing S10V OD.RING/SD.LINK system needs to be uninstalled when, for instance, you want to upgrade it. The procedure required for uninstalling it is as follows: (1) Uninstalling from Windows® 2000...

  • Page 56: Starting Up The System

    To start up the OD.RING/SD.LINK system, perform the following procedure: S10mini OD.RING/SD.LINK system startup procedure (1) If you want to start up the S10mini OD.RING/SD.LINK system from the Windows® desktop, double-click the [OD.RING/SD.LINK SYSTEM] icon. Alternatively, if you want to start it up from the...

  • Page 57: Figure 4-3 [[S10V] Od.ring/Sd.link System] Window

    If you need not change the current connection destination setting, click the Cancel button instead. Figure 4-4 [Communication type] Window (3) The [[S10V] OD.RING/SD.LINK SYSTEM] window appears. Then, click a desired command button. Figure 4-5 [[S10V] OD.RING/SD.LINK SYSTEM] Window 4-10...

  • Page 58: Figure 4-6 Selecting The [Offline] Radio Button

    The procedure described below enables you to create a setup information file for the OD.RING/SD.LINK and edit it, all in offline mode, even if the actual target machine is not present in your user system. The setup information file prepared this way can be read out through interaction with the [Set parameter] window in online mode and then sent to the actual target machine.

  • Page 59: Changing Connections

    (1) Click the Change connection button in either of the [OD.RING/SD.LINK SYSTEM] window (see Figure 4-2) or [[S10V] OD.RING/SD.LINK SYSTEM] window (see Figure 4- (2) The [Communication type] window then opens the [S10V] OD.RING/SD.LINK does not have a “GPIB” button.

  • Page 60: Selecting An Edition File

    This function is supported only in S10V controller systems. Operation: The procedure used is shown below. (1) In the [[S10V] OD.RING/SD.LINK SYSTEM] window displayed, choose the [Offline] radio button. If it is already selected, skip this step. 4-13...

  • Page 61: Figure 4-9 [Creation Confirmation] Dialog Box

    The [Open] window as shown below will then appear. Figure 4-8 [Open] Window -- an Example (3) If you want to create a new OD.RING/SD.LINK setup information file and edit its content, enter a non-existing unique file name and click the Open button.

  • Page 62: Closing The System

    4 OPERATION (4) If you want to edit an already created OD.RING/SD.LINK setup information file, choose that file in the [Open] window, and click the Open button. If the selected file is a non-OD.RING/SD.LINK setup info file or invalid file, the error message dialog box shown below will appear.

  • Page 63: Commands

    (Module parameter editing) CSV output Usable only with Main module error information Module errors S10V controllers (Submodule error information) Status Usable only when the OD.RING/SD.LINK system is running in online mode. RAS table Figure 4-11 OD.RING/SD.LINK System Function Architecture 4-16...

  • Page 64: Main Module (Submodule) Parameter Information

    Edit submodule parameter button in the [OD.RING/SD.LINK SYSTEM] window (see Figure 4-2) or the [[S10V] OD.RING/SD.LINK SYSTEM] window (see Figure 4-3). (If you are editing parameters for the S10V controller in offline mode, click the Edit module parameter button instead of [Edit main module parameter] and [Edit submodule parameter].)
  • Page 65 Set status Set the hold/clear operation mode. The hold/clear mode holds or clears to 0 transfer areas from a remote SD.LINK module when data is no longer received from that module. Bit data address Set bit data addresses to be transferred to a remote SD.LINK module. For the setting range, see the next page.
  • Page 66 (3) When the setup is complete, click the button (or Write button in the S10V OD.RING/SD.LINK system) to install the settings in the SD.LINK module. To abandon the settings, click the Cancel button. (4) You can save the settings to a file (S10V only). Click...

  • Page 67: Main Module (Submodule) Error Information

    Function: Select main module (submodule) error information to display. Operation: Follow these steps: (1) Click the Main module error information Submodule error information button in the [OD.RING/SD.LINK SYSTEM] window or the [[S10V] OD.RING/SD.LINK SYSTEM] window. (2) An [Error information] window is displayed. 4-20...

