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MiCOM H18x - Schneider Electric

1. Tope munmods Single Mode Unk Powerbudget mas eae Allowed link attenuation 5 4 dB 10 4 dB Typical cable attenuation 1 dB km 0 4 dB km Maximum range 54km 26km Example 2 between devices with patch panel Link Powerbugget MB l 16aB Connector loss 1 6 dB 1 6 dB Patch loss Protective Margin Allowed link attenuation Typical cable attenuation 1 dB km 0 4 dB km Maximum range 23 5 km Note The values given above are only approximate ones Always use cable and connector losses as specified by the manufacturer Use constraints NOTICE INOPERABLE EQUIPMENT Factory settings may have to be modified Please contact your Schneider Electric Customer Care Center Failure to follow these instructions can result no connection to equipment Global Documentation H18x EN GL A11 MiCOM H18x Page 39 49 12 G rn O un ww gt A lt gt v J m lt O ww 100Base TX 100Base FX Category 5 unshielded twisted pair UTP cabling An Ethernet network operating at 10 Mbps 10BASE T will often tolerate low quality cables but at 100 Mbps 10BASE Tx the cable must be rated as Category 5 or Cat 5 or Cat V by the Electronic Industry Association EIA This rating is printed on the cable jacket Cat 5 cable contains eight conductors arranged in four twisted pairs and terminated with an RJ45 type connector In addition there are restrictions on maximum cable length for both 10 and 100 Mb
2. 1 an unspecified non bridging node e g SRP 2 an unspecified bridging node e g RSTP 3 a PRP node RedBox 4 an HSR RedBox with regular Ethernet traffic on its interlink 5 an HSR switching node 6 an HSR RedBox with HSR tagged traffic on its interlink 7 an HSR RedBox with PRP traffic for LAN A on its interlink 8 an HSR RedBox with PRP traffic for LAN B on its interlink Applicable to RedBox HSR PRP A and RedBox HSR PRP B One ID is used by one pair of RedBoxes one configured to A and one configured to B coupling an HSR ring to a PRP network The integer value states the value of the path field a RedBox inserts into each frame it receives from its interlink and injects into the HSR ring When interpreted as binary values the LSB denotes the configuration of the RedBox A or B and the following 3 bits denote the identifier of a RedBox pair True if the LRE evaluates received supervision frames False if it drops the supervision frames without evaluating Note LREs are required to send supervision frames but reception is optional Default value is dependent on implementation specifies that the Node Table is to be cleared specifies that the Proxy Node Table is to be cleared list of PRP HSR LREs Each entry corresponds to one PRP HSR Link Redundancy Entity LRE each representing a pair of LAN ports A and B and a port C towards the application interlink Basic devices supporting PRP HSR may have only one LRE an
3. number must be obtained from the factory and clearly marked on the package before any equipment acceptance for guarantee work Schneider Electric will pay the shipping costs of returning to the owner any parts that are covered by warranty Schneider Electric believes that the information in this document is accurate The document has been carefully reviewed for technical accuracy In the event that technical or typographical errors exist Schneider Electric reserves the right to make changes to subsequent editions of this document without prior notice to holders of this edition The reader should consult Schneider Electric if errors are suspected In no event shall Schneider Electric be liable for any damages arising from or related to this document or the information contained in it Except as specified herein Schneider Electric makes no guarantees express or implied and specifically disclaims any guarantee of merchantability or suitability for a particular purpose Customer s rights to recover damages caused by detected error or negligence on the part Global Documentation H18x EN GL A11 MiCOM H18x Page 15 49 2 13 2 13 1 2 13 2 2 13 3 Schneider Electric shall therefore be limited to the amount paid by the customer Schneider Electric will not be liable for damages resulting from loss of data profits use of products or incidental or consequential damages even if advised of the possibility thereof This limitation of the liability o
4. 1550 nm H18x EN GL A11 Page 24 49 MiCOM H18x 5 3 General Characteristics 5 3 1 Protocols The board is compliant with industrial communication networks for electrical substation automation The product supports standardized redundant protocols PRP IEC62439 3 Network management protocol SNMP and Time synchronization protocol SNTP Redundancy protocols supported PRP IEC62439 3 Network management supported SNMP Time Synchronization supported SNTP Level 1 VLAN level 2 VLAN Not supported 9 32 Auxiliary Status Indication Relay Manufacturer Reference OMRON G6RN 15DC Connector 2 NC contact potential free Rated Voltage 5 VDC Max switching voltage 250 VAC 30 VDC Mechanical durability 10 000 000 operations minimum Rise time Operate time 15 ms max Release time 5 ms max WIRING RECOMMENDATION HAZARD OF ELECTRIC SHOCK EXPLOSION OR ARC FLASH FOR PROTECTIVE REASONS AND FOR COMPLIANCE WITH THE EUROPEAN COMMISSION LOW VOLTAGE DIRECTIVE 2006 95 EC THE AUTHORIZED VOLTAGE RATING TO BE APPLIED ON THE STATUS INDICATION RELAY IS LIMITED TO 75 VDC OR 50 VAC AND WITH CURRENT NOT EXCEEDING 5 A Failure to follow these instructions will result in death or serious injury 9 9 9 Ethernet Management Global Documentation Broadcast storm protection Global Documentation H18x EN GL A11 MiCOM H18x Page 25 49 Max clients on interlink 128 Frame buffer size 288 kbits Frame priority management None Filtering Ethernet flow 8 fi
5. A11 Page 43 49 Type Test Name Standard IEC61850 3 Dry Heat Operating IEC 60068 2 2 IEC 60870 2 2 Test Bd 55 C 96H amp 70 C 24 H Extended Dry Heat Operating Not applicable Not applicable Not applicable Hot Storage IEC 60068 2 2 IEC 60870 2 2 Test Bd 80 C 24 H Cold Operating IEC 60068 2 1 IEC 60870 2 2 Test Ab 25 C 96H Cold Storage IEC60068 2 1 IEC 60870 2 2 Test Ad 40 C 96H Cold start test IEC60068 2 1 IEC 60870 2 2 Test Ad Storage test at 25 C then Power On 5 cycles 3 minutes ON an 10 minutes OFF Humid Heat Operating 13 4 2 Mechanical Vibrations Operating Vibrations No Operating IEC 60068 2 78 Test Ca 40 C 95 RH for 48 H Standard IEC61850 3 IEC 60255 21 1 Test Fh 5 500Hz EN 60068 2 6 according to 3 axis EN 60068 2 64 DSP 0 0929 Hz 2gRms for CF configuration DSP 0 092g9 Hz 1gRms for HDD configuration 1 hour axis Class2 Test Fc 5 IEC 60255 21 1 500Hz according to 3 EN 60068 2 6 axis EN 60068 2 64 2g speed sweep 1oct mn 1 hour axis Shock No Operating Not Applicable Not Applicable Not Applicable Shock Operating 3 axis 10g for CF configuration 1g for HDD drive 11ms half sinus form 3 shocks in each direction IEC 60255 21 2 EN 60068 2 27 H18x EN GL A11 Global Documentation Page 44 49 MiCOM H18x Not rey Not ee Not applicable Seismic Vibration Resistance Seismic Vibration Resistance
6. Documentation H18x EN GL A11 MiCOM H18x gt gt p p Page 11 49 The recommended minimum protective conductor earth wire size is 2 5 mm 3 3 mm for North America unless otherwise stated in the technical data section of the equipment documentation or otherwise required by local or country wiring regulations The protective conductor earth connection must be low inductance and as short as possible Connections to the equipment must have a defined potential Connections that are pre wired but not used should preferably be grounded when binary inputs and output relays are isolated When binary inputs and output relays are connected to common potential the pre wired but unused connections should be connected to the common potential of the grouped connections Before energizing the equipment the following should be checked Voltage rating polarity rating label equipment documentation Protective fuse rating Integrity of the protective conductor earth connection where applicable Voltage and current rating of external wiring applicable to the application Accidental touching of exposed terminals If working in an area of restricted space such as a cubicle where there is a risk of electric shock due to accidental touching of terminals which do not comply with IP20 rating then a suitable protective barrier should be installed Equipment use If the equipment is used in a manner not specified by the manufact
