Data Sheet DB EN FL SWITCH SMCS 6GT/2SFP
Contents
1. Class B residential PHOENIX CONTACT 4 Conformance with EMC directives Noise immunity according to EN61000 4 2 IEC 1000 4 2 ESD Contact discharge Air discharge Indirect discharge Noise immunity according to EN61000 4 3 IEC 1000 4 3 electromagnetic fields Noise immunity according to EN61000 4 4 IEC 1000 4 4 burst Data lines Power supply Noise immunity according to EN61000 4 5 IEC 1000 4 5 surge Data lines Power supply Noise immunity according to EN61000 4 6 IEC 1000 4 6 conducted Additional certifications RoHS 3 1 General information FL SWITCH SMCS 6GT 2SFP Requirements according to DIN EN 61000 6 2 Test intensity 2 criterion B Test intensity 3 criterion B Test intensity 2 criterion B Requirements according to DIN EN 61000 6 2 Test intensity 3 criterion A Requirements according to DIN EN 61000 6 2 Test intensity 2 criterion B Test intensity 3 criterion B Requirements according to DIN EN 61000 6 2 Test intensity 2 criterion B Test intensity 1 criterion B Requirements according to DIN EN 61000 6 2 Test intensity 3 criterion A EEE 2002 95 EC WEEE 2002 96 EC WARNING AN Disregarding this warning may result in damage to equipment and or serious personal injury 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 a2. change status Selecting the operating mode As soon as the Smart Mode was called the setting is selected by pressing the mode button shortly After having selected the desired setting exit the Smart Mode and the selected status is stored Exiting the Smart Mode To exit the Smart Mode keept the mode button pressed for more than three seconds The operating mode selected last is accepted and activated Possible operating modes in the Smart Mode The SMCS supports selection of the following operating modes in the Smart Mode see also example below ACT SPD FD LED 1 LED 2 LED 3 Exiting the Smart Mode without changes OFF OFF ON 7 PROFINET Physical Device PDEV General function description The PDEV function provides an extended scope of functions for switches in PROFINET mode This includes displaying neighbor and topology information in the engineering tool This information is determined using the Link Layer Discovery Protocol LLDP and can be used to compare the desired and actual network In addition the PDEV function is used to display the transmitted information via the Ethernet ports The PDEV function uses two new submodules Interface submodule with port number 0x8X00 X 0 to F Port submodule with port number Ox8IXX I Interface ID X Port number These submodules are represented in the Step7 engineering tool PROFINET communication enables information about the port speed duplex mode and the
3. Figure 5 Housing dimensions 7593_en_00 PHOENIX CONTACT GmbH amp Co KG 32823 Blomberg Germany Phone 49 0 5235 3 00 12 PHOENIX CONTACT P O Box 4100 Harrisburg PA 17111 0100 USA Phone 717 944 1300 www phoenixcontact com
4. Bet a Alarm contact closed i e an error has not occurred A Link LED is located on the front of the SMCS for each port LNK Green Link active Link Link inactive An additional LED is located on the front of the SMCS for each port The function of the second LED MODE for each port can be set using the MODE switch see also example below There are three options ACT Green E Sending receiving telegrams Activity OFF Not sending receiving telegrams SPD Green eom Mbps Speed orange en ON green Cw 100 Mbps 10 Mbps if Link LED is active FD Green Full duplex Duplex Half duplex 4 10 IP address assignment Two mechanisms are available for the assignment of the IP address BootP or via the V 24 RS 232 interface By default upon delivery the IP address is assigned via BootP The Factory Manager configuration software has been optimized for use with Smart Managed Compact Switches and is the easiest way to assign the IP address The assignment mechanism can be modified via web based management or via the V 24 RS 232 interface 5 Hardware functions Store and forward Ethernet switching All data telegrams that are received by the switch are saved and their validity is checked Invalid or faulty data packets gt 1522 bytes or CRC errors and fragments lt 64 bytes are rejected Valid data telegrams are forwarded by the switch The switch always forwards the data using the data transmission speed that is used in the d
