2878816

FL IL 24 BK-PN-PAC ETHERNET PROFINET IO/Inline Bus Coupler AUTOMATIONWORX Data Sheet © PHOENIX CONTACT - 07/2005 Description PROFINET IO/Inline bus coupler Features – – PROFINET IO/Inline bus coupler for the Inline I/O system Ethernet TCP/IP - 100BASE-TX - Management via SNMP - Integrated web server – – – – – Up to 63 other Inline modules can be connected, of which a maximum of eight can be PCP devices Flexible installation system for Ethernet Representation of process data in the browser using XML Supported protocols: TCP/UDP, SNMPv2, TFTP and ICMP (Ping), PROFINET IO Comprehensive system diagnostics Application Connection of sensors/actuators via PROFINET. Quick Start Guides for PC WorX 5 and Siemens S7 can be found in the Download Center at www.download.phoenixcontact.com. PC WorX: "Quick Start Guide PC WorX 5" (UM QS EN PC WORX 5, Order No. 26 99 86 2) Siemens S7: "Quick Start Guide STEP 7" (UM QS EN PROFINET PROXY IB, Order No. 26 99 99 8) Make sure you always use the latest version of the GSDML file and the latest documentation for the module. The latest GSDML files and documentation can be found on the Internet at www.download.phoenixcontact.com in the Download Center. Ensure that you are always working with the most recently published 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. 7149_en_00 PHOENIX CONTACT GmbH & Co. KG • Flachsmarktstraße 8 • 32825 Blomberg • Germany Phone: +49-(0) 5235-3-00 • Fax: +49-(0) 5235-3-4 12 00 • www.phoenixcontact.com www.phoenixcontact.com/salesnetwork 1 FL IL 24 BK-PN-PAC General Information Warning 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, 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. Warning The FL IL 24 BK-PN-PAC module is designed exclusively for SELV operation according to IEC 60950/ EN 60950/VDE 0805. Shielding The shielding ground of the connected twisted pair cables is electrically connected to the female connector. When connecting network segments, avoid ground loops, potential transfers, and voltage equalization currents using the braided shield. Electrostatic discharge The module contains components that can be damaged or destroyed by electrostatic discharge. When handling the module, observe the necessary safety precautions against electrostatic discharge (ESD) according to EN 61340-5-1 and EN 61340-5-2 . Housing Only authorized Phoenix Contact personnel are permitted to open the housing. 7149_en_00 PHOENIX CONTACT 2 FL IL 24 BK-PN-PAC Structure of the FL IL 24 BK-PN-PAC Bus Coupler ETHERNET Figure 1 Structure of the FL IL 24 BK-PN-PAC bus coupler The bus coupler has the following components: 1 End plate to protect the last Inline module 2 Inline diagnostic indicators 3 24 V DC supply and functional earth ground connector 4 MAC address in plain text and as a barcode 5 Ethernet interface (twisted pair cables in RJ45 format) 6 Two PE contacts for grounding the bus coupler using a DIN rail (on the back of the module) 7 PROFINET/Ethernet status and diagnostic indicators 8 Reset button 9 7-segment display for the device status 7149_en_00 PHOENIX CONTACT 3 FL IL 24 BK-PN-PAC Local Status and Diagnostic Indicators Des. Color Status Electronics Module UL Green ON OFF UM Green ON OFF US Green ON OFF Ethernet Port SF Red ON OFF BF Red ON Flashing COL Red XMT Green RCV Yellow LNK Green OFF ON OFF ON OFF ON OFF ON OFF Meaning 24 V supply, 7 V communications power/interface supply in the tolerance range 24 V supply, 7 V communications power/interface supply not in the tolerance range Voltage is present in the main circuit (+24 V DC) Voltage is not present in the main circuit 24 V segment supply is present 24 V segment supply is not present System error present (incorrect parameterization, bus error, peripheral fault) No system error, INTERBUS running without errors No link status available Link status available, no communication connection to the IO controller, connection establishment is currently active The IO controller has established an active communication connection to the IO device Collision of data telegrams Transmission of telegrams without a collision (if LNK LED active) Data telegrams are being sent Data telegrams are not being sent Data telegrams are being received Data telegrams are not being received Physical network connection ready to operate Physical network connection interrupted or not present Reset Button The reset button is on the front plate. When the reset button is pressed the Inline masterboard and the Ethernet adapter are completely reset and initialized (selftest, etc.). Inline system outputs are reset and inputs are not read. Following reset, the module is automatically started up again by the PROFINET IO controller. 