7. ND Signal FPGA_ LOS 8 13 RD Px RXP GND Signal _ VeeR 3 9 12 RD PX_RXN ND Signal SFP transceivers can be either Single Mode or Multi Mode Connector Picture Cable SFP LC duplex transceiver FIGURE 8 OPTICAL FIBER SFP LC SLOT SFP LC MODULE AND LC FIBBER H18x EN GL A11 Global Documentation Page 34 49 MiCOM H18x 9 SETTINGS Board settings IP Address Protocol mode Filters are configured In factory Global Documentation H18x EN GL A11 MiCOM H18x Page 35 49 10 MAINTENANCE 10 1 Scope 10 2 10 3 10 4 This chapter describes the maintenance procedure for the MiCOM H18x Recommendation before maintenance operations AWARNING EQUIPEMENT DAMMAGE Before carrying out any work on the equipment the user should be familiar with the contents of the USER PROTECTION Power supply connectors must be disconnected from the device prior or power off using circuit breaker to any maintenance operation Failure to follow these instructions can result in death serious injury or equipment damage Maintenance period Schneider Electric products should be monitored periodically after their installation Deterioration may occur over time Because of the electrical and heavy interference environment the MiCOM H18x should be checked at regular intervals to confirm that it is operating correctly The MiCOM H18x has been designed for a life cycle of over 15 years MiCOM H18x is self superv
8. Redundant H18x The MiCOM H18x range is a set of devices with a PCI 2 2 connector embedded with the PRP protocol to provide the Ethernet Redundancy IEC 62439 3 The MiCOM H18x range relies on managed devices that are easy to install and operate in an electrical plant environment IEC 61000 4 IEC 60255 5 amp IEC 61850 3 MiCOM H18x supports 100BaseTX and 100BaseFX IEEE 802 3 standard The MiCOM H18x is a plug and play device all its configuration and settings are performed in the factory H18x EN GL A11 Global Documentation Page 18 49 MiCOM H18x 4 4 1 4 2 4 2 1 FUNCTIONAL DESCRIPTION The MiCOM H18x board is a Redundant Ethernet Unit compliant with the electric plant environment It supports standardized redundant protocols PRP IEC62439 3 and allows to PC a PRP networking connection 100Mbps with Full Duplex mode and supports synchronized protocol SNMP The board is compliant with IEC61850 3 standard and PACiS standard The configuration and settings of the MiCOM H18x are performed in the factory Product Range The MiCOM H18x range is dedicated to ultra fast Redundant Ethernet star or ring topologies and is defined by the type of Ethernet connector It has an Ethernet copper link via only one RJ45 connector with speed automatically adjusted by the external emitters to 100 Mbps The Ethernet copper link is limited in distance and subject to interference The redundant Ethernet star or ring are based on optical
9. X Output Transmit white orange Data Output Transmit Data 4 ne fe Not Connected blue not used 1 200 CHEN Not Connected white blue not used ut Receive Dala geen ass Not Connected ge used PC STRAIGHT THRU HUB PC Tii 1 ir Te i E gt h TX 2 U 2 py Ti 2 PAIRES 12345678 Rd 45 FIGURE 7 RJ45 CONNECTOR Looking at the RJ45 connector head on flat side on bottom and side tab on top then pin 1 is on the left and pin 8 on the right Note The maximum authorized cable length for 100BaseTx without using a repeater is 100 meters Only the cable insulated category 5 FTP Foil Twisted Pair or insulated STP Shielded Twisted Pair with RJ45 connector must be used Global Documentation H18x EN GL A11 MiCOM H18x Page 33 49 8 2 2 Ethernet optical fiber Redundant ports are dedicated to 2 Ethernet SFP FX ports Fibber connectors are SFP slot and SFP modules for LC type LC SFP modules support Single Mode and Multi Mode Device Type Optical Fiber Type Connector Type MiCOM H182 Multi Mode MiCOM H184 Single Mode LC MiCOM H183 Multi Mode link A B Single Mode link B A optional SFP connectors are composed with CMS 20 pins connector Type Connector Picture _ _ SFP LC duplex cage Signal Name Im n Name sic GND Signal _ VeeT 3 1 20 VeeT GND Signal PU10kQ TxFault 2 19 TD PX_TXN X_TXP SDA SCL Module Detect T 7
10. instructions can result in death serious injury or equipment damage Replacing MiCOM H18x The case and connectors have been designed to facilitate removal of the complete MiCOM H18x Uninstalling MiCOM H18x board Note Before any disconnection check that the labels correctly define the connectors and match the description you have To uninstall MICOM H18x board do following Action Lo Unscrew PCI RACK from PC Unscrew H18x board from PCI RACK Installing MiCOM H18x board Please refer to above section INSTALLATION Global Documentation H18x EN GL A11 MiCOM H18x Page 37 49 11 LIMITATIONS 11 1 Fiber Optic budget calculations Optical power is expressed in Watts However the common unit of power measurement is the dBm defined by the following equation Power dBm 10 log Power mW 1 mW The fiber optic budget is the difference between the power emitted into the fiber and the sensitivity minimum amount of power required of the receiver connected through the fiber optic cable Link Power Budget Transmitter Power dBm Receiver Sensitivity dBm Optical a Optical transmitter Connectors fibers receiver Transmitted Power Received Power 0525ENa FIGURE 9 FIBER BUDGET Fiber Type Multi Mode Single Mode 9 125 micron 15 dBm 31 dBm Link PowerBudget_ ss 11dB sd 16 BB H18x EN GL A11 Global Documentation Page 38 49 MiCOM H18x 11 1 1 11 1 2 Example 1 between devices
11. inter switch connection The user has the choice between using Multi Mode Fiber optic for short distances or Single Mode Fiber Optic for long distances The table below describes the MICOM H18x range detailing the connectivity used modei Description fomes MICOM H182 PEME mecuncan Board IEC62439 3 PRP Multi Mode fiber Ethernet Redundant Board IEC62439 3 PRP MiCOM H184 Single Mode fiber Ethernet Redundant Board 1X RJ45 IEC62439 3 PRP 2 x LC Ethernet Redundant Board IEC62439 3 PRP MiCOM H183 H183 Optional Multi Mode link A B Single optional Mode link B A Ethernet Redundant Board IEC62439 3 PRP Capability PRP Architecture The PRP protocol manages a redundancy network Parallel Redundancy Protocol PRP is a standard data communication network Protocol allows systems to overcome any single network error without affecting the data transmission In case detected error of the optical fiber connection between two devices the network connection can be maintained PRP protocol can be applied to most Industrial Ethernet applications since it is independent of the protocols and provides seamless failover It is implemented in the end devices and two independent paths are configured to exist between these end devices The LAN networks LAN_A LAN_B are completely separated and are assumed to be defect independent Redundancy management interface MiCOM H18x DAN on figure below allows to track the health of each L
12. AN and especially to detect error early when the error rate increases It keeps for each port a counter of received messages and of messages received with an error The LAN statuses appear as SNMP objects this allows using the same tools for managing the nodes and the bridges see IEC 62439 3 MIB OID draft description Global Documentation H18x EN GL A11 MiCOM H18x Page 19 49 Local Area Network Local Area Network LAN B RedBox Destination N gt VDAN FIGURE 1 PRP NETWORK ARCHITECTURE DEVICE DESCRIPTION MORE oO The two LANs named LAN_A and LAN _B are identical in protocol at the MAC level but they can differ in performance and topology ring or star The Dual Attached Node DAN is connected to both MiCOM H18x LANs Each DAN has two ports that operate in parallel The Virtual Dual Attached Node VDAN node that is connected to both networks by a RedBox A VDAN appears to other nodes like a DAN Single Attached Node SAN normal node with only one network interface u Redundancy Box bridging device to attach a network of VDANs or a single VDAN RedBox H18x EN GL A11 Global Documentation Page 20 49 MiCOM H18x 4 2 2 Board Architecture ee un ee RJ45 Connector HOST Copper Port 100 MBits Alarm nd Optical Port A 100 MBits Fiber Optic gt Optical Port B Transceiver B 100 MBits Setting IP Address Setting Protocol FIGURE 2 MICOM H18
