BMX NRP 0200/0201 - M340 Fiber Converter - Schneider
Contents
1. The BMX NRP 020e fiber converters are equipped with ground connection contacts at the rear for grounding purposes ground connection contact by screw tightening ground connection contact by CEM clip 1 ground connection contact by CEM clip 2 These contacts connect the grounding bus of the fiber converter to the grounding bus of the rack E100000001 108 07 2012 33 BMX NRP 0200 0201 Module Installation Fitting of the Fiber Converter At a Glance The BMX NRP 020 fiber converters are powered by the bus of the rack Fitting operations installation assembly and disassembly are described below Installation Precautions The BMX NRP 020 fiber converters may be installed in any slot in the rack except e on EIO drop BMX NRP module can be mounted starting from the fourth slot The first 3 slots in the M340 drop are reserved for the rack s power supply module BMX CPS eee and the M340 CRA adapter module BMX CRA 312 0s e on local extended rack BMX NRP module can be mounted starting from third slot The first 2 slots in the subsequent M340 drop are reserved for the rack s power supply module BMX CPS ee Power is supplied by the rack No additional power is needed Before installing a fiber converter you must take off the protective cap from the module connector located on the rack 4 DANGER SEVERE EYE DAMAGE Do not view the ends of fiber optic cable under magnification while a transmit s2. 58 EIO0000001 108 07 2012 Index A H Architectures hot swapping 48 introduction 10 Quantum Ethernet I O network topolo gies 13 attenuation installation 37 bandwidth 32 parameters 32 T B terminal blocks installing 34 BMX NRP 0200 0201 troubleshooting 49 general specifications 25 mechanical and electrical specifications 27 BMXNRP0200 0201 configuration 46 installation 37 LED indicators 23 operating and storage conditions 29 Presentation 20 C configuration 46 G grounding 33 EIO0000001 108 07 2012 59 Index 60 EIO0000001 108 07 2012
3. DDI 0200 1602 CRA NEP DDI 312 02007 1602 fiber cable copper cable 1 140 CRP 312 00 remote I O head module on the local rack connected via copper cable to a transceiver port of a BMX NRP 020 fiber converter 2 BMX NRP 020 fiber converter connected via copper cable to the 140 CRP 312 00 head module and connected via fiber cable to the BMX NRP 020 fiber converter on a subsequent M340 drop 3 fiber portion of the main ring 14 EIO0000001 108 07 2012 Architectures M340 drops connected to the main ring via fiber cable M340 drop connected to the main ring via fiber and copper cable the BMX NRP 020 fiber converter connects the drop to the main ring via fiber and the BMX CRA 312 00 adapter module connects the Quantum EIO drop to the main ring via copper cable copper portion of the main ring Quantum EIO drop connected to the main ring via copper cable No BMX NRP 020 fiber converter is required Local area with local main rack and local extended rack Fiber Connection Between a Quantum Main Rack and Quantum EIO Drops Use BMX NRP 020 fiber converters to connect one or more Quantum EIO drops with daisy chain loop management CPS 2000 fiber cable copper cable 1 2 140 CRP 312 00 remote I O head module on the local rack connected via copper cable to a transceiver port of a BMX NRP 020 fiber converter BMX NRP 020 fiber co
4. SFP transceiver or insert third party SFP transceivers in the BMX NRP 020 fiber converters Failure to follow these instructions can result in equipment damage E100000001 108 07 2012 35 BMX NRP 0200 0201 Module Installation Installing the Fiber Converter on the Rack The following table shows the procedure for mounting the fiber converter module in the rack Step Action Illustration Position the locating pins situated at the rear of the module on the bottom part in the corresponding slots in the rack Before positioning the pins make sure you have removed the protective cover see Modicon M340 Using Unity Pro Processors Racks and Power Supply Modules Setup Manual Swivel the module towards the top of the rack so that the module sits flush with the back of the rack It is now set in position Steps 1 and 2 Tighten the retaining screw to ensure that the module is held in place on the rack Tightening torque Max 1 5 Nem 1 11 Ib ft Step 3 36 EIO0000001 108 07 2012 BMX NRP 0200 0201 Module Installation Installing Fiber Optic Cables Observing Safety Precautions Before connecting the fiber optic cables to the BMX NRP 020 fiber converter read the following messages Follow them at all times during the installation of the fiber optic cables 4 DANGER SEVERE EYE DAMAGE Do not view the ends of fiber optic cable under magnificatio
5. the BMX NRP 020 fiber converters OK ERR STS1 STS2 FX1 ACT FX2 ACT The following table describes the LED indicators on the LED display panel LED Label Color Description OK Green Status of the power supply ERR Red A detected error on a module or channel STS1 STS2 Green The link status of the respective fiber connection FX1 ACT FX2 ACT Green The communication status of the respective fiber connection LED Display Panel and RJ45 LED Indicators The following table describes the behavior of LED indicators OK ERR STS1 STS2 FX1 ETH1 ETH2 ETH1 ETH2 Description ACT FX2 LNK ACT ACT OFF OFF OFF OFF OFF OFF Power off ON ON ON ON ON ON Self testing ON OFF OFF OFF OFF OFF Initial power on without link ON OFF FLK OFF OFF OFF Fiber cable break ON OFF ON OFF OFF OFF Copper cable break ON OFF ON ON ON ON Copper and fiber cables connected without data when the fiber optic cable breaks LED of STS is flickering If the copper cable is plugged off LED display keeps the same and does not indicate the copper cable is unplugged when the copper cable breaks LED of STS is on If the fiber optic cable is plugged off LED display keeps the same and fiber converter cannot sense the fiber optic cable plug off E100000001 108 07 2012 23 BMX NRP 0200 0201 Module Description OK ERR STS1 STS2 FX1 ETH1
