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Transcript

FL SWITCH MM HS Modular Managed Switch With 8 Ports, Extensible to 16 or 24 Ports Data Sheet 679201 06/2003 6 9 7 2 0 0 0 0 Product Features – – – – – – – – – – Modular Managed Switch 8 - 24 Ports, can be equipped with various Interface modules (twisted pair, glass fiber, polymer/HCS) 10/100 Mbit/s TP-RJ45 ports 10Base-T /100Base-TX with auto crossing and auto negotiation Supporting industrial RJ45 connectors (Variosub RJ45) with additional latching Glass fiber SC ports 100 Mbit/s 100Base-FX and POF ports 10/100 Mbit/s F-SMA connector The front/down connectivity enables flexible cable outlet directions Management via IT standard SNMP (Simple Network Management Protocol) Integrated web server for configuration and diagnostics Convenient status and diagnostic indicators on the device Labeling and marking possibilities at the station and at the interface modules 24 V DC power supply redundant Applications – – – – – – – Establishing collision-free Ethernet networks (Switched Ethernet) in industrial environments (8 - 24 ports) Robust infrastructure for industrial applications (EMC, vibrations, temperature range) Flexible mix of connection options regarding number of ports, connector and transmission medium. Cost-effective and quick FO assembly with polymer and HCS fibers Flexible cable outlets either facing downward or forward according to the individual installation and application, e.g. conveniently facing forward in the control cabinet or downward in decentral housings to save space Management, protocols and functions are compatible to office standards - important for continuity in global company networks Simple startup, configuration, diagnostics with the "Factory Manager" software tool. 679201 1 FL SWITCH MM HS The Modular Managed Switch System Ethernet in Your Industrial Application Adaptable to customized needs for number of ports, connector and transmission medium options, the modular Factory Line Ethernet switch is scaleable for small and large scale applies. Factory Line modular switches are the first industrial switches that can be extended from 2 ports to 24 ports. For the first time, highly modular 2-port interface modules enable a flexible cable outlet, either facing downward or forward and for twisted pair or glass fibers or for cost-effictive polymer fibers or HCS fibers. Due to the very compact design with a depth of only 115 mm (incl. DIN rail) it can be used in junction boxes. Cabling can be Adjusted Freely Cable outlet either facing downward or forward - the Ethernet cables of the modular switch will go in the right direction. Conveniently facing forward in the control cabinet or downward in decentral housings saving space. Factory Line switches adapt to your requirements. 2 High Immunity to Mechanical Shock and vibration Standard and additional safety for twisted pair: For the RJ45 connector, the interface modules offer additional protection against mechanical strain, shocks and vibrations. The connector always has pin compatibility with standard cables and test devices. Fiber Optics - Easy Handling Polymer fibers which are easy to assemble can also be used for Fast Ethernet. Jumper the distances up to 50 m with this cost-effective FO technology. Benefit from all cost advantages: cost-effective FO cables, connectors, and fast assemby to the interfaces. 679201 FL SWITCH MM HS Front View/Operating Elements/Slots of the Head Station D ia g n o s tic s / s ta tu s d is p la y F u n c tio n s w itc h fo r L E D s D ia g n o s e d is p la y L N K M O D E A C T L a b e lin g fie ld M A C a d d re s s 1 0 0 F D M O D E F L S W IT C H M M H S O rd . N o . 2 8 3 2 3 2 6 L N K M O D E L N K M O D E 1 1 1 2 2 2 2 X 1 X 2 C o n n e x p a n s (o u s y s te m L N K M O D E 1 X 3 X 4 e c tio n fo r io n m o d u le tg o in g in te r fa c e ) R e s e t U S 1 M A C A d d re s s 0 0 A 0 4 5 1 B D D U S 2 F a il U S 1 G N D U S 2 G N D R 1 R 2 V .2 4 R e s e t b u tto n C o n n e c tio n V o lta g e s u p p ly A la r m c o n ta c t M in i D IN V .2 4 S lo ts fo r m e d ia m o d u le s 6 7 9 6 0 0 1 0 Front View/Slots of the Expansion Module S lo t G u id e b a r s h e a d s ta tio n / e x p a n s io n m o d u le P o s itiv e la tc h e s D ia g n o s tic s / s ta tu s in d ic a tio n s C o n n e c tio n fo r fir s t e x p a n s io n m o d u le / h e a d s ta tio n ( in c o m in g s y s te m in te r fa c e ) L N K M O D E L N K M O D E 1 1 2 X 2 2 X 3 X 4 L a b e lin g fie ld E th e rn e t p o rts C o n n e c tio n d ir e c tio n : b o tto m 679201 L N K M O D E 1 2 X 1 E th e rn e t p o rts C o n n e c tio n d ir e c tio n : fr o n t L N K M O D E 1 2 C o n n e c tio n fo r s e c o n d E x p a n s io n m o d u le ( o u tg o in g s y s te m in te r fa c e ) S lo ts fo r m e d ia m o d u le s 6 7 9 6 0 0 1 1 3 FL SWITCH MM HS Connection of the Voltage Supply/Grounding and Assignment of the IP Address The 24 V supply voltage and the alarm contact are connected via two terminal blocks with screw interlock on the front. Loosen the interlocking screw and remove the respective terminal block to connect the cables. The switch is designed for SELV operation according to IEC 950 / EN 60950 / VDE 0805. Only SELV according to defined standards may be used to supply and connect the alarm contact. Connecting the Supply Voltage Redundant 24V power supplies can be connected. Both voltage inputs are electrically isolated from one another and the housing. For redundant voltage supplies only the higher of the two voltages supplies the switch. For non-redundant voltage supplies, the alarm contact indicates the failure of the supply voltage and the FAIL LED. You can prevent this alarm message by connecting both terminals in parallel to the voltage supply ( see Figure 1) or by deactivating the monitoring function of the supply voltage in the web-based management. U S 1 U S 2 G N D G N D 2 4 V D C Figure 1 U S 1 U S 2 G N D G N D 2 4 V D C 2 4 V D C 6 7 9 2 0 0 0 6 Example connection of the voltage supply and alarm contact Alarm Contact Connection The alarm contact monitors the operation of the switch and thus enables remote diagnostics. The alarm contact is electrically isolated and is closed during correct operation. A malfunction is indicated if the contact is interrupted. The alarm contact can be connected as shown in Figure 1 or it can be supplied from an independent power supply. Connection to Functional Earth Ground The switch is snapped onto a grounded DIN rail and thus is connected with the ground potential. Assigning the IP Address For IP address assignment there are three different mechanisms: BootP, DHCP or via the V.24 interface. As default upon delivery, the IP address is assigned via BootP. The configuration software Factory Manager has been optimized for use with modular switches and enables the easiest way to assign the IP address. The assignment mechanism can be modified via the web-based management of the RS232 (V.24) interface. 4 679201 FL SWITCH MM HS 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 (>1522 bytes or CRC error) as well as fragments (< 64 bytes) are rejected. Valid data telegrams are forwarded by the switch. The switch always forwards the data using the data transmission rate that is used in the target network segment. Multi-Address Function The switch automatically learns the addresses of the termination devices that are connected via the port by evaluating the source address in the data telegrams. Only packets with unknown addresses, with a source address of this port or with a multi/broadcast address in the target address field are forwarded via the corresponding port. The switch can store up to 8000 addresses in its address table with an aging time of 40 seconds (default - via SNMP adjustable from 10 to 825 seconds). This is possible if more than one termination device is connected to one or more ports. In this way, several independent subnetworks can be connected to one switch. Diagnostics via Alarm Contact On a restart, the switch executes a hardware selftest. In the event of an error during the selftest, the alarm contact is opened. During operation, an integrated watchdog monitors the cyclic execution of the software program. If the watchdog is not cyclically triggered by the software, the alarm contact is opened. Status and Diagnostic Indicators and Diagnostic Display The 2-digit diagnostic display and LED indicators, provides a precise status. In the event of an error, the error code provides precise information on the error cause. This prevents a long search for error causes, and allow plant floors maintence personnel local diagnostics without additional tools. Auto Crossing: Due to auto crossing of the transmit and receive cables of a twisted pair interface, it is no longer necessary to differentiate between a 1:1 cable or a cross-over Ethernet cable. Auto Negotiation Auto negotiation is a function whereby the switch automatically recognizes the operating parameters for the connected network and sets the corresponding parameters (10 Mbit / 100 Mbit 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. Auto Polarity Exchange The polarity is changed automatically by the switch if a pair of twisted-pair receiving cables (RD+ and RD-) are connected incorrectly. Cable Monitoring Twisted pair: The switch uses link test pulses according to standard IEEE 802.3 at regular intervals to monitor the connected TP/TX cable segments for short circuits and interrupts. Fiber optics: According to standard IEEE 802.3, the switch monitors the connected FO cables for interrupts. 