13. FRAME MAC ADDRESS FIGURE 4 MICOM H18X PCI BOARD FIGURE 5 LEDS AND CONNECTORS FIGURE 6 STATUS CONNECTOR FIGURE 7 RJ45 CONNECTOR FIGURE 8 OPTICAL FIBER SFP LC SLOT SFP LC MODULE AND LC FIBBER FIGURE 9 FIBER BUDGET MiCOM H18x 19 20 21 2 2 28 32 33 37 Global Documentation H18x EN GL A11 MiCOM H18x Page 5 49 IN SCOPE OF THE DOCUMENT This document is chapter of MiCOM H 18x It describes the User Manual of the product Before carrying out any work on the equipment the user should be familiar with the contents of the next section Safety part of the Schneider Electric Safety Guide SFTY 4L M C11 or later issue H18x EN GL A11 Global Documentation Page 6 49 MiCOM H18x 2 SAFETY 2 1 Safety Information Important information Read these instructions carefully and look at the equipment to become familiar with the device before trying to install operate service or maintain it The following special messages may appear throughout this bulletin or on the equipment to warn of potential hazards or to call attention to information that clarifies or simplifies a procedure indicates that an electrical hazard exists which will result in personal The addition of either symbol to a Danger or Warning safety label AIN injury if the instructions are not followed This is the safety alert symbol It is used to alert you to potential personal injury hazards Obey all safety messages that follow this symbol
14. H18x Page 31 49 8 CONNECTION 8 1 Status output Pin Description ae commoncontacT 3 STATUS 1 OPEN NOMINAL CLOSE Disconnection on Redundant Ethernet Link A 4 STATUS 2 OPEN NOMINAL CLOSE Disconnection on Redundant Ethernet Link B Note A closed contact indicates a Disconnection on Redundant Ethernet Link WIRING RECOMMENDATION A DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR ARC FLASH FOR PROTECTIVE REASONS AND FOR COMPLIANCE WITH THE EUROPEAN COMMISSION LOW VOLTAGE DIRECTIVE 2006 95 EC THE AUTHORIZED VOLTAGE RATING TO BE APPLIED ON THE STATUS INDICATION RELAY IS LIMITED TO 75 VDC OR 50 VAC AND WITH CURRENT NOT EXCEEDING 5 A Failure to follow these instructions will result in death or serious injury H18x EN GL A11 Global Documentation Page 32 49 MiCOM H18x 8 2 Ethernet Connection The Ethernet based communication available in the MiCOM H18x uses either optical fiber media LC connector or 4 twisted pair cable RJ45 connector Recommendation If the equipment is located at a long distance gt 100 m for RJ45 from the communication equipment or multiplexer or if the cables run through a noisy area then optical communication should be used to interconnect the IEDs and the communication equipment 8 2 1 RJ45 connector The host port is dedicated to PC RJ45 link The RJ45 port supports 100Base TX The RJ45 connector e 8 contacts e With integrated Magnetic e With integrated LEDs Type
15. MiCOM H18x Redundant Ethernet Unit H18x EN GL A11 Global Documentation Schneider Electric Global Documentation MiCOM H18x CONTENTS 1 SCOPE OF THE DOCUMENT 2 SAFETY 2 1 Safety Information 2 2 Introduction 2 3 Health and User Protection 2 4 Symbols 2 5 Installing commissioning and servicing 2 7 De commissioning and disposal 2 8 Technical specifications 2 8 1 Protective fuse rating 2 8 2 Protective class 2 8 3 Installation category 2 8 4 Environment 2 9 Humidity during storage 2 10 Handling of Electronic Equipment 2 11 Packing and Unpacking 2 12 Guarantees 2 13 Copyrights amp Trademarks 2 13 1 Copyrights 2 13 2 Trademarks 2 13 3 Attentions regarding use of Schneider Electric products 3 INTRODUCTION 3 1 MiCOM Ethernet device series and names 3 2 MiCOM Ethernet Redundant H18x 4 FUNCTIONAL DESCRIPTION 4 1 Product Range 4 2 Capability 4 2 1 PRP Architecture 4 2 2 Board Architecture 4 3 Power management 4 4 Ethernet Ports 4 5 Ethernet Management 4 5 1 MAC Address Filtering 4 5 2 SNMP 4 5 3 IEC 62439 3 MIB Structure 5 TECHNICAL DATA 5 1 MiCOM H18x Range H18x EN GL A11 Page 1 49 O O N N OQO 12 13 13 13 13 13 13 13 14 14 15 15 15 15 16 16 17 18 18 18 18 20 20 21 21 21 21 21 23 23 H18x EN GL A11 Page 2 49 5 2 Ethernet Port Characteristics 5 2 1 100BaseTx Port 5 2 2 100BaseFx Multi Mode Port 5 2 3 100BaseFx Single Mode Po
16. Not Not applicable Not Not applicable Not applicable Free fall on 6 sides 2 falls a side Drop test free fall IEC 60068 2 31 Height 5cm No Operating Free fall on the 6 sides Package Drop test IEC 60068 2 31 PAPA anyone fall on one corner and one fall on a edge Endurance Under Sinuso dal Keranelicable rel Not applicable Global Documentation H18x EN GL A11 MiCOM H18x Page 45 49 13 5 IEC 62439 3 MIB Structure The IEC 62439 3 MIB provides the following objects available at the OID 1 0 62439 SNMP OID Parameter name Description 1 iso 1 0 std 1 0 62439 iec62439 1 0 62439 2 prp 1 0 62439 2 0 linkRedundancyEntityNotifications 1 0 62439 2 1 linkRedundancyEntityObjects 1 0 62439 2 1 0 1 0 62439 2 1 0 0 1 0 62439 2 1 0 0 1 1 0 62439 2 1 0 0 2 1 0 62439 2 1 0 1 1 0 62439 2 1 0 1 0 1 0 62439 2 1 0 1 0 1 1 0 62439 2 1 0 1 0 1 1 1 0 62439 2 1 0 1 0 1 1 1 1 0 62439 2 1 0 1 0 1 1 2 1 0 62439 2 1 0 1 0 1 1 3 1 0 62439 2 1 0 1 0 1 1 4 1 0 62439 2 1 0 1 0 1 1 5 1 0 62439 2 1 0 1 0 1 1 6 1 0 62439 2 1 0 1 0 1 1 7 1 0 62439 2 1 0 1 0 1 1 8 1 0 62439 2 1 0 1 0 1 1 9 1 0 62439 2 1 0 1 0 1 1 10 1 0 62439 2 1 0 1 0 1 1 11 1 0 62439 2 1 0 1 0 1 1 12 IreConfiguration IreConfigurationGeneralGroup IreManufacturerName lrelnterfaceCount lreConfigurationInterfaceGroup lreConfigurationInterfaces lrelnterfaceConfigTable lrelnterfaceConfigEntry lrelnterfaceConfigindex lreRowStatus IreNode
17. P Redundancy Control Trailer Only frames that are HSR tagged or do have a PRP RCT are counted Initial value 0 number of frames sent towards the application interface of the DANP or DANH or over the interlink of the RedBox Frames with our without PRP RCT or HSR tag are counted Initial value O number of frames with the wrong LAN identifier received on LRE port A Initial value 0 Only applicable to PRP ports number of frames with the wrong LAN identifier received on LRE port B Initial value 0 Only applicable to PRP ports number of frames with the wrong LAN identifier received on the interlink of a RedBox Only applicable to HSR RedBoxes in HSR PRP configuration hsrredboxprpa and hsrredboxprpb number of frames received on a LRE port A Only frames that are HSR tagged or fitted with aPRP Redundancy Control Trailer are counted Initial value 0 number of frames received on a LRE port B Only frames that are HSR tagged or fitted with aPRP Redundancy Control Trailer are counted Initial value 0 number of frames received from the application interface of a DANP or DANH or the number of number of frames received on the interlink of a RedBox Frames with our without PRP RCT or HSR tag are counted Initial value 0 number of frames with errors received on this LRE port A Initial value O number of frames with errors received on this LRE port B Initial value O number of frames with errors received on t
18. TOR The optical redundant links A and B are monitored If one link comes down the status error is announced by relay contacts The outputs of the two relays are connected to a status connector Two status contacts see K1 K2 on Figure above are used with one common contact Relay Contact K1 Relay Contact K2 OPEN OPEN Operating CLOSED OPEN Disconnection on Redundant Ethernet Link A Loss of light Loss of light B Loss of light or Power OFF Note For Connection refer on section Status Indication Contact Global Documentation H18x EN GL A11 MiCOM H18x Page 29 49 7 INSTALLATION AWARNING EQUIPEMENT DAMMAGE Prior to any handling apply the Electro Static Discharge procedure Failure to follow these instructions can result in death serious injury or equipment damage To Install the MICOM H18x PCI board do following Note All pictures below are examples The target PC could be different following model m HTT gt VNS MALLU TETTIE H18x EN GL A11 Global Documentation Page 30 49 MiCOM H18x 6 Plug2x SFP transceivers SFP connectors 8 Connect Ethernet cable RJ45 connector 9 Connect Status cable Status connector Plug the power supply cable and H18x Power supply on Note1 MiCOM H18x is a Plug and Play board No additional driver software is needed The board s configuration and settings are performed in factory Global Documentation H18x EN GL A11 MiCOM
