Medium Converter FL MC 0BASE-T/FO G0. Description The FL MC 0BASE-T/FO G0 medium converter provides a high level of noise immunity and a long transmission range in industrial applications by converting the 0 BASE-T Ethernet interface to optical fibers. The device can be operated individually as well as in modular hub stations. The supply voltage is V DC. In FL hub stations, the supply voltage is supplied to all the connected devices via a backplane integrated into the base of the device. In individual operation, the supply is provided using plug-in screw-cage terminal blocks. The converter has a link monitoring function, which separately indicates/monitors the operability of the cable connection and the connected devices for the twisted pair and optical fiber channels. It also automatically detects pairs of incorrectly connected receiving cables at the twisted pair connection and corrects them using the auto polarity correction function. If long distances are to be covered or if an existing glass fiber installation is used, the FL MC 0BASE-T/ FO G0 converter covers distances up to 00 m (.9 ft.) using multimode glass fiber. The connection corresponds to the ST (B-FOC) standard. The medium converter conforms to the specifications of standards IEEE 0. and ISO/IEC 0.. Should you have any technical questions, please contact us: PSM HOTLINE: +9 - - 9 90 FAX: +9 - - 9 99 E-mail: interface-service@phoenixcontact.com ST is a registered trademark of ATT. 00 m (.9 ft.) glass fiber Headquarters: Phoenix Contact GmbH Co. Flachsmarktstraße Blomberg Germany Phone +9 - - 0 0 Fax +9 - - 00 www.phoenixcontact.com Local contact: www.phoenixcontact.com/salesnetwork
Medium Converter FL MC 0BASE-T/FO G0. Technical Data + + /, /, * =? F = A * =? F = A * = I A + * EJI 99 ' ) FL MC 0BASE-T/FO G0 Housing width. mm (0. in.) Description Optical fiber converter, for converting 0 BASE-T to multimode glass fibers (0 nm), DIN-rail mountable, V DC supply Type Order No. FL MC 0BASE T/FO G0 Pcs. Pkt. Installation Accessories Cap for backplane connector Optical fiber glass fiber cable for indoor installation Optical fiber glass fiber cable for outdoor installation Measuring device for optical fiber power measurement Heavy CAT installation cable Light, flexible CAT installation cable RJ connector, gray for straight cable ( connectors in the set) RJ connector, green for crossed cable ( connectors in the set) Crimping pliers for RJ connectors CAT termination panel, screw-cage terminal block on RJ ME BUS-SA/NS PSM-LWL-GDM-0/ PSM-LWL-GDO-0/ PSM-FO-POWERMETER FL CAT HEAVY FL CAT FLEX FL PLUG RJ GR/ FL PLUG RJ GN/ FL CRIMPTOOL FL CAT TERMINAL BOX 9 9 9 99 99 99 9 0 9 0 Technical Data FL MC 0BASE T/FO G0 for glass fibers Ethernet Interface Connection Transmission speed Twisted Pair transmission length Signal LEDs Cable impedance Propagation delay (PEV) Variability value (PVV) Twisted Pair/optical fiber Twisted Pair/optical fiber Optical Fiber Interface Connection Wavelength Transmission length including db system reserve Signal LEDs Transmission power (fiber type), minimum Receiver sensitivity (fiber type) General Data Supply voltage Nominal current consumption Protection against polarity reversal Display Connection Electrical isolation Test voltage Housing material Connection data for screw-cage terminal blocks Ambient operating temperature range Dimensions (W x H x D) Weight Ambient compatibility Humidity (operation) Minimum Minimum Maximum PHOENIX CONTACT page of 0 0 BASE-T in accordance with IEEE 0. RJ shielded 0 Mbps 00 m (.0 ft.), twisted pair, shielded Receiving data (yellow LED), link status (green LED) 00 Ω 00 m (.0 ft.) ( BT), maximum BT, maximum B-FOC (ST ) 0 nm 00 m (00.0 ft.) glass fiber with F-G 0/. db/km 00 m (.9 ft.) glass fiber with F-G./.0 db/km 000 m (9. ft.) glass fiber with F-G./. db/km Receiving data (yellow LED), link status (green LED) Dynamic in Link Mode Static - dbm (0/ µm) -9 dbm (0/ µm) -. dbm (./ µm) -. dbm (./ µm) -, dbm -9, dbm -.0 dbm -9.0 dbm V DC ±0 ma, maximum Series diodes Green LED Plug-in screw-cage terminal block (COMBICON) Alternatively via a backplane for operation in a FL hub station 0 BASE T//supply 00 V rms, 0 Hz, minute PA V0, color green 0.-. mm (AWG -) 0 C to + C (+ F to + F). mm x 99 mm x mm (0. x.9 x.000 in.) 0 g Free from substances, which would hinder coating with paint or varnish (in accordance with VW, Audi, and Seat specification) 0 to 9, not condensing
