Ethernet/Inline Bus Terminal
Contents
1. No Yes Operable configuration Save as reference configuration No Yes Set station to RUN state Stop Stop Display 82 Display 83 Figure 18 P amp P mode activated expert mode deactivated P amp P Mode and Expert Mode Activated Read connected configuration Operable configuration Save retentively as reference configuration Station in READY state Display Stop Display 82 Figure 19 P amp P mode and expert mode activated 61560026 615503 PHCENIX CONTACT Configuration Reference configuration 61650025 33 FL IL 24 BK PAC 15 5 Changing and Starting a Configuration in P amp P Mode LS eee The following steps must be carried out when changing an existing configuration as shown in the flow chart Switch the power supply off Change the configuration Switch the power supply on A configuration is started as shown in the flowchart see Figure 16 to Figure 19 During startup please observe the following Once the terminal has been switched on the previously found configuration is read and started as long as no errors are present In addition the active configuration is saved in the EEPROM as the reference configuration All connected Inline devices are integrated in the active configuration if the DIAG LEDs are continuously lit on all modules To prevent the accidental use of the wrong con2. 36 PH NIX 615503 CONTACT FL IL 24 BK PAC Inline Bus Terminal Ethernet Communication Functions The bus terminal provides an easy means of Ethernet communication It encodes and decodes the data telegrams It also ensures the network specific addressing of the controller board in the network i e the management of the IP address Behaviour of the outputs when the Ethernet communication is interrupted Host monitoring can be used to determine whether there is still a connection between the bus termi nal host and the client user workstation and whether the client responds to inquiries With this monitoring it is also possible to detect the following error causes Cable broken or not connected Transceiver defective Errors or defects in the Ethernet adapter of the bus terminal or in the client System crash of the client Error in the TCP IP protocol stack This status monitoring can be activated for all clients with a DDI connection A connection to a client which only uses the Ethernet management cannot be monitored 615503 PHGNIX 37 CONTACT FL IL 24 BK PAC 17 Supported Firmware Services Code Servies Funn 071046 Create Configuration Reads the connected configuration and saves it as the reference configuration 0711nex Activate Configuration Tests the configuration frame 0750nex Set Value Changes the P amp P mode status 1303hex Alarm Stop Initiates an alarm stop 38 PH NI
3. CONTACT FL IL 24 BK PAC ICMP Group 1 3 6 1 2 1 5 The internet control message protocol group is mandatory for all systems It contains information about error treatment and control in Internet data traffic 5 icmp 1 icmpInMsgs 2 icmpInErrors 3 icmplnDestUnreachs 4 icmp InTimeExcds 5 icmpInParmProbs 6 icmpInSrcQuenchs 7 icmp InRedirects 8 icmpInEchos 9 icmpInEchoReps icmpInTimestamps icmpInTimestampReps icmpInAddrMasks icmpInAddrMaskReps icmpOutMsgs icmpOutErrors icmpOutDestUnreachs icmpOutTimeExcds icmpOutParmProbs 0 1 2 3 4 5 6 7 8 9 icmpOutSrcQuenchs i i i i i i i i 20 icmpOutRedirects 21 icmpOutEchos 22 icmpOutEchoReps 23 icmpOutTimestamps 24 icmpOutTimestampReps 25 icmpOutAddrMasks a P d sa za aa n e a se sa s a a a al e ai as ae el 26 icmpOutAddrMaskReps 46 PHGNIX 615503 CONTACT Transfer Control Protocol Group TCP 1 3 6 1 2 1 6 FL IL 24 BK PAC The transfer control protocol group is mandatory for all systems with implemented TCP Instances for objects which provide information about a specific TCP connection apply for as long as the connec tion is established 615503 1 tcpRtoAlgorithm 2 tcpRtoMin 3 tcepRtoMax 4 tcpMaxConn 5 tcpActiveOpens 4 ipRouteMetric2 6 tcepPassiveOpens 7 tcpA
4. Set Value service 2240hex Plug amp play mode 0 Plug amp play mode inactive Fr 1 Plug amp play mode active 22 1 Opay Expert mode 0 Expert mode inactive mn 1 Expert mode active 615503 PH NIX 35 CONTACT FL IL 24 BK PAC 16 Ethernet Communication Client Ethernet Busklemme Device Driver Interface Firmware Prozessdaten lesen und Schreiben Nachrichten senden und empfangen Ethernet adapter Local bus interface E Driver software 61540004 Figure 20 Software structure of the bus terminal Driver Software on the Workstation The driver software simplifies the creation of an application program as shown on the left hand side in Figure 20 For SUN workstations operated with Solaris a driver is enclosed in the IBS ETH UM E User Manual Order No 27 24 16 4 Since there is a large variety of different operating systems the driver soft ware is available as source code IBS ETH DDI SWD E Order No 27 24 19 3 With this documen tation you can generate libraries for different Unix systems The driver software contains the Device Driver Interface functions Data can be read and written and messages can be sent and received with these functions There are also functions for monitoring the controller board and the workstation with the application program Macro functions are used for the conversion of data between the Intel and the Motorola data format Operating System Unix SUN Solaris 2 4
5. The FE contacts are directly connected with the voltage jumper and i FE springs on the bottom of the housing The terminal is grounded when it is snapped onto a grounded DIN rail Functional earth ground is only used to discharge interfer ence PHGNIX 615503 CONTACT FL IL 24 BK PAC 5 2 24 V Segment Supply 24 V Main Supply Segment supply and main supply must have the same reference potential A floating architecture is not possible 5 3 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 through terminal point 1 1 In addition it is possible to supply the segment supply from the main power For this 1 1 2 1 must be jumpered The 24 V segment supply is protected against polarity reversal inverse parallel diode gt 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 5 4 24 V Main Power The 24 V main supply is protected against polarity reversal inverse parallel diode gt 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 prec
6. address line of a standard web browser After the web page has been loaded click on Device Configuration and then Software Update Enter the IP address of the tftp server in the TFTP Server IP Address field Then enter the file name of the firmware and the path name if necessary in Downloadable File Name In the Software Update on Next Reboot field click on Enable 2 Enter your password and click Apply to execute a reboot at a later time click on Apply and Reboot for the update to take effect immediately 28 PH NIX 615503 CONTACT FL IL 24 BK PAC 14 Transfer of I O Data The I O data of individual Inline modules is transferred via memory areas organized in a word ori ented 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 Bit Bit 1 Figure 14 Position of the user data for individual devices in the word array To achieve cycle consistency between input output data and the station bus cycle the bus terminal uses an exchange buffer mechanism This mechanism ensures that the required input output data is available at the correct time and is protected during writing reading by appropriate measures The following diagram shows the position of the user data for several devices in the word array Byte device 4 bit device 2 bit device 61550008 Figure 15 Po