19. Type IreNodeName IreVersionName IreMacAddress IrePortAdminStateA IrePortAdminStateB IreLinkStatusA IreLinkStatusB IreDuplicateDiscard IreTransparentReception specifies the name of the LRE device manufacturer total number of LREs present in this system list of PRP HSR LREs Each entry corresponds to one PRP HSR Link Redundancy Entity LRE each representing a pair of LAN ports A and B Basic devices supporting PRP HSR may have only one LRE and thus one entry in the table while more complex devices may have several entries for multiple LREs each entry contains management information applicable to a particular LRE A unique value for each LRE indicates the status of the LRE table entry specifies the operation mode of the LRE PRP mode 1 1 HSR mode 2 Note PRP mode 0 is considered deprecated and is not supported by this revision of the MIB specifies this LRE s node name specifies the version of this LRE s software Specifies the MAC address to be used by this LRE MAC addresses are identical for ports of a single LRE Specifies whether the port A shall be active or not Active through administrative action Default active Specifies whether the port B shall be active or not Active through administrative action Default active shows the actual link status of the LRE s port A shows the actual link status of the LRE s port B specifies whether a duplicate discard algorithm is used at reception Default disc
20. ard if removeRCT is configured the RCT is removed when forwarding to the upper layers only applicable for PRP LRE Default removeRCT H18x EN GL A11 Page 46 49 SNMP OID Parameter name 1 0 62439 2 1 0 1 0 1 1 13 lreHsrLREMode 1 0 62439 2 1 0 1 0 1 1 14 IreSwitchingEndNode 1 0 62439 2 1 0 1 0 1 1 15 IreRedBoxldentity 1 0 62439 2 1 0 1 0 1 1 16 lreEvaluateSupervision 1 0 62439 2 1 0 1 0 1 1 17 lreNodesTableClear 1 0 62439 2 1 0 1 0 1 1 18 IreProxyNodeTableClear 1 0 62439 2 1 1 lreStatistics 1 0 62439 2 1 1 1 IreStatisticsInterfaceGroup 1 0 62439 2 1 1 1 0 IreStatisticsInterfaces 1 0 62439 2 1 1 1 0 1 lrelnterfaceStatsTable Global Documentation MiCOM H18x Description This enumeration is only applicable if the LRE is an HSR bridging node or RedBox It shows the mode of the HSR LRE 1 Default mode The HSR LRE is in mode h and bridges tagged HSR traffic 2 Optional mode The HSR LRE is in mode n and bridging between its HSR ports is disabled Traffic is HSR tagged 3 Optional mode The HSR LRE is in mode t and bridges non tagged HSR traffic between its HSR ports 4 Optional mode The HSR LRE is in mode u and behaves like in mode h except it does not remove unicast messages 5 Optional mode The HSR LRE is configured in mixed mode HSR frames are handled according to mode h Non HSR frames are handled according to 802 1D bridging rules This enumeration shows which feature is enabled in this particular LRE
21. ber of entries in the duplicate detection mechanism on port A for which one single duplicate was received Initial value 0 number of entries in the duplicate detection mechanism on port B for which one single duplicate was received Initial value 0 number of entries in the duplicate detection mechanism on the application interface of the DAN or the interlink of the RedBox for which one single duplicate was received Initial value 0 number of entries in the duplicate detection mechanism on port A for which more than one duplicate was received Initial value 0 number of entries in the duplicate detection mechanism on port B for which more than one duplicate was received Initial value O number of entries in the duplicate detection mechanism on the application interface of the DAN or the interlink of the RedBox for which more than one duplicate was received Initial value 0 number of HSR tagged frames received on Port A that originated from this device Frames originate from this device if the source MAC matches the MAC of the LRE or if the source MAC appears in the proxy node table if implemented Applicable only to HSR Initial value 0 number of HSR tagged frames received on Port B that originated from this device Frames originate from this device if the source MAC matches the MAC of the LRE or if the source MAC appears in the proxy node table if implemented Applicable only to HSR Initial value 0 Th
22. d thus one entry in the table while more complex devices may have several entries for multiple LREs Global Documentation MiCOM H18x SNMP OID 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 0 62439 2 1 1 1 0 1 1 1 2 3 4 me 6 T 8 2 10 11 12 13 14 15 16 17 Parameter name IrelnterfaceStatsEntry IrelnterfaceStatsindex IreCntTxA IreCntTxB IreCntTxC lreCntErrWrongLanA lreCntErrWrongLanB lreCntErrWrongLanC IreCntRxA IreCntRxB IreCntRxC IreCntErrorsA IreCntErrorsB IreCntErrorsC IreCntNodes IreCntProxyNodes IreCntUniqueRxA IreCntUniqueRxB H18x EN GL A11 Page 47 49 Description An entry containing management information applicable to a particular LRE A unique value for each LRE number of frames sent over port A that are HSR tagged or fitted with a PRP Redundancy Control Trailer Only frames that are HSR tagged or do have a PRP RCT are counted Initial value 0 number of frames sent over port B that are HSR tagged or fitted with a PR
23. dentifies a variable that can be read or set via SNMP with the appropriate software The information in MIBs is standardized MiCOM H18x supports the standard 62439 3 MIB for detail please refer on ANNEX H18x EN GL A11 Global Documentation Page 22 49 MiCOM H18x 4 5 3 1 SNMP Client Software Various SNMP Client software tools can be used with the MiCOMH18x range Schneider Electric does not provide such tools Any MIB Browser Software performing the basic SNMP operations such as GET GETNEXT GETRESPONSE can work with the MiCOM range Global Documentation H18x EN GL A11 MiCOM H18x Page 23 49 5 TECHNICAL DATA 5 1 MiCOM H18x Range Ports 100BaseTx 100BaseFx 100BaseFx Copper Multi Mode fiber Mode fiber MiCOM H183 1 1 LC 1 T optional 5 2 Ethernet Port Characteristics 5 2 1 100BaseTx Port Connector type Shielded RJ45 jack 5 2 2 100BaseFx Multi Mode Port Fiber port connector LC duplex connector optical Interface Manufacturer Reference AVAGO HFBR 57E5APZ Center wavelength 1308 nm Typ Optimal fiber cable 62 5 125 um 50 125 um Output Optical Power TX 20 0 Min 17 0 Typ dBm 23 5 Min 20 0 dBm Typ Receiver SGMA RX 31 0 Min dBm 31 0 Min dBm See the Fibber optical budget calculation in below section 5 2 3 100BaseFx Single Mode Port Fiber port connector LC duplex fiber connector Manufacturer Reference AVAGO AFCT 5765APTZ Center wavelength 1310 nm Typ
24. e node table if it exists on that node contains information about remote LRE which advertised themselves through supervision frames Each entry in the node table if it exists contains information about a particular remote LRE registered in the node table which advertised itself through supervision frames Unique value for each node in the LRE s node table Each MAC address corresponds to a single Dual Attached Node Time in TimeTicks 1 100s since the last frame from this remote LRE was received over LAN A Initialized with a value of 0 upon node registration in the node table Time in TimeTicks 1 100s since the last frame from this remote LRE was received over LAN B Initialized with a value of 0 upon node registration in the node table Global Documentation MiCOM H18x SNMP OID 1 0 62439 2 1 1 1 0 2 1 5 1 0 62439 2 1 1 1 0 3 1 0 62439 2 1 1 1 0 3 1 1 0 62439 2 1 1 1 0 3 1 1 1 0 62439 2 1 1 1 0 3 1 2 1 0 62439 2 2 Parameter name IreRemNodeType IreProxyNodeTable IreProxyNodeEntry IreProxyNodelndex IreProxyNodeMacAddress linkRedundancyEntityConformance H18x EN GL A11 Page 49 49 Description DAN type as indicated in the received supervision frame The proxy node table if implemented contains information about nodes for which the LRE acts as a connection to the HSR PRP network Each entry in the proxy node table contains information about a particular nodefor which the LRE acts as a co
25. f Schneider Electric will apply regardless of the form of action whether in contract or tort including negligence Any action against Schneider Electric must be brought within one year after the cause of action accrues Schneider Electric shall not be liable for any delay in performance due to causes beyond its reasonable control The warranty provided herein does not cover damages inoperative malfunctions or service detected faults caused by owner s detected fault to follow Schneider Electric installation operation or maintenance instructions owner s modification of the product owner s abuse misuse or negligent acts and power detected faults or surges fire flood accident actions of third parties or other events outside reasonable control Note For the hardware guarantees please refer to Schneider Electric General guarantees conditions Copyrights amp Trademarks Copyrights Under the copyright laws this publication may not be reproduced or transmitted in any form electronic or mechanical including photocopying recording storing in an information retrieval system or translating in whole or in part without the prior written consent of Schneider Electric Trademarks PACIS is a trademark of Schneider Electric Product and company names mentioned herein are trademarks or trade names of their respective companies Attentions regarding use of Schneider Electric products Schneider Electric products are not designed with c