6. 1 LED OFF STS1 LED ON Copper of channel 1 link down Check whether the copper cable of channel 1 while ERR LED is OFF is connected to the partner correctly and the partner works well ETH2 LED OFF STS2 LED ON Copper of channel 2 link down Check whether the copper cable of channel 2 while ERR LED is OFF is connected to the partner correctly and the partner works well NRP module connects to other Ethernet modules which has a fiber optic interface For example the DRS E100000001 108 07 2012 51 Maintenance LED Status Diagnostic Action ERR LED is ON STS1 or STS2 LED flickers SFP alarm or fiber PHY broken Plug out the transceiver first If ERR LED turned OFF that is there is an alarm reported by the SFP the possible errors are as follows e lfitis temperature alarm try again by plugging in SFP after it cools down e Check if a third party SFP is used Check for transceiver mismatch with NRP use multimode SFP with BMXNRP0201 or use single mode SFP with BMXNRP0200 e f transceiver is broken correct information cannot be read from its memory If ERR LED turned ON the possible errors are as follows e The internal communication MII of NRP is wrong e The PHY connected to fiber is destroyed Power down and power up the NRP to have a try ERR LED is ON STS1 or STS2 ON Copper PHY broken The possible errors are as follows e The internal c
7. EIO0000001 108 00 BMX NRP 0200 0201 M340 Fiber Converter Module User Guide 07 2012 Schneider Electric www schneider electric com The information provided in this documentation contains general descriptions and or technical characteristics of the performance of the products contained herein This documentation is not intended as a substitute for and is not to be used for determining suitability or reliability of these products for specific user applications It is the duty of any such user or integrator to perform the appropriate and complete risk analysis evaluation and testing of the products with respect to the relevant specific application or use thereof Neither Schneider Electric nor any of its affiliates or subsidiaries shall be responsible or liable for misuse of the information that is contained herein If you have any suggestions for improvements or amendments or have found errors in this publication please notify us No part of this document may be reproduced in any form or by any means electronic or mechanical including photocopying without express written permission of Schneider Electric All pertinent state regional and local safety regulations must be observed when installing and using this product For reasons of safety and to help ensure compliance with documented system data only the manufacturer should perform repairs to components When devices are used for applications with technical safety requiremen
8. ETH2 ETH1 ETH2 Description ACT FX2 LNK ACT ACT ON OFF ON FLK ON FLK Copper and fiber cables connected with data ON ON FLK OFF OFF OFF SFP Fiber PHY breakdown ON ON ON OFF OFF OFF Copper PHY breakdown when the fiber optic cable breaks LED of STS is flickering If the copper cable is plugged off LED display keeps the same and does not indicate the copper cable is unplugged when the copper cable breaks LED of STS is on If the fiber optic cable is plugged off LED display keeps the same and fiber converter cannot sense the fiber optic cable plug off 24 EIO0000001 108 07 2012 BMX NRP 0200 0201 Module Description General Specifications Introduction This section gives the BMX NRP 020 fiber converter specifications A WARNING UNINTENDED EQUIPMENT OPERATION Do not exceed any of the rated values specified in the following tables Failure to follow these instructions can result in death serious injury or equipment damage General Specifications Characteristics BMX NRP 0200 BMX NRP 0201 Power Consumption in 140 mA 200 mA maximum BKP 24 Vdc Hot Swapping Supported RJ45 Ethernet Ports 2 ports compliant with IEEE802 3u 100BaseT X Optical Ports 2 ports compliant with IEEE802 3u 100Base FX Wavelength 1310 nm Fiber Size 50 125 um 9 125 um 62 5 125 um Maximum Distance 0 6 562 ft 0 2 km up to 49 213
9. Tro bleshootirig annin area Bie oid ie Hr Er 49 Glossary sacks Geiss anm a C4 UR Celi aie wa ele RD 53 Index i eo e RR rhy mum x Eee ne eas 59 EIO0000001 108 07 2012 3 EIO0000001 108 07 2012 Safety Information A Important Information NOTICE Read these instructions carefully and look at the equipment to become familiar with the device before trying to install operate or maintain it The following special messages may appear throughout this documentation or on the equipment to warn of potential hazards or to call attention to information that clarifies or simplifies a procedure The addition of this symbol to a Danger safety label indicates that an electrical hazard exists which will result in personal injury if the instructions are not followed personal injury hazards Obey all safety messages that follow this symbol to avoid possible injury or death A DANGER DANGER indicates an imminently hazardous situation which if not avoided will result in death or serious injury A WARNING WARNING indicates a potentially hazardous situation which if not avoided can result in death or serious injury This is the safety alert symbol It is used to alert you to potential EIO0000001 108 07 2012 5 PLEASE NOTE A CAUTION CAUTION indicates a potentially hazardous situation which if not avoided can result in minor or moderate injury NOTICE NOTICE is used to addr
10. are 3 types of remote I O devices a local rack a remote I O drop and a ConneXium extended dual ring switch DRS Distributed I O devices may also participate in a remote I O network via connection to DRSs rapid spanning tree protocol A protocol that allows a network design to include spare redundant links to provide automatic backup paths if an active link stops working without the need for loops or manual enabling disabling of backup links 56 EIO0000001 108 07 2012 Glossary SFP small form factor pluggable The SFP is a transceiver that acts as an interface between module and fiber optic cables signal loss The amount of signal lost through media devices See also attenuation simple daisy chain loop A simple daisy chain loop contains remote I O devices only no switches or distributed I O devices This topology consists of a local rack containing a remote I O head module and 1 or more remote I O drops each drop containing a remote I O adapter module T topology The complete media specification The topology should be mapped into a log with all installation details for future reference twisted pair cable Atype of transmission line having a cable consists of a pair of insulated wires twisted together for the purpose of cancelling out electromagnetic interference EMI from external sources W wavelength The distance between the same point on adjacent waves E100000001 108 07 2012 57 Glossary