5. FL SWITCH SMCS 6GT 2SFP Smart Managed Compact Switch with six Gigabit ports and two Gigabit SFP slots AUTOMATION Data Sheet 7593 en_0O0 1 Description 1 1 Smart Managed Compact Switch SMCS The Smart Managed Compact Switch with one Gigabit on all eight ports enables the cost effective creation of managed Ethernet networks in industrial environments with maximum throughput rates Two of the ports are fiber optic ports in SFP format This means that both multi mode and single mode glass fibers can be used The compact switches in metal housing support the use of the optional FL MEM PLUG The FL MEM PLUG is a plug in parameterization memory on which the entire configuration of the device can be stored so that it can be transferred to another device if required 1 2 Properties of the SMCS 10 100 1000 Mbps on all RJ45 ports Two ports as SFP slots six as RJ45 Management via SNMP Simple Network Management Protocol via WBM web based management or via serial interface HyperTerminal Redundant supply voltage connection Floating alarm contact with adjustable function PHOENIX CONTACT 04 2008 Labeling fields for the device and the individual ports Redundancy with Rapid Spanning Tree RSTP according to IEEE 801 1w and Fast Ring Detection compatible with FL SWITCH MM HS and FL SWITCH MCS with Fast Ethernet Local diagnostic and status indicators Optional FL MEM PLUG suppo
6. cable CAT 5 pre assembled 7 5 m long Patch cable CAT 5 pre assembled 10 0 m long Documentation Description User manual for the Smart Managed Compact Switch 7593_en_00 Type FL SWITCH SMCS 6GT 2SFP FL MEM PLUG FL MEM PLUG MRM FL SFP SX FL SFP LX FL SFP LX LH Type PRG CAB MINI DIN E NS 35 N FL SWT FL SNMP OPC SERVER FL PBX 8TX FL PBX 6TX 4FX FL PF SEC 2TX FL PF SEC 8TX FL PF 2TX CAT5E FL PF 8TX CAT5E FL PF 2TX CAT 6 FL PF 8TX CAT 6 FL CAT6 PATCH 0 3 FL CAT6 PATCH 0 5 FL CAT6 PATCH 1 0 FL CAT6 PATCH 1 5 FL CAT6 PATCH 2 0 FL CAT6 PATCH 3 0 FL CAT6 PATCH 5 0 FL CAT6 PATCH 7 5 FL CAT6 PATCH 10 FL CAT5 PATCH 0 3 FL CAT5 PATCH 0 5 FL CAT5 PATCH 1 0 FL CAT5 PATCH 1 5 FL CAT5 PATCH 2 0 FL CAT5 PATCH 3 0 FL CAT5 PATCH 5 0 FL CAT5 PATCH 7 5 FL CAT5 PATCH 10 Type UM EN FL SWITCH SMCS Order No Pcs PKt 2891479 1 2891258 1 2891770 1 2891754 1 2891767 1 2989912 1 Order No Pcs PKt 2730611 1 080088 6 1 2831044 1 2832166 1 2832496 1 2832506 1 2832687 1 2832690 1 2891165 1 2891178 1 2891068 1 2891071 1 2891181 10 2891288 10 2891385 10 2891482 10 2891589 10 2891686 10 2891783 10 2891880 10 2891887 10 2832250 10 2832263 10 2832276 10 2832221 10 2832289 10 2832292 10 2832580 10 2832616 10 2832629 10 Order No Pcs Pkt 2910169 PHOENIX CONTACT FL SWITCH SMCS 6GT 2SFP 2 3 Technical data General data Function Switch principle Address table SNMP Transmiss
7. ed if only one voltage is applied A jumper between US1 and US2 prevents this error message It is also possible to deactivate monitoring in web based management or via SNMP Typical supply with one A or two B voltage sources US1 US2 GND GNDR1R2 US1 US GND GNDR1R2 74700001 Figure 1 Supply of the SMCS 7593_en_00 PHOENIX CONTACT 6 FL SWITCH SMCS 6GT 2SFP 4 4 Alarm contact The switch has a floating alarm contact An error is indicated when the contact is opened 67840015 Figure 2 Circuit diagram for the alarm contact a The indicated error states are configured in web based management or via SNMP 4 5 V 24 RS 232 interface for external management The 6 pos mini DIN female connector provides a serial interface to connect a local management station It can be used to connect a VT100 terminal or a PC with corresponding terminal emulation to the management interface Set the following transmission parameters RS 232 V 24 interface CTS RTS Bits per second 38400 Sl N D6 5G Data bits 8 5 Hee Parity None L j j l Stop bits 1 22 1G Flow control None RxD BT XD Figure 3 Assignment of the V 24 RS 232 interface and the required transmission parameters 7593_en_00 PHOENIX CONTACT 7 FL SWITCH SMCS 6GT 2SFP 4 6 Assignment of the RJ45 Ethernet connectors Please note that for operation with 1000 Mbps Gigabit cables with four twisted pairs eight wires which mee
