s06h1021
DESCRIPTION
prosafe-rsTRANSCRIPT
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User’sManual
Communication Devices
IM 32S06H10-21E
IM 32S06H10-21E3rd Edition
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IntroductionThis manual describes the communication devices used with ProSafe-RS System.Part A describes optical bus repeater (model names: YNT511D and YNT522D) and Part B describes bus repeater (model name: YNT512D).
IMPORTANT• In this document, 10BASE-5 and 10BASE-2, terminology of Ethernet, are use to describe
the V net cables for easier understanding. Actually, V net is different from Ethernet. Yokogawa’s YCB111 and YCB141 cables should be used instead of 10BASE-5 and 10BASE-2 cables, respectively.
• V net is referred to as Control Bus.
• For the cables, connectors, T-type connectors and terminators, the models recommended by Yokogawa should be used.
• PART-A Optical Bus Repeater The optical bus repeater is used to replace a part of control bus (V net) with fiber-optic cables instead of coaxial cables. The use of this device with fiber-optic cables makes a long-distance transmission possible.
• PART-B Bus Repeater The bus repeater is used to extend the communication distance of the control bus.
3rd Edition : Dec.22,2009-00Media No. IM 32S06H10-21E (CD) 3rd Edition : Dec. 2009 (YK)All Rights Reserved Copyright © 2008, Yokogawa Electric Corporation
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ProSafe-RS Document Map
EngineeringGuide
Utilities andMaintenance
Reference
EngineeringReference
Manual
Software Help
Read Me First
Safety ControlStations
(Hardware)
Installation
ProSafe-RSSystem Test
Reference
Safety Control StationReference
Integration withCENTUM VP/CS 3000
CommunicationDevices
Open Interfaces
IM 32S01C10-21E
IM 32S01C50-21E
IM 32S06C10-21E IM 32S06H10-21E
IM 32S05B10-21EIM 32S01E10-21E
Integration withFAST/TOOLS
IM 32S56H20-21E
IM 32S04B20-21E
IM 32S03B10-21E
IM 32S04B30-21E
Safety System
Software
Installation
Hardware
ProSafe-RSVnet/IP
IM 32S56H10-21E
Vnet/IP
Safety Manual
IM 32S01S10-21E
Workbench User’s Guide
Messages
IM 32S02B10-21EIM 32S04B10-21E
2nd Edition : Dec.15,2008-00
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Safety Precautions
n Safety,Protection,andModificationoftheProduct• In order to protect system controlled by this product, the product itself and ensure safe
operation, observe the safety precautions described in this user’s manual. We assume no liability for safety if users fail to observe these instructions when operating the product.
• You must use this product according to the instructions described in user manuals. If not, protective functions of this product may not work as expected.
• If any protection or safety circuit is required for system controlled by the product or for the product itself, prepare it separately.
• Be sure to use the parts approved by Yokogawa Electric Corporation (hereafter simply referred to as YOKOGAWA) when replacing parts or consumables.
• Modification of the product is strictly prohibited.
• The following symbols are used on the product and in this user manual to indicate that safety precautions are required:
Indicates that user must take caution. The symbol on the equipment refers the user to the relevant manual to avoid potentially hazardous situations that may result in injury or death. The symbol appears next to the cautionary information in user manuals required to avoid harm to personnel and to the equipment.
Indicates a protective grounding terminal. Before using the product, ground the terminal.
Indicates a functional grounding terminal. Before using the product, ground the terminal.
Indicates an AC supply.
Indicates a DC supply.
Indicates that main switch is ON.
Indicates that main switch is OFF.
1st Edition : May 30,2008-00
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n Notes on Handling User Manuals• Please hand over user manuals to your end users so that they can have them on hand for
convenient reference.
• Please read the user manuals thoroughly before using the product.
• The purpose of these user manuals is not to warrant that the product is well suited to any particular purpose but rather to describe the functional details of the product.
• YOKOGAWA reserves the right to make improvements in the user manuals and product at any time, without notice or obligation.
• If you have any questions, or you find mistakes or omissions in the user manuals, please contact our sales representative or your local distributor.
n Warning and DisclaimerThe product is provided on an “as is” basis. YOKOGAWA shall have neither liability nor responsibility to any person or entity with respect to any direct or indirect loss or damage arising from using the product or any defect of the product that YOKOGAWA can not predict in advance.
n Notes on Hardware
l Appearance and AccessoriesCheck the following when you receive the product:
• Appearance
• Standard accessories
Contact our sales representative or your local distributor if the product’s coating has come off, it has been damaged, or there is lack of required accessories. In case the following label attached on the product such as the power distribution panel for the fan unit (*1) is so dirty that the information on it is illegible, or if it has peeled off, order a new label with the part number T9029BX.
: Label attached on the product such as the power distribution panel for the fan unit(*1).
*1: Wide range temperature
l ModelandSuffixCodesThe name plate on the product contains the model and suffix codes. Compare them with those in the general specification to make sure the product is the correct one. If you have any questions, contact our sales representative or your local distributor.
1st Edition : May 30,2008-00
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n Symbol MarksThroughout this user manual, you will find that several types of symbols are used to identify different sections of text. This section describes these icons.
CAUTION:
Indicates instructions that must be observed in order to prevent physical injury and death of operator.
WARNING:
Indicates instructions that must be observed in order to prevent software or hardware from being damaged or system from becoming faulty.
IMPORTANT:
Indicates important information required to understand operations or functions.
TIP: Indicates additional information.
SEE ALSO :
Indicates a source to be referred to.
Clicking a reference displayed in green can call up its source, while clicking a reference displayed in black cannot.
1st Edition : May 30,2008-00
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n CautionsforSafelyApplyingtheDevice
l StandardThe ProSafe-RS system complies with the standards shown below.
SEE ALSO Different standards apply according to the types of devices. For details, refer to the hardware general
specifications (GS) for each device.
• Functional Safety Standards (*1) (*2)
IEC 61508
• Programmable controllers; part 2: equipment requirements and tests (*1) (*2)
IEC 61131-2
• Safety Standards (*2)
[CSA]
CSA C22.2 No.61010-1 (100-120 V AC power supply)
[CE Marking] Low Voltage Directive
EN 61010-1 (100-120 V AC (*3), 220-240 V AC and 24 V DC power supply)
• EMC Conformity Standards (*2)
[CE Marking] EMC Directive
EN 55011 Class A Group 1 (100-120 V AC (*3), 220-240 V AC and 24 V DC power supply) (*4)
EN 61000-6-2 (100-120 V AC (*3), 220-240 V AC and 24 V DC power supply) (*5)
EN 61000-3-2 (100-120 V AC (*3), 220-240 V AC power supply) (*6)
EN 61000-3-3 (100-120 V AC (*3), 220-240 V AC power supply) (*7)
[C-Tick Marking]
EN 55011 Class A Group 1 (220-240 V AC and 24 V DC power supply) (*4)*1: Safety control station is in compliance with this standard.*2: The rack-mount devices must be installed in a metal cabinet with lock and key so as to satisfy this standard.*3: SSC10S/SSC10D are excluded from 100-120 V AC CE Marking conformity.*4: A Class A hardware device is designed for use in the industrial environment. Please use this device in the industrial environment only.*5: A lightning arrestor or the like is required to meet this surge immunity standard.*6: Use an external power supply unit with proper filtering of harmonics, e.g. active filter circuitry, to meet this harmonic current
emission standard.*7: The specified limits of voltage drop across wiring must be satisfied to meet this standard.
TIPAccording to the New Approach Directive, the manufacturer and the representative office in EU are indicated below.
Manufacturer :
YOKOGAWA Electric Corporation (2-9-32 Nakacho, Musashino-shi, Tokyo 180-8750, Japan).
Representative office in EU Community :
Yokogawa Europe B.V. (Euroweg 2, 3825 HD Amersfoort, The Netherlands).
3rd Edition : Dec.22,2009-00
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SEE ALSO • For more information about power supply system, see the following:
“n Selecting a Power Supply Unit”
• For choosing proper cables and wiring methods, see “ProSafe-RS Installation Guidance (TI 32S01J10-01E).”
l InstallationMethodPlease follow the following guidance on how to use this device to satisfy safety and performance.
• The rack-mount devices must be installed in a metal cabinet with lock and key so as to satisfy various standards.
• Keep the cabinet door closed during operation.
• Confirm that all the empty slots in the cabinet are covered by covers provided.
• Confirm that all cables are firmly fixed with the screws.
• Prepare a dedicated breaker in the same room with the system so that it can cut the power supply when abnormality occurs. Use this breaker to shutdown the power supply for devices of the system when device abnormality occurs.
SEE ALSO For more information, see “ProSafe-RS Installation Guidance (TI 32S01J10-01E).”
l Requirements for Installation
When installing the devices, the requirements for the device should be satisfied.Install the device under the following conditions: Installation height: Altitude up to 2000 m above sea level. Installation category based on IEC 61010: II (*1) Pollution degree based on IEC 61010: 2 (*2) *1: Installation category is the specification of the impulse withstanding voltage which is called as overvoltage category.
II indicates an electrical device. *2: Pollution degree is the level of foreign body adhesion such as the solid, liquid, and gas which decrease dielectric strength. 2
means general indoor atmosphere.
SEE ALSO For more information, see “ProSafe-RS Installation Guidance (TI 32S01J10-01E).”
2nd Edition : Dec.15,2008-00
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l Measurement CategoriesRegarding to the measurement inputs, the following specification must be satisfied to meet the requirements of the device: IEC 61010-1 Category: IThe rated transient overvoltage of the measurement category I is 1500 V.
WARNINGThis equipment has Measurement category I, therefore do not use the equipment for measurements within measurement categories II, III and IV.
• Measurement category I
Measurement category I is for measurements performed on circuits not directly connected to the main power supply.
• Measurement category II
Measurement category II is for measurements performed on circuits directly connected to the low voltage installation.
• Measurement category III
Measurement category III is for measurements performed in the building installation.
• Measurement category IV
Measurement category IV is for measurements performed at the source of the low-voltage installation.
3rd Edition : Dec.22,2009-00
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l Power Cable Wiring
CAUTIONConnect the power cables according to the procedures in this manual.Power cables must conform to the safety standards of the country where the device is installed.
SEE ALSO For more information, see the following:
A3.1, “Connecting the Power Cable”
l Grounding
CAUTIONGround the device according to the procedures in this manual to prevent electric shock and to minimize the noise.
SEE ALSO For more information, see the following:
A3.2, “Connecting the Grounding Cable”
l Replacing Fuse
CAUTION• The fuses for replacement must be the Yokogawa designated fuses.
• Switch off the power supply before replacing the fuses.
SEE ALSO For more information, see the following:
A5.2.4, “Components/Parts Requiring Periodic Replacement”
2nd Edition : Dec.15,2008-00
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l Maintenance
CAUTION• The product maintenance should be only performed by the persons who have undergone
the specialized training.
• When the device becomes dusty, use a vacuum cleaner or a soft cloth to clean it.
• During maintenance, put up wrist strap, and take other ESD (Electrostatic Discharge) measures.
• If the existing caution label is dirty and illegible, prepare a new label (part number:T9029BX) to replace it.
SEE ALSO For more information, see the followings:
A5, “Maintenance for the Optical Bus Repeater”
B5, “Maintenance for the Bus Repeater”
l Modules, Cards, Cables, Connectors
CAUTIONWhen power is ON, do not replace or install the modules, cards, cables and connectors that are not allowed in this manual.
SEE ALSO For more information, see the followings:
A5.2, “Parts Replacement“
B5.2, “Parts Replacement”
1st Edition : May 30,2008-00
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IM 32S06H10-21E 1st Edition : May 30,2008-00
n Selecting a Power Supply UnitThe ProSafe-RS system requires a power supply unit that satisfies power supply requirements in accordance with EMC regulations. It is recommended that an external power supply unit is employed in order to prevent disruptions due to momentary or extended power failure, power line noise, or lightning surges, as well as to suppress flows of harmonic current from various devices. The most proper power unit should be selected and installed after the sufficient consultation with the power unit supplier by considering the items described below.
l Source Output CapacityTake the following items into consideration to determine the output capacity when discussing with a power unit manufacturer:
Power consumption: Both VA and W data should be studied.Device crest factor: Ratio of the peak value to the effective value of input current supplied to each device.Device rush current: The method of turning on the power should also be studied.Failure backup time: Time required to back up the devices when power failsReserve capacity: An extra power capacity for any future requirement like expansions
SEE ALSO For more information about “Power Consumption”, “Rush Current”, and “Power and Ground Cabling”, see
“ProSafe-RS Installation Guidance (TI 32S01J10-01E).”
l Crest FactorThe crest factor is the ratio of the peak value to the effective value of any input current.