26. form a PACIS system which is a Digital Control System DCS 3 1 MiCOM Ethernet device series and names Driven by calls from over the world for advanced substation applications for Automation control and monitoring Schneider Electric is committed to provide a comprehensive range of Ethernet based products that respond to our customers needs Standard Ethernet products rarely meet the constraints of electrical plants environmental power supply redundancy etc The new MiCOM Hxxx series has been specially tailored to respond to these requirements and is compatible with the PACIS system The MiCOM Hxxx range is designed to address different kinds of architectures and installations The MiCOM H series is split into five major ranges Description Description MICOM Hx4x SWU Ethernet Switches designed for Simple Ethernet Star architecture Ethernet Switches designed for Redundant Optical Ring MiCOM Hx5x SWR architecture with fast Self Healing Protocol SHP Ethernet Switches designed for Dual Ethernet Star architecture with MiCOM Hx6x SWD Dual Homing Protocol DHP Redundant Ethernet Unit designed for Simple Ethernet Star nek REY architecture with Parallel Redundancy Protocol PRP The actual existing devices names are MICOM H1xx PCI Board the power supply from PCI BUS MICOM REU20x PRP Redundant Ethernet Unit Board inside a C264 calculator Global Documentation H18x EN GL A11 MiCOM H18x Page 17 49 3 2 MiCOM Ethernet
27. he application interface of aDANP or DANH or on the interlink of a RedBox Initial value 0 number of nodes in the Nodes Table number of nodes in the Proxy Node Table Only applicable to RedBox Initial value 0 number of entries in the duplicate detection mechanism on port A for which no duplicate was received Initial value 0 number of entries in the duplicate detection mechanism on port B for which no duplicate was received Initial value 0 H18x EN GL A11 Page 48 49 SNMP OID 1 0 62439 2 1 1 1 0 1 1 18 1 0 62439 2 1 1 1 0 1 1 19 1 0 62439 2 1 1 1 0 1 1 20 1 0 62439 2 1 1 1 0 1 1 21 1 0 62439 2 1 1 1 0 1 1 22 1 0 62439 2 1 1 1 0 1 1 23 1 0 62439 2 1 1 1 0 1 1 24 1 0 62439 2 1 1 1 0 1 1 25 1 0 62439 2 1 1 1 0 1 1 26 1 0 62439 2 1 1 1 0 2 1 0 62439 2 1 1 1 0 2 1 1 0 62439 2 1 1 1 0 2 1 1 1 0 62439 2 1 1 1 0 2 1 2 1 0 62439 2 1 1 1 0 2 1 3 1 0 62439 2 1 1 1 0 2 1 4 Parameter name IreCntUniqueRxC lreCntDuplicateRxA IreCntDuplicateRxB IreCntDuplicateRxC IreCntMultiRxA IreCntMultiRxB IreCntMultiRxC IreCntOwnRxA IreCntOwnRxB lreNodes Table lreNodesEntry IreNodesIndex IreNodesMacAddress lreTimeLastSeenA lreTimeLastSeenB Global Documentation MiCOM H18x Description number of entries in the duplicate detection mechanism on the application interface of the DAN or the interlink of the RedBox for which no duplicate was received Initial value 0 num
28. isassembly of the equipment may expose parts at hazardous voltage also electronic parts may be damaged if suitable electrostatic voltage discharge ESD precautions are not taken If there is unlocked access to the rear of the equipment care should be taken by personnel to avoid electric shock or energy hazards Voltage and current connections shall be made using insulated crimp terminations to help ensure that terminal block insulation requirements are maintained for user protection To help ensure that wires are correctly terminated the correct crimp terminal and tool for the wire size should be used The equipment has to be connected in accordance with the appropriate connection diagram Protection Class Equipment Before energizing the equipment it must be earthed using the protective conductor terminal if provided or the appropriate termination of the supply plug in the case of plug connected equipment The protective conductor earth connection must not be removed since the protection against electric shock provided by the equipment would be lost When the protective earth conductor terminal PCT is also used to terminate cable screens etc it is essential that the integrity of the protective earth conductor is checked after the addition or removal of such functional earth connections For M4 stud PCTs the integrity of the protective earth connections should be ensured by use of a locknut or similar Global
29. ising and therefore requires less maintenance than previous products Most problems will lead to an alarm detected so that fast and appropriate action can be taken However some periodic checks should be done to allow the MiICOM H18x is operating correctly and that the external wiring is in proper condition If the customer s organization has a Preventive Maintenance Policy then the recommended product checks should be included in the regular program Diagnosis facilities When maintenance action is planned the operator should prepare act and report The minimum preparation is to obtain the commissioning Record Sheet of installed device in order to check the product configuration and its history The user should also apply personal experience in addition to this manual On a first level the product provides several methods to identify the context of the detected error The main ones are provided by LEDs indication Status Output indication The LEDs and Status Output indication are described in the above section Human Machine Interface H18x EN GL A11 Global Documentation Page 36 49 MiCOM H18x 10 5 10 5 1 10 5 1 1 10 5 1 2 Method of repair AWARNING EQUIPEMENT DAMMAGE IN CASE OF DEVICE BECOMES INOPERATIVE THE PREFERRED METHOD IS TO REPLACE THE COMPLETE MiCOM H18X IN ORDER TO PREVENT INTERNAL CIRCUITRY IS PROTECTED AGAINST ELECTROSTATIC DISCHARGE AND PHYSICAL DAMAGE AT TIME Failure to follow these
30. kaged separately in their own cartons and shipped inside outer packaging Use special care when opening the cartons and unpacking the device and do not use force In addition make sure to remove from the inside carton the supporting documents supplied with each individual device and the type identification label The design revision level of each module included with the device in its as delivered condition can be determined from the list of components This list should be carefully saved After unpacking the device inspect it visually to make sure it is in proper mechanical condition If MICOM H1xx device needs to be shipped both inner and outer packaging has to be used If the original packaging is no longer available make sure that packaging conforms to ISO 2248 specifications for a drop height lt 0 8m Guarantees The media on which you received Schneider Electric software is guaranteed not to be inoperative executing programming instructions due to be inoperative in materials and workmanship for a period of 90 days from date of shipment as evidenced by receipts or other documentation Schneider Electric will at its option repair or replace software media that do not execute programming instructions if Schneider Electric receives notice of such detected error during the warranty period Schneider Electric does not guarantee that the operation of the software shall be uninterrupted or error free A Return Material Authorization RMA
31. lters masks for the port Interlink CPU flow 6 filters masks for the embedded microcontroller refer section MAC Address Filtering 5 3 4 Performances Maximum frame length allowed 1522 Bytes IEEE 802 3 frame Supported IEC 61850 8 3 frame Supported 5 3 9 Interoperability The board is compliant with any standardized PRP equipment H18x EN GL A11 Global Documentation Page 26 49 MiCOM H18x 5 4 Environmental Characteristics The MiCOM H18x board supports climatic mechanical and insulation tests complaint with standard IEC61850 3 For tests detail please refer on ANNEX section Environmental Characteristics Global Documentation H18x EN GL A11 MiCOM H18x Page 27 49 6 HUMAN MACHINE INTERFACE FIGURE 4 MICOM H18x PCI board IP address Board settings Status Connector connector connector L7 L6 L5 L4 08 Optical links PCI Bus Connector FIGURE 5 LEDs and CONNECTORS H18x EN GL A11 Global Documentation Page 28 49 MiCOM H18x 6 1 LEDs Two LEDs categories indicate board and communication link status e The PHY driven LEDs show the status and activity for Ethernet Links L1 L2 L3 e The FPGA driven LEDS show the status and activity for board and protocol L4 L5 L6 L7 At power up board goes through a series of self tests LEDs will flash for a few seconds Note Please refer on ANNEX Maintenance section for LEDs L1 L7 description and behavior 6 2 Status Output FIGURE 6 STATUS CONNEC