7149_en_00 PHOENIX CONTACT 4 FL IL 24 BK-PN-PAC Installation and Mounting/Removal Install the FL IL 24 BK-PN-PAC on a clean DIN rail according to EN 60715 (Phoenix Contact: item NS 35...). To avoid contact resistance only use clean, corrosion-free DIN rails. End clamps must be mounted on both sides of the module to stop the terminals from slipping on the DIN rail. The functional earth ground must be connected to the 24 V DC supply/functional earth ground connection. The contacts are directly connected to the potential jumper and FE springs on the bottom of the housing. The coupler is grounded when it is snapped onto a grounded DIN rail. Functional earth ground is only used to discharge interference. Mounting 1. First, snap all required electronics bases vertically onto the DIN rail (A). Ensure that all featherkeys and keyways on adjacent terminals are interlocked (B). A1 B1 6 1 5 5 0 0 0 5 Figure 2 2. Snapping on the electronics base Next, attach the connectors to the corresponding bases. 12 1 6 1 5 5 0 0 0 6 Figure 3 7149_en_00 Plugging in the I/O connector PHOENIX CONTACT 5 FL IL 24 BK-PN-PAC Connecting the Supply Voltage The module is operated using a +24 V DC SELV. Typical Connection of the Supply Voltage US UM RESET FL IL 24 BK-PN-PAC Ord.-No.: 2878816 UL Internal jumper SF BF 1 2 00.A0.45.50.A1.77 COL 1 1 2 2 3 3 4 4 + XMT RCV LNK 10/100 + UL - + - UM - US 714900003 Figure 4 7149_en_00 Typical connection of the supply voltage PHOENIX CONTACT 6 FL IL 24 BK-PN-PAC Connector Assignment Terminal Assignment Point Connector Power Connector 1.1 24 V DC 24 V segment supply (US) 1.2 24 V DC 24 V power supply (UL) 2.1, 2.2 24 V DC (UM) Main voltage 1.3 LGND 2.3 SGND 1.4, 2.4 FE Reference potential logic ground Reference potential segment ground Functional earth ground (FE) Remark The supplied voltage is directly led to the potential jumper. The communications power for the bus coupler and the connected local bus devices is generated from this voltage. The 24 V analog voltage (UANA) for the local bus devices is also generated. The main voltage is routed to the local bus devices via the potential jumpers. The potential is the reference ground for the communications power. The reference potential is directly led to the potential jumper and is, at the same time, ground reference for the main and segment supply. The functional earth ground must be connected to the 24 V DC supply/ functional earth ground connection. The contacts are directly connected to the potential jumper and FE springs on the bottom of the housing. The coupler is grounded when it is snapped onto a grounded DIN rail. Functional earth ground is only used to discharge interference. The maximum total current flowing through the potential jumpers is 8 A. The functional earth ground must be connected through the 24 V DC supply/functional earth ground connection. 7149_en_00 PHOENIX CONTACT 7 FL IL 24 BK-PN-PAC 24 V Segment Supply/24 V Main Supply The segment supply and main supply must have the same reference potential. An electrically isolated architecture is not possible. 24 V Segment Supply An emergency stop circuit, for example, can be connected and switched on the connector between terminal points 1.1/2.1. This means that there is no segment supply via terminal point 1.1. In addition, it is possible to supply the segment supply from the main voltage. For this, 1.1/2.1 must be jumpered. The 24 V segment supply is protected against polarity reversal (inverse-parallel diode -> causes a short circuit in the event of polarity reversal) and surge voltage. It does not have short-circuit protection. The user must provide short-circuit protection. The rating of the preconnected fuse must be such that the maximum permissible load current is not exceeded. 