  • Page 68: Module Error

    4 OPERATION 4.6.4 Module error Function: Display main module (submodule) error information. To find out more about error information, see “6.6.2 Error indications and remedial actions.” Operation: Follow these steps: (1) Click the Module error button in the [Error information] window. Error information is displayed if a module error has been encountered.

  • Page 69: Status

    4 OPERATION 4.6.5 Status Function: Display main module (submodule) status information. Operation: Follow these steps: (1) Click the Status button in the [Error information] window. A [Status] window is displayed. (2) Click the Start monitoring button to start monitoring. Click the Stop monitoring button to stop monitoring.

  • Page 70: Ras Table

    4 OPERATION 4.6.6 RAS table Function: Display main module (submodule) RAS table information. To find out more about the RAS table, see “5.6 RAS Table.” Operation: Follow these steps: (1) Click the RAS table button in the [Error information] window. A [RAS] window is displayed.

  • Page 71: Printing

    This function is supported only in S10V controller systems. Operation: The procedure used is shown below. (1) If the OD.RING/SD.LINK system is running in online mode, establish a connection between the OD.RING/SD.LINK system and the PCs (see “4.5.4 Changing the connection with the PCs”).
  • Page 72 4 OPERATION <Sample printout> OD.RING/SD.LINK 2006/10/31 20:15:20 File Name=C:\Documents and Settings\Administrator\Desktop\Nai\aaa\Settings\0D2.odr Set status Hold Bit data address RW000-RW1F0 Bit data word count Word data address FW100-FW1FF Word data word count /100 RAS table address RW800-RW880 Use extend memory LBW0000 - LBWFFF0...

  • Page 73: Csv Output

    CSV format. This function is supported only in S10V controller systems. Operation: The procedure used is shown below. (1) If the OD.RING/SD.LINK system is running in online mode, establish a connection between the OD.RING/SD.LINK system and the PCs (see “4.5.4 Changing the connection with the PCs”).
  • Page 74 4 OPERATION <Sample CSV file output> OD.RING/SD.LINK 2006/10/31 20:16:51 File Name=C:\Documents and Settings\Administrator\Desktop\Nai\aaa\Settings\0D2.odr Set status,Hold Bit data address,RW000-RW1F0 Bit data word count,/20 Word data address,FW100-FW1FF Word data word count,/100 RAS table address,RW800-RW880 Use extend memory LBW0000 - LBWFFF0,120000 LWW0000 - LWWFFFF,130000...
  • Page 75 This section describes how to configure and set the addition of an S10V to a network on which extend memory has been set as an SD.LINK transfer area by the S10mini. While the SD.LINK caries out absolute addressing-conscious transfers, simply transferring from S10mini extend...

  • Page 76: Figure 4-15 S10V (Lpu1) Setting Example

    4 OPERATION Enter transfer source addresses. Click-select check boxes. Associate the LWW register starting address with an S10mini extend memory address. Figure 4-15 S10V (LPU1) Setting Example 4-29...
  • Page 77 This Page Intentionally Left Blank...
  • Page 78 5 PROGRAMMING...

  • Page 79: Setting Transfer Areas Where An S10Mini And An S10V Are Intermixed

    5 PROGRAMMING 5.1 Operation The SD.LINK module transfers data in set area to a remote CPU (or LPU). CPU-0 (or LPU-0) CPU-1 (or LPU-1) CPU-2 (or LPU-2) Figure 5-1 System Configuration Example CPU-0 (or LPU-0) CPU-1 (or LPU-1) CPU-2 (or LPU-2) Figure 5-2 Memory Transfers Figure 5-1 and Figure 5-2 show the memory transfer operations of each CPU or LPU.

  • Page 80: Transfer Cycle

    5 PROGRAMMING 5.2 Transfer Cycle CPU-0 LPU-0 CPU-1 LPU-1 CPU-2 LPU-2 Transfer cycle Figure 5-3 Transfer Cycle The memory transfer operation described in “5.1 Operation” takes place at the timings shown in Figure 5-3. The time-base is taken on the horizontal axis. The sharing operation begins with CPU-0 (or LPU-0) transferring, and ends with CPU-2 (or LPU- 2) transferring.