679201 5 FL SWITCH MM HS Software functions SNMP SNMP (Simple Network Management Protocol) enables Ethernet communication monitoring via network management systems also. Due to SNMP managements systems such as a PC with the Factory Manager on it have the possibility to read and modify configuration data and diagnostic data of the network devices. Supported MIBs: SNMP (Enterprise, MIB II, Bridge, RMON, IF- MIB), RMON MIB with the following groups: 1-statistics, 2-history, 3-alarm, and 9-event Prioritizing The switch supports two priority queues (traffic classes according to IEEE 802.1D). Received data telegrams are assigned to these classes according to their priority, which is specified in the VLAN tag. This function prevents delays in high-priority data transmission, due to large amounts of low-priority data traffic. Low-priority traffic is rejected when the memory or data channel is overloaded. Tagging For VLAN and prioritizing functions, standard IEEE 802.1 Q requires that the VLAN tag is included in a MAC data frame. The VLAN tag consists of four bytes and is entered between the source address field and the type field. The switch uses the VLAN tag to evaluate three bit priority field in data packets that contain the VLAN tag. The MAC frame is transferred by the switch without modifications. Redundancy IEEE 802.1D - Fast Spanning Tree Protocol (in Preparation) Spanning Tree is a procedure enabling the use of redundant Ethernet structures. Via Spanning Tree, the meshed topologies of the redundant structures are suppressed logically and are converted to tree structures. In meshed networks, the connection between two nodes may be possible via two or more paths (Loops). 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 a Spanning Tree algorithm. These loops are eliminated by temporarily switching off the individual switch ports in a controlled way. All active ports as well as deactivated ports receive data packets. However, these data packets are only forwarded by active ports. The deactivated ports operating in hot standby mode are integrated into the network whenever necessary by modifying the network topology. Virtual LANs - VLANs (in Preparation) The abbreviation VLAN means "virtual LAN". It is a network structure with all features of the commonly used LAN, however without spatial restrictions. The distances between LAN stations are restricted. VLAN, however, makes it possible to connect knodes with a long distance to a virtual local network. In the same way the ports of a local switch can be connected to different independent VLANs. VLANs are networks that can be logically divided into segments. Without spatial restriction it is possible to combine servers and workstations to dynamic work groups according to their function. VLANs can be installed transparently and without physical modification of the network. The VLAN is a broadcast domain and a collision domain that may also include several switches. The broadcast traffic is only visible in the respective VLAN. This way to completely isolate the VLANs from each other, increases safety and reduces load. Within the VLAN no routing is necessary. Using different criteria (switch port, MAC address, protocol in a network layer, logical network address, application), all network devices from different segments can be united to form a virtual network without the network being restructured physically. Web-Based Management Apart from the management via SNMP, the switch supports integrated web-based management This enables detailed ways for diagnostics and configuration during startup, operation and in the event of an error, as well as comprehensive network an device information. 