24 V Main Supply The 24 V main supply is protected against polarity reversal (inverse-parallel diode -> causes a short circuit in the event of polarity reversal) and surge voltage. It does not have short-circuit protection. The user must provide short-circuit protection. The rating of the preconnected fuse must be such that the maximum permissible load current is not exceeded. 24 V BK Supply The 24 V BK supply is protected against polarity reversal and surge voltage. These protective elements are only used to protect the power supply unit. Jumpers Terminals 1.3 and 2.3 on the connector can be jumpered if the same reference potential is to be used for the communications power and segment voltage. 7149_en_00 PHOENIX CONTACT 8 FL IL 24 BK-PN-PAC Ethernet Connection Ethernet Interface The FL IL 24 BK-PN-PAC has an Ethernet interface on the front in RJ5 format, to which only a twisted pair cable with an impedance of 100 Ω can be connected. The data transmission rate is 100 Mbps. The 100BASE-TX port of the bus coupler can detect a pair of incorrectly connected receiving cables (RD+/RD-) and correct them using the auto polarity correction function. Figure 5 n .c . P in 8 n .c . P in 7 T D - P in 6 n .c . P in 5 n .c . P in 4 T D + P in 3 R D - P in 2 R D + P in 1 R J 4 5 Pin assignment of the Ethernet port in RJ45 format Transfer of I/O Data The I/O data of individual Inline modules is transferred via memory areas organized in a word-oriented way (separate memory areas for input and output data). The Inline modules use the memory according to their process data width. The assignment of the individual bits is shown in the following diagram: B it 1 5 B it 1 2 w o rd s 1 w o rd 1 b y te 4 b its 2 b its 6 1 5 5 0 0 0 7 Figure 6 Position of the user data for individual devices in the word array To achieve cycle consistency between I/O data and the station bus cycle, the bus coupler uses an exchange buffer mechanism. This mechanism ensures that the required I/O data is available on time and is protected by appropriate measures when writing/reading. 7149_en_00 PHOENIX CONTACT 9 FL IL 24 BK-PN-PAC The following diagram shows the position of the user data for several devices in the word array. 1 5 0 1 5 B y te d e v ic e 0 1 5 4 - b it d e v ic e 0 2 - b it d e v ic e 6 1 5 5 0 0 0 8 Figure 7 7149_en_00 Position of the user data for several devices in the word array PHOENIX CONTACT 10 FL IL 24 BK-PN-PAC Meaning of the 7-Segment Display During Startup/Operation Display 01 Meaning Boot Loader is started bo 02 Firmware is extracted Firmware is started __ -- Initializing the PROFINET IO stack Operation SL alternating Malfunction in the INTERBUS network with xx 00 alternating PROFINET device ID with -During Firmware Update An application note for firmware update via TFTP (AH EN TFTP FIRMWARE UPDATE) can be found in the Download Center at www.download.phoenixcontact.com. Display Meaning 03 04 Firmware is requested to download at TFTP server The firmware is downloaded to the memory 05 The firmware transfer to the memory is complete In the event of a System Fail (SF), the slot number is indicated on the 7-segment display. Example: Error at slot 3. Display: "SL" alternating with "03" in the second clock. Boot Loader Error Messages Display 17 19 Meaning The transfer of the firmware failed during TFTP download (display changes from "03" to "17") Remedy – Check the physical connection – Establish a point-to-point connection – Make sure that the file (with the specified file name) exists and is in the correct directory – Check the IP address of the TFTP server – Activate the TFTP server – Repeat the download The TFTP download was completed – Provide a valid firmware version with the previously specified file successfully, but the file is not a valid name firmware version for the bus coupler – Repeat the download The points under "Remedy" are recommendations; they do not all have to be carried out for every error. 