32. ltitude Operation up to 2000m standards IEC 60255 27 2005 EN 60255 27 2005 Humidity during storage Sustained exposure to high humidity during storage may cause damage to electronics and reduce the lifetime of the equipment Therefore once the products have been unpacked we recommend that they are energized within the three following months Where electrical equipment is being installed sufficient time should be allowed for acclimation to the ambient temperature of the environment before energization Handling of Electronic Equipment A person s normal movements can easily generate electrostatic potentials of several thousand volts Discharge of these voltages into semiconductor devices when handling circuits can cause serious damage which often may not be immediately apparent but the reliability of the circuit will have been reduced The electronic circuits of Schneider Electric products are immune to the relevant levels of electrostatic discharge when housed in their cases Do not expose them to the risk of damage by withdrawing modules unnecessarily Each module incorporates the highest practical protection for its semiconductor devices However if it becomes necessary to withdraw a module the following precautions should be taken in order to preserve the high reliability and long life for which the equipment has been designed and manufactured 1 Before removing a module help ensure that you are at the same electros
33. nnection to the HSR PRP network A unique value for each node in the LRE s proxy node table Each entry contains information about a particular node for which the LRE acts as a proxy for the HSR PRP network Note As the last international standard of IEC 62439 3 is in draft version implementation of the IEC 62439 3 MIB may be changed Customer Care Centre http www schneider electric com CCC Schneider Electric 35 rue Joseph Monier 92506 Rueil Malmaison FRANCE Phone 33 0 1 41 29 70 00 Fax 33 0 14129 71 00 www schneider electric com Publication H18x EN GL A11 Publishing Schneider Electric 09 2014 2014 Schneider Electric All rights reserved
34. omponents and testing for a level of reliability suitable for use in connection with surgical implants or as critical components in any life support systems whose detected fault to perform can reasonably be expected to cause significant injuries to a human In any application including the above reliability of operation of the software products can be impaired by adverse factors including but not limited to fluctuations in electrical power supply computer hardware malfunctions computer operating system malfunctions software suitability suitability of compilers and development software used to develop an application installation errors software and hardware compatibility problems malfunctions or detected faults of electronic monitoring or control devices transient detected faults of electronic systems hardware and or software unanticipated uses or misuses or errors by the user or application designer adverse factors such as these are collectively termed System detected fault Any application where a system detected fault would create a risk of harm to property or persons including the risk of bodily injuries and death should not be reliant solely upon one form of electronic system due to the risk of system detected fault To avoid damage injury or death the user or application designer must take reasonable steps to protect against system detected fault including but not limited to back up or shut down mechanisms not beca
35. onnecting Global Documentation H18x EN GL A11 MiCOM H18x Page 13 49 2 8 2 8 1 2 8 2 2 8 3 2 8 4 2 9 2 10 Technical specifications Unless otherwise stated in the equipment technical manual the following data is applicable Protective fuse rating The recommended maximum rating of the external protective fuse for equipment is 16 A high rupture capacity HRC Red Spot type NIT or TIA or equivalent The protective fuse should be located as close to the unit as possible Protective class IEC 60255 27 2005 Class unless otherwise specified in the EN 60255 27 2005 equipment documentation This equipment requires a protective conductor earth connection to help ensure user protection Installation category IEC 60255 27 2005 Installation category III Overvoltage Category III EN 60255 27 2005 Distribution level fixed installation Equipment in this category is qualification tested at 5 kV peak 1 2 50 us 500 0 5 J between supply circuits and earth and also between independent circuits Environment The equipment is intended for indoor installation and use only If it is required for use in an outdoor environment then it must be mounted in a specific cabinet or housing allowing it to meet the requirements of IEC 60529 with the classification of degree of protection IP54 dust and splashing water protected Pollution Degree Pollution Degree 2_ Compliance is demonstrated by reference to safety A
36. ort is a RJ45 connector and dedicated to PC RJ45 link 100BaseTX The copper port RJ45 is full duplex at 100 Mbps only 100BaseFX The fiber optic ports are full duplex at 100 Mbps only Ethernet Management MAC Address Filtering The microcontroller filters frames according to their Mac destination address Destination Mac address is mask filtered if no filter is configured frames are forwarded duplicates excluded but if one filter is set only frames with masked destination Mac addresses are forwarded 14 filters are available e 8 filters masks for the port Interlink e 6 filters masks for the embedded microcontroller 0 00 20 7A OF Deshratan MAC Address Et hornet Type a Fi fame FIGURE 3 FRAME MAC ADDRESS This example of setting MAC Address filtering Filter mask bin 11 11 11 11 10 00 Filter MAC hex 00 15 12 15 77 83 Accepted MAC hex 00 15 12 15 7X XX Note The two filter mask and filter MAC are configured in factory SNMP Simple Network Management Protocol SNMP is an Internet standard protocol to manage devices on IP networks Devices that typically support SNMP include routers switches servers workstations printers modem racks and more SNMP relies on a Management Information Base MIB that contains information about parameters to supervise IEC 62439 3 MIB Structure A MIB s format is a tree structure with each node identified by a numerical Object IDentifier OID Each OID i
37. p C N A H18x EN GL A11 Global Documentation Page 42 49 MiCOM H18x 13 2 3 Electromagnetic Compatibility E Sem Electrostatic discharge IEC 61000 4 2 Case amp Front Panel Test according IEC61850 3Ed1 15KV air 4KV contact Electrical Fast Transient IEC 60255 22 4 Group B Burst B group only IEC 61000 4 4 4 kV CM Coupling clamp 2 5KHz 100KHz Surge Immunity B group IEC 61000 4 5 Group B only IEC 60255 5 D CM 40 ohm 1KV High frequency conducted IEC 61000 4 6 Group B immunity B group only 10 Vrms 0 15 80 MHz 80 AM 1kHz Power Frequency Magnetic IEC 61000 4 8 Group Housing Field Immunity 100 A m 60s 1000 A m 10s 50 Hz Pulse Magnetic Field IEC 61000 4 9 Class 5 Group Housing Immunity 1000 A m 1 2 50us 3 pulses each 10s Damped Oscillatory Magnetic IEC 61000 4 10 Class 5 Field Immunity 100KHz 50pps 1MHz 400pps 100 A m for Imn Oscillatory waves immunity IEC 61000 4 12 Group B B group only IEC 61000 4 18 2 5 kV CM 1 kV RM 100kHz 1Mhz Limits of Conducted EN 55022 Group POWER SUPPLY Emission ATI 0 15 to 30 MHz Limit class A Limits of Radiated Emission EN 55022 Case Limit class A 30Mhz 1Ghz Peak detection 10 meters measurement Radiated Electromagnetic IEC 61000 4 3 Test according IEC61850 Field Immunity 3Ed1 80MHZ 2 7GHz 10V m 80 AM 1KHz DWELL time 10s On 4 sides Global Documentation MiCOM H18x 13 4 1 Climatic H18x EN GL