Input voltage waveform
Approx. 5 msInput current waveform
Effective value
Peak value
Effective valuePeak value
Crest factor =
Figure Input Voltage & Current Waveforms
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The device crest factor can be obtained by dividing the peak value of the current supplied to the device by the effective value of that current. The crest factor must be considered for the input current supplied to every device connected to the system when estimating the power output capacity in selecting the power unit. Approximate device crest factors should be as follows:100 V system: About 3.220 V system: About 6.
l CommonMethodtoDeterminePowerUnitCapacityThe commonly used method in determining a power unit capacity considering the crest factor is as follows - the final determination should be made in consultation with the power unit supplier:
• If the power unit crest factor (the peak value allowable in relation to the effective value) is larger than the device crest factor, the power unit can be used to its full rated capacity. However, rush current, backup time, reserve capacity, etc., must be separately taken into consideration.
• If the power unit crest factor is smaller than the device crest factor, the power unit capacity needs to be calculated in the formula shown below. Rush current, backup time, reserve capacity, etc., must be separately taken into consideration.
Power unit output capacity = Total device power consumption x Capacity coefficient
Capacity coefficient = Device crest factor/Power unit crest factor
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l RushCurrentA large rush current flows in to the device due to momentary capacitor-charging current or transformer-exciting rush current when the device is turned on. Thus it is necessary that no voltage fluctuation that could adversely affect any other devices is caused at least when some devices are turned on or off. Slow starting, switching to uninterruptible backup power, etc., will also be required when all devices are to be turned on simultaneously.When power is turned on the rush current could trip the overload protector and cause inadvertent switching to backup power or commercial power supply. In this connection, select a power unit that is equipped with a function to automatically resets the condition instantaneously without any break when overloading has been terminated.
l Suppressing Harmonic CurrentIn order to suppress harmonic current supplied to a low-voltage distribution system, it is necessary to install a special power unit or an active filter, such as indicated below, between a device and the distribution system:
• Power unit equipped with a harmonic current suppressing function (a high power-factor inverter-type uninterruptible power unit, etc.)
• Active filter unit for suppressing a harmonic current
In Europe, a power unit should be selected so the requirements for harmonic current are properly met in accordance with EMC regulations. The capacity of the harmonic current suppressing unit should be determined in consultation with the power unit manufacturer by following the similar way as the selection of power unit’s output capacity previously discussed.
n Drawing ConventionsSome drawings in the user manual may be partially emphasized, simplified, or omitted, for the convenience of description.Note that screen images in user manuals may be slightly different from the actual ones (for example, display positions and case differences), and some show only example images.
n IntegrationwithCENTUMProSafe-RS can be used by integrating with CENTUM VP or CENTUM CS 3000. In the User’s Manuals of ProSafe-RS, the integration with CENTUM VP or CENTUM CS 3000 is referred to as “Integration with CENTUM.” For the same features of CENTUM VP and CENTUM CS 3000 that have different feature names, the name used in CENTUM VP will be referred to in the explanations. (For example, CENTUM CS 3000 System Alarm Window and CENTUM VP System Alarm View have the same functions, but only System Alarm View will be referred to when explaining this feature.) Nevertheless, if there is any difference in functionality according to whether ProSafe-RS is integrated with CENTUM VP or CENTUM CS 3000, the feature will be explained separately for both cases.
SEE ALSO • For information about the functions and usage of CENTUM VP components, see CENTUM VP User’s
Manuals (IM) and related Technical Information (TI) and General Specifications (GS).
• For information about the functions and usage of CENTUM CS 3000 components, see CENTUM CS 3000 User’s Manuals (IM) and related Technical Information (TI) and General Specifications (GS).
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n AboutExplanationofSystemBehaviorIn this manual, system behavior is explained assuming the use of the latest software and hardware that Yokogawa provides at the publication of the manual. Wherever a topic needs explanation of earlier revisions of software or hardware, a link to the required explanation is provided so that you can read them according to your system.
n About Station TypesSafety control stations (SCS) are named as follows according to the CPU node (SSCx0S/SSCx0D) and CPU module (SCP4x1) mounted in them.
• SCSV1-S : SCS that uses SSC10S/SSC10D (SCP401 is installed)
• SCSP1-S : SCS that uses SSC50S/SSC50D (SCP451 is installed)
• SCSP2-S : SCS that uses SSC60S/SSC60D (SCP461 is installed)
To explain the functions of these different types of SCS, the following generic terms or abbreviations may be used in this manual.
• SCS : Generic term that denotes all types of SCS
• SCSV : SCS connected on V net (this denotes SCSV1-S)
• SCSP : SCS connected on Vnet/IP (this denotes SCSP1-S and SCSP2-S)
• SCSV1 : Abbreviation for SCSV1-S
• SCSP1 : Abbreviation for SCSP1-S
• SCSP2 : Abbreviation for SCSP2-S
3rd Edition : Dec.22,2009-00
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CopyrightandTrademarkNotices
n AllRightsReservedThe copyright of the programs and online manuals contained in the DVD-ROM or CD-ROM shall remain in Yokogawa.You are allowed to print out the required pages of the online manuals for using the product, however, you are not allowed to print out the entire document. Except as stated above, no part of the online manual may be reproduced, either in electronic or written form, registered, recorded, transferred, sold or distributed (in any manner including without limitation, in the forms of paper documents, electronic media, films or transmission via the network).
n Trademark Acknowledgments• CENTUM, ProSafe, Vnet/IP and STARDOM are registered trademarks of YOKOGAWA.
• Microsoft, Windows, Windows Vista, Visual Basic, Visual C++ and Visual Studio are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other countries.
• Adobe, Acrobat and Acrobat Reader are either registered trademarks or trademarks of Adobe Systems Incorporated in the United States and/or other countries.
• Ethernet is a registered trademark of XEROX Corporation.
• Modicon and Modbus are registered trademarks of Schneider Electric SA.
• PLC is a registered trademark of Rockwell Automation, Inc.
• HART is a registered trademark of the HART Communication Foundation.
• All other company and product names mentioned in this user’s manual are trademarks or registered trademarks of their respective companies.
• We do not use TM or ® mark to indicate those trademarks or registered trademarks used in this user’s manual.
3rd Edition : Dec.22,2009-00
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IM 32S06H10-21E
ProSafe-RSCommunication Devices
3rd Edition : Dec.22,2009-00
CONTENTS
IM 32S06H10-21E 3rd Edition
PARTA OpticalBusRepeater
A1. ConfigurationandSpecificationofOpticalBusRepeater ................A1-1A1.1 SystemConfiguration ................................................................................... A1-2A1.2 Transmission Distance .................................................................................. A1-4
A2. InstallationofOpticalBusRepeater ....................................................A2-1A3. Cable Connections .................................................................................A3-1
A3.1 ConnectingthePowerCable ........................................................................ A3-2A3.2 ConnectingtheGroundingCable ................................................................ A3-3A3.3 ConnectingtheVnetCable .......................................................................... A3-4
A3.3.1 Connection Method for the V net Cable ...........................................A3-5
A3.3.2 Grounding the V net .........................................................................A3-9
A3.4 ConnectingtheOpticalCord .......................................................................A3-11A3.4.1 How to Connect the Push-to-Lock Type Cord Plug and
Connector ......................................................................................A3-12
A3.4.2 Connecting Optical Cords ..............................................................A3-13
A3.4.3 Corresponding to GI 62.5/125 Fiber-optic Cable ...........................A3-14
A3.4.4 Fiber-optic Cable Installation .........................................................A3-15
A4. FunctionsandConfigurationofUnits .................................................A4-1A4.1 Power Supply Unit ......................................................................................... A4-2A4.2 Optical Transceiver ........................................................................................ A4-3A4.3 Controller ........................................................................................................ A4-5A4.4 Electrical Transceiver .................................................................................... A4-7
A5. MaintenancefortheOpticalBusRepeater..........................................A5-1A5.1 Daily Inspection .............................................................................................. A5-2A5.2 Parts Replacement ......................................................................................... A5-3
A5.2.1 How to Replace the Optical Transceiver .........................................A5-3
A5.2.2 How to Replace the Controller .........................................................A5-5
A5.2.3 How to Replace the Electrical Transceiver ......................................A5-6
A5.2.4 Components/Parts Requiring Periodic Replacement .....................A5-7
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A5.3 Self Diagnostic Functions ........................................................................... A5-10A5.3.1 Maintenance when the Optical Bus Repeater Lamps Indicate
an Error ..........................................................................................A5-11
A5.3.2 How to Use the Self Diagnostic Functions by Optical Bus Repeater Jumper Settings .............................................................................A5-12
Customer Maintenance Parts List (YNT511D, YNT522D) ................................................CMPL 32S06H10-01E
1st Edition : May 30,2008-00
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IM 32S06H10-21E
ProSafe-RSCommunication Devices
3rd Edition : Dec.22,2009-00
CONTENTS
IM 32S06H10-21E 3rd Edition
PARTB BusRepeater
B1. ConfigurationandSpecificationofBusRepeater ..............................B1-1B1.1 SystemConfiguration ...................................................................................B1-2B1.2 TransmissionDistance ..................................................................................B1-4
B2. InstallationofBusRepeater ..................................................................B2-1B3. CableConnections .................................................................................B3-1
B3.1 ConnectingtheVnetCable ..........................................................................B3-2B3.2 UsingVnet(10BASE-5)Cable ......................................................................B3-3
B4. FunctionsandConfigurationofUnits .................................................B4-1B5. MaintenancefortheBusRepeater .......................................................B5-1
B5.1 DailyInspection ..............................................................................................B5-2B5.2 PartsReplacement .........................................................................................B5-3B5.3 SelfDiagnosticFunctions .............................................................................B5-4
B5.3.1 Maintenance when the Bus Repeater Lamps Indicate an Error .....B5-5
B5.3.2 How to Use the Self Diagnostic Functions by Bus Repeater Jumper Settings ...............................................................................B5-6
Customer Maintenance Parts List (YNT512D) ..................CMPL 32S06H20-01E
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<A1.ConfigurationandSpecificationofOpticalBusRepeater> A1-1
IM 32S06H10-21E
A1. ConfigurationandSpecificationofOpticalBusRepeater
Theopticalbusrepeaterisdesignedtoextendthecommunicationbus(Vnet).Theuseofopticalbusrepeatersmakesitpossibletotransmitsignalthroughfiber-opticcablesoveralongdistance.Itissuitableforoutdoortransmission,becauseitisfreeoftheeffectsofexternalnoiseandgroundpotentialdifferences.
Theopticalbusrepeaterisavailableintwodifferentmodelsaccordingtothetransmissiondistance:
YNT511D Dual-redundantconfigurationopticalbusrepeater(for4km,max.)
YNT522D Dual-redundantconfigurationopticalbusrepeater(for15km,max.)
WARNINGNever let the laser light coming out from the connector on the optical transceiver or the end of the optical fiber plug hit your eyes directly.
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<A1.1SystemConfiguration> A1-2
IM 32S06H10-21E
A1.1 SystemConfigurationWhensystemisconfiguredwithopticalbusrepeaters,tworepeatersareusedforrepeating one bus.
n ExamplesofSystemConfigurationwithOpticalBusRepeaters
A010101E.ai
SENG
V netV net
Optical fiber
OBR
OBR
OBR
OBR
OBR : Optical Bus RepeaterSENG : Safety Engineering PCSCS : Safety Control Station
Optical fiber
Optical fiber
V net V net
SCS
SCS SCS
SCS
OBR
OBR
Figure SystemConfiguration
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<A1.1SystemConfiguration> A1-3
IM 32S06H10-21E
n ConfigurationandComponentNamesFor ProSafe-RS, the optical bus repeaters are used for dual-redundant bus configuration.Component names are same for Bus 1 and Bus 2.As shown in the following figure, Bus 1 is on the left hand side and the bus 2 is on the right hand side.
A010102E.ai
RDYRCVSND
OUT
IN
OPTICALLINK
210
ERR
RDYRCVSND
CN1
CN2
RDYRCVSND
OUT
IN
OPTICALLINK
210
ERR
RDYRCVSND
CN1
CN2100-120VAC
FUSE
POWER
250V 1A
L N 100-120VAC
FUSE
POWER
250V 1A
L N
BUS1 BUS2
Electrical transceiver
Label Label
BUS2
BUS1
Connector assembly
Optical transceiver
Power supply unit
Controller
Figure ConfigurationofOpticalBusRepeater(YNT511D)
l OpticalBusRepeaterComponentNamesandModelsThe names and models of the optical bus repeater component units are listed below. Since the repeater is for dual-redundant configuration thus each component requires two units.
Table NamesandModelsofOpticalBusRepeaterComponentUnits
Component Name Component Model
Power supply UnitPW501 (100-120 V AC)PW502 (220-240 V AC)PW504 (24 V DC)
Optical transceiver AIP578 (for 4 km, max.)AIP591 (for 15 km, max.)
Controller AIP171
Electrical transceiver AIP571
Connector assembly S9764UK(for 10BASE-2) S9628UK(for 10BASE-5)
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<A1.2TransmissionDistance> A1-4
IM 32S06H10-21E
A1.2 Transmission DistanceThespecificationofnumberofopticalbusrepeater,transmissiondistance,andbuscabletypeareshowninthissection.
l NumberofOpticalBusRepeatersandTransmissionDistanceModel YNT511D is used for 4 km or shorter transmission.Model YNT522D is used for 15 km or shorter transmission.Up to 4 pairs of optical bus repeater can be used, 2 in each. There are restrictions for transmission distance, which are listed in the following table, to avoid transmission delay.