7. IL 24 BK PAC 22 3 FL Device MIB The FL Device MIB contains general information about components belonging to the Factory Line product group This private FL Device MIB OID 1 3 6 1 4 1 4346 describes part of the pxcFactoryLine OID 1 3 6 1 4 1 4346 11 group MIB structure 1 pxcModules 3 flDeviceModule 11 pxcFactoryLine 11 flWorkDevice 1 flWorkBasic 1 fWorkBasicName 2 flWorkBasicDescr 3 fiWorkBasicUrl 4 flWorkBasicSerialNumber 5 flWorkBasicHWRevision 11 flWorkBasicCompMaxCapacity 12 flWorkBasicCompCapacity 2 flWorkComponents 1 fWorkComponentsTable 1 flWorkComponentsEntry 1 fWorkComponentsIndex 2 flWorkComponentsOID 3 flWorkComponentsURL 4 flWorkComponentsDevSign 5 flWorkComponentsPowerStat 11 flWorkComponentsStrongReset 3 flWorkTraps 0 fiWorksTrapsDelemeter 1 flWorkFWPasswdAccess 2 flWorkFWHealth 3 f iWorkFWConf 11 flWorkFirmware 1 flWorkFWInfo 1 flWorkFWInfoVersion 2 flWorkFWInfoState 3 flWorkFWInfoDate 4 flWorkFWInfoTime 54 PHGNIX 615503 CONTACT FL IL 24 BK PAC 5 6 7 fIWorkFWInfoBootState 8 A 9 flWorkFWInfoBootTime 11 fIWorkFWInfoOperStatus 12 flWorkFWInfoHealthT ext 2 flWorkFWCtrl 1 flWorkFWCtrlBasic 1 flWorkFWCirlReset 2 flWorkFWCirlTrapDestCapacity 2 fiWorkFWCtrlTrapDest 1
8. connections between two structure components and for connections between two terminal devices To distinguish between the two cable types green bending protection bushings should be used for crossover cables and gray bending protection bushings for 1 1 wired cables The cables required between the corresponding components from Phoenix Contact are specified in the following table example FL HUB 10BASE T FL MC 10BASE T FO POF IBS S7 400 ETH DSC I T 8 FL HUB AGENT SWITCH FL IBS SC I T IBS 24 ETH DSCII T FL O FL HUB 10BASE T C O C O 1 1 FL HUB AGENT C O 2 O ERE PC Notebook ERE RFC 430 ETH IB ajaz RFC 450 ETH IB FL SWITCH C O O O O 2 O z O EEE pre 2 O 2 O FL IBS SC I T FL IL 24 BK FL MC 10BASE T FO POF C O ag O 2 O z O 2 1 1 1 1 1 1 1 aan C O C O O C O O C O C O O O O 2 O PC Notebook i RFC 430 ETH IB RFC 450 ETH IB IBS 24 ETH DSCII T IBS S7 400 ETH DSC I T 1 1 1 1 1 1 2 O O 2 O 2 O O 2 O 2 O 2 O O a a a a O a n W deep E O e E a ee a ee O pe O T O O 2 O 2 O Q O 2 O O O OG O 2 O 2 O 2 O 2 O 2 O 615503 PH NIX 15 CONTACT FL IL 24 BK PAC 8 Startup 8 1 Starting the Firmware The firmware is started after the device has been connected to the power supply or the reset key has been pressed The following seq
9. flWorkFWCtrlTrapDestTable 1 flWorkFWCtrlT rapDestEntry 1 flWorkFWCtrlTrapDestIndex 2 fiWorkFWCtrlTrapDestlPAddr 3 flWorkFWCtrlPasswd 1 flWorkFWCtrlPasswdSet 2 fiWorkFWCtrlPasswdSuccess 4 flWorkFWCtrlUpdate 1 flWorkFWCtrlUpdateEnable 2 flWorkFWCtrITftpIPAddr 3 flWorkFWCtrITftpFile 5 flWorkFWCtrlConf 1 flWorkFWCtrlConfStatus 11 flWorkFWInfo 1 flWorkFWParamSaveConfig 12 flWorkRptr flWorkBasicName OID 1 3 6 1 4 1 43846 11 11 1 1 Syntax DisplayString Access Read write Description Contains the device name corresponds to sysName from MIB2 615503 PHGNIX 55 CONTACT FL IL 24 BK PAC fiWorkBasicDescr OID Syntax Access Description flWorkBasicName OID Syntax Access Description 1 3 6 1 4 1 4346 11 11 1 2 DisplayString Read write Contains a brief description corresponds to sysDescr from MIB2 1 3 6 1 4 1 43846 11 11 1 3 DisplayString Read Contains the URL of the device web page for WBM flWorkBasicSerialNumber OID Syntax Access Description 1 3 6 1 4 1 4346 11 11 1 4 Octet String 12 Read Contains the serial number of the device flWorkBasicHWRevision OID Syntax Access Description 1 3 6 1 4 1 4346 11 11 1 5 Octet String 4 Read Contains the hardware version of the device flWorkBasicCompMaxCapacity OID Syntax Access Description 56 1 3 6 1 4 1 4346 11 11 1 11 Integer32 1 1024 Read Co
10. power and analog supply 50 corre sponding with the diagram ILLogic 1 A ILanalog 0 25 A PpeR 1 1 W 0 175 W PpeR 1 275 W equals 50 of 2 55 W 2 Possible logic current if the analog supply is not loaded Pperi 1 1 W A x ILLogic 0 W Pperr1 1 WA ILLogic ILLogic 1 275 W 1 1 W A l Logic 1 159 A 72 PH NIX 615503 CONTACT FL IL 24 BK PAC Safety Devices Surge voltage Input protective diodes can be destroyed by per segment supply main supply bus terminal sup manent overload ply Pulse loads up to 1500 W are short circuited by the input protective diode Polarity reversal Parallel diodes against polarity reversal in the segment supply main supply event of an error the high current through the di odes causes the preconnected fuse to blow Polarity reversal Serial diode in the lead path of the power supply bus terminal supply unit in the event of an error only a low current flows In the event of an error the fuse in the ex ternal power supply unit does not trip Ensure protection of 2 A by fuses through the external power supply unit Bus Interface of the Lower Level System Bus Interface Inline local bus without PCP communication Electrical isolation No Number of Inline terminals that can be connected Limitation through software 63 maximum Limitation through power supply unit Maximum logic current consumption of the con nected local bus modules Imax lt 2 A DC Numbe
11. set to one which is reflected in the IP address for the network class Example An IP address from class A contains a 1 byte network address and a 3 byte PC address Therefore the first byte of the subnet mask may only contain ones The remaining bits three bytes then contain the address of the subnetwork and the PC The ex tended IP address is created when the bits for the IP address and the bits for the subnet mask are ANDed Because the subnetwork is only recognized by local devices the corresponding IP address appears as a normal IP address to all the other devices Application If the ANDing of the address bits gives the local network address and the local subnetwork address the device is located in the local network If the ANDing gives a different result the data telegram is sent to the subnetwork router 22 PHGNIX 615503 CONTACT FL IL 24 BK PAC Example for a class B subnet mask Decimal notation 255 255 192 0 Binary notation 1111 1111 1111 1111 1100 0000 0000 0000 Subnet mask bits Class B Using this subnet mask the TCP IP protocol software differentiates between the devices that are connected to the local subnetwork and the devices that are located in other subnetworks Example Device 1 wants to establish a connection with device 2 using the above subnet mask Device 2 has IP address 59 EA 55 32 IP address display for device 2 Hexadecimal notation 59 EA 55 32 Binary notation 0101 1001 1
12. the Boot File field Click on OK 5 Ensure that the BootP and tftp server for the Factory Manager are activated 6 Click on OK Open the web page for the bus terminal context menu or Ctrl W Click on Device Configuration and then Software Update In the Software Update on Next Reboot field click on Enable FL IL 24 BK last update 10 39 06 software Update TFIP Server IP Address TFTP 44 FL IL 24 BK Downloadable File Name General Instructions Software Update on Next C Enable Disable Device Information Reboot Device Configuration if the software update status is set to enable the FLIL 24 DE wail try to load IP Configuration new software within the net reboot Press the apply button to change the SNMP Configuration software update status The settings wil take effect after the next reboot of Software Update the FL IL 2d DK Change Password Inline Station Enter password Apply Apply and Reboot Home 7 Enter your password and click Apply to execute a reboot at a later time click on Apply and Reboot for the update to take effect immediately 615503 PHGNIX 27 CONTACT FL IL 24 BK PAC 13 2 Firmware Update Using Web Based Management WBM Without the Factory Manager The following steps must be carried out when executing a firmware update with WBM 1 Open the web page for the bus terminal by entering the IP address for the bus terminal in the