38. ps networks Fast Ethernet HSR High availability Seamless Redundancy HSR is a redundancy protocol for Ethernet networks IEC 61850 3 Industrial communication networks for electrical substation automation Part 3 General requirements Industrial communication networks High availability automation networks Part 3 Parallel Redundancy Protocol PRP and High availability Seamless Redundancy HSR An Internet Protocol address IP address is a numerical label assigned to each device computer network that uses the Internet Protocol for communication An IP address serves two principal functions host or network interface identification and location addressing IEC 62439 3 IP address O Q ET O1 MAC address The Media Access Control MAC address is a unique 48 bit hardware address assigned to every network interface card Usually written in the form 01 23 45 67 89 ab MIB Management Information Base MIB refer in section EC 62439 3 MIB MII The Media Independent Interface MII was originally defined as a standard interface used to connect a Fast Ethernet i e 100 Mbps MAC block to a PHY chip Being media independent means that different types of PHY devices for connecting to different media i e Twisted pair copper fiber optic etc can be used without redesigning or replacing the MAC hardware The MII bus standardized by IEEE 802 3u connects different types of PHYs Physical Transceivers to Media Acces
39. rt 5 3 General Characteristics 5 31 Protocols 5 3 2 Auxiliary Status Indication Relay 5 3 3 Ethernet Management 5 3 4 Performances 5 3 9 Interoperability 5 4 Environmental Characteristics 6 HUMAN MACHINE INTERFACE 6 1 LEDs 6 2 Status Output T INSTALLATION 8 CONNECTION 8 1 Status output 8 2 Ethernet Connection 8 2 1 RJ45 connector 8 2 2 Ethernet optical fiber 9 SETTINGS 10 MAINTENANCE 10 1 Scope 10 2 Recommendation before maintenance operations 10 3 Maintenance period 10 4 Diagnosis facilities 10 5 Method of repair 10 5 1 Replacing MiCOM H18x 11 LIMITATIONS 11 1 Fiber Optic budget calculations 11 1 1 Example 1 between devices 11 1 2 Example 2 between devices with patch panel 11 2 Use constraints 12 GLOSSARY AND DEFINITIONS 13 ANNEX 13 1 Maintenance 13 1 1 13 2 LEDs Environmental Characteristics Global Documentation MiCOM H18x 23 23 23 23 24 24 24 24 25 25 26 27 28 28 29 31 31 32 32 33 34 35 35 35 35 35 36 36 37 37 38 38 38 39 41 41 41 41 Global Documentation MiCOM H18x 13 2 1 Definitions 13 2 2 Insulation 13 2 3 Electromagnetic Compatibility 13 4 1 Climatic 13 4 2 Mechanical 13 5 IEC 62439 3 MIB Structure H18x EN GL A11 Page 3 49 41 41 42 43 43 45 H18x EN GL A11 Global Documentation Page 4 49 FIGURES FIGURE 1 PRP NETWORK ARCHITECTURE FIGURE 2 MICOM H18X BOARD ARCHITECTURE FIGURE 3
40. s Controllers MAC transmission of cells over a physical medium PCI Peripheral Component Interconnect PCI is a local computer bus for attaching hardware devices in a computer H18x Power management If there is no cable on a port most of the circuitry for that port is disabled to save power Parallel Redundancy Protocol PRP is a data communication network standardized by the International Electro technical Commission as IEC 62439 3 Clause 4 It allows systems to overcome any single network detected error without affecting the data transmission REU RMON Short for remote monitoring a network management protocol that allows network information to be gathered at a single workstation Whereas SNMP gathers network data from a single type of Management Information Base MIB RMON 1 defines nine Z Cc additional MIBs that provide a much richer set of data about network usage For RMON to work network devices such as hubs and switches must be designed to support it The newest version of RMON RMON 2 provides data about traffic at the network layer in En H18x EN GL A11 Global Documentation Page 40 49 MiCOM H18x addition to the physical layer This allows administrators to analyze traffic by protocol SNMP Simple Network Management Protocol SNMP is the protocol governing network management and the monitoring of network devices and their functions VLAN Level 1 VLAN also called a Port Based VLAN define
41. s a virtual network according to the connection ports on the switch Level 2 VLAN also called a MAC Address Based VLAN comprises of defining a virtual network according to the MAC addresses of the stations Global Documentation H18x EN GL A11 MiCOM H18x Page 41 49 13 ANNEX 13 1 Maintenance 13 1 1 LEDs N LED DISPLAY DESCRIPTION L1 Optical port A GREEN OFF Redundant Ethernet Link A OFF GREEN ON Redundant Ethernet Link A ON YELLOW OFF No Traffic YELLOW Blinking Traffic L2 Optical port B GREEN OFF Redundant Ethernet Link B OFF GREEN ON Redundant Ethernet Link B ON YELLOW OFF No Traffic YELLOW Blinking Traffic L3 RJ45 port GREEN OFF RJ45 Ethernet Interlink OFF GREEN ON RJ45 Ethernet Interlink ON YELLOW OFF No Traffic YELLOW Blinking Traffic GREEN Protocol ACTIVATED L5 Protocol HSR Protocol NOT ACTIVATED Protocol ACTIVATED OFF Board NOT STARTED GREEN Board STARTING GREEN Blinking Board STARTED GREEN Power ON 13 2 Environmental Characteristics 13 2 1 Definitions GROUP DEFINITION Relays Outputs Copper link inter equipment link Optical links to distant connections 13 2 2 Insulation Type Test Name Standard honey Resistance B and C IEC 60255 5 100 MOhm at 500 V CM Group B 2kVAC 50 Hz duration 1 min CM Dielectric Withstand B and C IEC 60255 5 groups Group C 1 5KVAC 50 Hz duration 1 min CM Group B High Voltage Impulse only B IEC 60255 5 gt kV CM group Grou
42. sent on the equipment is understood by the recipient The technical data in this Safety Section is typical only see the technical data section of the relevant equipment documentation for data specific to a particular piece of equipment the contents of this Safety Section and the ratings on the equipment s rating Before carrying out any work on the equipment the user should be familiar with label Reference should be made to the external connection diagram before the equipment is installed commissioned or serviced Language specific self adhesive User Interface labels are provided in a bag for some equipment Health and User Protection The information in the Safety Section of the equipment documentation is intended to help ensure that equipment is properly installed and handled in order to maintain it in a nominal condition It is assumed that everyone who will be associated with the equipment will be familiar with the contents of this Safety Section When electrical equipment is in operation dangerous voltages will be present in certain parts of the equipment Bypassing safety messages may lead to improper use and may endanger personnel and equipment and also cause personal injury or physical damage AWARNING EQUIPEMENT DAMMAGE Before working in the terminal strip area the equipment must be isolated Failure to follow these instructions can result in death serious injury or equipment damage Proper operation of
43. talled or commissioned IN PN Caution refer to equipment documentation Caution risk of electric shock S Protective Conductor Terminal Note 2 Functional Protective Conductor Terminal Note 3 Caution risk of injury Note 1 THE TERM EARTH USED THROUGHOUT THIS TECHNICAL MANUAL IS THE DIRECT EQUIVALENT OF THE NORTH AMERICAN TERM GROUND Note 2 This symbol indicates a Protective Conductor Terminal that must be connected to earth ground before operating the equipment protects against electrical shock in case of a fault Note 3 This symbol may also be used for a Protective Conductor Terminal if that terminal is part of a terminal block or sub assembly e g power supply H18x EN GL A11 Global Documentation Page 10 49 MiCOM H18x 2 5 Installing commissioning and servicing AWARNING EQUIPEMENT DAMMAGE Follow section Equipment connections recommendations Failure to follow these instructions can result in death serious injury or equipment damage Equipment connections Personnel undertaking installation commissioning or servicing work for this equipment should be aware of the correct working procedures to help ensure user protection The equipment documentation should be consulted before installing commissioning or servicing the equipment Terminals exposed during installation commissioning and maintenance may present a hazardous voltage unless the equipment is electrically isolated Any d