Table NumberofOpticalBusRepeatersandTransmissionDistance
For V net Total transmission distance depending on No. of repeaters (km)
One pair(Two repeaters)
Two pairs(Four repeaters)
Threepairs(Sixrepeaters)
Four pairs(Eightrepeaters)
4 km, max. (10BASE-2) Max. 4.370 Max. 8.555 Max. 12.740 Max. 16
4 km, max. (10BASE-5) Max. 5 Max. 9.5 Max. 14 Max. 16
15 km, max. (10BASE-2) Max. 15.370 Max. 20 Max. 18 Max. 16
15 km, max. (10BASE-5) Max. 16 Max. 20 Max. 18 Max. 16
l Fiber-opticCableSpecifications(Reference)
Table Fiber-opticCableSpecifications(Reference)
4kmmax. 15kmmax.
Optical connector type Type SC (IEC 60874-14, JIS C5973F04)
Type SC (JIS C5973 Type F04 Fiber-optic connector)
Max. permissible optical loss 0 to 6.0 dB @ 1.3 µm 0 to 18 dB @ 1.3 µm
Fiber-optic
TypeQuartz multimode fiber GI 50/125 (IEC 60793-2-10 A1a.1,JIS C6832 Type SGI50/125)
Quartz single mode fiber SM 9.3/125 (IEC 60793-2-50 B1.1,JIS C6835 Type SSMA 9.3/125)
Numerical aperture (NA) 0.20 to 0.22 @ 1.3 µm
—Transmission band
• Up to 2 km transmission distance: 200 MHz·km or over @ 1.3 µm
• 2 to 4 km transmission distance: 400 MHz·km or over @ 1.3 µm
Max. length 4 km 15 km
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<A2.InstallationofOpticalBusRepeater> A2-1
IM 32S06H10-21E
A2. InstallationofOpticalBusRepeaterTheopticalbusrepeaterisdesignedtoinstallinageneral-purposerack.
CAUTIONIf a device is rack-mountable, it should be mounted on a rack and put in a metal cabinet with a lock.
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<A2.InstallationofOpticalBusRepeater> A2-2
IM 32S06H10-21E
n AttachingBracketsThere are 19-inch rack mountable devices that the positions of their brackets can be changed according to the front and rear space of the rack. Before attaching the devices to the instrument panel or rack, change bracket positions as shown below, if necessary:For example, the optical bus repeaters (YNT511D, YNT522D) and bus repeater (YNT512D) can be mounted in one of three positions located depth-wise.The mounting bracket positions of the optical bus repeater are shown below.
202162
22
A020001E.ai
*
**
Bracket
Unit: mm
Rear
Front
Insulating bushing
Insulating bushing
Bracket
Insulating bushes placed on both sides of bracket.
• Three bracket positions are marked by asterisks.• When only this model is shipped, it is attached at the 162 mm position.
Figure MountingBracketPositionsofOpticalBusRepeater
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<A2.InstallationofOpticalBusRepeater> A2-3
IM 32S06H10-21E
n Space for Heat RadiationBe sure to allow space for radiation of heat at the top and bottom of the equipment.
• If the equipment is installed inside an instrument panel which has a closed top, install the equipment at least 3 UNIT (1 UNIT = 44.45 mm) away from the top panel.
SEE ALSO For more information about equipment installation environment, see “ProSafe-RS Installation Guidance (TI
32S01J10-01E).”
n Maintenance SpacesBe sure to allow spaces for maintenance.
• All cables connection for each unit is done from front of the equipment.
• The indication lamp check, setting, inspection, removal, and insertion of each card are done from the front of the equipment.
• Adequate space is required for suction and exhaust of the cooling fan equipment.
• Allow a space of at least 1000 mm in front of the equipment for wiring and maintenance.
A020002E.ai
Top panel
Front
Maintenance area
When safety control unit is mounted together with other devices in the same rack, they should not be mounted too close to each other.
Fan
Min. 50 mm
Min. 3 UNIT
Min. 100 mm
Min. 1000 mm
Figure Rack Mounting Space
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<A2.InstallationofOpticalBusRepeater> A2-4
IM 32S06H10-21E
n Installation of Rack Mountable DeviceObserve the following when you install an optical bus repeater (OBR) on a rack or an instrument panel.
l InsulationfromtheRackInsulate the rack mountable OBR from the rack by attaching insulation bushings. Fasten a pair of insulation bushings together to each of the screw holes on the plate or the bracket on the OBR to prevent the OBR from touching the rack. And then screw the OBR to the rack. After screwing the OBR to the rack, confirm that the OBR is electrically insulated. Insulation bushings are supplied with the rack mountable OBR.
WARNINGWhen you install the ‘OBR with insulation bushings attached’ on a rack or an instrument panel, do not keep the OBR hung on loose screws in an unstable status. Too much force may apply to the insulation bushings and cause damaged or broken insulation bushings.
l Installation Procedure 1. Fasten a pair of insulation bushings together to each of the screw holes on the plate or the
bracket on the OBR. The tapering end of the insulation bushings must come to the front side where a screw enters.
2. Using four M5 screws to fix the device onto the rack or the panel.
A020003E.aiM5 bolts (4 pieces)
Rack
Rack or instrument panel
Bracket
Insulating bushing (4 pieces)
Attach insulation to bothsides of the bracket.
Bracket(front)
Insulating bushing(with a tapering)
M5 screws
Rack
Insulating bushing
How to install insulating bushings
Figure MountingOBRonaRack
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<A3.CableConnections> A3-1
IM 32S06H10-21E
A3. Cable ConnectionsThissectionexplainstheconnectionofpower,busandothercablestotheopticalbusrepeaterwhichhasbeeninstalledinarackorinstrumentpanel.Whenwiringpowercables,payattentiontothepowerunitspecifications.
IMPORTANTIf the power supply to the optical bus repeater is shut off, communications which are running through that repeater will be interrupted. Be sure to review the scope of its service and provide an appropriate power source, e.g., an independent source, accordingly.
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<A3.1ConnectingthePowerCable> A3-2
IM 32S06H10-21E
A3.1 ConnectingthePowerCableThissectionexplainstheprocedurestoconnectthepowercabletothemountedopticalbus repeater.
CAUTION• Wire the power cable through the conduit at the entrance of the cabinet for the following
reasons:
- To prevent damage to the cable due to contact with a metal plate.
- To avoid applying excessive weight on the crimp-on lugs or power connection terminals due to the weight of the cable.
• Turn off the main power supply and confirm with a tester that there is no power in the power cable to be connected, before performing any work.
• After the power cable has been connected, turn on the power without the breaker being turned ON in the power panel. Then, confirm with a tester that normal power is being supplied to the power connection terminal.
• Wire the power cable so that a distance of 1 cm or more is maintained from other signal lines.
The power connection terminals are illustrated in the figure below:
A030101E.ai
RDYRCVSND
OUT
IN
OPTICALLINK
210
ERR
RDYRCVSND
CN1
CN2
RDYRCVSND
OUT
IN
OPTICALLINK
210
ERR
RDYRCVSND
CN1
CN2100-120VAC
FUSE
POWER
250V 1A
L N 100-120VAC
FUSE
POWER
250V 1A
L N
Power input terminals Grounding terminal
(Terminal screws: M4)
L N AC Power supply
+ - 24V DC Power supply
Power supply unit
Figure Connecting Power and Grounding Cables
n ConnectionMethodsfortheOpticalBusRepeaterPowerCable1. Treat the end of the power cable and attach solderless lug (round) for M4 screws.2. Turn off the power ON/OFF switch on the power supply unit.3. Remove the protective cover from the power connection terminals.4. Connect the ungrounded cable to terminal L (+), and the grounded cable to N (–).Proceed to the next step to connect the grounding cable.
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<A3.2ConnectingtheGroundingCable> A3-3
IM 32S06H10-21E
A3.2 ConnectingtheGroundingCableBesuretogroundtheopticalbusrepeatertoprotecttheoperatorandmaintenancepersonnelfromelectricshockandtoprotecttheequipmentfromtheeffectsofexternalnoise.
IMPORTANTFor grounding, connect cable to the protective-grounding terminal next to the power input terminals (100 ohms or less).
The required grounding is 100 ohms or less. Provide an independent ground for the repeater. Connect the grounding cable to the protective-grounding terminal next to the power input terminal, using crimp-on lug.When the power source and ground wirings are completed, attach the protective cover.
A030201E.ai
G
Optical bus repeater
G
Optical bus repeater
G
Optical bus repeater
100 ohms or less100 ohms or less100 ohms or less
G
Optical bus repeater
100 ohms or less
Ground busGround busGround busGround bus
Figure IndependentGroundingofOpticalBusRepeater
If multiple optical bus repeaters are in the same room (same location) and independent grounding is not possible, specify a location where the ground bus leads in. Use a grounding cable with a size of 5.5 mm2 or more for each optical bus repeater, and connect the cables to the ground bus (see the figure below).
G G G G
Inside the same room
100 ohms or lessA030202E.ai
Optical bus repeater
Optical bus repeater
Optical bus repeater
Optical bus repeater
Ground bus
Equipment for leading in the ground bus
Grounding cable of 5.5 mm2 or more in size
Figure GroundingWhenIndependentGroundingCannotbeProvided
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<A3.3ConnectingtheVnetCable> A3-4
IM 32S06H10-21E
A3.3 ConnectingtheVnetCableThissectionexplainstheprocedurestoconnecttheVnetcabletothemountedopticalbus repeater.
n V net Cable ConnectionAn example of connecting the V net cable is shown in the figure below.
A030301E.ai
DRYRCVSND
OUT
IN
OPTICALLINK
210
ERR
DRYRCVSND
CN1
CN2
DRYRCVSND
OUT
IN
OPTICALLINK
210
ERR
DRYRCVSND
CN1
CN2100-120VAC
FUSE
POWER
250V 1A
L N 100-120VAC
FUSE
POWER
250V 1A
L N
To the following station (Attach terminators if no next station is connected)
From the preceding station
Bus 2Bus 1Electrical transceiver
for V net (Bus 1)
Electrical transceiver for V net (Bus 2)
Figure V net Cable Connection
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<A3.3ConnectingtheVnetCable> A3-5
IM 32S06H10-21E
A3.3.1 ConnectionMethodfortheVnetCableFollow the procedure below to connect two V net cables to two ports (bus 1 and 2) of the electrical transceivers in the optical bus repeater.1. Loosen both mounting screws at the top and the bottom of the connector assembly. (See
the figure below.) Then pull to detach the connector assembly (60 mm deep) from the electrical transceiver.
2. Loosen the screw on the right cable cover of the connector assembly and disassemble the connector assembly as shown in the figure. Slide to separate the cable covers sideways for easy disassembly.
3. Connect the V net cables to the V net branch connector. Do not bend the cables at a bending radius of less than 100 mm.
4. If the V net connection ends at this device, make sure you install a terminator at the unused connector in order to match the electrical characteristics. (see the figure on the next page.) Terminator for V net cable (10BASE-5) : Model YCB118 Terminator for V net cable (10BASE-2) : Model YCB148
RCV
SND-L
SND-R
ENBL
DSBL
V Net
CN1
CN2
A030302E.ai
Cable cover
Cable cover
Electrical transceiver mounting screw
Connector assembly
Connector assembly mounting screw
Connector assembly mounting screw
V net Branch connector
N-type Connector
Electrical transceiver mounting screw
Figure V net Electrical Transceiver and Connector Assembly
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<A3.3ConnectingtheVnetCable> A3-6
IM 32S06H10-21E
n Connector Assembly InstallationAfter connecting the V net cable(s), follow the procedure below to install the connector assembly on the electrical transceiver.1. Switch off the power supply unit.2. Align the groove on the V net branch connector, to which V net cables are connected, with
the rail on the cable cover (left), then slide the rail towards the center.3. Similarly, align the rail on the cable cover (right) with the groove on the V net branch plug, by
sandwiching the V net cable between them.4. Tighten the screw on the right cable cover at the torque of approximately 0.6 N • m.
The re-assembly of the connector assembly is complete.5. Align the top and bottom guide rails on the electrical transceiver with the rails on the
connector assembly, and push the assembly into the unit until it stops. The connector assembly and the electrical transceiver unit are connected by the connector.
6. Tighten both mounting screws at the top and the bottom of the connector assembly at the torque of approximately 0.25 N • m.
A030303E.ai
Cable cover (Left)
Cable cover (Right)
V net cables
V net branch connector
Plug the unused connector with a V net terminator.
V net terminator
Figure V net Cable Connection and Terminator
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<A3.3ConnectingtheVnetCable> A3-7
IM 32S06H10-21E
n AttachingtheClampFilters(FerriteCores)After completing the V net cable (10BASE-5) connection, attach the clamp filters that come with the product to the V net cables over the cable sheath in order to improve the noise isolation.