13. the front in RJ45 format to which only a twisted pair cable with an impedance of 100 Q can be connected The data transmission rate is 10 100 Mbps The 10Base T port on the bus terminal can detect a pair of incorrectly connected receiving cables RD RD and correct them using the Auto Polarity Correction function n c Pin8 RJ45 ne Pin TD Pin6 n c Pin5 l n c Pin4 NER yee TD Pin3 i in RD Pin2 RD Pin1 Figure 6 Pin assignment of the Ethernet port in RJ45 format 7 2 Pin Assignment of Crossover 1 1 Cables RJ45 Pint RD Pin2 RD Pin3 TD E Pin4 n c a Pin5 n c Pin6 TD Pin 7 n c Pin8 n c Cross Over n c Ping RJ45 n c Pin7 LE RJ45 Pini RD Pin2 RD Pin3 TD Pin4 n c LL Pin5 n c Pin6 TD Pin 7 n c Pin 8 n c n c Pin8 RJ45 n c Pin7 RD Pin6 n c Pin5 l nc Pin4 J 7 RD Pin3 T TD Pin2 TD Pin6 _ n c Pins nc Pin4 _fo TD Pin T RD Pin2 RD Pin 1 1 1 61450014 Figure 7 Pin assignment of crossover 1 1 cables 14 PHGNIX 615503 CONTACT FL IL 24 BK PAC 7 3 Connecting Cables Between Ethernet Components To connect Ethernet components structure components or terminal devices with one another crossover cables C O or 1 1 wired cables 1 1 are required In general 1 1 wired cables are re quired between structure components and terminal devices whereas crossover cables are used for
14. 110 1010 0101 0101 0011 0010 The local subnet mask and the IP address for device 2 are then ANDed bit by bit by the software to determine whether device 2 is located in the local subnetwork ANDing the subnet mask and IP address for device 2 Subnet mask 1111 1111 1111 1111 1100 0000 0000 0000 AND IP address 0101 1001 1110 1010 0101 0101 0011 0010 Result after ANDing 0101 1001 1110 1010 01 0 0000 0000 0000 Subnet After ANDing the software determines that the relevant subnetwork 01 does not correspond to the local subnetwork 11 and the data telegram is transferred to a subnetwork router 615503 PH NIX 23 CONTACT FL IL 24 BK PAC 12 Web Based Management The FL IL 24 BK PAC has a web server which generates the required pages for web based man agement and depending on the requirements of the user sends them to the Factory Manager or a standard web browser Web based management can be used to access static information e g technical data MAC ad dress or dynamic information e g IP address status information or to change the configuration password protected 12 1 Calling Web Based Management WBM The FL IL 24 BK PAC web server can be addressed using the IP address if configured correspond ingly The bus terminal homepage is accessed by entering the URL http ip address Example http 192 168 2 81 FL IL 24 BK last update 9 15 04 en FL IL 24 BK General Instructions
15. 4 DO 4 4 inputs 500 mA 3 wire connection 24 V DC 27 26256 Analog Input Output Modules IB IL Al 2 SF 2 inputs 2 wire connection 24 V DC 0 20 mA 2 26285 4 20mA 0 10V 10V IB IL AO 1 SF 1 output 2 wire connection 24 V DC 0 20 mA 27 26298 4 20mA 0 10V IB IL AO 1 U SF 1 output 2 wire connection 24 V DC 0 10V 2727776 IB IL AO 2 U BP 2 outputs 2 wire connection 24 V DC 0 10V 10 V 27 32 732 12 PHGNIX 615503 CONTACT FL IL 24 BK PAC Special Function Modules IB IL TEMP 2 UTH 2 inputs 2 wire connection 24 V DC thermocouples 27 27 763 IB IL TEMP 2 RTD 2 inputs 4 wire connection 24 V DC resistance sensors 27 26 308 IB IL SSI 1 absolute encoder input 4 digital inputs 4 digital outputs 28 36 340 500 mA 3 wire connection 24 V DC IB IL INC 1 incremental encoder input 4 digital inputs 4 digital out 28 36 32 4 puts 500 mA 3 wire connection 24 V DC 3 wire connection 24 V DC IB IL 24 TC Thermistor terminal Power and Segment Terminals IB IL 120 PRW IN Power terminal 120 V AC with fuse 27 31704 IB IL 24 SEG Segment terminal 24 V DC 27 26 32 4 IB IL 24 SEG F Segment terminal 24 V DC with fuse 27 27 747 IB IL 230 PRW IN Power terminal 230 V AC with fuse 2740339 IB IL 24 SEG F D Segment terminal 24 V DC with fuse and diagnostics 28 36 68 3 615503 PH NIX 13 CONTACT FL IL 24 BK PAC 7 Ethernet Connection 7 1 Ethernet Interface The FL IL 24 BK PAC has an Ethernet interface on
16. 55 in the Byte Value 255 is defined as a broadcast address The telegram is therefore sent to all the computers that are in the same part of the network Examples include 004 255 255 255 198 2 7 255 or 255 255 255 255 all the computers in all the networks If the network is divided into subnetworks the subnet masks must be observed during calculation otherwise some devices may be omitted 0 x x x Addresses Value 0 is the ID of the specific network If the IP address starts with a zero the receiver is in the same network Example 0 2 1 1 refers to device 2 1 1 in this network The zero previously signified a broadcast address If older devices are used an unauthorized broad cast and the complete overload of the entire network broadcast storm may be triggered when using the IP address 0 x x x 11 Subnet Masks Routers and gateways divide large networks into subnetworks The IP addresses for individual de vices are assigned to specific subnetworks by the subnet mask The network part of an IP address is not modified by the subnet mask An extended IP address is generated from the user address and subnet mask Because the masked subnetwork is only recognized by the local computer all the other devices identifies this extended IP address as a standard IP address 11 1 Structure of the Subnet Mask The subnet mask always contains the same number of bits as an IP address The subnet mask has the same number of bits in the same position
17. 846 11 1 1 3 DisplayString Read Contains a URL for the product group http www factoryline de filBasicCompCapacity OID Syntax Access Description 52 1 3 6 1 4 1 43846 11 1 1 4 Integer32 1 1024 Read Contains the number of different components that can be used with this de vice PHGNIX 615503 CONTACT FL IL 24 BK PAC flComponentsTable fiComponentsEntry OID Syntax 1 3 6 1 4 1 4346 11 1 2 1 1 Access Generates a table with descriptions for components in the Factory Line product group which can be controlled by this management device Description fiComponentsIndex OID Syntax Access Description fiComponentsName OID Syntax Access Description fiComponentsDescr OID Syntax Access Description flComponentsURL OID Syntax Access Description 1 3 6 1 4 1 43846 11 1 2 1 1 1 Integer32 1 1024 Read Contains the product index for the component 1 3 6 1 4 1 43846 11 1 2 1 1 2 DisplayString Read Contains the designation of the component 1 3 6 1 4 1 43846 11 1 2 1 1 3 DisplayString Read Contains a brief description of the component 1 3 6 1 4 1 43846 11 1 2 1 1 4 DisplayString Read Contains the URL of a website with additional information www factoryline de fiComponentsOrderNumber OID Syntax Access Description 615503 1 3 6 1 4 1 43846 11 1 2 1 1 5 DisplayString Read Contains the order number of the component PHCENIX CONTACT FL
18. ACT FL IL 24 BK PAC 5 Connecting the Supply Voltage The module is operated using a 24 V DC SELV Typical Connection of the Supply Voltage ES Pao CONTACT FL IL 24 BK PAC RESET Ord No 2831057 E Nig Internal a F bridge e 100 sd FD COL if o 8 XMT RCV LINK 10 100 LL d 61550011 Figure 5 Typical connection of the supply voltage 615503 PHGNIX 9 CONTACT FL IL 24 BK PAC 5 1 Connector Assignment Terminal Wire Color Remark Point Connector Power Connector 24 V DC 24 V segment The supplied voltage is directly led to the voltage Us supply jumper 24 V DC 24 V supply The communications power for the bus terminal and the UL connected local bus devices is generated from this power The 24 V analog power Uana for the local bus devices is also generated 24 V DC Main power The main power is diverted to the local bus devices via the Um voltage jumpers LGND Reference po The potential is the reference ground for the communica tential logic tions power ground SGND Reference po The reference potential is directly routed to the potential tential segment jumper and is at the same time ground reference for the ground main and segment supply Functional The functional earth ground must be connected to the earth ground 24 V DC supply functional earth ground connection