6 679201 FL SWITCH MM HS Security – – Port Activation/Deactivation: Disable unused ports to prevent unauthorized access. Password protected settings - allow switch monitor all, modification from authorized personnel. Functions/Information in the Web-Based Management General Instructions General Description of the Web Sites Device Information - General Information on the Device and on the Manufacturer - Technical Data The Most Important Technical Data - Hardware Installation Figure showing how to connect the component - Local Diagnostics Explanation of the local status indicators and diagnostic displays (LEDs and display) - Serial Port List of transmission parameters for serial communication. General Configuration - IP Configuration Display or modification of the current IP parameter as well as of the addressing mechanism - SNMP Configuration Display/modification of the customer-specific device description and the trap configuration - Software Update Display or modification of the parameters for the TFTP software update - Configuration Management Specifications for saving the active configuration as well as the option to set the switch back to default upon delivery. - Change Password Modifying the current password Switch Station - Remote Diagnostics Presentation of the 7 segment display, the alarm contact status and the voltage supply. - Alarm Contact Configuring the states that are to be reported via the contact - Other Services Activating/deactivating the SNMP agent, the web servers or the Telnet interface - Ports - Port Table Activating/deactivating individual ports - Port Configuration Individual configuration for every individual port - Port Statistics Detailed statistic information on the data volume of every individual port - Port Mirroring Activating/deactivating and setting the port mirroring 679201 7 FL SWITCH MM HS RS232 (V.24) Communication Interface for External Management General Functions A local communication connection for configuration can be created in mini DIN format between the head station and a PC via a V.24 interface. You can implement the following settings in the terminal interface: – Assign the IP address – Assign the sub network mask – Determine the default gateway – Activate/deactivate BootP – Activate/deactivate DHCP – Request "Save parameters“ – Request "Restart" – Request "Reset to Factory Defaults“ 8 679201 FL SWITCH MM HS Technical Data General Data Function Switching method Address table SNMP Supported MIBs Housing dimensions (width x height x depth) in mm Head station Head station with an extension module Head station with two extension modules Permissible operating temperature Permissible storage temperature Degree of protection Class of protection Laser protection - FO interface module Humidity Operation Storage Air pressure Operation Storage Mounting location Connection to protective earth ground Weight Supply Voltage (US1 / US2 Redundant) Connection Nominal value Permissible voltage range Current consumption at US Power consumption 679201 Modular managed Ethernet/Fast Ethernet switch; conforms to standard IEEE 802.3 Store and forward for 8000 MAC addresses Version 1 and 2c MIB II, RMON MIB, If MIB, Etherlike MIB and the private SNMP objects from Phoenix Contact 214 x 95 x 107 (depth from upper edge DIN rail) 341 x 95 x 107 (depth from upper edge DIN rail) 468 x 95 x 107 (depth from upper edge DIN rail) 0°C to 55°C (32°F to +131°F) -20°C to 70°C (-4°F to 158°F) IP 20, DIN 40050, IEC 60529 Class 3 VDE 0106; IEC 60536 Class 1 according to EN 60825-1 10% to 95%, no condensation 10% to 95%, no condensation 80 kPa to 108 kPa, 2000 m (6562 ft.) above sea level 70 kPa to 108 kPa, 3000 m (9865 ft.) above sea level Perpendicular to a standard DIN rail Snapped onto a grounded DIN rail 1350 g, typical via COMBICON; cable diameter 2.5 mm2 (14 AWG), maximum 24 V DC 18.0 V DC to 32.0 V DC 0,35 - 3,5 A, depending on the configuration (Extensions / interface modules) see example on Page 12 8.4 - 78 W, depending on the configuration (Extensions / interface modules) 9 FL SWITCH MM HS Interfaces Interfaces at FL SWITCH MM HS Slot for interface modules Number of slots Connection medium Number of Ethernet ports Head station Head station and an extension module Head station and two extension modules System interface for extension module Number of extension modules Transmitted signal V.24 communication interface Connection format 4 Via interface modules, flexible media support 8 16 24 2 Supply voltage, control signals, data Mini-DIN female connector Local Diagnostic and Status Indicators Des. Color Status Meaning US1 Green ON Supply voltage 1 for the electronics module in the tolerance zone OFF Supply voltage 1 is less than 18 V DC US2 Green ON Supply voltage 2 for the electronics module in the tolerance zone OFF Supply voltage 2 is less than 18 V DC FAIL Red ON Alarm contact open, i.e., an error has occurred OFF Alarm contact closed, i.e., an error has not occurred There is link LED for each port above the slot of the interface module LNK Green ON Link active (Link) OFF Link not active There is a further LED for each port above the slot of the interface module. The function of the second LED (MODE) per port can be selected using a switch at the head station for all ports (see also following example). Three switch-over options