IMPORTANTThe clamp filter case is made of plastic, so it may crack when opened and closed at a negative temperature (°C) or by a mechanical shock is given such as falling on the ground. Be sure to use or keep it within the applicable temperature range.
l Clamp Filter Set6 clamp filters (Part No. A1179MN) per V net cable (10BASE-5)Cable fasteners supplied with ferrite cores
l PositionstoAttachClampFiltersUnless doing so affects the cabling, mount three clamp filters side by side starting from a point 20 cm away from the connector on each side of the V net cable. If it is difficult to mount clamp filters at 20 cm from the connector, install them at other feasible location within 1 meter.Mount the clamp filters as close to the electrical transceiver as possible in order to prevent noise from entering through the section between the clamp filters and the electrical transceiver.
A030304E.ai
Clamp filters
V net cable(10BASE-5)
Figure PositionstoAttachClampFilters
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<A3.3ConnectingtheVnetCable> A3-8
IM 32S06H10-21E
l AttachingtheClampFilters1. Release the two clicks locking the core using your finger. The core opens by approximately
150 degrees into two parts , as shown in the following figure:
A030305E.ai
Locking hooks
Ferrite cores
V net cable
Cable fastener Fasten with the cable fastener.
Lock the two hooks.
Figure AttachingaClampFilter
2. Place the V net cable inside the opened core cylinder.3. Close the core by sandwiching the control bus cable, and lock the clamp filter with the two
core lock clicks.4. Guide the supplied cable fastener through the hole on one side of the clamp filter, and
tighten it from above the V net cable cover to secure the clamp filter.5. Repeat steps 1-4 until three pieces are mounted side by side.6. Attach another set of clamp filters, three in a set, on the other side of the cable.
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<A3.3ConnectingtheVnetCable> A3-9
IM 32S06H10-21E
A3.3.2 GroundingtheVnetTheVnet(10BASE-5)mustbegrounded.
CAUTIONThe grounding unit for V net is used to ground the V net components at one place for safety. (Ground the V net at one place within each segment. A segment indicates the range of the V net network in which communication can be performed without a repeater.)To enhance the safety, ground near the center (in terms of distance) of the segment.
l Parts Contained in Grounding Unit for V net
Table Parts Contained in Grounding Unit for V net
Part Number Parts
A1485JT(grounding unit)
Metal block (×2)M4 bolt (×2)M4 washer (×2)Crimp-on lug (×1)Insertion claw (×1)
S9027UV
Ground cable (800 mm×1; with M4 crimp-on lug on one end for connection to A1485JT, and M5 crimp-on lug on the other end for connection to grounding bar)
l AttachingaGroundingUnittotheVnetCableFollow the procedure below to attach a grounding unit to the V net Cable.1. Unscrew the bolts of the grounding unit, and then separate the unit into the metal blocks.
The crimp-on lug fixed with a bolt is no longer necessary.2. Insert the insertion claw that comes with the grounding unit, into the block (see the figure
below).
A030306E.ai
Insertion claw
Bolt
Bolt
Metal block
Figure InsertingtheInsertionClaw
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<A3.3ConnectingtheVnetCable> A3-10
IM 32S06H10-21E
3. Clamp the V net cable (10BASE-5) with the metal blocks and tighten the two bolts alternately. At this time, fix the M4 crimp-on lug on one end of the grounding cable with either bolt. Tightening the bolts makes the insertion claw penetrate the sheath of the V net cable and contact the outer conductor.
A030307E.ai
Bolt
Bolt
WasherM4 crimp-on lug
Grounding cable
Washer
Metal block
V net cable
M5 crimp-on lug
Figure AssemblingtheGroundingUnit
4. After tightening the bolts, clip off the pin of the insertion claw that protrudes from the metal block.
5. Connect the other end of the grounding cable with the M5 crimp-on lug, to the grounding bar of the cabinet.
6. Be sure that the metal block will not touch a conductive material having a different potential from the grounding bar.
l PlacingtheGroundingUnitforVnetPlace the grounding unit for V net at the bottom of a cabinet (the grounding unit need not be fixed), and connect the grounding cable between the grounding unit and the grounding bar as shown below.
A030308E.ai
V net cable
Grounding unitGrounding cable
Grounding bar in a cabinet or grounding bar met with 100 ohms or less
Grounding bar
Figure PlacingandConnectingtheGroundingUnit
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<A3.4ConnectingtheOpticalCord> A3-11
IM 32S06H10-21E
A3.4 ConnectingtheOpticalCordThis section explains the procedures to connect the optical cord to the mounted optical bus repeater.
WARNING• Before connecting or disconnecting an cord plugs, turn the power switch to off on both the
local and destination optical bus repeaters. Connecting or disconnecting the cord plugs while the power is on may disrupt the entire communications bus system.
• Since the repeater is applied with dual-redundant configuration, be sure to connect bus1 and bus2 respectively to the corresponding transceivers.
• In a dusty environment, the protective caps of both the optical transceivers and the optical cords should not be removed.
n PrecautionsWhenConnectingCordplugs• Remove the protective caps from the optical transceiver and cords. Before connecting an
optical cord, clean the connection end with a gas-type blower (available in camera stores). If a low-temperature gas blower is used, blow several times from approximately a 10-cm distance, but only for two or three seconds at a time.
• If an optical connector has been disconnected on an occasion, such as for replacing the optical transceiver, immediately place a protective caps on the optical transceiver and cords to keep dirt away.
• Store protective caps in a clean container or bag, and clean them out with a gas blower immediately before use.
• Be careful to keep the end of the optical cord from touching human bodies and other objects. If it has touched something and is suspected of being soiled, first wipe it with a gauze pad moistened with high-purity alcohol (which has been stored in a clean condition), and then clean it with a gas-type blower.
• Optical cord plug has a key and the connector has a key groove. Push the plug deeply into the connector only after the key is placed properly in the key groove.
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<A3.4ConnectingtheOpticalCord> A3-12
IM 32S06H10-21E
A3.4.1 HowtoConnectthePush-to-LockTypeCordPlugand Connector
The following figures show the optical connector of optical cord (SC type) and the optical transceiver unit.
A030401E.ai
Optical cord
Knurled surface Hold here to plug or unplug.
White line (about 1 mm wide)
Cable-protecting cover
Key
Key grooves (optical connectors on an optical transceiver)
Figure Push-to-LockTypeCordPlugandConnector(SCType)
n To Connect a Plug1. Match the key in the key groove.2. Hold the plug at the knurled surface position and push it in.3. When it reaches almost to the white line, it clicks and locks in.
n To Disconnect a Plug1. Hold the plug at the knurled surface and pull out about 1mm, and the lock will be released.2. Then, start pulling it out slowly.
n Verifying a Positively Locked PlugHold the plug by the optical cord and gently pull it. If the plug stays in, it is connected. Should it not be properly connected, it would come off easily.
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<A3.4ConnectingtheOpticalCord> A3-13
IM 32S06H10-21E
A3.4.2 Connecting Optical CordsInterconnect the mating pair of optical transceivers in the optical bus repeaters as shown in the following figure.
A030402E.ai
RDYRCVSND
OUT
IN
OPTICALLINK
RDYRCVSND
OUT
IN
OPTICALLINK
RDYRCVSND
OUT
IN
OPTICALLINK
RDYRCVSND
OUT
IN
OPTICALLINK
Optical cords
Optical cords
Optical cords
Bus 1 Bus 2
Interconnect the mating pair of optical transceivers.
Bus 1Optical transceiver
Bus 2Optical transceiver
Bus 1Optical transceiver
Bus 2Optical transceiver
Connection between optical cords and fiber-optic cables (splicing boxes)
Optical connectors
Items within the dotted lines are to be furnished by customer.
Fiber-optic cables
Optical cords
Figure Connecting Optical Cords
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<A3.4ConnectingtheOpticalCord> A3-14
IM 32S06H10-21E
A3.4.3 Corresponding to GI 62.5/125 Fiber-optic CableIt is recommended to use a GI 50/125 fiber-optic cables (core diameter 50 µm, clad diameter 125 µm) for an optical bus repeater.Follow the procedure below to apply a GI 62.5/125 fiber-optic cable. Compared to a GI 50/125 fiber-optic cable, a large volume of light is emitted by connecting a GI 62.5/125 fiber-optic cable to the output connector of an optical bus repeater. If the input connector of an optical bus repeater receives a larger volume of light than the maximum volume of light which can be received, data transmission fails. Therefore, connect a GI 62.5/125 fiber-optic cable according to the procedure below.1. To restrict a volume of light, you must insert a 10 m of GI 50/125 optical cord between the
output connector of an optical bus repeater and a GI 62.5/125 fiber-optic cable in the field.2. To connect the two types of cables, use an optical adapter inside the splicing box located
under the floor near a cabinet to install an optical bus repeater.
A030404E.ai
RDYRCVSND
OUT
IN
OPTICALLINK
RDYRCVSND
OUT
IN
OPTICALLINK
: Splicing box
: Optical adaptor
: Fusion point
GI 62.5/125 Optical cord (10 m)
GI 62.5/125 Fiber-optic cable
GI 50/125 Optical cord (10 m)
Bus 1(Same as Bus 2)
GI 62.5/125 GI 62.5/125
Items within the dotted line are to befurnished by customer.
GI 50/125 GI 62.5/125
GI 62.5/125 GI 50/125
Bus 1Optical transceiver
Bus 1Optical transceiver
Optical connectors
Figure Connection of GI 62.5/125 Fiber-optic Cable
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<A3.4ConnectingtheOpticalCord> A3-15
IM 32S06H10-21E
A3.4.4 Fiber-optic Cable InstallationThe fiber-optic cable for field installation must be strong. Use flexible optical cords where the cable is connected to the optical bus repeater. The interconnection of the strong cable and flexible cords is generally made in the splicing box under the floor.
n PrecautionswhenInstallingFiber-opticCableThe total loss in a cable installation must be 6 dB or less for 4 km, max., or 18 dB or less for 15 km, max. at the 1.3 µm wavelength. The cable system loss must be measured at the time of each installation.Loss measurement may possibly vary by ±0.5 dB due to the variance in the optical cord in measuring the stabilized light source output level, repeatability of connecting and disconnecting the plugs, and others, even if a calibrated light meter is used. The as-installed measurement data must allow a minimum margin on the order of 0.5 dB over the permissible loss.
n A Sample Calculation of Loss in Optical FiberThe following figure shows an example of estimating the loss in an optical fiber. The optical bus repeater for 4 km, max. is used. The fiber-optic cable has a loss of 1 dB/km, and is connected by fusing every 500 meters. The loss in each fused connection is generally estimated at 0.1 dB for fiber-optic cable to fiber-optic cable, and about 0.3 dB for fiber-optic cable and optical cord.
A030405E.ai
5 m Optical cord
3990 m Fiber-optic cable
5 m Optical cord
0.3 dB 0.1 dB 0.1 dB 0.1 dB 0.3 dB
YNT 511 Optical bus repeater
YNT 511 Optical bus repeater
1 dB/km × 3.99 km + 0.1 dB × 7 + 0.3 dB × 2 = 5.29 dB < 6 dB (for 4 km, max.)
×: Fused connection locations
Figure Sample of Estimating Loss in Optical Fiber
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<A4.FunctionsandConfigurationofUnits> A4-1
IM 32S06H10-21E
A4. FunctionsandConfigurationofUnitsConfiguretheopticalbusrepeaterbyinsertingtherequiredpowersupplyandotherunitsintothebackboard.
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<A4.1PowerSupplyUnit> A4-2
IM 32S06H10-21E
A4.1 Power Supply UnitApowersupplyunitacceptsthedesignatedpowerinput,convertsitintoinsulatedDCpowersuppliesthensendstovariouscomponentunitsviathebackboardwithinthenest.
n Configuration• Power input terminals
These are the terminals for the power input (M4 screws). L (+) : Non-grounded N (–) : Grounded Protective grounding terminal : Grounding terminal
• Fuse • 250 V, 1 A tubular fuse (A1361EF : for 100-120 V AC power supply) • 250 V, 2 A tubular fuse (A1349EF : for 220-240 V AC power supply) • 250 V, 2 A tubular fuse (A1363EF : for 24 V DC power supply)
SEE ALSO For replacing a fuse, see the following:
“n How to Replace the Fuse” in A5.2.4, “Components/Parts Requiring Periodic Replacement”
• Power ON/OFF switch This switch turns power ON and OFF.
• Power lamp With the power input terminals energized, the green lamp is lit when the power switch is turned to the ON position, and is unlit when the switch is turned to the OFF position.