19. Device Information Device Configuration Figure 12 WBM homepage 24 PHGNIX 615503 CONTACT FL IL 24 BK PAC 12 2 Structure of the Web Pages The Ethernet bus terminal web pages are divided into two with the selection menu and the relevant submenus on the left hand side and the corresponding information displayed on the right hand side Static and dynamic information about the bus terminal can be found in the following menus 12 3 Layout of the Web Pages FL IL 24 BK General Instructions Ly Information Device Information General Technical Data Hardware Installation Local Diagnostics Device Configuration IP Configuration SNMP Configuration Software Update Change Password Watchdog Hardware Inline Station Services Process Data Monitoring Process Data Watchdog Remote Diagnostics Bus Configuration Event Table 6155004 12 4 Password Protection The bus terminal is protected by two passwords case sensitive The password for read access is public while the password for read and write access is private All status changes to the bus ter minal are only possible after the password for read and write access has been entered The password can be changed at any time Your unique password must be between four and twelve characters long PHCENIX Po CONTACT 615503 FL IL 24 BK PAC 13 Firmware Update 13 1 Firmware Update Using The Factory Manager The following steps must be carrie
20. E 6 4 Installation and MOUNTING REMOVAL cccseecccsseececeeeeeeseeeeeceeeeesaeeeeseeeeessaaeeessaseessaneeesaneeesaags 7 AS MOUNINO aid A isc Berk ene testes a ta iee lau Sinatra re dda nelse reed 7 5 Connecting the supply VOIJGE sinanct enacieseccaeinetontetdsicengcntidlatentAvindecnsbenadnaaaavatiets 9 5 1 Connector ASSIGMIMGIN ss rsrs a ak ole NE erb RENE 10 5 2 24 V Segment Supply 24 V Main Supply cccccccccecsececeeeeceeeeseeeeceeeeeseeeeseeeesseeess 11 5 39 24V SEGMENT SUDDIY corner he EE 11 54 BAN MaM BONE nr ER ast Seah ans ne dak ie deres eesti Et 11 Don 2AN BK SUD 8 orien a eee a arco nee 11 5O JUMPE arane e E a a ee eee me 11 6 Supporied Inline Modules senarra ee 12 7 Ethemet connection zoome legede e Nr ker anede de ener 14 GA Ethemeninternadce soris Aa ences chaccastsinensdedeczass elelr erne Es 14 7 2 Pin Assignment of Crossover 1 1 Cables ccccccccsesececeeeeeeeeeeeeseeeeeeneeeeeseneeeeneneeeas 14 7 3 Connecting Cables Between Ethernet Components ccccsececceseeeeeeeeeeseeeeeeeeeeens 15 8 AUD ade rice dec en ERE FREE REE ROR REESE TERESE NERE E E E E REE en 16 8 1 Stanin the FINERE 3 ai citric tana nos 16 9 2 SeNdING BOOP REQUESTS sosser i a Ea A E E diate 16 9 Assigning an IP Address Using the Factory Manager ccccseeceeeeeeeeeeeteeeessaeeeeeeeeseeeesaaees 17 DE BOOR eraa RR a ee 17 9 2 Manual Addition of Devices Using The Factory Managet cccccs
21. FL IL 24 BK PAC F Ethernet Inline Bus Terminal MR IN x IE N 2 2 DUNO XINDH Li aranom Data Sheet 615503 07 2003 Product Description Ethernet Inline bus terminal Features PH NIX Ethernet coupler for the Inline I O system CONTACT FL IL 24 BK PAC Ethernet TCP IP KE Ord No 2831057 10 100 Base T X Management via SNMP FE Integrated web server y Up to 63 additional Inline modules can be 00 A0 45 50 A1 77 connected process data channel incl eight Crinia NNT pa PCP modules ee Flexible installation system for Ethernet P parameter setting via BootP web based SO Qp L mM management WBM or SNMP LINK ig C DDI software interface Device Driver Inter eee face or Modbus TCP ig i Driver software for Sun Solaris Windows NT Software interface kit for other Unix systems a 61550002 Figure 1 FL IL 24 BK PAC Applications Connection of sensors actuators via Ethernet Exchange of Inline process data via Ethernet using a Unix workstation or a Windows NT computer 615503 PHGNIX 1 CONTACT FL IL 24 BK PAC Table of Contents T General IMMORMMaAUON mica Ea are eder 4 2 Structure of the FL IL 24 BK PAC Bus Terminal cccceccccesseeceeseeeeeeseeseeseessesseeseeeeeseaes 5 3 Local Status and Diagnostic Indicators siincawiecniied comin a
22. FWS IL_BKSibk bin Select Default Gateway 0 0 0 0 optional cence Figure 10 Add New Ethernet Device dialog box in the Factory Manager 615503 PH NIX 19 CONTACT FL IL 24 BK PAC 10 Selecting IP Addresses The IP address is a 32 bit address which consists of a network part and a user part The network part consists of the network class and the network address There are currently five defined network classes classes A B and C are used in modern applica tions while classes D and E are hardly ever used It is therefore usually sufficient if a network device only recognizes classes A B and C The network class is represented by the first bits for the binary representation of the IP address The key factor is the number of ones before the first zero The assignment of classes is shown in the following table The free cells in the table are not relevant to the network class and are used for the network address The bits for the network class are followed by those for the network address and the user address Depending on the network class a different number of bits are available both for the network address network ID and the user address host ID Network HostiD IP addresses can be represented in decimal octal or hexadecimal form In decimal form bytes are separated by dots dotted decimal notation to show the logical grouping of the individual bytes 20 PHGNIX 615503 CONTACT F
23. K PAC 24 V Main Supply 24 V Segment Supply Connection method Recommended cable lengths Voltage continuation Special demands on the voltage supply Behavior in the event of voltage fluctuations Nominal value Tolerance Ripple Permissible range Current carrying capacity Safety devices Surge voltage Polarity reversal Spring cage terminals 30 m 98 43 ft maximum do not route cable through outdoor areas Through potential routing The Ug Uy supplies and the Up bus terminal supply are provided using two electrically iso lated power supply units and therefore do not have the same reference potential Voltages main and segment supply that are passed on from the bus terminal to the voltage jumpers follow the supply voltages without delay Input protective diodes can be destroyed by per manent overload Pulse loads up to 1500 W are short circuited by the input protective diode Parallel diodes against polarity reversal in the event of an error the high current through the di odes causes the preconnected fuse to blow 68 615503 PHCENIX CONTACT FL IL 24 BK PAC 24 V Bus Terminal Supply Connection method Spring cage terminals Recommended cable lengths 30 m 98 43 ft maximum do not route cable through outdoor areas Voltage continuation Through potential routing Safety devices Surge voltage Input protective diodes can be destroyed by permanent overload Pulse loads up to 1500 V are
24. L IL 24 BK PAC 10 1 Possible Address Combinations 7 bits 24 bits A OOO n _ce_ _ T T _Gk__ _ lt _ gt aa eee eee 0 0 0 0 127 255 255 255 14 bits 16 bits G 2 4 gt eas Te ee rae 128 0 0 0 191 255 255 255 21 bits 8 bits er er dg me Ee eee 192 0 0 0 223 255 255 255 28 bits ee S Class D 1111170 Identifier for multicast group 224 0 0 0 239 255 255 255 27 bits moore Class E 111111110 Reserved for future applications 240 0 0 0 247 255 255 255 Figure 11 Structure of IP addresses Special IP Addresses for Special Applications Certain IP addresses are reserved for special functions The following addresses should not be used as standard IP addresses 127 x x x Addresses The class A network address 127 is reserved for a loop back function on all computers regardless of the network class This loop back function may only be used on networked computers for internal test purposes If a telegram is addressed to a computer with the value 127 in the first byte the receiver immediately sends the telegram back to the sender The correct installation and configuration of the TCP IP software for example can be checked in this way The first and second layers of the ISO OSI model are not included in the test and should therefore be tested separately using the ping function 615503 PHGNIX 21 CONTACT FL IL 24 BK PAC Value 2