8. estination network segment Multi address function The switch independently learns the addresses for termination devices which are connected via a port by evaluating the source addresses in the data telegrams Only packets with unknown addresses with a source address of this port or with a multicast broadcast address in the destination address field are forwarded via the corresponding port The switch can store up to 4000 addresses in its address table with an aging time of approximately 40 seconds This is important when more than one termination device is connected to one or more ports In this way several independent subnetworks can be connected to one switch 7593_en_00 PHOENIX CONTACT 9 FL SWITCH SMCS 6GT 2SFP Diagnostics via the alarm contact If either or both of the supply voltages fails the alarm contact opens On a restart the switch executes a hardware selftest In the event of an error during the selftest an SNMP trap is transmitted Status and diagnostic indicators These indicators provide information about the status of the SMCS at all times Local diagnostics without additional tools is possible thanks to numerous LEDs Auto crossing Due to auto crossing of the transmit and receive cables of a twisted pair interface it is no longer necessary to distinguish between 1 1 and crossover Ethernet cables Auto negotiation Auto negotiation is a method whereby the switch automatically detects the operating parameters fo
9. ion capacity per port 64 byte packet size half duplex Supported MIBs Housing dimensions width x height x depth in mm Permissible operating temperature Permissible storage temperature Degree of protection Protection class according to EN 61131 2 IEC 61131 2 Humidity Operation Storage Air pressure Operation Storage Ambient compatibility Mounting position Connection to protective earth ground Weight Supply voltage US1 US2 redundant Connection Nominal value Permissible voltage range Permissible ripple within the permissible voltage range Test voltage Maximum current consumption on US at 24 V DC Maximum power consumption Interfaces on the SMCS Number of Ethernet ports with Gigabit support V 24 RS 232 communication interface Connection format Floating alarm contact Voltage Current carrying capacity Ethernet interfaces on the SMCS RJ45 interfaces Number Connection format Connection medium Cable impedance Transmission speed Maximum network segment expansion 7593_en_00 FL SWITCH SMCS 6GT 2SFP Smart Managed Compact Switch Ethernet Fast Ethernet Gigabit switch conforms to standard IEEE 802 3 802 3u 802 3ab Store and Forward 4000 MAC addresses Version 2c At 10 Mbps 14 880 pps packets per second At 100 Mbps 148 800 pps at 1000 Mbps 1 488 100 pps MIB II LLDP_PN MIB and private SNMP objects from Phoenix Contact 128 x 110 x 69 depth from top edge of DIN rail 128 x 150 x 69 dep