7149_en_00 PHOENIX CONTACT 11 FL IL 24 BK-PN-PAC Startup Make sure you always use the latest version of the GSDML file and the latest documentation for the module. The latest GSDML files and documentation can be found on the Internet at www.download.phoenixcontact.com in the Download Center. Quick Start Guides for PC WorX 5 and Siemens S7 can be found in the Download Center at www.download.phoenixcontact.com. PC WorX: "Quick Start Guide PC WorX 5" (UM QS EN PC WORX 5, Order No. 26 99 86 2) Siemens S7: "Quick Start Guide STEP 7" (UM QS EN PROFINET PROXY IB, Order No. 26 99 99 8) Starting the Firmware The firmware is started once the device has been connected to the power supply or the reset button has been pressed. The following sequence is displayed: Display Meaning 01 bo Boot Loader is started Firmware is extracted 02 __ Firmware is started Initializing the PROFINET IO stack -- Operation Update Rate The minimum update rate is 4 ms. Always set an update rate higher than the bus cycle time. The bus cycle time can be read using DIAG+ or PC WorX. 7149_en_00 PHOENIX CONTACT 12 FL IL 24 BK-PN-PAC Diagnostic Indicators During Operation and in the Event of an Error LED Meaning Measure/Remedy in the Event of an Error States During Operation: SF OFF PROFINET IO device waiting for communication with the PROFINET IO controller. BF Flashing INTERBUS is not parameterized. RDY/RUN Flashing FAIL OFF SF OFF PROFINET IO controller established communication without any errors. BF OFF RDY/RUN ON FAIL OFF States in the Event of an Error: SF ON PROFINET IO controller was parameter- Check parameterization and correct. ized incorrectly. The INTERBUS configuraBF OFF tion that was sent from the PROFINET IO RDY/RUN Flashing controller to the PROFINET IO device FAIL ON could not be executed. Display SL alternating with 01 SF ON INTERBUS errors during operation There is a bus error or peripheral fault. BF OFF Diagnostic display indicates the slot (SL alRDY/RUN Flashing ternating with the slot number). FAIL ON Display 02 ... xx FAIL OFF SF OFF The physical communication connection Restore the physical connection. was interrupted, the PROFINET IO controlBF ON ler can no longer be reached. No link. RDY/RUN ON FAIL COL XMT RCV Link OFF OFF OFF OFF OFF Management Information Base - MIB The latest MIBs can be found on the Internet at www.download.phoenixcontact.com. 7149_en_00 PHOENIX CONTACT 13 FL IL 24 BK-PN-PAC Mapping Inputs and Outputs to PROFINET IO The module is assigned the following input and output data words: Slot Slot 0 Slot 1 Data Length 4 words IN/4 words OUT Status and Diagnostic Register Diagnostic Register The controller board diagnostic registers (diagnostic status register, diagnostic parameter register, and extended diagnostic parameter register) represent the current state of the n + 1 n 0 7 7 6 5 4 3 2 1 0 U S E R P F C T R L B u s e rro r F a u lt o n th e c o n tr o lle r b o a r d /h a r d w a r e D E T E C T D ia g n o s tic r o u tin e is a c tiv e R U N A C T IV E D a S e to C o R E A D Y n 6 5 4 U s e r e r r o r /p a r a m e te r iz a tio n P e r ip h e r a l fa u lt B U S 7 INTERBUS system for the user. Thus, it is possible to indicate the state of the bus system, error causes, as well as additional information to the application program. ta tr a n s m is s io n is a c tiv e le c te d c o n fig u r a tio n is r e a d y o p e ra te n tr o lle r b o a r d is r e a d y to o p e r a te n + 1 3 2 1 0 7 B B A S C L A R E S U S A P /S Y S _ F A IL / B /S T O P L T S Y -R E S U L T D C -R E S U L T W A R N IN G Q U A L IT Y S D S I 0 B u s s e g m e n t d is c o n n e c te d O u tp u ts w e re re s e t S ta n d a r d fu n c tio n p r o c e s s e d n e g a tiv e ly S y n c h r o n iz a tio n e r r o r o c c u r r e d F a u lty d a ta c y c le s D e fin e d w a r n in g tim e e x c e e d e d D e fin e d e r r o r d e n s ity e x c e e d e d M e s s a g e to c o n tro l s y s te m p re s e n t 5 1 5 0 C 0 0 3 Figure 8 Diagnostic Status Register Quick Start Guides for PC WorX 5 and Siemens S7 can be found in the Download Center at www.download.phoenixcontact.com. PC WorX: "Quick Start Guide PC WorX 5" (UM QS EN PC WORX 5, Order No. 26 99 86 2) Siemens S7: "Quick Start Guide STEP 7" (UM QS EN PROFINET PROXY IB, Order No. 26 99 99 8) 7149_en_00 PHOENIX CONTACT 14 FL IL 24 BK-PN-PAC Parameterization PC WorX PC WorX Version 5.0 or later is required to parameterize the PROFINET IO devices. An online data sheet with important technical data and a configuration file