25. L IL 24 BK PAC Bus Terminal f K s a 7 N LINATHLI 2 OI 2INPRON LGOLEGZ lt ON PIO wt epee 2 esi 67 4 931 di VLN O XIND hi IL L fya IVASAWE PE 7 7S 22 16 Al 550 il oA Il 00 jl N Rs ee VA BSA SA SARS yi Figure 2 Structure of the FL IL 24 BK PAC bus terminal The bus terminal 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 not supplied as standard order as accessory 4 MAC address in clear text and as a barcode 5 Ethernet interface twisted pair cables in RJ45 format 6 Two PE contacts for grounding the bus terminal using a DIN rail on the back of the module 7 Ethernet status and diagnostic indicators 8 Reset button 9 7 segment display for the device status Ethernet communication unit 615503 PHGNIX 5 CONTACT FL IL 24 BK PAC 3 Local Status and Diagnostic Indicators Electronics Module UL Green ON _ 24 V supply 7 V communications power interface supply OK n 24 V supply 7 V communications power interface supply not OK Green ON ON Voltage is present in the main circuit 24 V DC OFF _ Voltage is not present in the main circuit Green ON 24 V segment supply is present OFF 24 V segment supply is not present Ethernet Port Green ON Operation at 100 Mbps OFF Operation at 10 M
26. Read Contains the version of the Boot Loader as a string Example for version 2 65 0x32 Ox2e 0x36 0x35 PHCENIX 29 CONTACT FL IL 24 BK PAC flWorkFWInfoBootState OID Syntax Access Description 1 3 6 1 4 1 43846 11 11 11 1 7 Octet String 6 Read Contains the Boot Loader release as a string Example for beta 0x62 0x65 0x64 0x61 fiWorkFWInfoBootDate OID Syntax Access Description 1 3 6 1 4 1 43846 11 11 11 1 8 Octet String 6 Read Contains the creation date of the Boot Loader version as a string Example for 09 03 2001 0x32 0x31 0x30 0x35 0x30 0x31 flWorkFWInfoBootTime OID 1 3 6 1 4 1 43846 11 11 11 1 7 Syntax Octet String 6 Access Read Description Contains the creation time of the Boot Loader version as a string Example for 14 10 20 0x31 0x34 0x31 0x30 0x32 0x30 flWorkFWInfoBootStatus OID 1 3 6 1 4 1 43846 11 11 11 1 11 Syntax Integer Access Read Description Contains the operating state of the firmware Problem 1 No error 2 60 PHGNIX 615503 CONTACT FL IL 24 BK PAC flWorkFWInfoHealthText OID Syntax Access Description flWorkFWCtriReset OID Syntax Access Description 1 3 6 1 4 1 4346 11 11 11 1 12 DisplayString Read Contains additional information error states for the firmware 1 3 6 1 4 1 4346 11 11 11 2 1 1 Integer Read write With write access a reset can be executed with 2 With read access the value is always 1 fl
27. Receiver 5NMP Trap ColdStart received from Inline 170 Robot 192 168 2 80 AY 2000 31 1 2001 08 28 31 Trap AReceiver 5NMP Trap ColdStart received from Inline 170 Robot 192 168 2 80 Figure 21 Trap representation in the Factory Manager using a few example traps 21 2 Traps With the FL IL 24 BK PAC The FL IL 24 BK PAC supports five traps ColdStart sent twice each time the device is restarted PasswordChange sent after the password is changed successfully FWHealth sent after any changes to the firmware operating status 615503 PH NIX 41 CONTACT FL IL 24 BK PAC 21 3 Defining the Trap Manager Traps must be sent to a trap manager to be evaluated Two appropriate network devices can be de fined as trap managers Open the SNMP Configuration dialog box in the Device Configuration menu and enter the IP addresses of the trap managers in the First Second Trap Manager IP Ad dress fields Enter the password for write access and save with Apply EDH SNMP Configuration CONTACT Name of Device FL IL 24 BK Description Ethernet bus terminal Physica Location H10 2 4 FL IL 24 BK Contact Manager General Instructions First Trap Manager IP Address fi g2 168 17 243 Device Information Second Trap Manager IF Address fazi 60 233 760 Device Configuration IP Configuration Please enter IP addresses ih dotted decimal notation e d 172 16 16 230 Minting 2 new configurati
28. WorkFWCtrlTrapDestCapacity OID Syntax Access Description 615503 1 3 6 1 4 1 4346 11 11 11 2 1 2 Integer32 1 1024 Read Contains the number of devices to which the traps are sent PHCENIX 9 CONTACT FL IL 24 BK PAC flWorkFWCtrlTrapDestTable flWorkFWCtrlTrapDestEntry OID Syntax Access Description 1 3 6 1 4 1 43846 11 11 11 2 2 1 1 Generates a table with the IP addresses of the trap managers flWorkFWCtrlT rapDestindex OID Syntax Access Description 1 3 6 1 4 1 4346 11 11 11 2 2 1 1 1 Integer32 1 1024 Read Contains the index of the target component which must receive the traps flWorkFWCtrlTrapDestIPAddr OID Syntax Access Description 1 3 6 1 4 1 43846 11 1 2 1 1 2 IPAddress Read write Contains the IP address of the target component which must receive the traps flWorkFWCtriPasswdSet OID Syntax Access Description 62 1 3 6 1 4 1 43846 11 11 11 2 3 1 Octet String 2 24 Read write IEJ A new password can be entered here with a maximum of 12 characters Ex ample Your new password should be factory3 The password must be entered a second time for confirmation Your entry is factory3factory3 Your password for write access is now factory3 PHGNIX 615503 CONTACT FL IL 24 BK PAC flWorkFWCtriPasswdSuccess OID Syntax Access Description 1 3 6 1 4 1 4346 11 11 11 2 3 2 Integer Read A messaged is displayed which inform
29. X 615503 CONTACT FL IL 24 BK PAC 18 Supported DDI Functions Seve Fonon GetIBSDiagnostic Reads the diagnostic bit register and the diagnostic parame ter register 19 Supported PCP Services Service Initiate_Request Abort Request Get OD Request Read Request Write Request Information Report Request Status Request Identify Request PNM7_Initiate_Request PNM7_Abort_Request 615503 PHGNIX 39 CONTACT FL IL 24 BK PAC Load Kbl Par Loc Request 0264hex Service Execution Remote Request OOC 1nex Read Kbl Loc Request 0203hex 20 Modbus Function Codes 7 40 PHGNIX 615503 CONTACT FL IL 24 BK PAC 21 Trap Generation When important events occur e g a configuration change the bus terminal sends a trap to a trap manager defined by the user This enables the network administrator to react quickly to these events and to ensure network availability Traps are usually only transmitted once 21 1 Representation of Traps in the Factory Manager ID Date Time Source Test AY 2000 31 1 2001 08 28 32 Trap Receiver gt SNMP Trap LinkUp an Slice 1 Port 4 received from Inline 1 0 Robot 192 168 2 801 AY 2000 31 1 2001 08 28 32 Trap Recerver gt SNMP Trap LinkUp an Slice 1 Port 3 received from Inline 170 Robot 192 168 2 80 AY 2000 31 1 2001 08 28 32 Trap Receiver 5NMP Trap LinkUp an Slice 1 Port 1 received from Inline 170 Robot 192 168 2 80 AY 2000 31 1 2001 08 28 31 Trap
30. bps Green Data transmission in full duplex mode ie Data transmission in half duplex mode Collision of data telegrams Transmission of telegrams without a collision 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 PH NIX 615503 CONTACT FL IL 24 BK PAC 4 Installation and Mounting Removal Install the FL IL 24 BK PAC on a clean DIN rail according to DIN EN 50 022 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 4 1 Mounting 1 First snap all required electronics bases vertically onto the DIN rail 61550005 Figure 3 Snapping on the electronics base 615503 PH NIX 7 CONTACT FL IL 24 BK PAC 2 Next attach the connectors to the corresponding bases 61550006 Figure 4 Plugging in the I O connector US aerea aaro omnes teen en EOE PHGNIX 615503 CONT