can be selected: ACT Yellow ON Transmitting and/or receiving telegrams (Activity) OFF No receiving/transmitting of telegrams FD Green ON Full Duplex (Duplex ) OFF Half duplex, if link LED is active 100 Green ON 100 Mbit/s OFF 10 Mbit/s if link LED is active 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 10 Operation: 25 g, 11 ms period, half-sine shock pulse Storage/transport 50 g, 11 ms period, half-sine shock pulse Operation/storage: 5g, 150 Hz, Criterion 3 1 m (3.281 ft.) 679201 FL SWITCH MM HS Conformance With EMC Directives EN 55011 (noise emission) Class A Warning: The limit values of the electromagnetic noise emission according to EN 55011, Class A are only kept by the modules if they are installed in a grounded metal control cabinet. Radio interference field strengths according to Class A EN 55022 Electrostatic discharge (ESD) according to Class 3; Criterion A; Air discharge 8 kV EN 61000-4-2 Contact discharge 4 kV Electromagnetic fields according to IEC 61000-4-3 10 V/m; Criterion A Conducted interference 10 VRMS; Criterion A according to IEC 61000-4-6 Fast transients (burst) Data Lines: 1 kV; Criterion A according to IEC 61000-4-4 Power Supply Lines: 2,2 kV; Criterion A Surge voltages according to IEC 61000-4-5 Data Lines: ± 1 kV unsym.; Criterion A Power Supply Lines: ± 0,5 kV sym./unsym.; Criterion A Difference to the previous version Number of MAC Addresses, Aging Time, EMC Directives and Current Consumption Ordering Data Description Modular switch with management - head station Extension module with 4 slots for eight ports Configuration cable, coupling the switch to a PC, RS 232 Universal end clamp Interface module with 2 ™ twisted pair 10/100 Mbit/s in RJ 45 format with connection direction from the front Interface module with 2 ™ twisted pair 10/100 Mbit/s in RJ 45 format with connection direction from the bottom Interface module with 2 ™ polymer fiber/HCS fiber 100 Mbit/s in F-SMA format with connection direction from the front Interface module with 2 ™ polymer fiber/HCS fiber 100 Mbit/s in F-SMA format with connection direction from the bottom Interface module with 2 ™ glass fibers 100 Mbit/s in F-SC format with connection direction from the front Interface module with 2 ™ glass fiber 100 Mbit/s in F-SC format with connection direction from the front Interface module with 1 ™ twisted pair 10/100 Mbit/s in RJ45 format and 1 ™ polymer fiber/HCS fiber 100 Mbit/s in F-SMA format with connection direction from thefront Interface module with 1 ™ twisted pair 10/100 Mbit/s in RJ45 format and 1 ™ polymer fiber/HCS fiber 100 Mbit/s in F-SMA format with connection direction from the bottom 679201 Order Designation FL SWITCH MM HS FL MXT PRG CAB MINI DIN E/NS 35 N FL IF 2TX VS-RJ-F Order No. 28 32 32 8 28 32 33 1 27 30 61 1 08 00 88 6 28 32 34 4 FL IF 2TX VS-RJ-D 28 32 35 7 FL IF 2POF 100-F 28 32 36 0 FL IF 2POF 100-D 28 32 40 9 FL IF 2FX SC-F 28 32 41 2 FL IF 2FX SC-D 28 32 42 5 FL IF TX/POF 100-F 28 32 45 4 FL IF TX/POF 100-D 28 32 46 7 11 FL SWITCH MM HS Description With the help of this converter board, the FL IF TX/POF 100... interface module can be extended to a "stand-alone media converter". RJ45 connector with additional latching, Variosub RJ45 RJ45 connector set gray for linear cable (2 pieces) RJ-45 connector set green for crossed cable (2 pieces) Assembly tool for RJ45 connector Startup/diagnostic software "Factory Manager" Software for network monitoring with HMI/SCADA systems Order Designation FL CB IF Order No. 28 32 47 0 VS-08-T-G-RJ45/IP20 FL PLUG RJ45 GR/2 FL PLUG RJ45 GN/2 FL CRIMPTOOL FL SWT FL SNMP OPC SERVER 16 52 29 5 27 44 85 6 27 44 57 1 27 44 86 9 28 31 04 4 28 32 16 6 Current Consumption - Modular Managed Switch System (Example) 350 mA 250 mA 0 mA 100 mA 200 mA 60 mA 350 mA [1] + (2 x 200 mA [5]) + (2 x 0 mA [3]) = 750 mA Station with 2 FX modules, 5 POF modules and 1 POF/TX modules 350 mA [1] + 250 mA [2] + (2 x 200 mA [5]) + (5 x 100 mA [4]) + 60 mA [6] = 1560 mA Station with 5 FX modules, 4 POF modules, 2 TX modules and 1 POF/TX modules 350 mA [1] + (2 x 250 mA [2]) + (5 x 200 mA [5]) + (4 x 100 mA [4]) + (2 x 0 mA [3]) + 60 mA [6] = 2310 mA Phoenix Contact GmbH & Co. KG Flachsmarktstr. 8 32825 Blomberg Germany + 49 - (0) 52 35 - 3-00 + 49 - (0) 52 35 - 3-4 12 00 www.phoenixcontact.com Worldwide Locations: www.phoenixcontact.com/salesnetwork 12 679201 © Phoenix Contact 06/2003 Technical modifications reserved. TNR: 90 13 22 3 Current Consumption of the Modules FL SWITCH MM HS [1] FL MXT [2] FL IF 2TX VS-RJ ... [3] FL IF 2POF 100 ... [4] FL IF 2FX SC ... [5] FL IF TX/POF 100 ... [6] Design examples Station with 2 FX modules and 2 TX modules