11. are connected to the fiber converter and the impact that this disconnection would have on your machine or process before attempting a hot swap operation A WARNING HOT SWAPPING RESTRICTION Do not hot swap modules in a Class 1 Division 2 environment Failure to follow these instructions can result in death serious injury or equipment damage Hot Swapping Procedure The following table describes how to hot swap a BMX NRP 020 fiber converter Step Action 1 Disconnect the copper cable s 2 Disconnect the fiber optic cable s NOTE Install the protective covers on the connectors of the fiber optic cable s and on the port s of the BMX NRP 020e fiber converter Remove the BMX NRP 020 fiber converter from the M340 backplane 4 Install the new BMX NRP 020e fiber converter to the free slot of the backplane Connect all the network cables to the new module 48 E100000001 108 07 2012 Maintenance Troubleshooting Overview As a general method start investigations by checking the EIO head module transmission propagation through the whole path until reception at each drop Ina second step connect and check each drop module transmission back to the EIO head Refer to the chapter System Diagnostics see Quantum EIO System Planning Guide for more details There are documented procedures for analyzing the wire side characteristics of EIO network applications and it is recom
12. cting Fiber Optic Cable Overview If you are using BMX NRP 020 fiber converters in your Quantum EIO network there are several parameters that you have to consider Some of those parameters are cable attenuation and cable bandwidth Parameters are specified by the cable manufacturer and are based on e the wavelength of the optical signal 1310 nm in the Quantum EIO optical link e the cable index use graded index cable only e the fiber size e 50 125 um or 62 5 125 um e 9 125 um For most multimode optical cable links the use of 62 5 125 um cable is recommended because of its relatively low loss and signal distortion e Selectthe fiber optic cable that meets the demands of your application Multicon ductor cables are recommended e Most 62 5 125 um cables are rated at 1 5 dB loss per km With a multiconductor cable pairs come with an attenuation specification as measured which is less than 3 5 dB km 32 EIO0000001 108 07 2012 BMX NRP 0200 0201 Module Installation Grounding Considerations General Proper grounding of Modicon M340 modules is crucial to avoid electric shocks Grounding BMX NRP 0200 0201 Fiber Converters A WARNING UNINTENDED EQUIPMENT OPERATION Tighten the clamping screws of the modules to guarantee the system character istics A break in the circuit could lead to an unexpected behavior of the system Failure to follow these instructions can result in death serious injury or equipment damage
13. ction with daisy chain loop management e afiber to copper connection with daisy chain loop management where the optical link connects to the fiber converter and the copper link connects to the CRA module The BMX NRP 020 fiber converters allow an indication of communication disruption to be sent back through the network so that the system can recover within 50 ms 10 EIO0000001 108 07 2012 Architectures The BMX NRP 020 fiber converters mount on the M340 backplane see Modicon M340 Using Unity Pro Processors Racks and Power Supply Modules Setup Manual The following figure shows the installation of BMX NRP 020 fiber converters throughout a Quantum EIO network im o Ba CRA NRP DDI DDO r CRA NRP DDI DDO 312 0200 1602 1602 312 0200 1602 1602 fiber cable copper cable 1 140 CRP 312 00 remote I O head module on the local rack connected via copper cable to a RJ45 Ethernet port of a BMX NRP 020 fiber converter 2 BMX NPP 020 fiber converter connected via copper cable to the 140 CRP 312 00 module and connected via fiber cable to the BMX NRP 020 fiber converter on a subsequent M340 drop 3 fiber portion of the main ring 4 M340 drops connected to the main ring via fiber cable using a BMX NRP 0208 fiber converter 5 local rack area with local main rack and local extended rack EIO0000001 108 07 2012 11 Architectures In the example above a fiber converter is in
14. e 2 models of fiber converters each supporting one type of fiber optic cable e BMX NRP 0200 supports multimode fiber cable for distances up to 1 24 mi 2 km e BMX NRP 0201 supports single mode fiber cable for distances up to 9 32 mi 15 km Quantum Ethernet I O Networks Using Ethernet as a backbone the PLC communicates with remote I O drops and or distributed I O devices dispersed through the network via a Quantum CRP head module installed in the local rack and adapter modules Quantum 140 CRA or Modicon BMX CRA installed in I O drops using copper cable While DRSs enable the use of fiber cable they also allow you to connect sub rings to the main ring and to connect distributed I O devices to the remote I O network DRSs need to be configured You can use BMX NRP 020 fiber converters for the copper to fiber conversion and vice versa The BMX NRP 020 fiber converters install on a local extended rack between the local rack Quantum CRP head module and next to each remote M340 CRA adapter module on the main ring On the local extended rack the fiber converter works with the Quantum CRP head module It allows e acopper to fiber connection e afiber to fiber connection where the optical link connects the fiber converter on the local extended rack to the fiber converters on the daisy chain On the remote I O drop the fiber converter works with the Quantum 140 CRA and M340 CRA adapter modules It allows e afiber to fiber conne