/ H@ Medium Converter FL MC 0BASE-T/FO G0 c Conformance With EMC Directive 9//EEC and and Low Voltage Directive //EEC EMC (Electromagnetic Compatibility) Noise immunity in accordance with EN 00- Electrostatic discharge (ESD) Electromagnetic HF field Amplitude modulation Pulse modulation Fast transients (burst) Signal: Supply: EN 000-- EN 000-- EN 000-- kv air discharge ) kv contact discharge ) 0 V/m ) 0 V/m ) kv/ khz ) kv/ khz ) Surge current loads (surge) Signal: Supply: Conducted interference EN 000-- EN 000-- kv/ Ω ) 0. kv/ Ω ) 0 V ) Noise emission in accordance with EN 00- Vibration resistance EN 0 IEC 00 Class A g,. h each in x, y, and z direction EN 000 corresponds to IEC 000/ EN 0 corresponds to CISPR ) Criterion A: Normal operating characteristics within the specified limits. ) Criterion B: Temporary adverse effects on the operating characteristics, which the device corrects automatically. Class A: Industrial application, without special installation measures Dimensional diagram ' ' ' ' ) Figure 0 PHOENIX CONTACT page of 0
Medium Converter FL MC 0BASE-T/FO G0. Function Elements ' ' ) Figure 0. Redundancy voltage supply ( V DC). Voltage supply ( V DC). Functional earth connection. Backplane. LED: Ready-to-operate (green). LED: Link status FO port (green). LED: Receiving data FO port (yellow). LED: Link status Twisted Pair port (green) 9. LED: Receiving data Twisted Pair port (yellow) 0. 0Base-T connection (Twisted Pair port). Optical fiber connection, receiver. Optical fiber connection, sender PHOENIX CONTACT page of 0
Medium Converter FL MC 0BASE-T/FO G0. Connection Notes Only mount and remove modules when the power supply is disconnected. When connecting the supply voltage for operation in a FL hub station, please refer to the notes. Attention Disregarding this warning may result in serious damage to persons or property. Only qualified personnel may start up and operate these devices. According to the safety instructions in this text, qualified personnel are persons who are authorized to start up, to ground and to mark devices, systems, and equipment according to the standards of safety technology. In addition, these persons must be familiar with all warning instructions and maintenance measures in this text. The FL MC 0BASE-T/FO G0 module is designed exclusively for SELV operation in accordance with IEC 090/EN 090/VDE 00. Control cabinet mounting ' ) Figure 0 Install the FL MC 0BASE-T/FO G0 on a DIN rail in accordance with DIN EN 0 0. To avoid contact resistance only use clean, corrosion-free DIN rails. End clamps should be mounted on both sides of the module to stop the modules from slipping on the DIN rail. Mounting/removing the FL hub station J= C A Connect the DIN rail to the protective earth ground using a grounding terminal. The modules are grounded when they are snapped onto the DIN rail. This ensures that the shield is effective. Connect the protective earth ground with low impedance... Mounting/Removing - - 0 * ) / - H@ ) *,, 0 * * ) - H@ / H@, A J= C A / H@ ' ) Mounting: Only mount and remove modules when the power supply is disconnected. Note: The device can be operated individually as well as in modular FL hub stations. In a FL hub station, the order of the various module types can be freely selected.. Fasten an end clamp next to the left-hand module to stop the modules from slipping.. Place the module onto the DIN rail from above. The upper holding keyway must be hooked onto the top edge of the DIN rail (Figure 0).. Push the module from the front towards the mounting surface.. Once the module has been snapped on properly, check that it is fixed securely on the DIN rail.. Snap the other modules to be contacted onto the DIN rail side by side. Figure 0. Push the second module (from the left) along the DIN rail to the left until the pin strip/socket strip of both modules are interlatched and the sides of both modules lie flush with one another.. Now push the other modules together from right to left as described above (Figure 0). Removal:. To remove a FL hub station, the FL module on the right-hand side must be pushed to the right until the entire pin strip/socket strip is released (Figure 0).. Pull the locking latch down using a screwdriver, needle-nose pliers or similar.. Pull the bottom edge of the module away from the mounting surface.. Pull the module diagonally upwards away from the DIN rail. PHOENIX CONTACT page of 0