31. d out when executing a firmware update with the Factory Manager 1 In Device View right click on the device whose firmware you want to update Select Properties from the context menu and then the BootP Parameter tab 2 Select the Reply on BootP requests check box Eigenschaften von Ethernet Device General System BootP Parameter M Reply on BootP requests FEE BootP Parameter MAC Address 00 fao fs foo fia AB mandatory Use local TFTF server Use remote TFTP server 0 0 0 0 OP Address Boot File Chabon ineXFWAIL BKyilbk bin Select Default Gateway 0 0 0 0 optional Abbrechen Ubernehmen Figure 13 Ethernet Device Properties dialog box in the Factory Manager 3 Local tftp server Check that a valid firmware version is located in the Download directory of the Factory Manager The firmware update cannot be executed from another directory If the default settings have been used for the Factory Manager the path leads to the following directory C Programs Phoenix Contact Factory Manager Downloaa Remote tftp server Save the new firmware to the desired tftp server 26 PHGNIX 615503 CONTACT FL IL 24 BK PAC 4 Local tftp server Click on Select and select the firmware file Click on Open After confirming the file is in the Boot File field Remote tftp server Click on Use remote TFTP server and enter the file name of the firmware and the path name if necessary in
32. e address translation group is mandatory for all systems It contains information about the address assignment 3 at 1 atTable 1 atEntry 1 atlflndex 2 atPhysAddress 3 atNetAddress Internet Protocol Group IP 1 3 6 1 2 1 4 The Internet protocol group is mandatory for all systems It contains information concerning IP switch ing 4 ip 1 ipForwarding 2 ipDefaultT TL 3 iplnReceives 4 iolnHdrErrors 5 iplnAddrErrors 6 ipForwDatagrams 7 ip lnUnknownProtos 8 ipInDiscards 9 ipInDelivers 44 PHGNIX 615503 CONTACT FL IL 24 BK PAC ipOutRequests ipOutDiscards ipOutNoRoutes ipReasmTimeout ipReasmReqds ipReasmOKs ipReasmFails ipFragOKs ipFragFails ipFragCreates ipAddrTable 1 ipAddrEntry 1 ipAdEntAddr 2 ipAdEntlflndex 3 ipAdEntNetMask 4 ipAdEntBcastAddr 5 ipAdEntReasmMaxSize 21 ipRouteTable 1 ipRouteEntry 1 ipRouteDest 2 ipRoutelflndex 3 ipRouteMetrict 4 ipRouteMetric2 5 ipRouteMetric3 6 ipRouteMetric4 7 ipRouteNextHop 8 ipRouteType 9 ipRouteProto 10 ipRouteAge 11 ipRouteMask 12 ipRouteMetric5 13 ipRoutelnfo 22 ipNetToMediaTable 1 ipNetToMediaEntry 1 ipNetToMedialflndex 2 ipNetToMediaPhysAddress 3 ipNetToMediaNetAddress 4 ipNetToMediaType 23 ipRoutingDiscards
33. eeeeeeeeeeeeeeneeeees 19 10 Selecting IP Addresses aa n a a een ee 20 10 1 Possible Address Combinations cccccecccccesececeeeeeeeceseeeceseeceseeeseeeeeteneeesaseeesaeaes 21 Ti SOUDNET MASKS El cca nr ea he nn a Seeniunnavetdideehaneataceiamalteecall en unsereauagens 22 tid Structure of ine Subnet MaSK mar acne a one rene ar lee ende 22 12 Web Based Management cccccssccsssceceeeeeeseeeeeeeseeeeeeeeeseeesseeeneaeesseessaeseeserensesensasensneenens 24 12 1 Calling Web Based Management WBM cccseeeeeceeeeeceeeeeeneseeeseeeeeeeeeeeeseeeeesaees 24 12 2 Structure olhe Web PAGES eieiei eres rarere 25 123 SEAVOULOT ING Web Fages siape a a a Renere str 25 124 Password Protection cyaunicesean oen E seedede 25 TS Firmware Uppdal aneri a a 26 2 PH NIX 615503 CONTACT FL IL 24 BK PAC 13 1 Firmware Update Using The Factory Manager cccccecccseeceeeeceeeeeeeeeeeeseeeeaeeenes 13 2 Firmware Update Using Web Based Management WBM Without thesF actony Wana elvisscctuntienntbiehiese Diaries Dede aaa sends EDEN 14 TFANSTE KOR VO ae zinc tes cts bic a ke ne Sr dene ida seteudaes heel Fosen EN Eee 15 Startup Behavior of the BUS Terminal cccccccceececeeeeceeeeceeeceaeeesaueeseueeseaeessaeesseeeeseeeessaees Tet PIG Play ModE morten ennen a deuihnte 15 2 Possible Combinations of the Modes ccccccseeeccseeeeeeeeeeeseeeeeeaeeeesseeeeeseeeeesaeeeeeas 15 3 Startup Diag
34. er name Phoenix Contact GmbH amp Co 1 3 6 1 4 1 4346 2 1 2 DisplayString Read Contains the manufacturer name and address Phoenix Contact GmbH amp Co P O Box 1341 32819 Blomberg Germany PHG NIX 615503 CONTACT FL IL 24 BK PAC pxcBasicURL OID 1 3 6 1 4 1 4346 2 1 3 Syntax DisplayString Access Read Description Contains the URL for the manufacturer http www phoenixcontact com 22 2 2 FL MIB The FL MIB contains information about the Factory Line product group This private FL MIB OID 1 3 6 1 4 1 4346 describes the pxcFactoryLine OID 1 3 6 1 4 1 4346 11 group MIB structure 1 pxcModules 2 pxcFLModule 11 pxcFactoryLine 1 flGlobal 1 flBasic 1 flBasicName 2 flBasicDescr 3 flBasicURL 4 flBasicCompCapacity 2 f Components 1 flComponentsTable 1 fiGomponentsEntry 1 fiGomponentsindex 2 flComponentsName 3 flComponentsDescr 1 fliGComponentsURL 1 fiComponentsOrderNumber 615503 PHGNIX 51 CONTACT FL IL 24 BK PAC fiBasicName OID Syntax Access Description fiBasicDescr OID Syntax Access Description fiBasicURL OID Syntax Access Description 1 3 6 1 4 1 43846 11 1 1 1 DisplayString Read Contains the name of the product group Factory Line 1 3 6 1 4 1 43846 11 1 1 2 DisplayString Read Contains a brief description of the product group Ethernet installation system 1 3 6 1 4 1 43
35. figuration process data can only be accessed when P amp P mode has been deactivated 34 PHGNIX 615503 CONTACT FL IL 24 BK PAC 15 6 Changing a Reference Configuration Using the Software Effects of Expert Mode Only switch to expert mode if you want to deactivate automatic configuration and activate manual configuration using the firmware commands If expert mode object 2275pex is activated automatic startup of the connected local bus is pre vented The user must manually place the bus in RUN state by activating the configuration Activate_Configuration 0711 object or Create_Configuration 0710 object and by starting the local bus Start Data Transfer 0701 ex object In expert mode the bus terminal behaves in the same way as the gateways IBS SC I T or IBS 24 ETH DSC I T Changing a Reference Configuration Deactivate P amp P mode Activate expert mode for access to all firmware commands Place the bus in Active or Stop state e g using the Alarm Stop command The reference configuration can be downloaded or deleted The connected bus can be read using the Create Configuration command and saved as the reference configuration as long as the bus can be operated The bus is started using the Start Data Transfer command If access to process data is rejected with an error message this means that no reference configuration is present Tabelle 1 System parameters for the
36. ger of damage to equipment and or se rious 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 gt Warning The FL IL 24 BK PAC module is designed exclusively for SELV operation according to IEC 950 EN 60950 VDE 0805 Shielding The shielding ground of the connected twisted pair cables is electrically connected with the female connector When connecting network segments avoid ground loops potential transfers and voltage equalization currents using the braided shield ESD The modules are fitted with electrostatically sensitive components Exposure to electric fields or charge imbalance may damage or adversely affect the life of the modules The following protective measures must be taken when using electrostatically sensitive modules Create an electrical equipotential bonding between yourself and your surroundings e g using an ESD wristband which is connected to the grounded DIN rail on which the module will be mounted IS Housing Only authorized Phoenix Contact personnel are permitted to open the housing PH NIX 615503 CONTACT FL IL 24 BK PAC Structure of the F
37. he 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 S Total current consumption of the devices from the 7 5 V communications power n 0 2 A maximum lin Current consumption of the device m from the analog supply n Index of the number of connected analog devices m 1 to b b Index of the 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 615503 PHGNIX 71 CONTACT FL IL 24 BK PAC Power Dissipation Derating Using the maximum currents 2 A logic current and 0 5 A current for analog terminals in the for mula 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 in the derating curves on page 70 Make sure that the indicated nominal current carrying capacity in the derating curve is not exceeded when the ambient temperature is above 40 C 104 F Corresponding with the formula the total load of the connected I O is relevant Ppep 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 131 F 1 Nominal current carrying capacity of the communications