15. e allowed on this link 16 E100000001 108 07 2012 Architectures High Capacity Daisy Chain Loop Topology Use BMX NRP 020 fiber converters to extend the distance between the main local rack and sub rings or distributed I O devices beyond 328 ft 100 m Noc 780 0200 602 1602 fiber cable copper cable E100000001108 07 2012 17 Architectures 8 9 10 11 12 140 CRP 312 00 remote I O head module on the primary Hot Standby PLC connected to a copper port of a BMX NRP 020 fiber converter 140 CRP 312 00 remote I O head module on the secondary Hot Standby PLC connected to a copper port of a BMX NRP 020 fiber converter BMX NRP 020 fiber converters on extended local racks connected via copper cable to 140 CRP 312 00 head modules on the local racks fiber cable connected to the fiber ports of the BMX NRP 020 fiber converters to extend the distance between the Hot Standby PLCs beyond 328 ft 100 m fiber cable used for the CPU sync link BMX NRP 020 fiber converters on M340 Ethernet remote I O drops connected to DRSs via fiber cable DRSs with a C3 predefined configuration file connecting Quantum Ethernet remote I O sub rings and distributed I O clouds to the main ring via copper cable Quantum Ethernet remote I O sub rings distributed I O clouds BMX NRP 020 fiber converters on M340 Ethernet remote I O drops connected to DRSs via fiber cable and connec
16. e fiber for distances up to 1 24 mi 2 km e Use a BMX NRP 0201 for single mode fiber link for distances up to 9 32 mi 15 km The BMX NRP 020e fiber converters are simple networking devices without network management functions Therefore the modules do not support communication through the backplane connector Power is supplied from the rack The following graphic shows the BMX NRP 020 fiber converter front panel Model number LED display panel Optical port with SFP transceiver for LC type connector RJ45 Ethernet port LNK and ACT LED indicators on the RJ45 Ethernet port oc ou 20 EIO0000001 108 07 2012 BMX NRP 0200 0201 Module Description Ethernet Ports NOTICE INOPERABLE EQUIPMENT Do not remove the protective covers from unused optical ports on this fiber converter Failure to follow these instructions can result in equipment damage The BMX NRP 020 fiber converters are equipped with two 100BaseT X full duplex and auto MDI MDX Ethernet ports without MAC address The connectors are mechanically tied to the module ground The M340 fiber converter uses copper cable for Ethernet connection with the maximum distance limitation of 328 ft 100 m The 2 LEDs LNK and ACT embedded on each Ethernet port indicate the connection status and link speed of the communication e LNKLED lighting green link established at 100 Mbps e ACTLED
17. echnical information from our website at www schneider electric com Product Related Information 4 DANGER UNINTENDED EQUIPMENT OPERATION The application of this product requires expertise in the design and programming of control systems Only persons with such expertise should be allowed to program install alter and apply this product Follow all local and national safety codes and standards Failure to follow these instructions will result in death or serious injury User Comments We welcome your comments about this document You can reach us by e mail at techcomm schneider electric com 8 EIO0000001 108 07 2012 Architectures Overview This chapter provides general information on Quantum Ethernet I O EIO architectures where M340 BMX NRP 020 fiber converters can be used to support fiber optic cables on the daisy chain loop What Is in This Chapter This chapter contains the following topics Topic Page Introduction 10 Quantum Ethernet I O Network Topologies 13 EIO0000001 108 07 2012 Architectures Introduction Overview The M340 BMX NRP 020 are fiber optic converters that work in a Quantum Ethernet I O EIO architecture These modules enable to connect M340 remote I O drops and Quantum EIO drops to the main ring of the Quantum EIO network on fiber optic cable without the need to use dual ring switches DRSs for the copper fiber conversion There ar
18. ed to the ETH2 optical port of the BMX NRP 020 fiber converter on the subsequent EIO drop on the main ring copper cable connected to the ETH2 RJ45 port of the BMX CRA 312 fiber converter on the M340 EIO drop fiber cable connected to the ETH1 optical port of the BMX NRP 020 fiber converter on the previous EIO drop on the main ring copper cable connected to the ETH3 RJ45 port of the BMX CRA 312 fiber converter on the M340 EIO drop NOTE The shortest length of copper cable used to connect the RJ45 Ethernet ports of a NRP and a CRA module is 3 28 ft 1 m For more information please refer to Characteristics of Ethernet Remote I O Modules see Quantum EIO Remote I O Modules Installation and Configuration Guide 42 EIO0000001 108 07 2012 BMX NRP 0200 0201 Module Installation Connecting to a 140 CRA 312 00 Module The following graphic shows connections of the BMX NRP 020 fiber converter to the 140 CRA 312 00 adapter module installed on a Quantum EIO drop connected to the copper portion of the main ring CPS O 2000 fiber cable copper cable 1 fiber cable connected to the ETH1 optical port of the BMX NRP 020 fiber converter on the local extended rack 2 copper cable connected to the ETH2 RJ45 port of the 140 CRA 312 00 module on the Quantum EIO drop 3 fiber cable connected to the ETH2 optical port of the BMX NRP 020 fiber converter on the local extended
19. een 2 or more network devices created prior to the transmission of data After a connection is established a series of data is transmitted over the same communication path without the need to include routing information including source and destination address with each piece of data D An address on the RIO network See also node F A thin filament of glass An optical waveguide consisting of a core and a cladding is capable of carrying information in the form of light The ability of 2 networked devices to independently and simultaneously communicate with each other in both directions G Fiber design in which the refractive index of the core is lower towards the outside of the fiber core and increases towards the center of the core It bends the rays inward and allows them to travel faster in the lower index of refraction region This type of fiber provides high bandwidth capabilities 54 EIO0000001 108 07 2012 Glossary H high capacity daisy chain loop hot standby impedance local rack network Often referred to as HCDCL a high capacity daisy chain loop uses DRSs to extend the distance between remote I O drops or connect sub rings containing remote I O drops or distributed I O devices and or distributed I O clouds to the Ethernet remote I O network A high availability Quantum control system with a second standby PLC that maintains up to date system status If the primary PLC becomes inope