- - 0 * ) / - H@ ) *,, 0 * * ) - H@ 0 * * ) - H@ 0 * * ) - H@ 0 * * ) - H@ H@ H@ H@ H@ H@ H@ H@ H@ H@ H@ H@ H@ H@ H@ H@ H@ H@ H@ H@ H@ H@ ' ) Medium Converter FL MC 0BASE-T/FO G0. Connecting the Supply Voltage The module is operated using a + V DC SELV... Operation as an Individual Device: Provide the supply voltage for the module via terminals US and GND. As an option, an additional power supply unit can be connected to terminals US and GND to provide a redundant voltage supply. Both US/US voltages are forwarded on the backplane. Connecting the supply /, redundant supply H(optional) A @ K @ = JA A H I H C K C F JE = /,.. Operation in a FL Hub Station: The sum of the nominal currents in a FL station must not exceed A. Please refer to the nominal currents specified in the data sheets for the selected FL modules. The supply voltage US, and if applicable US, may only be supplied to one of the modules and never to several modules. If a hub or hub agent is present in the station, the supply must be provided to one of these modules. The sum of the nominal currents in a FL hub station structure with several medium converters can be calculated using the following table. / H@ Maximum configuration of a hub station ' ) Figure 09 Device FL HUB AGENT FL HUB 0 Base-T FL MC 0-T/FO POF FL MC 0-T/FO G0 Current Consumption 0 ma, approx. 0 ma, approx. 0 ma, approx. ma, approx. hubs = 0 ports 9 medium converters for glass fiber 0 medium converters for polymer/hcs fiber. Twisted Pair Interface (Twisted Pair Port).. 0Base-T Interface The FL MC 0BASE-T/FO-G0 has an Ethernet interface on the front in RJ format, to which only twisted pair cables with an impedance of 00 Ω can be connected. The data transmission rate is 0 Mbps. The interface can detect a pair of incorrectly connected receiving cables (RD+/RD-) and correct them using the auto polarity correction function.... Connection Push the Ethernet cable with the crimped RJ connector into interface until it engages with a click. Observe the encoding of the connector. Pin assignment in RJ format? E? E E? E? E E E E Figure 0 Figure PHOENIX CONTACT page of 0
Medium Converter FL MC 0BASE-T/FO G0 Only use shielded twisted pair cables and corresponding shielded RJ connectors. For medium converters the Ethernet connection must always be established via the 0Base-T interface. The medium converter does not use the Ethernet signals of the backplane... Diagnostic Indicators Link Control Twisted Pair Path (RJ): The line monitoring checks the connected cable segment for a short circuit or interrupt. To do this, the partner must send link or data signals. The LED (green) lights up if no error has occurred. An interface that is not being used or a terminal device that is switched off is indicated as an error and the LED goes out. Data Control Twisted Pair Path (RJ): The data LED (yellow) flashes depending on the amount of data that is received by the 0Base-T interface. LINE connection Gray protective caps Pin assignment of line cable (:) (gray protective caps) () Green () () Green/white () () Orange () () Orange/white () Figure.. Selecting the Correct Connecting Cables for Use Between Ethernet Components To connect Ethernet components, use either crossed cable pairs (CROSSOVER) or linear connected cable pairs (LINE,:). In general, linear wired cables are required between structure components and terminal devices, whereas crossover cables are used for connections between two structure components and for connections between two terminal devices. The correct cable can be selected using the following table. To distinguish between the two cable types, green bending protection bushings should be used for crossover cables, and gray bending protection bushings for linear wired cables (LINE, :). CROSSOVER connection Green protective caps Line : = gray protective caps Crossover = green protective caps PC/RFC IBS gateway I/O bus terminal module Switch Hub Medium converter PC/RFC Cross Cross Cross Line Line Line IBS gateway Cross Cross Cross Line Line Line I/O bus terminal Cross Cross Cross Line Line Line Switch Line Line Line Cross Cross Cross Hub Line Line Line Cross Cross Cross Medium converter Line Line Line Cross Cross Cross Pin assignment of crossover cable (green protective caps) () Green () () Green/white () () Orange () () Orange/white () Figure PHOENIX CONTACT page of 0
Medium Converter FL MC 0BASE-T/FO G0. Optical Fiber Interface (FO Port) B-FOC (ST ) connection Protective caps should only be removed just before the connectors are connected. They protect the send and receive elements. The same applies to the protective caps for the connectors... Optical Fiber (FO) Connection During operation, do not look directly into send diodes, or use visual aids to look into the glass fibers. The infrared light is not visible.. Connect the optical fiber cable to the B-FOC (ST ) connector for the send and receive channel and push the connector clamp mechanism downwards.. Secure the connection with a quarter turn to the right (Figure ). ' ) Signal direction for the fiber connection Figure Be aware of the optical fiber cable signal direction when coupling two medium converters: Module fiber connection TD (sender) to module fiber