38. igure 16 urations in the RUN state Process data exchange is pos on page 32 sible Deactive Active A valid configuration is set to the READY state Process Figure 17 data exchange is only possible if the station was set to the on page 32 RUN state using firmware commands Active Deactive The connected configuration is stored as reference config Figure 18 uration and the station is set to the RUN state Process on page 33 data exchange is impossible Active Active A physical configuration is stored as reference configura Figure 19 tion and the is set to the Ready state Process data ex on page 33 change is only possible if the P amp P mode is deactivated and the station is set to the RUN state using firmware com mands 615503 PHGNIX 31 CONTACT FL IL 24 BK PAC 15 4 Startup Diagram of the Bus Coupler Standard Mode P amp P and Expert Mode Deactivated Read connected configuration Operable configuration Configuration Reference configuration Stop Display 83 Figure 16 Standard mode expert and P amp P mode deactivated P amp P Mode Deactivated Expert Mode Activated Read reference configuration Station in READY state Display 61560024 Figure 17 P amp P mode deactivated expert mode activated 32 PHGNIX 615503 CONTACT P amp P Mode Activated Expert Mode Deactivated Power Up FL IL 24 BK PAC Read connected configuration
39. ing Boot Loader is started BootP requests are sent bo _ Firmware is extracted o Operation o O Additional info Display Meaning S O PP P amp P mode is activated During firmware update Display Meaning 03 The firmware is downloaded from the tftp server 03 The firmware is downloaded to the memory The firmware transfer to the memory is complete Boot Loader error messages Display Meaning Remedy o o exists and is in the correct directory Check the IP address of the tftp server Activate the tftp server 17 The transfer of the firmware Check the physical connection failed during tftp download dis Establish a point to point connection play changes from 03 to 17 Make sure that the file with the specified file name Repeat the download 19 The tftp download was com Provide a valid firmware version with the pleted successfully but the file previously specified file name is not a valid firmware version website www factoryline de for the bus terminal Repeat the download 615503 PHCENIX CONTACT FL IL 24 BK PAC Firmware error messages Display Meaning Remedy S An error occurred in the firm Restart the device ware power up or reset An error occurred when ac cessing EEPROM The current configuration Use Get_Error_Info to check whether any defective could not be activated modules are present The current configuration Create a configuration which corresponds could no
40. nbenannt 25 2001 09 30 47 BootP Server gt BootP request received from unknown device MAC address 00E 0 63 4C 9E E 71 Unbenannt 25 2001 092950 General SNMP trap receiver started LInhenarnnt 7A 200 147949 General TETP serwer started Message Queue Fe For Help press F Network Scanner BootP Server Trap Receiver TFTP Server 4 Figure 9 Requesting and receiving the IP parameters gray 18 PHGNIX 615503 CONTACT 9 2 FL IL 24 BK PAC Manual Addition of Devices Using The Factory Manager Open the Add New Ethernet Device dialog box see Figure 10 by clicking on ta by selecting Add Device from the Device View context menu or by using the Ctrl A key combination Enter the desired data under Description and TCP IP Address Activate the BootP Parameter area by clicking on Reply on BootP requests Enter the MAC address It is displayed on the front plate of the bus terminal Save the configuration settings and restart the device reset key or power up The device now sends another BootP request and receives the specified IP parameters from the BootP server see Figure 9 message highlighted in gray Add Hew Ethernet Device TCP IP Address IF Address 192 168 2 80 Description Type FL IL 24 BK a Hame Inline 1 0 F obot Subnet Mask 255 255 255 0 MAC Address o jao 45 joo jig Jag mandatory f Use local TFTP server Use remote TFTP server 0 0 0 0 iP Address Boot File Name E Mactor line
41. ntains the maximum possible number of devices that can be connected 615503 PHCENIX CONTACT FL IL 24 BK PAC flWorkBasicCompCapacity OID 1 3 6 1 4 1 4846 11 11 1 12 syntax Integer32 1 1024 Access Read Description Contains the actual number of connected devices flWorkComponentsTable flWorkComponentsEntry OID 1 3 6 1 4 1 4346 11 11 2 1 1 Syntax Access Description Generates a table with the description of individual components flWorkComponentsIndex OID 1 3 6 1 4 1 4346 11 1 2 1 1 1 syntax Integer32 1 1024 Access Read Description Contains the index for the component flWorkComponentsOID OID 1 3 6 1 4 1 4346 11 1 2 1 1 2 Syntax OBJECT IDENTIFIER Access Read Description Contains the designation of OlIDs complete path entries fiComponentsURL OID 1 3 6 1 4 1 4346 11 1 2 1 1 3 Syntax DisplayString Access Read Description Contains the URL of the web page for this component with additional information fiWorkComponentsDevSign OID 1 3 6 1 4 1 4346 11 11 2 1 1 4 Syntax INTEGER 0 255 Access Read Description Contains the index entry for the component 615503 PHGNIX 57 CONTACT FL IL 24 BK PAC flWworkComponentsPowersStat OID 1 3 6 1 4 1 4346 11 11 2 1 1 5 syntax INTEGER Access Read Description Contains status information about the connected supply voltages Unknown No voltage available Supply voltage 1 OK Supply voltage 2 OK Supply voltage 1 and 2 OK O AON flWorkComponentsStr
42. on wii take 20 seconds SAMP Configuration Software Update Change Password Enter Password Apply Home 2 Figure 22 Defining the trap manager 42 PHGNIX 615503 CONTACT FL IL 24 BK PAC 22 Management Information Base MIB The FL IL 24 BK PAC supports the following MIBs Standard MIB RFC 1213 MIB II Private MIBs PhoenixContact MIB FL MIB Factory Line MIB and FL DEVICE MIB 22 1 Standard MIBs 22 1 1 RFC 1213 MIB Il System Group 1 3 6 1 2 1 1 The system group contains information about device management 1 interfaces 1 sysDescr 2 sysObjektID 3 sysUpTime 4 sysContact 5 sysName 6 sysLocation 7 sysServices Interface Group 1 3 6 1 2 1 2 The interface group contains information about device interfaces 2 interfaces 1 ifNumber 2 ifT able 1 if Entry 1 iflndex 2 ifDescr 3 4 ifMtu 5 ifSpeed 6 ifPhysAddress 7 ifAdminStatus 8 ifOperStatus 615503 PHGNIX 43 CONTACT FL IL 24 BK PAC 9 ifLastChange iflnOctets iflnUcastPkts iflnNUcastPkts iflnDiscards iflnErrors iflnUnknownProtos ifOutOctets ifOutUcastPkts ifOutNUcastPkts ifOutDiscards 20 ifOutErrors 21 ifOutQLen 22 ifSpecific 9 10 11 12 13 14 15 16 17 18 19 Address Translation Group AT 1 3 6 1 2 1 3 Th
43. ongReset OID 1 3 6 1 4 1 43846 11 11 2 1 1 11 Syntax INTEGER Access Read write Description With write access a reset can be executed with 2 With read access the value is always 1 no reset flWorkFWiInfoVersion OID 1 3 6 1 4 1 43846 11 11 11 1 1 Syntax Octet String 4 Access Read Description Contains the firmware version as a string Example for version 3 97 0x33 0x2e 0x39 0x37 flWorkFWInfoState OID 1 3 6 1 4 1 4346 11 11 11 1 2 Syntax Octet String 6 Access Read Description Contains the firmware release as a string Example for beta 0x62 0x65 0x64 0x61 58 PH NIX 615503 CONTACT fiWorkFWInfoDate OID Syntax Access Description flWorkFWinfoTime OID Syntax Access Description FL IL 24 BK PAC 1 3 6 1 4 1 43846 11 11 11 1 3 Octet String 6 Read Contains the creation date of the firmware version as a string Example for 21 05 2001 0x32 0x31 0x30 0x35 0x30 0x31 1 3 6 1 4 1 4346 11 11 11 1 4 Octet String 6 Read Contains the creation time of the firmware version as a string Example for 14 10 20 0x31 0x34 0x31 0x30 0x32 0x30 flWorkFWIinfoCopyright OID Syntax Access Description 1 3 6 1 4 1 4846 11 11 11 1 5 DisplayString 6 Read Contains the owner of the firmware copyright Copyright by Phoenix Contact GmbH amp Co 2000 flWorkFWinfoBootVersion OID Syntax Access Description 615503 1 3 6 1 4 1 43846 11 11 11 1 6 Octet String 4