is integrated into PC WorX. If several versions of the configuration file are available, make sure that the file version used corresponds to the firmware/hardware version used. Other Tools The PROFINET IO device is parameterized using the configuration tool of the PROFINET IO controller. To do this, integrate the appropriate GSDML file of the device into the corresponding software tool (STEP 7/hardware configuration, etc.). Make sure that the file version used corresponds to the firmware/hardware version used. The latest version of the GSDML file can be downloaded at www.download.phoenixcontact.com. Parameters: Slot 0: Diagnostic alarm (active (default)/inactive) PROFINET IO enables the PROFINET IO device to store diagnostic information with the error location and error type. The PROFINET IO controller is informed that a diagnosis has been received via an incoming alarm. Alarms are only sent if they were enabled via parameters during startup. If the diagnosis has been removed, an outgoing alarm is sent to the controller. If at least one diagnosis is stored, the SL LED lights up. If no diagnoses are present, the SL LED is not active. Bus errors are indicated with higher priority in the display than peripheral faults. 7149_en_00 PHOENIX CONTACT 15 FL IL 24 BK-PN-PAC Technical Data General Data Function Housing dimensions (width x height x depth) Permissible operating temperature (EN 60204-1) Permissible storage temperature (EN 60204-1) Degree of protection Class of protection Humidity (operation) (EN 60204-1) Humidity (storage) (EN 60204-1) Air pressure (operation) Air pressure (storage) Preferred mounting position Connection to protective earth ground Resistance to solvents Weight PROFINET IO/Inline bus coupler 90 mm x 72 mm x 116 mm 0°C to +55°C -25°C to +85°C IP20, DIN 40050, IEC 60529 Class 3 VDE 0106; IEC 60536 5% to 90%, no condensation 5% to 95%, no condensation 80 kPa to 108 kPa, 2000 m above sea level 70 kPa to 108 kPa, 3000 m above sea level Perpendicular to a standard DIN rail The functional earth ground must be connected to the 24 V DC supply/functional earth ground connection. The contacts are directly connected to the potential jumper and FE springs on the bottom of the housing. The coupler is grounded when it is snapped onto a grounded DIN rail. Functional earth ground is only used to discharge interference. Free from substances which would hinder coating with paint or varnish (according to VW specification) Standard solvents 270 g, typical PROFINET Functions Device function PROFINET IO specification Minimum update rate PROFINET IO device Version 1.1 4 ms, depending on the size of the bus system Environmental compatibility Supported Protocols/MIBs Supported protocols Supported standard MIBs Supported private MIBs 24 V Main Supply/24 V Segment Supply Connection method Recommended cable lengths Routing 7149_en_00 PROFINET IO TCP/UDP SNMPv2 TFTP HTTP ICMP (ping) RFC 1213 (MIB II) Phoenix-Contact-MIB FL-MIB FL-Device-MIB Spring-cage terminals 30 m, maximum; do not route cable through outdoor areas Through potential routing PHOENIX CONTACT 16 FL IL 24 BK-PN-PAC 24 V Main Supply/24 V Segment Supply (Continued) Special demands on the voltage supply Behavior in the event of voltage fluctuations Nominal value Tolerance Ripple Permissible range Current carrying capacity Safety equipment Surge voltage Polarity reversal The US/UM supplies and the UBK bus coupler supply are provided using two electrically isolated power supply units and therefore do not have the same reference potential. Voltages (main and segment supply) that are transferred from the bus coupler to the potential jumpers follow the supply voltages without delay. 24 V DC -15%/+20% (according to EN 61131-2) ±5% 19.2 V to 30 V 8 A, maximum Input protective diodes (can be destroyed by permanent overload) Pulse loads up to 1500 V are short circuited by the input protective diode. Parallel diodes for protection against polarity reversal; in the event of an error the high current through the diodes causes the preconnected fuse to blow. This 24 V area must be protected externally. The power supply unit must be able to supply 4 times (400%) the nominal current of the external fuse, to ensure that the fuse blows safely in the event of an error. 