44. tatic potential as the equipment by touching the case H18x EN GL A11 Global Documentation Page 14 49 MiCOM H18x 2 11 2 12 2 Handle the module by its front plate frame or edges of the printed circuit board Avoid touching the electronic components printed circuit track or connectors 3 Do not pass the module to any person without first ensuring that you are both at the same electrostatic potential Shaking hands achieves equipotential A Place the module on an antistatic surface or on a conducting surface that is at the same potential as you of Store or transport the module in a conductive bag More information on protective working procedures for electronic equipment can be found in IEC 60147 OF and BS5783 If you are making measurements on the internal electronic circuitry of any equipment in service it is preferable that you are earthed to the case with a conductive wrist strap Wrist straps should have a resistance to ground between 500k 10M Ohms If a wrist strap is not available you should maintain regular contact with the case to prevent the buildup of static Instruments used for making measurements should be earthed to the case whenever possible Schneider Electric strongly recommends that detailed investigations on the electronic circuitry or modification work should be carried out in a Special Handling Area such as described in IEC 60147 OF or BS5783 Packing and Unpacking MiCOM Hxxx devices are pac
45. the equipment depends on appropriate shipping and handling storage installation and commissioning and on careful operation maintenance and servicing For this reason only qualified personnel may work on or operate the equipment Qualified personnel are individuals who Are familiar with the installation commissioning and operation of the equipment and of the system to which it is being connected Are able to perform switching operations in accordance with accepted engineering practices and are authorised to energize and de energize equipment and to isolate ground and label it Are trained in the care and use of apparatus in accordance with engineering practices Are trained in emergency procedures first aid The equipment documentation gives instructions for its installation commissioning and operation However the manuals cannot cover conceivable circumstances or include detailed information on topics In the event of questions or specific problems it H18x EN GL A11 Global Documentation Page 8 49 MiCOM H18x recommended to not taking any action without proper authorization Contact the appropriate Schneider Electric Technical sales office and request the necessary information Global Documentation H18x EN GL A11 MiCOM H18x Page 9 49 2 4 Symbols For protective reasons the following symbols which may be used on the equipment or referred to in the equipment documentation should be understood before it is ins
46. to avoid possible injury or death A DANGER DANGER indicates a hazardous situation which if not avoided will result in death or serious injury AWARNING WARNING indicates a hazardous situation which if not avoided could result in death or serious injury ACAUTION CAUTION indicates a hazardous situation which if not avoided could result in minor or moderate injury NOTICE NOTICE is used to address practices not related to physical injury The safety alert symbol shall not be used with this signal word Please note Electrical equipment should be installed operated serviced and maintained only by qualified personnel No responsibility is assumed by Schneider Electric for any consequences arising out of the use of this material A qualified person is one who has skills and knowledge related to the construction installation and operation of electrical equipment and has received safety training to recognize and avoid the hazards involved Global Documentation H18x EN GL A11 MiCOM H18x Page 7 49 2 2 2 3 Introduction This Safety Section and the relevant equipment documentation provide information on protective handling commissioning and testing of this equipment Documentation for equipment ordered from Schneider Electric is des patched separately from manufactured goods and may not be received at the same time Therefore this section is provided to help ensure that printed information which may be pre
47. urer the protection provided by the equipment may be impaired Removal of the equipment front panel cover Removal of the equipment front panel cover may expose hazardous live parts which must not be touched until the electrical equipment is de energized Equipment operating conditions The equipment should be operated within the specified electrical and environmental limits H18x EN GL A11 Global Documentation Page 12 49 MiCOM H18x N Insulation and dielectric strength testing Insulation testing may leave capacitors charged up to a hazardous voltage At the end of each part of the test the voltage should be gradually reduced to zero to discharge capacitors before the test leads are disconnected Fiber optic communication A Optical power meters should be used to determine the operation or signal level of the device Signal presence shall not be viewed directly N Cleaning The equipment shall be de energized prior to proceed to cleaning The equipment may be cleaned using a lint free cloth dampened with clean water when no connections are energized Contact fingers of test plugs are normally protected by petroleum jelly which should not be removed 2 7 De commissioning and disposal N De commissioning The equipment shall be de energized prior to proceed to de commissioning Internal capacitors may be charged up to a hazardous voltage the voltage should be gradually reduced to zero to discharge capacitors before disc
48. use the end user system is customized and differs from Schneider Electric testing platforms but also because a user or application designer may use Schneider Electric products in combination with other products These actions cannot be evaluated or contemplated by Schneider Electric Thus the user or application designer is ultimately responsible for verifying and validating the suitability of Schneider Electric products whenever they are incorporated in a system or application even without limitation of the appropriate design process and protective levels of such system or application H18x EN GL A11 Global Documentation Page 16 49 MiCOM H18x 3 INTRODUCTION The MiCOM Ethernet range is designed to deal with the needs of a wide range of electric plants Emphasis has been placed on strong compliance with standards scalability modularity and open architecture These features facilitate the use of MiCOM products in several applications from the most basic to the most demanding They also help ensure interoperability with existing components The Schneider Electric philosophy is to provide a range of Ethernet products such as device taking into account the compulsory requirements of electrical substations including power supply and immunity to environmental constraints It provides also solutions to specific requirements such as network redundancy management Each of these products can be used independently or can be integrated to
49. x BOARD ARCHITECTURE MiCOM H18x board offers 3 x MII 100Mbps Full Duplex Ethernet connections e 1 internal port used by the Host network Interlink e 2 external ports connected to the Redundant network optical H18x board implements redundant protocols defined by the IEC 62439 3 PRP e PRP for independent LAN attachment like dual star network topology H18x board has 1 x copper RJ45 and 2 x optical connections Multi Mode or Single Mode Internal LEDs and Status contact are defined in standard to check that product operates correctly Component NIOS II 32 bit embedded RISC processor RJ45 Connector Ethernet non redounded network 1 x MII port for connexion to the HOST Optical Port Aand B Ethernet redounded network 2 x MII ports for connexion to the external redounded network LEDs Board and communication link status Status Indication 4 3 Power management If Ethernet cable is not connected on port most of the circuitry for that port is disabled in order to save power Global Documentation H18x EN GL A11 MiCOM H18x Page 21 49 4 4 4 5 4 5 1 4 5 2 4 5 3 On the contrary the power consumption is 3W when the board is transferring data Ethernet Ports The MiCOM H18x has a 100 Mbps speed transmission and full duplex only The board has 2 Ethernet SFP FX ports Fibber connector is a SFP slot and SFP modules for LC 1310 nm Board has one FX port in Single Mode and one FX port in Multi Mode The Host p

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