20. errors In the event of a BMX NRP 020 module communication loss the BMX CRA 140 CRA or 140 CRP module connected to the BMX NRP 020 module reports the detected error The BMX NRP 020 modules allow a link down indication that is sent through the Quantum EIO network in order for the 140 CRP 312 00 remote I O head module to re establish a network communication path within 50 ms For detailed troubleshooting on the BMX NRP 020 module refer to the Troubleshooting see page 49 Troubleshooting Table Identify the status of the LED indicators on the BMX NRP 0208 fiber converter as described in the left column and then take the corresponding corrective action s described in the right column LED Status Diagnostic Action All LEDs are OFF The fiber converter is not Check the power supply module powered All LEDs are OFF while other An internal loss of power Change BMXNRP0200 0201 module modules installed on the backplane occured in the fiber converter show normal behavior ETH1 LEDs OFF STS1 LED flickers Fiber link of channel 1 is down Check whether the fiber cable of channel while ERR LED is OFF 1 is connected to the partner correctly and that the partner works well e Check the fiber cable ETH2 LED OFF STS2 LED flicker Fiber of channel 2 link down Check whether the fiber cable of channel 2 is while ERR LED is OFF connected to the partner correctly and the partner works well ETH
21. ess practices not related to physical injury 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 and operation of electrical equipment and its installation and has received safety training to recognize and avoid the hazards involved EIO0000001 108 07 2012 About the Book At a Glance Document Scope Validity Note Related Documents This document is valid from Unity Pro 7 0 or later This document is the reference guide for the Modicon M340 fiber converter modules BMX NRP 0200 and BMX NRP 0201 Title of Documentation Reference Number Quantum Ethernet I O System Planning Guide S1A48959 Eng S1A48961 Fre S1A48962 Ger S1A48964 Ita S1A48965 Spa S1A48966 Chs Quantum Ethernet I O Ethernet Remote I O Modules Installation and Configuration Guide S1A48981 Fre S1A48982 Ger S1A48983 Ita S1A48984 Spa S1A48978 Eng Fr S1A48985 Chs EIO0000001108 07 2012 Modicon M340 Using Unity Pro 35012676 35012677 35013351 35013352 35013353 35013354 Eng Fre Ger Ita Spa Chs You can download these technical publications and other t
22. fer to chapter Predefined Configuration Files see Quantum EIO System Planning Guide Before applying power to the backplane verify that all power connections electrical cable connections and fiber optic connections are correctly installed for your application When the backplane power is applied to the BMX NRP 020e fiber converters the LED OK illuminates LED indicators see page 23 44 EIO0000001 108 07 2012 BMX NRP 0200 0201 Module Installation Reading the Network Indicators After applying power to the module the LED indicators see page 23 on the module illuminate as follows e The LED LNK of the RJ45 Ethernet port lights green when the physical link is established at the speed of 100 Mbps e The LED ACT of the RJ45 Ethernet port lights green when the signal is received at the module s port e Each optical port LED indicator FX1ACT and FX2ACT lights when a signal is received at the optical Rx port If a port indicator is off it can indicate a lack of transmitted signal from another network node Before replacing the BMX NRP 020 fiber converters check the cable connections for a possible incorrect or loose connection Also check the indicators on other devices on the signal path to see if the signal loss is external to the module For details refer to the chapter Troubleshooting see page 49 EIO0000001 108 07 2012 45 BMX NRP 0200 0201 Module Installation Configuration with Unity Pro Valid
23. ft 15 km Optical Transmitter Specifications Characteristics BMX NRP 0200 BMX NRP 0201 Optical Power 23 5 14 dBm with 50 125 um fiber cable 20 14 dBm with 62 5 125 um fiber cable 15 8 dBm with 9 125 um fiber cable Rise Fall Time 3 ns or better 2 5 ns or better Transmitter Disable Off Power 45 dBm maximum EIO0000001 108 07 2012 25 BMX NRP 0200 0201 Module Description Optical Receiver Specifications Characteristics BMX NRP 0200 BMX NRP 0201 Receiver Sensitivity 31 14 dBm 31 8 dBm Loss of Signal Deassert 32 dBm maximum 31 5 dBm maximum 26 EIO0000001 108 07 2012 BMX NRP 0200 0201 Module Description Mechanical and Electrical Specifications Mechanical Specifications Weight 7 16 oz 203 g Dimensions H x D x W 3 94 x 3 39 x 1 26 in 100 x 86 x 32 mm Space Requirements 1 backplane slot The following graphic shows the space requirements of the BMX NRP 020e fiber converters mm in 200 max re gt 7 87 max 90 gt 3 54 19 86 gt gt 0 75 3 39 1 D m 2 y a3 minm mn ER j 3 10 0 39 i 15 u 0 59 210 max a 8 27 max 1 Backplane 2 Module 3 Cable connections E100000001108 07 2012 27 BMX NRP 0200 0201 Module Description Electrical Specificati
24. ignal is present on the cable Failure to follow these instructions will result in death or serious injury NOTICE INOPERABLE EQUIPMENT Do not remove the protective coverings from the optical cable port and optical cable tips until immediately fiber cable connection to the cable port After removing the protective coverings never touch exposed parts such as the ferrule After connecting the fiber cable retain the protective coverings for future use Do not remove the protective covering from the unused connector Failure to follow these instructions can result in equipment damage 34 E100000001 108 07 2012 BMX NRP 0200 0201 Module Installation Fiber Cable Preparation Before installing BMX NRP 020 fiber converters optical network cables must be prepared To prepare fiber optic cables e Follow the cable manufacturer s recommendations for routing installing and testing the cable Take care when terminating the ends of each fiber optic cable in order to minimize loss of optical signal Follow the manufacturers guidelines for installing optical connectors e Test the cable for proper attenuation before the connection of the fiber converters The cable ends has to be accessible at each fiber optic installation site Allow sufficient cable length for a service loop and strain reliefs e Label each cable end to facilitate future maintenance NOTICE INOPERABLE EQUIPMENT Do not unplug a