24 V Bus Coupler Supply Connection method Recommended cable lengths Routing Safety equipment Surge voltage Polarity reversal Spring-cage terminals 30 m, maximum; do not route cable through outdoor areas Through potential routing Input protective diodes (can be destroyed by permanent overload) Pulse loads up to 1500 V are short circuited by the input protective diode. Serial diode in the lead path of the power supply unit; in the event of an error only a low current flows. In the event of an error the fuse in the external power supply unit does not trip. Ensure protection of 2 A by fuses through the external power supply unit. Observe the current consumption of the modules Observe the logic current consumption of each device when configuring an Inline station. This information is given in every module-specific data sheet. The current consumption can differ depending on the individual module. The permissible number of devices that can be connected therefore depends on the specific station structure. Nominal value Tolerance Ripple 7149_en_00 24 V DC -15%/+20% (according to EN 61131-2) ±5% PHOENIX CONTACT 17 FL IL 24 BK-PN-PAC 24 V Bus Coupler Supply (Continued) Permissible range Minimum current consumption at nominal voltage 19.2 V to 30 V 92 mA (At no-load operation, i.e., Ethernet connected, no local bus devices are connected, bus inactive) 1.5 A (Loading the 7.5 V communications power with 2 A, the 24 V analog voltage with 0.5 A) Maximum current consumption at nominal voltage 24 V Module Supply - Communications Power (Potential Jumper) Nominal value Tolerance Ripple Maximum output current Safety equipment - Analog Supply (Potential Jumper) Nominal value Tolerance Ripple Maximum output current Safety equipment 7.5 V DC ±5% ±1.5% 2 A DC (observe derating) Electronic short-circuit protection 24 V DC -15%/+20% ±5% 0.5 A DC (observe derating) Electronic short-circuit protection Derating of the Communications Power and the Analog Terminal Supply 1 0 0 9 0 8 0 7 0 P [% ] 6 0 5 0 4 0 3 0 2 0 1 0 0 0 5 1 0 1 5 2 0 2 5 3 0 T P [%] TA [°C] 7149_en_00 A [° C ] 3 5 4 0 4 5 5 0 5 5 6 1 5 5 0 0 0 9 Loading capacity of the power supply unit for communications power and analog supply in % Ambient temperature in °C PHOENIX CONTACT 18 FL IL 24 BK-PN-PAC Power Dissipation Formula to Calculate the Power Dissipation of the Electronics PEL = PBUS + PPERI P E L = 2 .6 W + (1 .1 W A a x S ILn) + (0 .7 W n = 0 b A x S ILm ) m = 0 Where PEL Total power dissipation in the terminal PBUS Power dissipation for bus operation without I/O load (permanent) PPERI Power dissipation with I/O connected ILn Current consumption of device n from the communications power n Index of the number of connected devices (n = 1 to a) a Number of connected devices (supplied with communications power) Total current consumption of the devices from the 7.5 V communications power (2 A, maximum) a ΣIL n n = 0 ILm Current consumption of the device m from the analog supply m Index of the number of connected analog devices (m = 1 to b) b b m ΣIL = 0 n Number of connected analog devices (supplied with analog voltage) Total current consumption of the devices from the 24 V analog supply (0.5 A, maximum) Power Dissipation/Derating Using the maximum currents 2 A (logic current) and 0.5 A (current for analog terminals) in the formula to calculate the power dissipation when the I/O is connected gives the following result: PPERI = 2.2 W + 0.35 W = 2.55 W 2.55 W corresponds to 100% current carrying capacity of the power supply unit in the derating curves on page 18. Make sure that the indicated nominal current carrying capacity in the derating curves is not exceeded when the ambient temperature is above 40°C. Corresponding with the formula, the total current carrying capacity of the connected I/O is relevant (PPERI). If, for example, no current is drawn from the analog supply, the percentage of current coming from the communications power can be increased. Example: Ambient temperature: 55°C Nominal current carrying capacity of the communications power and analog supply: 50% according to the diagram ILLogic = 1 A, ILAnalog = 0.25 A PPERI = 1.1 W + 0.175 W PPERI = 1.275 W (equals 50% of 2.55 W) Possible