  • Page 81: Synchronism Of Transfer Data

    5 PROGRAMMING 5.3 Synchronism of Transfer Data It may happen that application software and the SD.LINK module access a memory transfer area concurrently as they gain asynchronous access to the area. Note that the data might lose synchronicity as a memory transfer area block.

  • Page 82: Memory Transfer Area

    5 PROGRAMMING 5.4 Memory Transfer Area Two memory transfer areas, one containing bit data and the other, word data, can be separately specified per module as memory transfer areas as listed in Table 5-2. Table 5-2 Memory Transfer Areas Bit data Word data Area Absolute address...

  • Page 83: Figure 5-4 Set Areas

    5 PROGRAMMING As shown in Figure 5-4, the areas that are set by the individual modules may or may not be consecutive. CPL No.0 CPL No.1 Memory space CPL No.2 Figure 5-4 Set Areas...

  • Page 84: Faults And Fault Avoidance Operation

    * A to D denote an SD.LINK module each. Figure 5-5 Data Flow during Normal Operation The SD.LINK module uses data on either of the two rings at a time. Choice of data on the primary ring or the secondary ring is determined under the following conditions: If the SD.LINK module is successfully receiving data from a remote mode via both rings The...

  • Page 85: Figure 5-6 If Either Ring Is Broken At One Point

    Data received from the primary ring is used for other data. Secondary ring Primary ring * A to D denote an SD.LINK module each. Figure 5-6 If Either Ring Is Broken at One Point...

  • Page 86: Figure 5-7 If Either Ring Is Broken At Multiple Points

    A, B, and C. Transmission via the secondary ring resumes when the primary ring recovers from the breakages. Secondary ring Primary ring * A to D denote an SD.LINK module each. Figure 5-7 If Either Ring Is Broken at Multiple Points...

  • Page 87: Figure 5-8 If The Two Rings Are Broken At The Same Point

    Secondary ring Primary ring * A to D denote an SD.LINK module each. Figure 5-8 If the Two Rings Are Broken at the Same Point Even if one module shuts down If one module shuts down, communication is carried on using the rest of the modules.

  • Page 88: Figure 5-10 If Multiple Adjoining Modules Shut Down

    Secondary ring Primary ring * A to D denote an SD.LINK module each. Figure 5-10 If Multiple Adjoining Modules Shut Down If multiple non-adjoining modules shut down Communication is carried between the adjoining modules as shown in Figure 5-11.

  • Page 89: Figure 5-12 If The Primary Ring And The Secondary Ring Are Broken At Different Points

    B and C, the other, modules A, D, E, and F. Primary ring Secondary ring * A to F denote an SD.LINK module each. Figure 5-12 If the Primary Ring and the Secondary Ring Are Broken at Different Points 5-12...
  • Page 90 Customers are advised to program all modules to detect a fault as soon as a breakage occurs at an one point and report an alarm condition accordingly. [Example] The CPL numbers of SD.LINK modules connected are 0 to 5 and the RAS table starting address is set to RWF00 (YF70 is assigned as an alarm reporting coil in the example below).

  • Page 91: Ras Table

    5 PROGRAMMING 5.6 RAS Table The RAS table keeps a record of communicating module information. It is structured as shown in Figure 5-13. Primary ring 3D 3E 3F Secondary ring 3D 3E 3F Not used CP CS Figure 5-13 RAS Table Structure •...

  • Page 92: Hold/Clear

    2 seconds after a reset is cleared. Allow for at least 2 seconds after a reset before gaining access to these areas. 5.7 Hold/Clear The hold/clear mode holds or clears to 0 transfer areas from a remote SD.LINK module when data is no longer received from that module. Hold The area data (such as GW) in which the inactive remote module is registered is preserved, retaining the last transferred data.
  • Page 93 This Page Intentionally Left Blank...

  • Page 94: Maintenance

    6 MAINTENANCE...

  • Page 95: Maintenance And Inspection

    6 MAINTENANCE 6.1 Maintenance and Inspection The SD.LINK module requires inspections to keep it running in optimal condition. Carry out such inspections daily or periodically (at least twice a year). Table 6-1 Maintenance and Inspection Items Item Point to check Module appearance Check the module case for cracks, flaws and other defects.