A040101E.ai
100-120VAC
FUSE
POWER
250V 1A
L N
Mounting screw
Handle
Power lamp
Power input terminals
Grounding terminal
Mounting screws
Power ON/OFF switch
Fuse
Figure Power Supply Unit
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<A4.2OpticalTransceiver> A4-3
IM 32S06H10-21E
A4.2 Optical TransceiverOpticalTransceiverisatransceiverforopticalfibers.Linkedtothecontroller,itmodulatesanddemodulatesoptic,andtransmitsandreceivesopticalsignalsto/fromanotherconnectedidenticalunitthroughapairofopticalfibers,thusaccomplishingtransferofabussignalinaformofopticalsignal.Theapplicablebusesandtransceiversareshowninthetablebelow.
Table Optical Transceiver
Bus ModelV net up to 4km AIP578
V net up to 15km AIP591
n Configuration• Fiber-optic cable connector
IN: For optic receiving type which connects to the OUT connector of the mating optical bus repeater. OUT: For optic sending type which connects to the IN connector of the mating optical bus repeater.
• RDY lamp: The green lamp is lit when a normal optical signal is being received from the optical fiber. It is otherwise unlit.
• RCV lamp: The green lamp is lit while communications data is being received, or during a self-diagnostic test. It is otherwise unlit.
• SND lamp: The green lamp is lit while communications data is being transmitted, or during a self-diagnostic test. It is otherwise unlit.
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RDYRCVSND
OUT
IN
OPTICALLINK
Optical connectorOUT
SND lamp
RCV lamp
RDY lamp
Optical connectorIN
Mounting screw
Mounting screw
Figure Optical Transceiver
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<A4.2OpticalTransceiver> A4-4
IM 32S06H10-21E
n Optical Transceiver SettingsWith the jumpers inside of the transceiver, the normal operation mode and the diagnosis mode can be set.
SEE ALSO For the relationship between the jumper settings and lamps (RDY, RCV and SND), see the following:
A5.3.2, “How to Use the Self Diagnostic Functions by Optical Bus Repeater Jumper Settings”
The settings of the transceivers for either 4 km or 15 km are the same.• For normal operation, set the jumper on NORMAL side.
• For echo-back (Self-diagnosis), set the jumper on ECB side.
The following figure indicates the position of the Jumper Socket on the printed circuit board.
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Operational modes selectable by jumper positions on the socket
NORMAL (inserted at top end): for normal operation mode
ECB (inserted at bottom end): for diagnosis mode (with echo back)Also set the jumper in the controller to ELPB.
Jumper Socket (3-pin)To the front
Labeling on printed circuit board
JP1
NO
RM
AL
EC
B
Figure Jumper Positions in Optical Transceiver
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<A4.3Controller> A4-5
IM 32S06H10-21E
A4.3 ControllerA Controller controls optical communication.
Italsoperformsself-diagnosticfunctionsdependingonthejumpersettinginsidethecontroller.
SEE ALSO The diagnostic functions are explained in the following.
A5.3, “Self Diagnostic Functions”
n Configuration• RDY lamp
The green lamp is lit when the controller is operating normally and is unlit when there is an error.
• ERR lamps When the controller is operating normally, lamps 2, 1, and 0 all remain off.
SEE ALSO If any of the lamps is lit, see the following:
A5.3.1, “Maintenance when the Optical Bus Repeater Lamps Indicate an Error”
A040301E.ai
210
ERR
RDY
Mounting screw
RDY lamp
ERR lamps
Mounting screw
Figure Controller
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<A4.3Controller> A4-6
IM 32S06H10-21E
n Controller SettingsSettheoperationmode(i.e.,normalandself-diagnosticmodes)bypositioningthejumperinsidethecontroller.
SEE ALSO • For the relationship between the jumper settings and lamps (RDY and ERR), see the following:
A5.3.2, “How to Use the Self Diagnostic Functions by Optical Bus Repeater Jumper Settings”
• For normal operation, set the jumper on NORMAL position.
• For external loopback or for echo-back (self-diagnosis), set the jumper on ELPB side.
• For internal loopback, set the jumper on ILPB side.
The following figure indicates the position of the Jumper socket on the printed circuit board.
A040302E.ai
Operation modes selectable by jumper positions on the socket
To the front
Labeling on printed circuit board
ILPB (JP3): Continuous internal loopback testing
NORM (JP1): Normal operation mode (communications)
ELPB (JP2): Continuous external loopback testing or, optical echo-back operation
Jumper socket position
NO
RM
ELP
B
ILP
B
JP1
JP3
JP2
Figure Jumper Positions in Controller
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<A4.4ElectricalTransceiver> A4-7
IM 32S06H10-21E
A4.4 Electrical TransceiverAn electrical transceiver is a driver and transceiver, designed to be connected on a V net.
Itconvertsthesignallevels.
n Configuration• Connector assembly:
It has a built-in branching connector for V net cables. In case it serves as an end on a V net, connect a V net terminator to the CN1 or CN2 connector.
• RCV lamp: The green lamp is lit when communications data is being received in the V net. It otherwise stays unlit.
• SND lamp: The green lamp is lit while communications data is being transmitted in the V net. It otherwise stays unlit.
RCVSND
CN1
CN2
A040401E.ai
Connector assembly
Connector assembly mounting screw
BUS1 or BUS2 label
Connector assembly mounting screw
Mounting screw
Mounting screw
SND lamp
RCV lamp
Figure Electrical Transceiver
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<A5.MaintenancefortheOpticalBusRepeater> A5-1
IM 32S06H10-21E
A5. MaintenancefortheOpticalBusRepeater
Thissectionexplainsthedailyinspectionoftheopticalbusrepeaterandthecomponentswhichhaveausefullifeandneedtobereplacedperiodically.Italsoexplainshowtoremoveandattachthepartsthatneedperiodicreplacementaswellaseachoftheunits.Also,theselfdiagnosticfunctionsprovidedwiththismodelareexplainedforreferencewhenperformingmaintenancefortheopticalbusrepeater.
n Antistatic PrecautionsWhen doing maintenance work, take full precautions as described below to avoid electrostatic problems.
• When storing or carrying parts for maintenance, put them in an antistatic bag. (When shipped, they are placed in an antistatic bag labeled with cautions against electric problems.)
• Wear a wrist strap with a 1 M ohm grounding resistor then ground the wrist strap.
• When working on the bench, place the parts on a conductive sheet grounded via a 1 M ohm resistor and wear wrist strap. Keep static-chargeable plastic materials away from the parts.
• Never touch the parts with bare hands, without using a wrist strap and a conductive sheet.
A050001E.ai
1 M ohm
1 M ohm
Grounding resistance of 1 M ohm
Connect to earth terminal orunpainted part of frame (grounded)
When working with a card with battery on a conductive sheet, set the BATTERY ON/OFF switch to the OFF position or remove the battery
Wrist strap
Conductive sheetWrist strap
Figure Handling of Cards
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<A5.1DailyInspection> A5-2
IM 32S06H10-21E
A5.1 Daily InspectionPerformthefollowingvisualinspections:
n StatusIndicatorLampsontheFrontofEachUnitThe optical bus repeater is operating normally if the lamps are on or off as indicated in the following table. However, the RCV and SND lamps for the electrical transceiver and optical transceiver remain off in silent status where there is no signal transmitted.
Table Lamp Indications During Normal Operation
StatusindicationoflampsineachunitElectrical
transceiver Controller Opticaltransceiver
Powersupply unit
RCV SND
RDYERRERRERR
2 1 0
RDY RCV SND
POWER
Lamp indication statuses : ON: OFF
SEE ALSO When a status indicator lamp of any unit shows an error, see the following:
A5.3.1, “Maintenance when the Optical Bus Repeater Lamps Indicate an Error”
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<A5.2PartsReplacement> A5-3
IM 32S06H10-21E
A5.2 Parts ReplacementThissectionexplainshowtoreplacetheunitandparts.
IMPORTANT• When connecting or disconnecting an optical cord, cable or replacing a unit in the V net
while the system is operating, always turn off the power for the corresponding optical bus repeater and for the mating optical bus repeater on the same bus side in order to prevent disturbance to the communication bus.
• When tightening the set screws for each unit, use a fine-tipped screwdriver. The guideline for the screw tightening torque is 0.25 N • m.
A5.2.1 HowtoReplacetheOpticalTransceiverOptical transceiver is to be replaced according to the procedure described below.
IMPORTANT• If the optical cord has been disconnected from the connector on an occasion, such as for
replacing the optical transceiver, immediately place a protective cap on it to keep dirt away.
• Store protective caps in a clean container or bag, and clean them out with a gas blower immediately before use.
• Be sure to keep the end of the optical cord from touching human bodies and other objects. If it ever touches something and is suspected of being soiled, first wipe it with a gauze pad moistened with a high-purity alcohol (which has been stored in a clean condition), and then blow it out.
SEE ALSO For details of connecting and disconnecting of the optical cord, see the following:
A3.4, “Connecting the Optical Cord”
n Removal Procedure1. Turn off the power for the optical transceiver to be removed.2. Also turn off the power for the mating optical transceiver.3. Disconnect the optical cord from the optical transceiver. Hold the knurled surface of the optical cord and pull out for about 1mm, then the lock will be
released.4. Handle the optical connector and optical cord for the optical transceiver carefully, observing
the precautions described above.5. Loosen the two mounting screws securing the optical transceiver to the nest. The mounting
screws need not be removed.6. Hold the handles attached at the top and bottom of the front side of the optical transceiver
and remove the unit by pulling the handles forward.
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<A5.2PartsReplacement> A5-4
IM 32S06H10-21E
n Installation Procedure1. Slide the optical transceiver along the guide rail of the nest, and insert it securely into the
back board connector.2. Secure the optical transceiver to the nest from the front, by using the mounting screws.3. Connect the optical cord to the optical connector of the optical transceiver. Holding the
knurled surface of the optical cord plug, align the key section with the optical connector groove and push the plug into the connector. (SC type optical cord). A click sound indicates that the plug is locked into the optical connector.
4. After turning on the power, check if the RDY lamp on the front of the optical transceiver is lit indicating that the unit is operating normally.
A050201E.ai
Optical connectors of the optical transceiver
Optical cord plug
Knurled surfaceCable-protecting cover
Key
Key grooves
Optical transceiver
Power switch for the unit to be removed
Mounting screw
RDY lamp
RCV lamp
SND lamp
Optical cord
Optical connector
Handle
Guide rail
Back board
Connector
Figure Replacing Transceiver
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<A5.2PartsReplacement> A5-5
IM 32S06H10-21E
A5.2.2 HowtoReplacetheControllerController is to be replaced according to the procedure described below.
n Removal Procedure1. Turn off the power for the controller to be removed as well as the power for the mating
optical bus repeater on the same bus side.2. Loosen the two mounting screws securing the controller to the nest. The mounting screws
need not be removed.3. Hold the handles attached at the top and bottom of the front side of the controller and
remove the unit by pulling the handles forward.
n Installation Procedure1. Place the new or inspected controller, slide it along the guide rail of the nest, and insert it
securely into the back board connector.2. Secure the controller to the nest from the front, using the mounting screws. 3. After turning on the power, check if the RDY lamp on the front of the controller is lit indicating
that the unit is operating normally.
Back board
A050202E.ai
RDY lamp
Mounting screw
Handle Controller
Guide rail
Power switch for the unit to be removed
Error indication lamp
Connector
Figure Replacing Controller
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<A5.2PartsReplacement> A5-6
IM 32S06H10-21E
A5.2.3 HowtoReplacetheElectricalTransceiverElectrical transceiver is to be replaced according to the procedure described below.
n Removal Procedure1. Turn off the power for the electrical transceiver to be removed.2. With the V net cables attached, disconnect the connector assembly from the electrical
transceiver.3. Loosen the two mounting screws securing the electrical transceiver to the nest.
The mounting screws need not be removed.4. Hold the handles attached at the top and bottom of the front of the electrical transceiver and
remove the unit by pulling the handles forward.
A050203E.ai
Connector assembly
V net cables
Mounting screw
Handle
Guide rail
Electrical transceiver
Back board
Connector
Power switch for the unit to be removed
SND lampRCV lamp
Figure Replacing Electrical Transceiver
n Installation Procedure1. Place the new or inspected electrical transceiver, slide it along the guide rail of the nest, and
insert it securely into the back board connector.2. Secure the electrical transceiver to the nest from the front, using the mounting screws.3. Align the rail of the connector assembly with the V net cables attached with the guide rails at
the top and bottom of the electrical transceiver. Push the connector assembly all the way to the back.
4. Fasten the screws at the front of the connector assembly so as to fix the connector assembly to the electric transceiver. Thus the connector assembly and the electric transceiver are connected.
5. After turning on the power, check if the RCV and SND lamps on the front of the electrical transceiver is lit indicating that the unit is operating normally.
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<A5.2PartsReplacement> A5-7
IM 32S06H10-21E
A5.2.4 Components/PartsRequiringPeriodicReplacementBeforeperformingperiodreplacement,readthefollowingcarefully.
Ofthecomponentsandpartswithausefullife,thosethatcanbereplacedbytheuserareavailableasspareparts.Purchasethemandreplacewitholdcomponents/partsasnecessary.
IMPORTANTNotes on components/parts with a useful life
• Components/parts with a useful life are those expected to fail due to wear within 10 years under normal conditions of use or storage. Thus, the explanations in this section do not apply to items designed to last for 10 years or more.