10. link status to be read An engineering tool reads and then displays the neighbor and topology information via SNMP 7593_en_00 PHOENIX CONTACT 11 FL SWITCH SMCS 6GT 2SFP PROFINET stack and PDEV function The PDEV function is supported by PROFINET stack Version 2 2 The following functions are supported by PN stack 2 2 Link status port mode and port MAC address can be requested via the port Storing of PDEV data Reorganization of submodules for integrating interfaces and new ports Use of the PN stack LLDP in PN mode used for neighbor and topology detection Support for device replacement and application redundancy PDEV in the Firmware The PDEV function can be used for the FL SWITCH SMCS device range in firmware Version 2 2 or later In addition the corresponding version of the GSDML file must be used the FDCML file does not support PDEV at present These files are used to describe the device function and can be imported into an engineering tool 8 Housing dimensions Depth 69 mm from top edge of DIN rail o 128 mm 5 04 in E 69 mm 2 72 in 7 PHGNIX CONTACT FL SWITCH SMSC 8GT Ord No 2891123 Yom D ACT SPD FD mac NNIT N mea Address 00 A0 45 06 04 02 E 100 mm 3 94 in X9 X10 X11 US1 GND US2 GND R1 R2 MEM Ge te ESE m 10 mm 0 39 in osos po FL MEM PLUG 2891259
11. nd 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 WARNING FL SWITCH SMCS 6GT 2SFP modules are designed exclusively for SELV operation according to IEC 950 EN 60950 VDE 0805 7593_en_00 PHOENIX CONTACT 5 FL SWITCH SMCS 6GT 2SFP 4 Installation and Assembly Removal Install the Smart Managed Compact Switch on a clean DIN rail according to EN 60715 To avoid contact resistance only use clean corrosion free DIN rails End clamps can be mounted on both sides of the module to stop the modules from slipping on the DIN rail 4 1 Assembly 1 Place the module onto the DIN rail from above The upper holding kKeyway must be hooked onto the top edge of the DIN rail 2 Push the module from the front towards the mounting surface 3 Once the module has been snapped on properly check that it is fixed securely on the DIN rail 4 2 Removal 1 Pull the locking latch down using a screwdriver needle nose pliers or similar 2 Pull the bottom edge of the module away from the mounting surface 3 Pull the module diagonally upwards away from the DIN rail 4 3 Connecting the 24 V DC supply voltage The SMCS is operated using a 24 V DC voltage which is applied via COMBICON If required the voltage can also be supplied redundantly If redundant supply voltage monitoring is active default setting an error is indicat
12. ngth with multi mode fiber Transmission power Minimum Maximum Receiver sensitivity Minimum Characteristics of the 1000 Mbps single mode ports FL SFP LH Data transmission rate Wavelength Maximum transmission length with single mode fiber Transmission power Minimum Maximum Receiver sensitivity Minimum Maximum optical input power Mechanical tests Shock test according to IEC 60068 2 27 Vibration resistance according to IEC 60068 2 6 Free fall according to IEC 60068 2 32 Conformance with EMC directives Developed according to IEC 61000 6 2 Emitted interference acc to EN55022 1998 A1 2000 A2 2003 interference voltage Emitted interference acc to EN55011 1998 A1 1999 A2 2002 electromagnetic interference 7593_en_00 FL SWITCH SMCS 6GT 2SFP 2 Gigabit SFP slot module Glass fiber LC Format 1000 Mbps Depends on the SFP module used Depends on the SFP module used r 1 25 Gbps full duplex 850 nm 550 m fiber optic 50 125 um 250 m fiber optic 62 5 125 um 9 dBm 4 dBm 17 dBm 1 25 Gbps full duplex 1310 nm 30 km fiber optic 9 125 um 0 4 dB km 550 m fiber optic 50 125 um 550 m fiber optic 62 5 125 um 5 dBm 0 dBm 23 dBm 1 25 Gbps full duplex 1550 nm 80 km fiber optic 9 125 um 0 3 dB km 0 dBm 5 dBm 24 dBm 0 dBm Operation 25g half sine shock pulse Storage transport 50g half sine shock pulse Operation storage transport 5g 10 150 Hz 1m Class B residential