  • Page 96: Handling Optical Fiber Cable And Connector

    6 MAINTENANCE 6.2 Handling Optical Fiber Cable and Connector Maximum precautions, such as those outlined in Table 6-2, should be taken in handling optical fiber cables and optical connectors. Table 6-2 Precautions in Handling Item Explanation Remarks Do not bend A bending radius less than A bending radius of 30 mm could break the...

  • Page 97: Replacing Optical Fiber Cables

    6 MAINTENANCE 6.3 Replacing Optical Fiber Cables The SD.LINK module allows broken optical fiber cables to be replaced without closing the ongoing session of communication (online mode). CAUTION Only optical fiber cables can be replaced online. To replace any other kinds of cables, such as power cables and grounding conductors, switch off the power to guard against electrical shock hazards.

  • Page 98: Replacing Or Adding On The Module

    6 MAINTENANCE 6.4 Replacing or Adding On the Module The SD.LINK module may be replaced in online mode; that is, its replacement may be performed while communications are in progress with the other existing SD.LINK modules. What you should get in preparation ①...
  • Page 99 B, attach dust- proof caps to those connectors. ⑦ Replace module B with the new one and set the new SD.LINK module’s rotary switches in the same way as you wrote down in Step ①.
  • Page 100 ⑮ Set the LPU module’s LADDER and T/M switches in the same way as you wrote down in Step ②. ⑯ Turn on the power supply of the controller unit and check that the new SD.LINK module is running normally. To accomplish this check, ensure that the new SD.LINK module’s PR- /SR-RX and PR-/SR-TX LEDs are all lit, but its ERR LED is not.
  • Page 101 6 MAINTENANCE ⑩ Turn on the power supply of the controller unit and check that the add-on SD.LINK module is running normally. To accomplish this check, ensure that the add-on SD.LINK module’s PR-/SR-RX and PR-/SR-TX LEDs are all lit, but its ERR LED is not.

  • Page 102: Optical Level Measurement

    Figure 6-2. At measurement, switch on the SD.LINK module with the module number of the adjoining SD.LINK module set to E or F. Carry out measurement with regard to both the primary and secondary rings. Connect the optical fiber cables and the optical power meter by way of a compatible connector adapter.

  • Page 103: Locating Fault Portion

    Clean the optical module receptacle and optical connectors after measurement. Because the SD.LINK module (LQE530) uses a Type SC (or 2SC) optical connector, the optical power meter must support Type SC (or 2SC) accordingly. Use a Type SC (or 2SC) connector adapter (included with the optical power meter or sold separately).

  • Page 104: Optical Transmitting Level Measurement

    LQE530: Type SC connector (or Type 2SC connector) Requirement: -14 dBm to -20 dBm If the optical transmit level does not meet this requirement, replace the SD.LINK module. Detach Short optical fiber cable (1 m or less)
  • Page 105 Clean the optical module receptacle and optical connectors after measurement. Because the SD.LINK module (LQE530) uses a Type SC (or 2SC) optical connector, the optical power meter must support Type SC (or 2SC) accordingly. Use a Type SC (or 2SC) connector adapter (included with the optical power meter or sold separately).

  • Page 106: Troubleshooting

    6 MAINTENANCE 6.6 Troubleshooting 6.6.1 Trouble detection and solution The transmit LED (TX) does not glow. • Is the power supply module POWER LED on? If the POWER LED is off, power is not available. Switch on the power. • Has the error LED (ERR) not glowed? If the ERR LED is on, some error is present.
  • Page 107 6 MAINTENANCE • Has the remote module the correct transmit area setting? If the transmit area setting is incorrect, correct it. A transmitted word count of 0 would inhibit transmission. • Has the remote module the correct module and CPL number settings? Verify the correct switch settings.

  • Page 108: Error Display And Countermeasures

    With the OD.RING module (LQE010/015/510/515) combined, are three or more units not mounted? • With the S10V, are three or more units of the SD.LINK module (LQE530) not mounted? With the OD.RING module (LQE510/515) combined, are three or more units not mounted? •...

  • Page 109: Cpu Indicators Display Messages

    With the S10mini, one of the messages listed below is displayed in the CPU module indicator when a certain event or error occurs in the SD.LINK module. The S10V collects error information, but does not display errors on the LPU module. Error information collected can be referenced from Error Log on S10V Basic System.