• The recommended replacement period indicates the intervals at which preventative maintenance should be performed for components/parts with a useful life, and does not imply any guarantee against unexpected failure.
• The recommended replacement period serves only as a guideline, and the actual replacement period varies according to the use conditions.
• The recommended replacement period is subject to change based on field performance.
n PeriodicReplacementPartsHavingDefinedLifeSpansThe optical bus repeater has components/parts with a useful life that need to be replaced periodically. For the purpose of preventative maintenance, the recommended replacement period for each component/part is indicated in the table below.If there is a YES in the column “User replacement” in the table, it indicates the component/part can be replaced by the user.
Table RecommendedReplacementPeriodforComponents/PartswithUsefulLife(MustbeReplacedPeriodically)
Name Part number
Recommended replacement period
User replacement Remarks
Power supply unit PW501 8 years YES 100-120 V AC power When ambient temperature is 40 deg.C or less
Power supply unit PW502 8 years YES 220-240 V AC power
Power supply unit PW504 8 years YES 24 V DC power
Fuse A1361EF 3 years YES For PW501 (100-120 V AC), 1 A
Fuse A1349EF 3 years YES For PW502 (220-240 V AC), 2 A
Fuse A1363EF 3 years YES For PW504 (24 V DC), 2 A
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<A5.2PartsReplacement> A5-8
IM 32S06H10-21E
n HowtoReplacethePowerSupplyUnit
l Removal Procedure1. Turn off the switch for the power supply unit to be removed.2. Turn off the external power source (breaker, etc.).3. Disconnect the power cables and grounding cable from the power input terminals.4. Loosen the four mounting screws securing the power supply unit to the nest. The mounting
screws need not be removed.5. Hold the handle at the center of the power supply unit and pull it forward to remove the unit.
l Installation ProcedureMake sure that the switch of the power supply unit to be installed is at the off position.1. Place the new or inspected power supply unit, slide it along the guide rail of the nest, and
insert it securely into the back board connector.2. Secure the power supply unit to the nest from the front, using the mounting screws.3. Connect the power cables and grounding cable to the power input terminals.4. Turn on the external power source (breaker, etc.).5. Turn on the switch for the power supply unit and check if the POWER lamp is lit.
A050204E.ai
Guide rail
Power input terminals
Handle
Power switch
Mounting screw
POWER lamp
Power supply unit
Back board
Connector
Mounting screw
Figure Replacing Power Supply Unit
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<A5.2PartsReplacement> A5-9
IM 32S06H10-21E
n HowtoReplacetheFuseA fuse is installed in the power supply line.Fuses have a useful life. The recommended replacement period for the fuses is 3 years.The following figure shows the position where the fuse is attached:
A050205E.ai
Fuse100 V AC type A1361EF220 V AC type A1349EF24 V DC type A1363EF
Cap
Fuse holder
Figure Replacing Fuse
l Replacement ProcedureReplace the power supply fuse according to the following procedure:1. Turn off the power switch of the power supply unit.2. Turn off the external power source (breaker, etc.).3. Turn the fuse cap about 90 degrees in counterclockwise direction (there is a mark on the
cap) using a slotted screwdriver. The fuse is attached to the tip of the cap and will come out a little. Pull it out with your fingers.
4. Attach the specified fuse to the tip of the cap and insert it into the fuse holder.5. Turn the cap about 90 degrees in clockwise direction with a slotted screwdriver.6. Turn on the external power source (breaker, etc.).7. Turn on the power switch of the power supply unit.
The fuse has been replaced.Check if the POWER lamp is lit.
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<A5.3SelfDiagnosticFunctions> A5-10
IM 32S06H10-21E
A5.3 Self Diagnostic FunctionsInadditiontonormalcommunication,theopticalbusrepeaterhasthefollowingselfdiagnosticfunctionsthatoperateaccordingtothejumpersettingsinsidetheopticaltransceiver and controller:
• Controller internal loopback diagnosis • Electrical transceiver internal loopback diagnosis• Optical transceiver internal loopback diagnosis • Electricaltransceiverexternalloopbackdiagnosis• Opticaltransceiverexternalloopbackdiagnosis• Echoback
The status of the diagnostic functions is indicated by the lamps. These functions are useful when maintaining the optical bus repeater and fiber-optic cables. This section explains these functions.
SEE ALSO For more information about controller error codes, see the following:
“n ERR Lamp Indications and Modes” in A5.3.2 “How to Use the Self Diagnostic Functions by Optical Bus Repeater Jumper Settings”
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<A5.3SelfDiagnosticFunctions> A5-11
IM 32S06H10-21E
A5.3.1 MaintenancewhentheOpticalBusRepeaterLampsIndicate an Error
Thefollowingtableshowsinwhichunittheerroroccurredasindicatedbythelampindicationforeachoftheunitscomprisingtheopticalbusrepeater.Seethistablewhenreplacing or performing maintenance for any unit.
Table Lamp Indication Statuses and Maintenance
LampindicationstatusesforeachunitElectrical
transceiver Controller Opticaltransceiver
Powersupply unit
RCV SND
RDY ERR 2 ERR 1 ERR 0
RDY RCV SND
POWER Normal status However, the RCV and SND lamps are not lit in silent status
in which there is no signal transmitted.
RCV SND
RDY ERR 2 ERR 1 ERR 0
RDY RCV SND
POWER
Fault in the power supply unit If there is no error in the external power supply, there may be
a fault in the power supply unit.• Check the fuse.• Check the wiring. • If these are normal, replace the power supply unit.
RCV SND
RDY ERR 2 ERR 1 ERR 0
RDY RCV SND
POWER
Communication status is not normal • When the lamp indication statuses match those shown
below (4th and 5th rows of the table), also see the corresponding explanation on the causes and measures.
• Pull out the controller and optical transceiver to visually check that the jumper settings are correct. If the error code is indicating a diagnostic status even though the jumper settings are correct (Normal position), there may be a problem with the units.
• If both the jumper settings and power supply are normal, perform internal and external loopback diagnoses using the controller jumper settings. If the controller error code indicates an error, the unit needing replacement can be identified.
RCV SND
RDY ERR 2 ERR 1 ERR 0
RDY RCV SND
POWER
• A condition in which a correct signal is not received by the optical transceiver receive section from the mating optical bus repeater. There may be an error in the optical transceiver or the mating optical bus repeater.
• Check if the communication status of the mating optical bus repeater is normal.
• Using the controller jumper settings, perform internal and external loopback diagnoses for both of the optical bus repeaters interconnected by fiber-optic cables. If the error code indicates an error, the unit needing replacement can be identified.
• If the loopback diagnoses show no error, there may be a problem of optical loss, abnormal optical output level or abnormal optical receive sensitivity. Inspect or try replacing the optical transceiver or fiber-optic cable.
RCV SND
RDY ERR 2 ERR 1 ERR 0
RDY RCV SND
POWER
• If the optical bus repeater is operating normally, it is possible that the unit whose RCV lamp is lit is receiving an abnormally long signal.
• When the RCV lamp of the optical transceiver is lit, there may be an error in the mating bus repeater. If the RCV lamp for the electrical transceiver is lit, there may be an error in another communication device on the V net cable
Lamp indication statuses: ON: OFF: ON or OFF: One RCV lamp is ON and the other is OFF
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<A5.3SelfDiagnosticFunctions> A5-12
IM 32S06H10-21E
A5.3.2 HowtoUsetheSelfDiagnosticFunctionsbyOpticalBusRepeaterJumperSettings
Theopticalbusrepeaterperformsselfdiagnosistestsinaccordancewiththejumpersettingsinsidethecontrollerandopticaltransceiver.ThesourceoftheproblemcanbeidentifiedwithcertainprobabilityfromthestatusoftheERRlampindications.
SEE ALSO For jumper positions, see the following:
A4.2, “Optical Transceiver”
A4.3, “Controller”
n WiringforExternalLoopBackAlways perform an external loopback and echo back after providing the corresponding external wiring as shown in the figure below.
l IndependentExternalLoopBackOnly
A050301E.ai
RCVSND
CN1
CN2
Electrical transceiver
50
(YCB148 : 10BASE-2)(YCB118 : 10BASE-5)
V net terminator(2 pcs)
Controllerjumper settings ELPB
Transceiverjumper settings None
Externalconnection
V Net
RDYRCVSND
OUT
IN
OPTICALLINK
Optical transceiver
NORMAL
ELPB
Optical cord(10 m or longer)
Figure ExternalWiringforExternalLoopBack(IndependentExternalLoopBack)
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<A5.3SelfDiagnosticFunctions> A5-13
IM 32S06H10-21E
l LoopBackCombinedwithEcho-Back
A050302E.ai
RDYRCVSND
OUT
IN
OPTICALLINK
RDYRCVSND
OUT
IN
OPTICALLINKJumper settings during echo back
• Both controllers: ELPB• Optical transceiver: One is NORMAL, the other is ECB
Figure ExternalWiringforExternalLoopBack(CombinedwithEcho-Back)
l Operation Modes and Jumper SettingsThe operation modes and jumper settings are shown in the following table.
Table Operation Modes and Jumper Settings (1/2)
Operation mode specification
Jumper settingsDescription
Controller Optical transceiver
Normaloperation NORM NORMAL
•
•
When the power is turned on with the settings at left, loopback diagnoses are performed in the following order while the controller RDY lamp remains off:
1. Controller internal loopback 2. Electrical transceiver internal loopback3. Optical transceiver internal loopback
If no error is found, the controller RDY lamp lights up and the mode changes to communication status.If an error is found by the loopback diagnoses, the controller RDY lamp remains off but an error code is indicated by the error code lamps.The diagnoses are repeated from the start, and the mode changes to communication status when the diagnoses end successfully.
Internal loopback (*1) ILPB NORMAL
•
••
•
•
In this test, no test signal is output to the cable. Thus, it does not matter whether or not the V net cable is connected to the electrical transceiver branch connector and the optical cord to the optical transceiver.In this mode, the controller RDY lamp remains off. When the power is turned from OFF to ON with the settings on the left:The following loopbacks start and repeat.
1. Controller internal loopback 2. Electric transceiver internal loopback3. Optical transceiver internal loopback
During the above loopbacks, all the error-code lamps are ON.While this mode is executed normally, the statuses of the RCV and SND lamps for both transceivers are as follows: (both optical and electrical)
RCV lamp: ON SND lamp: undefinedIf an error is found at any stage, the error code is indicated and the test stops.
*1: When performing an internal loopback, it is recommended that the cable be disconnected from the V net currently operating, in order to prevent a system shutdown due to malfunction and mis-operation.
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<A5.3SelfDiagnosticFunctions> A5-14
IM 32S06H10-21E
Table Operating Modes and Jumper Settings (2/2)
Operating mode specification
Jumper settingsDescription
Controller Optical transceiver
External loopback (*2) ELPB NORMAL
•
•
••
•
•
If this mode is executed, a test signal is output from the transceiver to the cable. Thus, when starting this diagnosis in a system currently running, it is necessary to disconnect from the V net currently operating.When executing this mode, disconnect the V net cable from the electrical transceiver and install two terminators to the branch connector. For the optical transceiver, connect IN and OUT using an optical cord of 10 m or longer, or connect them to the optical bus repeater set for echo back and turn on the power for that unit first.In this mode, the controller RDY lamp is off.While this test is executed continuously and properly, the SND and RCV lamps for both transceivers remain on.When the power is turned on, one each of the following diagnoses are performed in this order:
1. Controller internal loopback2. Electrical transceiver internal loopback3. Optical transceiver internal loopback
If no error is found, the following are repeated:Electrical transceiver external loopbackOptical transceiver external loopback
While the external loopbacks are being repeated, all error code lamps remain on. If an error is found at any stage, the error code is indicated and the test stops.
Echo back (*3) ELPB ECB
•
••
•
•
This is a diagnostic mode that can be used in conjunction with another optical bus repeater set for external loopback.In this mode, the controller RDY lamp is off.When the power is turned on, one each of the following diagnoses are performed in this order:
1. Controller internal loopback 2. Electrical transceiver internal loopback 3. Optical transceiver internal loopback
If no error is found, the echo back status is indicated by the error code lamps (error code: 1) and echo back is performed.Echo back is a service in which the signal received by an optical transceiver is echoed back from the same optical transceiver.If the power is turned on for a optical bus repeater set for echo back, then the power is turned on for the mating optical bus repeater set for external loopback, checking of optical transmission between the two can be performed without a device other than the optical bus repeaters.If an error is found at any stage of the controller or transceiver internal loopbacks, the error code is indicated and the test stops.
*2: When performing an external loopback, a test signal is output from the transceiver to the cable. Thus, be sure to disconnect the cable from the V net currently.
*3: When performing an echo back, it is recommended that the cable be disconnected from the V net currently operating in order to prevent a system shutdown due to malfunctioning or mis-operation.