13. r the connected network and sets the corresponding parameters 10 Mbps 100 Mbps 1000 Mbps data transmission rate and half full duplex transmission mode for its RJ45 ports Automatic port setting eliminates the need for manual intervention by the user The auto negotiation function can be activated deactivated via the web interface 6 Software functions 6 1 SNMP SNMP Simple Network Management Protocol can be used to monitor Ethernet communication even via network management systems Management systems such as a PC with Factory Manager can read and modify configuration and diagnostic data from network devices via SNMP Supported MIBs Management Information Base II MIB 2 according to RFC1213 LLDP MIB RSTP MIB RMON MIB only group statistics bridge MIB groups dot1dStp dotidBase dot1dTpAgingTime and private MIBs 6 2 IEEE 802 1w Rapid Reconfiguration Spanning Tree Protocol RSTP Rapid Spanning Tree is a procedure enabling the use of redundant Ethernet structures Via RSTP the meshed topologies of redundant structures are suppressed logically and converted acyclically to tree structures In meshed networks two nodes may be connected in two or more ways loop Due to these loops data packets would circle endlessly in the network This is why these loops are replaced by a logical deterministic path using an RSTP algorithm The loops are eliminated by temporarily switching off the individual switch ports in a specific way All acti
14. rted as a plug in parameterization memory LLDP support IEEE 802 1ab Improved error location detection Improved device replacement More efficient network configuration 1 3 Fields of application Typical fields of application for the SMCS range from high performance connection to Gigabit office networks through the function of a powerful distributor in control cabinets to typical use in Industrial Ethernet applications A special feature is the support of PROFINET and Ethernet IP For additional information about the function and operation of the SMCS please refer to the UM EN FL SWITCH SMCS product specific user manual It can be downloaded at www download phoenixcontact com Make sure you always use the latest documentation It can be downloaded at www download phoenixcontact com A conversion table is available on the Internet at www download phoenixcontact com general 7000_en_00 pdf a This data sheet is valid for all products listed on the following page DOG00OCI M000 Wenn ODE INSPIRING INNOVATIONS 2 Ordering data Products Description Smart Managed Compact Switch with six Gigabit ports in RJ45 format and two Gigabit SFP slots Plug in parameterization memory Plug in parameterization memory with MRP manager license SFP slot module in SFP format multi mode SFP slot module in SFP format single mode SFP slot module in SFP format single mode long haul Accessories Descrip
15. t the requirements of Cat 5e as a minimum must be used 4 7 Pin assignment of RJ45 connectors Pinnumber 10BASE T 10 Mbps 100BASE T 100 Mbps 1000BASE T 1000 Mbps TD transmit TD transmit BI_DA bidirectional TD transmit TD transmit BI_DA bidirectional RD receive RD receive BI_DB bidirectional RD receive RD receive BI_DB bidirectional 4 8 Grounding NOTE Grounding protects people and machines against hazardous voltages To avoid these dangers correct installation taking the local conditions into account is vital All Factory Line devices must be grounded so that any possible interference is shielded from the data telegram and discharged to ground potential A wire of at least 2 5 mm must be used for grounding When mounting on a DIN rail the DIN rail must be connected with protective earth ground using grounding terminal blocks The module is connected to protective earth ground via the metal base element PH NIX Figure 4 Switch on a grounded DIN rail 7593_en_00 PHOENIX CONTACT 8 FL SWITCH SMCS 6GT 2SFP 4 9 Status and diagnostic indicators pes Color Status Meaning OOOO Green ON Supply voltage 1 in the tolerance range OFF OFF Supply voltage 1 too low Green Supply voltage 2 in the tolerance range ee OFF Supply voltage 2 too low FAIL on Alarm contact open i e an error has occurred oo me