  • Page 110: Monitoring A Specific Module

    “4.6 Commands.” Specifically, these two cases are conceivable: Case 1: If an SD.LINK module for which parameters have been set with the S10V is mounted in the S10mini, either “SDM PRME” or “SDS PRME” is displayed in the CPU module indicator.

  • Page 111: Error Freeze Information

    6 MAINTENANCE 6.6.5 Error freeze information When the SD.LINK module has detected a hardware error, it lights the ERR LED and loads error freeze information. The SD.LINK module then shuts down. Figure 6-5 shows the format of error freeze information. For definitions of the error code and the stack frame in the format, see the next pages.

  • Page 112: Table 6-4 Error Codes

    6 MAINTENANCE The SD.LINK module, when running under normal conditions of operation, shows /0000. Table 6-4 Error Codes Code Error Action /0010 Bus error /0011 Address error /0012 Illegal instruction /0013 Division by 0 /0014 Privilege violation The SD.LINK module may have failed.

  • Page 113: Figure 6-6 Stack Frame Format

    6 MAINTENANCE Figure 6-6 Stack Frame Format 6-20...

  • Page 114: Communication Trace Information

    6 MAINTENANCE 6.6.6 Communication trace information The SD.LINK module can trace communications information and events. Using this function, trace data can be created to aid in problem determination and corrective action. (1) Trace buffer structure The trace buffer consists of an 8-word trace control table and 256 cases (32 words/case) of trace data.

  • Page 115: Figure 6-8 Trace Control Table

    6 MAINTENANCE (2) Trace control table The trace control table is organized into 8 words. Main module Submodule ① Run/Stop /940FF0 /9C0FF0 /940FF2 /9C0FF2 Not used /940FF4 /9C0FF4 ② Trace address ③ Mask data /940FF8 /9C0FF8 /940FFA /9C0FFA ④ Compare data /940FFC /9C0FFC ⑤...

  • Page 116: Figure 6-9 Use Example 1

    6 MAINTENANCE <Use example 1> Configure the trace control table as shown in Figure 6-9 to stop tracing when G002, which is supposed to be “0” under normal conditions of operation, changes to “0.” ① /0002 /000E GW000 ・ ・ ・...

  • Page 117: Figure 6-11 Trace Data

    6 MAINTENANCE (3) Trace data Trace data is organized into 32 words by case. Trace cause Error status Frame header (10 words) Frame information 32 words Frame bit data (First 8 words) Frame word data (First 8 words) Frame event data (First 4 words) Figure 6-11 Trace Data <Frame header details>...

  • Page 118: Table 6-5 Trace Events And Actions

    6 MAINTENANCE (4) Trace events and trace actions carried out Table 6-5 gives the correspondence between the kinds of events that trigger trace data creation and the actions that are carried out. Table 6-5 Trace Events and Actions Condition Trace Frame Event Error stop...

  • Page 119: Figure 6-13 Trace Cause

    6 MAINTENANCE Trace cause The cause that has triggered trace data creation is set as a trace cause. (MSB) (LSB) /0 Condition false /1 Condition true Reserved /0 Start /1 Normal end /2 Error stop /3 Timeout /0 Transmission /1 Reserved /2 Primary ring reception /3 Secondary ring reception Figure 6-13 Trace Cause...

  • Page 120: Figure 6-15 Receiving Error Status

    6 MAINTENANCE <Receiving error status> (MSB) (LSB) Overrun CRC error Abort sequence Non-octet frame Frame length violation DPLL error Figure 6-15 Receiving Error Status NOTICE Error status “FFFF” is set when a receive timeout error occurs. 6-27...

  • Page 121: Table 6-6 Error Status Details

    (3) Check that all of the optical fiber cables wired to the existing SD.LINK modules are Receive timeout Frames in excess of recommended ones (i.e., those identified by...

  • Page 122: Trouble Report

    6 MAINTENANCE 6.7 Trouble Report Fill out this form and submit it to local source. Your company name Person in charge Data and time of occurrence (year / month / day / hour / minute) Address Where to make contact Telephone E-mail Model of defective module...
  • Page 123 This Page Intentionally Left Blank...

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