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<A5.3SelfDiagnosticFunctions> A5-15
IM 32S06H10-21E
n ERR Lamp Indications and ModesThe table below shows the indications of the controller ERR lamps and corresponding diagnoses:
Table ERR Lamp Indications and Modes
ERR lampsERRcodenumberandmeaningofthelampindication
2 1 0 (0) Communicating normally
(1) During echo backIndicates that no error was found by the following loopbacks when the power was turned on:• Controller, internal • Electrical transceiver, internal• Optical transceiver, internal
(2) Error during the controller internal loopback
(3) Error during the electrical transceiver internal loopbackIndicates that no error was found at least by the following loopback when the power was turned on:• Controller, internal
(4) Error during the optical transceiver internal loopbackIndicates that no error was found at least by the following loopbacks when the power was turned on:• Controller, internal• Electrical transceiver, internal
(5) Error during the electrical transceiver external loopbackIndicates that no error was found at least by the following loopbacks when the power was turned on:• Controller, internal• Electrical transceiver, internal• Optical transceiver, internal
(6) Error during the optical transceiver external loopbackIndicates that no error was found at least by the following loopbacks when the power was turned on:• Controller, internal• Electrical transceiver, internal• Optical transceiver, internal• Electrical transceiver, external
(7) Loopbacks being repeatedThis is not an error.
: ON: OFFThe number in ( ) is the error code number.
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CustomerMaintenanceParts List
CMPL A-1
CAUTION• The Customer Maintenance Parts List (CMPL) is provided as reference for ordering maintenance parts. Customer should not
assemble or disassemble the products by himself using this CMPL, but to contact to Yokogawa’s sales agents for parts replacement. YOKOGAWA assumes no liability to any party for damages caused through disassembly or assembly.
• Parts numbers on the Parts Lists are subjected to change.
All Rights Reserved. Copyright © 2005, Yokogawa Electric Corporation
Model YNT511D (for Max. 4 km)Model YNT522D (for Max. 15 km)Optical Bus Repeater for V net
CMPL 32S06H10-01E
CMPL 32S06H10-01E1st Edition : Mar.2005 (YK)
5th Edition : May 2008 (YK)
2
3
4
5
67
Accessory Assembly
1
H1001F01E.ai
12345
67
—T9080SKY9306LBT9080VFY9306TY
S9049PMBelowA1361EFA1349EFA1363EF
11124
41
Optical Bus RepeaterCable Tray B.H.Screw, M3 × 6BracketTapping Screw, M3 × 6
GrommetFuse (accessory assembly)
for 100 to120 V AC Power Supplyfor 220 to 240 V AC Power Supplyfor 24 V DC Power Supply
Item Part No. DescriptionQty
Option(option code:/KT)
H1001PL01E.ai
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All Rights Reserved. Copyright © 2005, Yokogawa Electric Corporation CMPL 32S06H10-01E
CMPL A-2
5th Edition : May 2008-00
12
7
8
9
5
H1001F02E.ai
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All Rights Reserved. Copyright © 2005, Yokogawa Electric Corporation CMPL 32S06H10-01E
CMPL A-3
5th Edition : May 2008-00Printed in JapanSubject to change without notice.
1
2
5
789
BelowPW501PW502PW504Below
A1361EFA1349EFA1363EFAIP578
AIP591
AIP171AIP571S9628UKS9764UK
Power Supply Unitfor 100 to 120 V AC Power Supplyfor 220 to 240 V AC Power Supplyfor 24 V DC Power Supply
Fuse (for one power supply unit)
for PW501 (1 A)for PW502 (2 A)for PW504 (2 A)
Optical Transceiver Unit for V net Repeater(for Max. 4 km transmission distance)
Optical Transceiver Unit for V net Repeater(for Max. 15 km transmission distance)
Transceiver Control Unit for V net RepeaterElectrical Transceiver Unit for V net RepeaterConnector Unit for V net (10BASE-5)Connector Unit for V net (10BASE-2)
2
1
2
222
2
1
2
222
2
1
2
22
2
2
1
2
22
2
ItemModel orPart No. Description
Mod
elQty
YN
T511
D-V
YN
T511
D-P
YN
T522
D-V
YN
T522
D-P
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<B1.ConfigurationandSpecificationofBusRepeater> B1-1
IM 32S06H10-21E
B1. ConfigurationandSpecificationofBusRepeater
Thebusrepeater(YNT512Dforadual-redundantconfiguration)isdesignedtoextendthecommunicationbus(Vnet)oftheProSafe-RSsystem.
Theuseofbusrepeatersextendstheconnectiondistanceto185meters(10BASE-2)or500meters(10BASE-5)perbusrepeater.AmaximumofeightrepeatersmaybeusedforextendingVnet(10BASE-2).AmaximumoffourrepeatersmaybeusedforextendingVnet(10BASE-5).
Thebusrepeateriscomprisedofalmostthesameunitsasthoseintheopticalbusrepeater,asalreadydescribedinPartA.Theonlydifferencebetweenthetwoiswhetherthecommunicationbusesareinterconnecteddirectlytoeachotherorextendedbytheoptical cables.
SEE ALSO The description of the bus repeater is omitted to avoid duplication. See the following sections:
For installing to the bus repeater, see the following:A2, “Installation of Optical Bus Repeater”
For connecting cables to the bus repeater, see the following:A3, “Cable Connections”
For the functions and configuration of bus repeater component units, see the following:A4, “Functions and Configuration of Units”
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<B1.1SystemConfiguration> B1-2
IM 32S06H10-21E
B1.1 SystemConfiguration
n ExamplesofSystemConfigurationwithBusRepeaters
B010101E.ai
YNT512D: Bus RepeaterSENG: Safety Engineering PCSCS: Safety Control Station
: Terminator: These numbers are used in sample cable connections.
1
SENG
SCS
V net
YNT512DV net V net
13
4
5
6SCS SCS
YNT512D 2
Figure SystemConfiguration
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<B1.1SystemConfiguration> B1-3
IM 32S06H10-21E
n ConfigurationandtheNamesoftheComponentsoftheBusRepeaterFor ProSafe-RS, the bus repeaters are used for dual-redundant bus configuration.The names of the components are the same for bus 1 and bus 2.Looking at the figure in this direction, the left side is called bus 1 and the right side is called bus 2.
BUS1
BUS2
B010102E.ai
Label Label
BUS1 BUS2Connector assembly
Transceiver 1 Transceiver 2
Power supply unit
Controller
Figure ConfigurationofBusRepeater
l NamesandModelsofBusRepeaterComponentUnitsIn the table below, the names and the models of the bus repeater component units are listed. Since the repeater is for dual-redundant configuration thus each component requires two units.
Table NamesandModelsofBusRepeaterComponentUnits
Name of unit Model name of unit
Power supplyPW501 (100-120 V AC)PW502 (220-240 V AC)PW504 (24 V DC)
Transceiver 1 AIP571
Transceiver 2 AIP571
Connector assembly S9764UK (for 10BASE-2)S9628UK (for 10BASE-5)
Controller AIP171
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<B1.2TransmissionDistance> B1-4
IM 32S06H10-21E
B1.2 Transmission DistanceThenumberofrepeaterstobeappliedandthetransmissiondistanceareexplainedbelow.
l Number of Repeaters and Transmission DistanceWith one repeater, the transmission distance for V net (10BASE-2) can be extended for 185 meters while for V net (10BASE-5) can be extended for 500 meters.Up to 8 repeaters can be applied on the V net (10BASE-2) (among any stations).Up to 4 repeaters can be applied on the V net (10BASE-5) (among any stations).In the table below, the model names of the repeaters are used for easy understanding.The model names and specification codes are as below:
Table ModelsandSuffixCord
DescriptionModel YNT512D Bus repeater for redundant bus
Suffixcodes
-V-P-Q
For redundant V net (10BASE-5 cable) (up to 500 m)For redundant V net (10BASE-2 cable), VL Net (up to 185 m)For Extending redundant V net (10BASE-2 cable), VL Net (10BASE-2-10BASE-5 connection)
1 Always 1
124
100-120 V AC power supply220-240 V AC power supply24 V DC power supply
Optional code /KT With cable tray
l Using a Model YNT512D-QThe cable with the specification code of YNT512D-Q is used for extending the bus from 10BASE-2 to 10BASE-5 bus. An example is shown below.
10BASE-2 cableYNT512D-Q YNT512D-Q
10BASE-2 cable10BASE-5 cable
Up to 185 m Up to 185 mUp to 500 m
[Example1]
10BASE-2 cableYNT512D-Q
YCB149(Control bus conversion unit)
10BASE-2 cable10BASE-5 cable
Up to 185 m For the max. transmission distance see the following table
[Example2]
B010201E.ai
Figure ExampleofUsingaModelYNT512D-Q
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<B1.2TransmissionDistance> B1-5
IM 32S06H10-21E
l Total Transmission DistanceThe total transmission distance and the number of repeaters used are shown in the table below.
Table Total Transmission Distance and Number of Repeaters
Total transmission distance depending on No. of repeaters (km)1 2 3 4 5 6 7 8
YNT512D-P (for 10BASE-2)
Max. 0.37
Max. 0.555
Max. 0.74
Max. 0.925
Max. 1.11
Max. 1.295
Max. 1.48
Max. 1.6
YNT512D-V (for 10BASE-5)
Max. 1
Max. 1.5
Max. 2
Max. 2.5 – – – –
YNT512D-Q (for max. 500 m)
Max. 0.685
Max. 0.87
Max. 1.37
Max. 1.555 – – – –
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<B2.InstallationofBusRepeater> B2-1
IM 32S06H10-21E
B2. InstallationofBusRepeaterSEE ALSO For details of the bus repeater installation, see the following:
A2, “Installation of Optical Bus Repeater”
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<B3.CableConnections> B3-1
IM 32S06H10-21E
B3. CableConnectionsSEE ALSO For more information about power cables and grounding cables of bus repeater, see the following:
A3, “Cable Connections”
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<B3.1ConnectingtheVnetCable> B3-2
IM 32S06H10-21E
B3.1 ConnectingtheVnetCableThefollowingfigureshowsanexampleofconnectingtheVnetcables.
n ExampleofConnectingVnetCablesThe following figure illustrates the V net cable connections. This is the sample wiring diagram used for V net explanation of “Figure System Configuration” in chapter B1, “Configuration and Specification of Bus Repeater” The models of the devices are indicated by the numbers at the right-hand side. To make the complicated wiring diagram simple, the following is only a wiring diagram for single bus.
5
B030101E.ai
YNT512: Bus repeaterSENG: Safety engineering PCSCS: Safety control station
: represents a branch connector of V net coupler unit in the case of SENG and SCS, and branching connectors for transceivers 1 and 2 in the case of YNT512, respectively.
SENG SCS
YNT512
SCS
YNT512
SCS
: Terminator locations
1 3
2
4 6
Figure ExampleofConnectingVnetCables
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<B3.2UsingVnet(10BASE-5)Cable> B3-3
IM 32S06H10-21E
B3.2 UsingVnet(10BASE-5)CableVnet(10BASE-2)islimitedforthedistancewithin185meters.Ifthedistanceoftheconnecteddevicesisbeyond185meters,onemorebusrepeaterisrequired.Onebusrepeatermayextendconnectionforanother185meters.UsingVnet(10BASE-5)cabletoreplaceapartofVnet(10BASE-2)mayreducethenumberofrepeatersusedintheVnet(10BASE-2)connection.
n ExampleofVnet(10BASE-2)andVnet(10BASE-5)Connection
B030201E.ai
V net cable (10BASE-5) 500 m max.
T1: V net transceiver (10BASE-2 cable)T2: V net transceiver (10BASE-5 cable)
YNT512
SENG SCS
SENG SCS
T1 T2
YNT512T1 T2
: Terminator locations
Figure ExampleofVnetCableConnection
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<B4.FunctionsandConfigurationofUnits> B4-1
IM 32S06H10-21E
B4. FunctionsandConfigurationofUnitsSEE ALSO For the functions and configuration of various component units of the bus repeater, see the following:
A4, “Functions and Configuration of Units”
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<B5.MaintenancefortheBusRepeater> B5-1
IM 32S06H10-21E
B5. MaintenancefortheBusRepeaterThissectionexplainsthedailyinspectionofthebusrepeaterandtheselfdiagnosticfunctionsprovidedwiththismodelforreferencewhenperformingmaintenanceforthebus repeater.
SEE ALSO For more information about electrostatic charge, see the following:
“n Antistatic Precautions” in A5, “Maintenance for the Optical Bus Repeater”
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<B5.1DailyInspection> B5-2
IM 32S06H10-21E
B5.1 DailyInspectionPerformthefollowingvisualinspections:
n StatusIndicatorLampsontheFrontofEachUnitThe bus repeater is operating normally if the lamps are on or off as indicated in the following table. However, the RCV and SND lamps for transceiver 1 and transceiver 2 remain off in silent status where there is no signal transmitted.