connection RD (receiver) (Figure ). General Notes Follow the cable manufacturer's technical data when handling the various optical fiber cables. In order for the communication path to be protected against interference, the permissible values for the bending radii, strain, and pressure strengths must not be exceeded. ST is a registered trademark of ATT. / H@ / H@ ' ) ' Figure.. Diagnostic Indicators Link Control Optical Fiber Path (FO): The line monitoring checks the connected cable segment for an interrupt. To do this, the partner must send link or data signals. The LED (green) lights up if no error has occurred. An interface that is not being used or a terminal device that is switched off is indicated as an error and the LED goes out. Data Control Optical Fiber Path (FO): The data LED (yellow) flashes depending on the amount of data that is received by the optical fiber interface. PHOENIX CONTACT page of 0
H@ + ) 9 - - - Medium Converter FL MC 0BASE-T/FO G0.. Optical Power Measurement After Initial Installation After the installation of an optical fiber connection, the optical power can be checked before the receiving device using an optical fiber measuring instrument. The sender must be operated in an ambient operating temperature from 0-0 C ( - ºF). The limit values already include the fluctuations caused by the temperature. Power measurement of optical fiber cables Medium converter Cable installed PSM-FO-POWERMETER Measuring Optical Power For glass fibers adjust the measuring instrument to 0 nm and the power measuring range to dbm. Remove the RJ connector to interrupt data communication. Apply the operating voltage to the module (the green LED is on). The converter now sends LINK pulses via the FO interface. Observe the two measurements for the forward and return cable shown in Figure. The measured values indicated must be reached. Measured values for new devices -. dbm, minimum to - dbm, maximum for the specified glass fiber types (see Technical Data) ' ) Figure Note: The dbm values indicated already include the db system reserve, temperature drifts, and aging of the sender/receiver. PHOENIX CONTACT page 9 of 0
- - 0 * ) / - H@ ) *,, - - 0 * ) / - H@ ) *,, H@ - - 0 * ) / - H@ ) *,, H@ - - 0 * ) / - H@ ) *,, Medium Converter FL MC 0BASE-T/FO G0. Configuration Information Two inspections must be carried out to determine the limits of the system configuration. Both inspections must be passed, otherwise transmission errors may occur. It is recommended that a network plan (Figure ) of the system is created and the possible signal paths and collision domains are systematically determined and evaluated. Network plan.. Evaluating the PEV (Path Equivalent Value): The PEV indicates the signal delay of an Ethernet package using a network component. It is specified in meters. For safe data transmission, the signal delay total plus the maximum length of the cable installed 0 m (9.0 ft.) between any two network devices in a collision domain must not be exceeded. Network cards (NIC), hubs, medium converters, copper and optical fiber cables must be included in the calculation. Example (Figure ): x network cards 0 m 0 m (9. ft.) (9. ft.) x hubs 0 m 0 m (.9 ft.) (. ft.) x medium converters 00 m 00 m (.0 ft.) (. ft.) x optical fiber cables 900 m 900 m (.0 ft.) (.0 ft.) x Twisted Pair cables 00 m 00 m (.0 ft.) (. ft.) ' ) Figure.. Overview of the PEV and PVV values for Factory Line items from Phoenix Contact Component PEV [m] PVV [BT] Network cards (NIC) 0 0 Hub/hub agent 0 Total 0 m (. ft.) Maximum length permitted (0 m [9.0 ft.]) total (0 m [. ft]) = reserve for system expansion (0 m [9. ft.]).. Evaluating the PVV (Path Variability Value): The PVV indicates the total of signal runtime fluctuations of an Ethernet package using network components of a signal path. It is specified in bit-times (BT). For safe data transmission, a maximum delay time of 0 BT is permitted between any two network devices in a collision domain. Only hubs, medium converters, and transceivers should be included in the calculation. Example (Figure ): x network cards 0 BT 0 BT (already included) x hubs BT BT x medium converters BT BT x optical fiber cable 0 BT 0 BT (do not cause any runtime fluctuations) x Twisted Pair cables 0 BT 0 BT (do not cause any runtime fluctuations) Total 0 BT Maximum delay time permitted (0 BT) total (0 BT) = reserve for system expansion (0 BT) If both evaluations are passed, the system has been configured correctly. Switch 0 0 Medium converter (Twisted Pair<->optical fiber) Twisted pair cable/ optical fiber cable 00 per m 0 ' ' ) Figure PHOENIX CONTACT September, 00 TNR: 00-0 http://www.phoenixcontact.com PHOENIX CONTACT page 0 of 0