16. th from top edge of DIN rail With FL MEM PLUG accessories 0 C to 55 C 40 C to 85 C IP20 IEC 60529 Class 3 5 to 95 no condensation 5 to 95 no condensation 86 kPa to 108 kPa 1500 m above sea level 66 kPa to 108 kPa 3500 m above sea level Free from substances that would hinder coating with paint or varnish according to VW specification Perpendicular to a standard DIN rail Snapped onto a grounded DIN rail 650 g typical Via COMBICON conductor cross section 2 5 mm maximum 24 V DC 18 0 V DC to 32 0 V DC 3 6 Vpp 500 V DC for one minute 0 6 A 14 5 W Mini DIN female connector 24 V DC 100 mA 6 with auto crossing and auto negotiation 8 pos RJ45 female connector on the switch Twisted pair cable with a conductor cross section of 0 14 mm to 0 22 mm 100 Ohm 10 100 1000 Mbps 100 m PHOENIX CONTACT 3 Ethernet interfaces on the SMCS continued General characteristics of the glass fiber ports Number Connection format Connection medium Connector Transmission speed Maximum network segment expansion Fiber type Laser protection class Characteristics of the 1000 Mbps multi mode ports FL SFP SX Data transmission rate Wavelength Maximum transmission length Transmission power Minimum Maximum Receiver sensitivity Minimum Characteristics of the 1000 Mbps single mode ports FL SFP LX Data transmission rate Wavelength Maximum transmission length with single mode fiber Maximum transmission le
17. tion Configuration cable for connecting the switch with a PC V 24 RS 232 Universal end clamp Factory Manager startup diagnostic software Network monitoring with HMI SCADA systems Patchbox 8 x RJ45 CAT 5e pre assembled can be retrofitted Patchbox 6 x RJ45 CAT 5e and 4 SC Ru glass pre assembled can be retrofitted Patch angle with two RJ45 network connections CAT5e including Layer 1 security elements Patch angle with eight RJ45 network connections CAT5e including Layer 1 security elements Patch angle with two RJ45 network connections CAT5e Patch angle with eight RJ45 network connections CAT5e Patch angle with two RJ45 network connections CAT6 Patch angle with eight RJ45 network connections CAT6 Patch cable CAT 6 pre assembled 0 3 m long Patch cable CAT 6 pre assembled 0 5 m long Patch cable CAT 6 pre assembled 1 0 m long Patch cable CAT 6 pre assembled 1 5 m long Patch cable CAT 6 pre assembled 2 0 m long Patch cable CAT 6 pre assembled 3 0 m long Patch cable CAT 6 pre assembled 5 0 m long Patch cable CAT 6 pre assembled 7 5 m long Patch cable CAT 6 pre assembled 10 m long Patch cable CAT 5 pre assembled 0 3 m long Patch cable CAT 5 pre assembled 0 5 m long Patch cable CAT 5 pre assembled 1 0 m long Patch cable CAT 5 pre assembled 1 5 m long Patch cable CAT 5 pre assembled 2 0 m long Patch cable CAT 5 pre assembled 3 0 m long Patch cable CAT 5 pre assembled 5 0 m long Patch
18. ve ports as well as deactivated ports receive data packets However the data packets are only forwarded by active ports The deactivated ports operating in hot standby mode are reintegrated into the network if required by modifying the network topology 6 3 Web based management In addition to management via SNMP the switch also supports integrated web based management This provides detailed diagnostic and configuration options for startup operation and in the event of an error as well as comprehensive network and device information 6 4 Use of the Smart Mode Smart Mode allows the user to change the operating mode of the switch by pressing the mode button Thus it is possible to change the operating mode without accessing the web based management The operating mode can be changed with the following sequences Activating the Smart Mode Selecting the desired operating mode Storing the selected operating mode by exiting the Smart Mode 7593_en_00 PHOENIX CONTACT 10 FL SWITCH SMCS 6GT 2SFP The SMCS offers the following settings with the Smart Mode Resetting to default settings Activating the PROFINET mode Exiting the Smart Mode without changes Activating the Smart Mode After the boot phase of the switch the mode button must be pressed for more than five seconds The three LEDs below the mode button blink when the Smart Mode is active When the Smart Mode becomes active the switch is in the Exit without
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