25. ity The following information is valid for Unity Pro 7 0 or later Module Configuration When the BMX NRP 020 fiber converters are integrated in an I O station local or remote you can match the physical layout of the backplane with Unity Pro configuration Refer to chapter Module Configuration see Modicon M340 Using Unity Pro Processors Racks and Power Supply Modules Setup Manual for details on procedure to follow If one or more power supply modules is configured the Unity Pro software displays the power budget see Modicon M340 Using Unity Pro Processors Racks and Power Supply Modules Setup Manual of all configured modules NOTE The BMX NRP 020 fiber converters do not require parameter configuration 46 E100000001 108 07 2012 Maintenance Overview This chapter provides troubleshooting and hot swapping information to maintain the BMX NRP 020 fiber converters What Is in This Chapter This chapter contains the following topics Topic Page Hot Swapping 48 Troubleshooting 49 E100000001108 07 2012 47 Maintenance Hot Swapping Overview The BMX NRP 020 fiber converters can be removed under power hot swapped without damaging modules or the backplane NOTE You have to understand and plan for the consequences of hot swapping a module Disconnecting a module will interrupt communication to the connected remote I Os Be sure that you know which Ethernet remote I Os
26. lighting green connection is active The following table describes the pinout details of the RJ45 Ethernet 100BaseT connector Pin Connection Pin Signal TD TD RD N C N C RD N C N C Shell Chassis ground 87654321 oe 1 oc AI wo nm EIO0000001 108 07 2012 21 BMX NRP 0200 0201 Module Description Optical Ports The BMX NRP 020 fiber converters are equipped with 2 optical ports Each port has a SFP transceiver module One pair of fiber optic cables is connected to one optical port using an LC type duplex connector one connector for the transmitter signal Tx and one connector for the receiver signal Rx The optical ports of the BMX NRP 0200 fiber converter receive SFP multimode transceivers that support 100BaseFX an LC type connector and multimode fiber of 62 5 125 um and 50 125 um The optical ports of the BMX NRP 0201 fiber converter receive SFP single mode transceivers that support 100BaseFX an LC type connector and single mode fiber of 9 125 um NOTICE INOPERABLE EQUIPMENT Do not unplug a SFP transceiver or insert third party SFP transceivers in the optical port of BMX NRP 020 fiber converters Failure to follow these instructions can result in equipment damage 22 EIO0000001 108 07 2012 BMX NRP 0200 0201 Module Description LED Indicators LED Display Panel The following figure shows the LED indicators of
27. mended that they be used as a first line of attack and afterward whenever trouble is suspected The troubleshooting tables in this section cover the most likely encountered events with the BMX NRP 020 fiber converters EIO0000001 108 07 2012 49 Maintenance Detecting Broken Cables Unlike copper cable fiber cable contains physically separated transmit and receive lines Your system can lose communication through the receive line while the transmit line remains intact as shown in the following graphic 2 i m o n CRA NEP DDI DDO gt CRA NEP DDI DDO 312 0200 1602 1602 312 0200 1602 1602 1 Quantum EIO local rack containing a 140 CRP 312 00 remote I O head module 2 copper cables connecting the converter module 3 fibercables connecting the BMX NRP 0200 module to another BMX NRP 0200 module on M340 Ethernet remote I O drop 4 BMX NRP 0200 module on M340 local extended rack 5 M340 Ethernet remote I O drops containing BMX NRP 0200 modules 50 E100000001 108 07 2012 Maintenance In this scenario the PLC does not receive input data because of the break in the receive line In typical circumstances the PLC continues to drive outputs through the intact transmit line which could lead to outputs turning on or off due to invalid input data Diagnosing Broken Cables The BMX NRP 020 modules do not support RSTP You cannot program a bit in the PLC to diagnose detected
28. n while a transmit signal is present on the cable Failure to follow these instructions will result in death or serious injury NOTICE INOPERABLE EQUIPMENT Do not remove the protective coverings from the optical cable port and optical cable tips until immediately fiber cable connection to the cable port After removing the protective coverings never touch exposed parts such as the ferrule After connecting the fiber cable retain the protective coverings for future use Do not remove the protective covering from the unused connector Failure to follow these instructions can result in equipment damage E100000001108 07 2012 37 BMX NRP 0200 0201 Module Installation Installing Fiber Optic Cables Connect the fiber optic cable to the SFP transceiver module as described in the following table Step Action 1 Remove the dust plugs from the LC connectors of the fiber optic cable as shown in the following figure Save the dust plugs for future use 2 Inspect and clean the fiber optic end faces of the LC connectors Remove the dust plug from the SFP transceiver module as shown in the following figure 38 EIO0000001 108 07 2012 BMX NRP 0200 0201 Module Installation Step Action Immediately attach the LC connector of the fiber optic cable to the SFP transceiver module as shown in following figure NOTE Do not remove the SFP transcei
29. nverter connected via copper cable to the 140 CRP 312 00 head module and connected via fiber cable to the BMX NRP 020 fiber converter on a subsequent M340 drop EIO0000001 108 07 2012 15 Architectures 3 BMX NPP 020 fiber converter connected via copper cable to the 140 CRA 312 00 drop module s and connected via fiber cable to the BMX NRP 0208 fiber converter 4 Quantum EIO drop connected to the main ring via copper cable 5 Local area with local main rack and local extended rack Creating a Long Haul Hot Standy Link The following graphic shows the installation of BMX NRP 020 fiber converters to extend the distance between the 2 PLCs beyond 328 ft 100 m 7 CRP NOC NOC XBE 312 780 781 100 00 uj 00 00 1 140 CRP 312 00 remote I O head module on the primary Hot Standby PLC connected to a copper port of a BMX NRP 020 fiber converter 2 140 CRP 312 00 remote I O head module on the secondary Hot Standby PLC connected to a copper port of a BMX NRP 0208 fiber converter 3 BMX NRP 020 fiber converters on local extended racks connected via copper cable to 140 CRP 312 00 head modules on the local racks 4 fiber cable connected to the fiber ports of the BMX NRP 020 fiber converters to extend the distance between the Hot Standby PLCs beyond 328 ft 100 m 5 fiber cable used for the CPU sync link NOTE Connect the fiber optic cable between the 2 fiber converters 3 straight through No EIO drops ar