Table Lamp Indications During Normal Operation
StatusindicationoflampsineachunitTransceiver
1 Controller Transceiver 2
Power supply unit
RCV SND
RDY ERR 2 ERR 1 ERR 0
RCV SND
POWER
Lamp indication statuses : ON: OFF
SEE ALSO When a status indicator lamp of any unit shows an error, see the following:
B5.3.1, “Maintenance when the Bus Repeater Lamps Indicate an Error”
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<B5.2PartsReplacement> B5-3
IM 32S06H10-21E
B5.2 PartsReplacementSEE ALSO For replacing the components in the bus repeater, see the following:
A5.2, “Parts Replacement”
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<B5.3SelfDiagnosticFunctions> B5-4
IM 32S06H10-21E
B5.3 SelfDiagnosticFunctionsInadditiontonormalcommunication,thebusrepeaterhasthefollowingselfdiagnosticfunctionsthatoperateaccordingtothejumpersettingsinsidethecontroller:
• Controller internal loopback diagnosis • Transceiver internal loopback diagnosis• Transceiverexternalloopbackdiagnosis
Thestatusofthediagnosticfunctionsisindicatedbythelamps.Thesefunctionsareusefulwhenmaintainingthebusrepeater.
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<B5.3SelfDiagnosticFunctions> B5-5
IM 32S06H10-21E
B5.3.1 MaintenancewhentheBusRepeaterLampsIndicatean Error
Thefollowingtableshowsinwhichunittheerroroccurredasindicatedbythelampindicationforeachoftheunitscomprisingthebusrepeater.Seethistablewhenreplacingor performing maintenance for any unit.
Table Lamp Indication Statuses and Maintenance
LampindicationstatusesforeachunitPossible causes and measuresTransceiver
1 Controller Transceiver 2
Power supply unit
RCV SND
RDY ERR 2 ERR 1 ERR 0
RCV SND
POWER Normal status However, the RCV and SND lamps are not lit in silent
status in which there is no signal transmitted.
RCV SND
RDY ERR 2 ERR 1 ERR 0
RCV SND
POWER
Fault in the power supply unit If there is no error in the external power supply, there
may be a fault in the power supply unit.• Check the fuse.• Check the wiring.• If these are normal, replace the power supply unit.
RCV SND
RDY ERR 2 ERR 1 ERR 0
RCV SND POWER
Communication status is not normal• When the lamp indication statuses match those
shown below (last row of the table), also see the corresponding explanation on the causes and measures.
• Pull out the controller to visually check that the jumper settings are correct. If the error code is indicating a diagnostic status even though the jumper settings are correct (Normal position), there may be a problem with the units.
• If both the jumper settings and power supply are normal, perform internal and external loopback diagnoses using the controller jumper settings. If the controller error code indicates an error, the unit needing replacement can be identified.
RCV SND
RDY ERR 2 ERR 1 ERR 0
RCV SND
POWER
• If the bus repeater is operating normally, it is possible that the unit whose RCV lamp is lit is receiving an abnormally long signal.
• There may be an error in another communication device on the V net cable.
Lamp indication statuses: ON: OFF: ON or OFF: One RCV lamp is ON and the other is OFF
2nd Edition : Dec.15,2008-00
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<B5.3SelfDiagnosticFunctions> B5-6
IM 32S06H10-21E
B5.3.2 HowtoUsetheSelfDiagnosticFunctionsbyBusRepeater Jumper Settings
Thebusrepeaterperformsselfdiagnosistestsinaccordancewiththejumpersettingsinsidethecontroller.ThesourceoftheproblemcanbeidentifiedwithcertainprobabilityfromthestatusoftheERRlampindications.
SEE ALSO For jumper positions, see the following:
A4.2, “Optical Transceiver”
A4.3, “Controller”
n WiringforExternalLoopBackWhen performing external loopback, external wiring is as follows.
RCVSND
CN1
CN2
B050302E.ai
50
Transceiver for V net
YCB148 : 10BASE-2YCB118 : 10BASE-5
V net terminator
Controller jumper settings ELPB
Independent external loopback
Externalconnection
Figure ExternalWiringforExternalLoopBack
2nd Edition : Dec.15,2008-00
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<B5.3SelfDiagnosticFunctions> B5-7
IM 32S06H10-21E
n Operating Modes and Jumper SettingsThe following table indicates the jumper settings and the Description of diagnosis of controller.
Table Operation Modes and Jumper Settings
Operation modespecification
Controllerjumpersettings Description
Normaloperation NORM
•
•
When the power is turned on with the setting at left, loopback diagnoses are performed in the following order while the controller RDY lamp remains off: 1. Controller internal loopback 2. Transceiver 1 internal loopback 3. Transceiver 2 internal loopbackIf no error is found, the controller RDY lamp lights up and the mode changes to communication status.If an error is found by the loopback diagnoses, the controller RDY lamp remains off but an error code is indicated by the error code lamps. The diagnoses are repeated from the start, and the mode changes to communication status when the diagnoses end successfully.
Internal loopbackspecification (*1) ILPB
•
••
•
•
In this test, no test signal is output to the cable. However, it is recommended that the transceiver branch connector be disconnected from the V net cable.In this mode, the controller RDY lamp remains off.When the power is turned on with the setting at left, the controller internal loopback is performed once, then the transceiver 1 and transceiver 2 internal loopbacks are repeated. While the internal loopbacks are being repeated, all error code lamps remain on.While this mode is executed normally, the statuses of the RCV and SND lamps for both transceivers are as follows: (both transceivers 1 and 2) RCV lamp: ON SND lamp: undefinedIf an error is found at any stage, the error code is indicated and the test stops.
External loopback
specification (*2)ELPB
•
•
••
•
•
If this mode is executed, a test signal is output from the transceiver to the cable. Thus, when starting this diagnosis in a system currently running, it is necessary to disconnect from the V net currently operating.When executing this mode, disconnect the V net cables from both transceivers1 and 2 and install four terminators to the branch connector.In this mode, the controller RDY lamp is off.While this test is executed continuously and properly, the SND and RCV lamps for both transceivers remain on.When the power is turned on, one each of the following diagnoses are performed in this order: 1. Controller internal loopback 2. Transceiver 1 internal loopback 3. Transceiver 2 internal loopbackIf no error is found, the following are repeated: Transceiver 1 external loopback Transceiver 2 external loopbackWhile the external loopbacks are being repeated, all error code lamps remain on.If an error is found at any stage, the error code is indicated and the test stops.
*1: When performing an internal loopback, it is recommended that the cable be disconnected from the V net currently operating in order to prevent a system shutdown due to malfunctioning or mis-operation.
*2: When performing an external loopback, a test signal is output from the transceiver to the cable. Thus, be sure to disconnect the cable from the V net currently operating.
1st Edition : May 30,2008-00
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<B5.3SelfDiagnosticFunctions> B5-8
IM 32S06H10-21E
n ERR Lamp Indications and ModesThe table below shows the indications of the controller ERR lamps and corresponding diagnoses:
Table ERR Lamp Indications and Modes
ERR lampsERRcodenumberandmeaningofthelampindication
2 1 0 (0) Communicating normally (1) Failure status in which the controller is erroneously assuming that a request for
echo back service (external loopback diagnosis including external bus cables) was received from the transceiver.(Echo back service cannot be requested from the transceiver.)
(2) Error during the controller internal loopback (3) Error during the transceiver 1 internal loopback
Indicates that no error was found at least by the following loopback when the power was turned on:• Controller, internal
(4) Error during the transceiver 2 internal loopback Indicates that no error was found at least by the following loopbacks when the power was turned on:• Controller, internal• Transceiver 1, internal
(5) Error during the transceiver 1 external loopback Indicates that no error was found at least by the following loopbacks when the power was turned on:• Controller, internal• Transceiver 1, internal• Transceiver 2, internal
(6) Error during the transceiver 2 external loopback Indicates that no error was found at least by the following loopbacks when the power was turned on:• Controller, internal• Transceiver 1, internal• Transceiver 2, internal• Transceiver 1, external
(7) Loopbacks being repeatedThis is not an error.
: ON: OFFThe number in ( ) is the error code number.
1st Edition : May 30,2008-00
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CustomerMaintenanceParts List
CMPL B-1
All Rights Reserved. Copyright © 2005, Yokogawa Electric Corporation
CAUTION• The Customer Maintenance Parts List (CMPL) is provided as reference for ordering maintenance parts. Customer should not
assemble or disassemble the products by himself using this CMPL, but to contact to Yokogawa’s sales agents for parts replacement. YOKOGAWA assumes no liability to any party for damages caused through disassembly or assembly.
• Parts numbers on the Parts Lists are subjected to change.
Model YNT512DBus Repeater for V net
CMPL 32S06H20-01E
CMPL 32S06H20-01E1st Edition : Mar.2005 (YK)
5th Edition : May 2008 (YK)
Accessory Assembly
1
4
5
62
3
7
H2001F01E.ai
12345
67
—T9080SKY9306LBT9080VFY9306TY
S9049PMBelowA1361EFA1349EFA1363EF
11124
41
Bus RepeaterCable Tray B.H.Screw, M3 × 6BracketTapping Screw, M3 × 6
GrommetFuse (accessory assembly)
for 100 to 120 V AC Power Supplyfor 220 to 240 V AC Power Supplyfor 24 V DC Power Supply
Item Part No. DescriptionQty
Option(option code:/KT)
H2001PL01E.ai
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All Rights Reserved. Copyright © 2005, Yokogawa Electric Corporation CMPL 32S06H20-01E
CMPL B-2
5th Edition : May 2008-00
12
5
6
7
6
7
H2001F02E.ai
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All Rights Reserved. Copyright © 2005, Yokogawa Electric Corporation CMPL 32S06H20-01E
CMPL B-3
5th Edition : May 2008-00Printed in JapanSubject to change without notice.
1
2
56
7
BelowPW501PW502PW504Below
A1361EFA1349EFA1363EFAIP171AIP571
S9628UKS9764UK
Power Supply Unitfor 100 to 120 V AC Power Supplyfor 220 to 240 V AC Power Supplyfor 24 V DC Power Supply
Fuse
for PW501 (1 A)for PW502 (2 A)for PW504 (2 A)
Transceiver Control Unit for V net RepeaterElectrical Transceiver Unit for V net Repeater
Connector Unit for V net (10BASE-5)Connector Unit for V net (10BASE-2)
2
1
24
4
2
1
24
4
2
1
24
22
ItemModel orPart No. Description
Mod
elQty
YN
T512
D-V
YN
T512
D-P
YN
T512
D-Q
H2001PL02E.ai
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Ind-1
IM 32S06H10-21E
ProSafe-RSCommunication Devices
IM 32S06H10-21E 3rd Edition
INDEX
3rd Edition : Dec.22,2009-00
CComponents/Parts Requiring Periodic
Replacement ............................................. A5-7Connecting Optical Cords ............................... A3-13Connecting the Ground Cable .......................... A3-3Connecting the Optical Cord ........................... A3-11Connecting the Power Cable ............................ A3-2Connecting the V net Cable .................... A3-4, B3-2Connection Method for the V net Cable ............ A3-5Controller ........................................................... A4-5Corresponding to GI 62.5/125 Fiber-optic
Cable ....................................................... A3-14
DDaily Inspection ................................................. A5-2
EElectrical Transceiver ........................................ A4-7
GGrounding the V net .......................................... A3-9
HHow to Connect the Push-to-Lock Type Cord
Plug and Connector ................................. A3-12How to Replace the Controller .......................... A5-5How to Replace the Electrical Transceiver ....... A5-6How to Replace the Optical Transceiver........... A5-3
IInstallation of Bus Repeater .............................. B2-1Installation of Optical Bus Repeater ................. A2-1Installing Fiber-optic Cables............................ A3-15
MMaintenance for the Bus Repeater ................... B5-1Maintenance for the Optical Bus Repeater ....... A5-1
OOptical Transceiver ........................................... A4-3
PPower Supply Unit ............................................ A4-2
SSelf Diagnostic Functions ............................... A5-10System Configuration ............................. A1-2, B1-2
TTransmission Distance ............................ A1-4, B1-4
UUsing V net (10BASE-5) Cable ......................... B3-3
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Rev-1
IM 32S06H10-21E
Revision Informationl Title : Communication Devicesl Manual No. : IM 32S06H10-21E
Dec. 2009/3rd Edition/R2.03 or later**: Denotes the release number of the software corresponding to the contents of this user’s manual. The revised contents are valid until the next edition is issued.
Dec. 2008/2nd Edition/R2.02 or laterSafety Precautions Changed the description on “Standard.”
May 2008/1st Edition/R2.01 or laterNewly published.
n For Questions and More Information Online Query: A query form is available on the following URL for online query. http://www.yokogawa.com/iss/ If you want more information about Yokogawa products, you can visit Yokogawa’s homepage at the following web site. Homepage: http://www.yokogawa.com/n Written by Process Automation Product Marketing Dept. Industrial Automation Systems Business Div. Yokogawa Electric Corporation n Published by Yokogawa Electric Corporation 2-9-32 Nakacho, Musashino-shi, Tokyo 180-8750, JAPAN
3rd Edition : Dec.22,2009-00