logic current if the analog supply is not loaded: PPERI = 1.1 W/A x ILLogic + 0 W PPERI/1.1 W/A = ILLogic ILLogic = 1.275 W/1.1 W/A ILLogic = 1.159 A 7149_en_00 PHOENIX CONTACT 19 FL IL 24 BK-PN-PAC Safety Equipment Surge voltage (segment supply/main supply/bus terminal supply) Polarity reversal (segment supply/main supply) Polarity reversal (bus terminal supply) Bus Interface of the Lower-Level System Bus Interface Electrical isolation Number of Inline terminals that can be connected Limitation through software Limitation through power supply unit Input protective diodes (can be destroyed by permanent overload) Pulse loads up to 1500 V are short circuited by the input protective diode. Parallel diodes for protection against polarity reversal; in the event of an error the high current through the diodes causes the preconnected fuse to blow. Serial diode in the lead path of the power supply unit; in the event of an error only a low current flows. In the event of an error the fuse in the external power supply unit does not trip. Ensure protection of 2 A by fuses through the external power supply unit. Inline local bus No 63, maximum Maximum logic current consumption of the connected local bus modules: Imax ≤ 2 A DC Observe the current consumption of the modules Observe the logic current consumption of each device when configuring an Inline station. This information is given in every module-specific data sheet. The current consumption can differ depending on the individual module. The permissible number of devices that can be connected therefore depends on the specific station structure. Interfaces Ethernet Interface Number Connection format Connection medium One Cable impedance 8-pos. RJ45 female connector on the bus coupler Twisted pair cable with a conductor cross section of 0.14 mm2 to 0.22 mm2 100 Ω Transmission speed Maximum network segment expansion 100 Mbps 100 m 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 7149_en_00 Operation/storage/transport: 25g, 11 ms period, half-sine shock pulse Operation/storage/transport: 5g, 150 Hz, Criterion A 1m PHOENIX CONTACT 20 FL IL 24 BK-PN-PAC Conformance With EMC Directives Developed according to IEC 61000-6-2 IEC 61000-4-2 (ESD) IEC 61000-4-3 (radiated-noise immunity) IEC 61000-4-4 (burst) IEC 61000-4-5 (surge) IEC 61000-4-6 (conducted noise immunity) EN 55011 (noise emission) Criterion B Criterion A Criterion B Criterion B Criterion A Class A Warning: Portable radiotelephone equipment (P ≥ 2 W) must not be operated any closer than 2 m. There should be no strong radio transmitters or ISM (Industrial Scientific and Medical) devices in the vicinity. 7149_en_00 PHOENIX CONTACT 21 FL IL 24 BK-PN-PAC Ordering Data Description PROFINET IO/Inline bus coupler Type FL IL 24 BK-PN-PAC Order No. 28 78 81 6 Pcs./Pkt. 1 Please note that the required GSDML file is not supplied with the device. Make sure you always use the latest version of the GSDML file. The latest GSDML files and documentation can be found on the Internet at www.download.phoenixcontact.com in the Download Center. Accessories Description PC WorX 5 for PROFINET IO Startup/diagnostic software - Factory Manager Connector, with color print Labeling field End clamp Zack "Quick" marker strip Factory Manager, network management software OPC server Gray RJ45 connector set for linear cable Green RJ45 connector set for crossed cable Double sheathed Ethernet cable Flexible Ethernet cable Assembly tool for RJ45 connector Documentation Description "Configuring and Installing the INTERBUS Inline Product Range" user manual "PC WorX 5" Quick Start Guide "STEP 7" Quick Start Guide Application note for firmware update of the device Type PC WORX 5 PN FL SWT IB IL SCN-8-CP IB IL FIELD 8 E/UK ZBFM 6-... (see CLIPLINE) FL SWT IBS OPC SERVER FL PLUG RJ45 GR/2 FL PLUG RJ45 GN/2 FL CAT5 HEAVY FL CAT5 FLEX FL CRIMPTOOL Order No. 29 85 02 6 28 31 04 4 27 27 60 8 27 27 50 1 12 01 44 2 28 31 04 4 27 29 12 7 27 44 85 6 27 44 57 1 27 44 81 4 27 44 83 0 27 44 86 9 Pcs./Pkt. 1 1 1 1 1 1 1 2 2 1 Type IB IL SYS PRO UM E Order No. 27 43 04 8 UM QS EN PC WORX 5 UM QS EN PROFINET PROXY IB AH EN TFTP FIRMWARE UPDATE 26 99 86 2 26 99 99 8 © PHOENIX CONTACT 07/2005 7149_en_00 PHOENIX CONTACT 22