30. ommunication MII of NRP is wrong e The PHY connected to fiber is destroyed Power down and power up the NRP to have a try ERR LED is ON after powered up every time without transceiver plugged in Fiber converter is broken Change BMXNRP0200 0201 module NRP module connects to other Ethernet modules which has a fiber optic interface For example the DRS 52 EIO0000001 108 07 2012 Glossary adapter architecture attenuation bandwidth bend radius A The target of real time I O data connection requests from scanners It cannot send or receive real time I O data unless it is configured to do so by a scanner and it does not store or originate the data communications parameters necessary to establish the connection An adapter accepts explicit message requests connected and unconnected from other devices A framework for the specification of a network constructed on the following e physical components and their functional organization and configuration e operational principles and procedures e data formats used in its operation Signal loss through an electrical circuit or conductor see also signal loss A range of frequencies The radius of the arc along which a cable can be bent EIO0000001 108 07 2012 53 Glossary bus connection drop fiber full duplex graded index A single cable connecting multiple ports C A virtual circuit betw
31. ons Agency Approvals Voltage 24 Vdc Dielectric Strength Field to bus 1400 Vdc Channel to channel 500 Vdc Protection Offered by Enclosure IP20 UL 508 CSA C22 2 No142 M2000 Factory Mutual Class 1 Div 2 CSA C22 2 No 213 M1987 R2004 UL 1604 ATEX Zone 2 EN61131 2 Zone B and Zone C except surges on AC Zone B only CE C Tick Gost Merchant Navy GL 28 EIO0000001 108 07 2012 BMX NRP 0200 0201 Module Description Operating and Storage Conditions Operating and Storage Conditions Operating Temperature 32 140 F 0 60 C Humidity 95 maximum Altitude 0 13 124 ft 0 4000 m Storage Temperature 40 158 F 40 70 C EIO0000001 108 07 2012 29 BMX NRP 0200 0201 Module Description 30 EIO0000001 108 07 2012 BMX NRP 0200 0201 Module Installation 3 Overview This chapter provides information on installing BMX NRP 020e fiber converters in an EIO Network What Is in This Chapter This chapter contains the following topics Topic Page Selecting Fiber Optic Cable 32 Grounding Considerations 33 Fitting of the Fiber Converter 34 Installing Fiber Optic Cables 37 Connecting the Fiber Converter to I O Network Devices 40 Configuration with Unity Pro 46 E100000001 108 07 2012 31 BMX NRP 0200 0201 Module Installation Sele
32. rable the standby PLC takes control of the system See characteristic impedance L A Quantum rack containing the controller a power supply and an Ethernet remote I O head module A local rack consists of 1 or 2 racks the main rack containing the remote I O head module and an optional extended rack A Quantum Ethernet remote I O network requires 1 local rack on the main ring M Media Independent Interface The MII is used to connect Ethernet to PHY N A system consisting of the cable media components and the communication nodes EIO0000001 108 07 2012 55 Glossary node PHY PLC remote I O drop remote I O network RSTP An intelligent unit or option on the RIO network either a RIO processor or a drop adapter P Physical layer transceiver for Ethernet programmable logic controller The PLC is the brain of an industrial manufacturing process It automates a process as opposed to relay control systems PLCs are computers suited to survive the harsh conditions of the industrial environment R One of the 3 types of remote I O devices in an Ethernet remote I O network A remote I O drop is a Quantum rack of I O modules that are connected to an Ethernet remote I O network and managed by an Ethernet remote adapter module A drop can be a single rack or a rack with an extension rack An Ethernet based network that contains 1 standalone PLC or one Hot Standby system and remote I O devices There
33. rack 4 copper cable connected to the ETH3 RJ45 port of the 140 CRA 312 00 module on the Quantum EIO drop For more information please refer to Characteristics of Ethernet Remote I O Modules see Quantum EIO Remote I O Modules Installation and Configuration Guide E100000001 108 07 2012 43 BMX NRP 0200 0201 Module Installation Connecting to a DRS in a High Capacity Daisy Chain Loop Topology Applying Power The following graphic shows connections of the BMX NRP 020 fiber converter to a DRS to extend the distance between the DRS and the local main rack see page 17 beyong 328 ft 100 m CPS CRA NRP O 2000 31200 0200 O 4 fiber cable copper cable 1 fiber cable connected to the optical port 1 of the DRS 2 copper cable connected to the ETH4 RJ45 port of the 140 CRP 312 00 head module on the local main rack 3 fiber cable connected to the ETH2 optical port of the BMX NRP 020e fiber converter on the local extended rack 4 copper cable connected to the ETH3 RJ45 port of the BMX CRA 312 adapter module on the M340 EIO drop NOTE The optical port 2 see Quantum EIO System Planning Guide of the DRS is connected via fiber cable to the ETH1 optical port of the BMX NRP 020e fiber converter installed on the subesequent drop on the main ring NOTE Apply predefined configuration settings C3 or C4 to the DRS in this topology For more details re
34. stalled in a local extended rack allowing you to run copper cables from the Quantum 140 CRP head module to the fiber converter From there a fiber converter is installed in each M340 remote I O drop so that all the M340 remote I O drops are connected by fiber optic cable Fiber optic cable enables you to e separate the remote I O drops from one another by distances greater than 328 ft 100 m The maximum distances are e 1 24 mi 2 km for multimode fiber e 9 32 mi 15 km for single mode fiber e carry control signals more effectively through noisy environments For more details about daisy chain loops refer to Planning a Simple Daisy Chain Loop see Quantum EIO System Planning Guide 12 EIO0000001 108 07 2012 Architectures Quantum Ethernet I O Network Topologies Overview The insertion of BMX NRP 020 fiber converters in a Quantum EIO network enables conversion from copper cable to fiber optic cable and the other way around in different network topologies NOTE A fiber converter does not need to be counted as 1 device in your main ring capacity calculations EIO0000001 108 07 2012 13 Architectures Connecting to M340 and Quantum EIO Drops Use BMX NRP 020 fiber converters to connect one or more Quantum EIO drops to a fiber main I O ring with daisy chain loop management 0 CRA NRP DDI DDO 5 5 CRA NRP DDI DDO 312 0200 1602 160 2 312 0200 1602 16 CRA NRP
35. ted to each other fiber cable connecting two M340 Ethernet remote I O drops to extend the distance beyond 100 m control network For more details on high capacity chains refer to Planning a High Capacity Daisy Chain Loop see Quantum EIO System Planning Guide NOTE You can install BMX NRP 020 fiber converters on the main ring and sub rings for copper to fiber conversion and vice versa However you cannot use these modules to connect sub rings to the main 18 EIO0000001 108 07 2012 BMX NRP 0200 0201 Module Description 2 Overview This chapter provides a general description of the BMX NRP 020 fiber converters What Is in This Chapter This chapter contains the following topics Topic Page Presentation 20 LED Indicators 23 General Specifications 25 Mechanical and Electrical Specifications 27 Operating and Storage Conditions 29 E100000001 108 07 2012 19 BMX NRP 0200 0201 Module Description Presentation Overview The BMX NRP 020 fiber converters provide communication between 2 or more Quantum EIO nodes or segments of networks over fiber optic cables Each fiber converter has 2 Ethernet network interfaces and 2 fiber optic interfaces for media conversion from copper to fiber and fiber to copper The maximum forward delay of one media converter is 5 us Based on the fiber optic interface there are 2 models of M340 fiber converters e Use a BMX NRP 0200 with multimod
36. ts the relevant instructions must be followed Failure to use Schneider Electric software or approved software with our hardware products may result in injury harm or improper operating results Failure to observe this information can result in injury or equipment damage 2012 Schneider Electric All rights reserved EIO0000001 108 07 2012 Table of Contents Safety Information 00 cece ee eee eee 5 About the BOOK is eorr ey yu are oed 7 Chapter 1 Architectures leeslee eee eee eens 9 Introduction 434 ea DERNIER CA Gur qu 10 Quantum Ethernet I O Network Topologies 2 22 2222 13 Chapter 2 BMX NRP 0200 0201 Module Description 19 Presentation is 1 achtet se Hee eee een de 20 LED Indicators 2 4 2 ates Has ae a ERU aon E 23 General Specifications 0 0 cece 25 Mechanical and Electrical Specifications 0 00 eee 27 Operating and Storage Conditions 0000 eee eee 29 Chapter 3 BMX NRP 0200 0201 Module Installation 31 Selecting Fiber Optic Cable eese 32 Grounding Considerations 22222 33 Fitting of the Fiber Converter ree 34 Installing Fiber Optic Cables a n aana eee eee eee 37 Connecting the Fiber Converter to I O Network Devices 40 Configuration with Unity Pro 0 2 cece 46 Chapter 4 Maintenance 000 eee e eee eee eee eee 47 Hot Swapping mw ner ri BR 48
37. ule on the local main rack For more information please refer to Characteristics of Ethernet Remote I O Modules see Quantum EIO Remote I O Modules Installation and Configuration Guide 40 EIO0000001 108 07 2012 BMX NRP 0200 0201 Module Installation Connecting to a 140 CRP 312 00 Head Module in a Long Haul Hot Standby Configuration The following graphic shows connections of the BMX NRP 020 fiber converter to the 140 CRP 312 00 head module on the primary and secondary main racks see page 16 CPS O 2000 fiber cable copper cable 1 fiber cable connecting the ETH2 optical port of the BMX NRP 020 fiber converters on the primary and secondary local extended racks 2 copper cable connected to the ETH3 RJ45 port of the 140 CRP 312 00 head modules on the primary and secondary local main racks 3 not used 4 not used NOTE Connect the fiber optic cable between the 2 fiber converters straight through No EIO drops are allowed on this link EIO0000001 108 07 2012 41 BMX NRP 0200 0201 Module Installation Connecting to a M340 BMX CRA 312 00 10 Module The following graphic shows connections between the BMX NRP 020e fiber converter and the BMX CRA 312 on M340 EIO drop CPS CRA NRP O 2000 31200 0200 O 4 fiber cable copper cable 1 2 3 4 fiber cable connect
38. ver modules from the BMX NRP 020 fiber converters as shown in the following figure EIO0000001 108 07 2012 39 BMX NRP 0200 0201 Module Installation Connecting the Fiber Converter to I O Network Devices Overview Connections on the BMX NRP 020 fiber converters vary depending on the network topology and the position of the fiber converters on the network The fiber converters can be connected to e a Quantum CRP head module when installed on the local extended rack e a Quantum CRP head module in a long haul Hot Standby configuration e a Quantum or an M340 CRA adapter module e aDRS ina high capacity daisy chain loop topology Connecting to a 140 CRP 312 00 Head Module The following graphic shows connections of the BMX NRP 0208 fiber converter on the local extended rack to the 140 CRP 312 00 head module on the local main rack in a simple daisy chain loop topology see page 14 CPS O 2000 fiber cable copper cable 1 fiber cable connected to the ETH2 optical port of the BMX NRP 020e fiber converter on the subsequent EIO drop on the main ring 2 copper cable connected to the ETH4 RJ45 port of the 140 CRP 312 00 head module on the local main rack 3 fiber cable connected to the ETH1 optical port of the BMX NRP 020e fiber converter on the last EIO drop on the main ring 4 copper cable connected to the ETH3 RJ45 port of the 140 CRP 312 00 head mod
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