44. onnected 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 The protec tive elements are only used to protect the power supply unit Jumpers i 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 is to be used for the communications power and segment voltage voltage 615503 PH NIX 11 CONTACT FL IL 24 BK PAC 6 Supported Inline Modules Digital Input Output Modules IB IL 24 DI 2 2 inputs 4 wire connection 24 V DC 27 26 20 1 IB IL 24 DI 2 NPN 2 inputs with negative logic 4 wire connection 24 V DC 2 40112 IB IL 24 EDI 2 2 input 4 wire connection with electronic overload protec 27 42 609 tion and diagnostics IB IL 24 EDI 2 DESINA 2 input 4 wire connection according to Desina specifica 27 40 32 6 tion with electronic overload protection and diagnostics IB IL 24 DO 8 8 inputs 500 mA 4 wire connection 24 V DC 27 26269 IB IL 24 DO 16 16 inputs 500 mA 3 wire connection 24 V DC 27 26272 IB IL DO 1 AC 1 output 12 V 253 V AC 500 mA 3 wire connection 28 36 748 IB IL 24 230 DOR 1 W 1 relay changeover contact 5 V 253 V AC 3A 28 36 43 4 IB IL 24 DO 2 2A 2 outputs 2 A 4 wire connection 24 V DC 27 26 24 3 IB IL 24 DO 2 NPN 2 outputs with negative logic 500 mA 4 wire connection 2740119 24V DC IB IL 2
45. r Connection method 8 pos RJ45 female connector on the bus termi nal Connection medium Twisted pair cable with a cable diameter of 0 14 m to 0 22 mm 26 AWG to 24 AWG 615503 PHGNIX 73 CONTACT FL IL 24 BK PAC mees ooo Protocols MIBs Supported protocols TCP UDP SNMP BootP TFTP HTTP DDI via TCP Modbus TCP Supported standard MIB RFC 1213 MIB Il Supported private MIBs Phoenix Contact MIB FL MIB FL Device MIB Mechanical Tests Shock test according to IEC 60068 2 27 Operation storage transport 25g 11 ms period half sine shock pulse Vibration resistance according to IEC 60068 2 6 Operation storage transport 5g 150 Hz Criterion A Free fall according to IEC 60068 2 32 1 m 8 281 ft Conformance With EMC Directives Developed according to IEC 61000 6 2 74 PHG NIX 615503 CONTACT FL IL 24 BK PAC Conformance With EMC Directives EN 55011 noise emission Criterion A Ordering Data Ethernet Inline bus terminal Connector with color print Zack marker labeling ZBFM6 seeCLIPLINE si Factory Manager network management software OPC server IBS OPC SERVER 2729127 Configuring and Installing the INTERBUS Inline Prod IB IL SYS PRO UME 27 45 55 4 uct Range User Manual RJ45 connector set gray for linear cable 2 pieces RJ45 connector set green for crossed cable 2 pieces Double sheathed Ethernet cable Flexible Ethernet cable Assembly tool for RJ45 connector Medium con
46. r can be set into the RUN state If however the reference configuration and the physical configuration are not identical the FAIL LED lights up and a process data exchange is not possible due to safety reasons There are two possibilities how you can to operate the bus nevertheless 1 Restore the original configuration so that the reference configuration and the physical configuration are identical again or 2 activate the P amp P mode so that the current physical configuration can be accepted as reference configuration 30 PHGNIX 615503 CONTACT FL IL 24 BK PAC 15 2 Expert Mode Expert mode deactivated If the expert mode is deactivated default upon delivery the error free configuration is automatically set to the RUN state If the configuration is defective or is not identical with the reference configu ration the FAIL LED lights up and a process data exchange is impossible Expert mode activated If the expert mode is active the error free configuration is set to the READY state but not automat ically into the RUN state The user must use correct firmware commands such as ACTIVATE_CONFIGURATION 0x0711 or START DATA TRANSFER 0x0701 to set the station to the RUN state 15 3 Possible Combinations of the Modes Possible combinations of the modes and their effects P amp P Expert Description Effect Diagram Mode Mode Deactive Deactive Under normal circumstances the station sets valid config F
47. ram of the BUS COUDIEL c cece ceecceseececeeeeeeeeeeaeeeeeeeeeeeeeesaeeeseeeeeseeeees 15 4 Changing and Starting a Configuration in P amp P Mode ccecccseeeeeeeeeeeeeeeeeeeaeeeeens 1 6 Elherhet COMMUNICATION seneni and dbededagsecadeanaebseaueiannavareiddensvended bek ae blee 16 1 Supported Firmware Service ccccccccccccsecccsecessecesceeesescescuecsceeeeceetesceeesceeesoueesees 162 Supported DD FUN CU OMS ssori ern e a e eee aA 169 Supported PCP SEVICE S arranoa naoa eet ee 16 4 Modbus Function CodeS aa ca a creel a satan h ns sne ner oe EGEN FO e E Ea eee 17 1 Representation of Traps in the Factory Manager sssssseeeeeerre erne 17 2 Traps With the FL IL 24 BK PAC e ccessczcsczexesve coatesssarareansyoneudtateondcaias esegactseetaceaas tees T7 Deining he Trap Manager eisiaa a E 18 Management Information Base MIB s esssssnssnssssnssnsnssssnssrrnsnrssrrnrrrnsresrnrnrresrrnsrreerensrrerreerennene TET Standard MIB SE os one A 18 27 Private MIBS seisen Ea he cue ceca dunes Mice weananiennaterean dented 193 FE Device MIB nenna a cece ecu SELER 19 Meaning of the 7 Segment Display ccccccsescccceseeeceeeeeceeeceeseseeeceuseeeceuseessseeeseueeesenseeseess 20 Technical UA racic tecdiy eats A sere tients ip ete rekte teten eet Sls oak erne En EA feat ele PHCENIX CONTACT 43 FL IL 24 BK PAC 1 General Information Warning If these instructions are not followed there is a dan
48. relevant message Click with the right mouse button on the BootP message for the device or on TE i Enter the relevant data in the Add New Ethernet Device dialog box see Figure 8 Save the configuration settings and restart the device reset key or power up Description TCP IP Address Type FLIL 24 BK gt IP Address 192 168 2 80 Name Iniine 1 0 Robot Subnet Mask 255 255 255 0 MAC Address foo ao 45 foo E as mandatory Use local TFTP server C Use remote TFTP server 0 0 0 0 IP Address Boot FileName C factory_line FW SIL_BK ilbk bin Default Gateway 0 0 0 0 optional Cancel Figure 8 Add New Ethernet Device dialog box in the Factory Manager 615503 PHGNIX 17 CONTACT FL IL 24 BK PAC Configuration View Device Messages Special 7 tE ed s 2 Se ae aa Ag Inine l 0 Robot Serice Notebook Text Unbenannt 25 2001 08 344 BootP Server lt BootP Reply sent to Inline 0 Robot 132 168 250 Unbenannt 25 2001 09 33 76 BootP Server gt BootP Requestrecerved from Inline l 0 Robot 00 40 45 00 19 A6 Unbenannt 25 2001 09 3255 BootP Serer gt BootP request received from unknown device MAC address 00E 0 63 93 9F FC Unbenannt 25 2001 09 31 56 BootP Server gt BootP request received from unknown device MAC address 00 60 08 5F 42 18 Unbenannt 25 2001 09 31 56 BootP Server gt BootP request received from unknown device MAC address 00 60 08 5F 42 161 U
49. s you whether the last change of password was successful Unknown 1 Failed 2 Successful 3 flWorkFWCtrlUpdateEnable OID Syntax Access Description 1 3 6 1 4 1 43846 11 11 11 2 4 1 Integer Read write A firmware update can be executed here on the next manual restart reset of the device Start with existing firmware 1 Execute firmware update flWorkFWCtrITftpIPAddr OID Syntax Access Description flWorkFWCtrITftpFile OID Syntax Access Description 615503 1 3 6 1 4 1 43846 11 11 11 2 4 2 lpAddress Read write Enter the IP address of the tftp server where the new firmware can be found 1 3 6 1 4 1 4346 11 11 11 2 4 3 Octet String 0 64 Read write Enter the file name of the new firmware here PHCENIX 94 CONTACT FL IL 24 BK PAC flWorkFWCtriConfStatus OID 1 3 6 1 4 1 4346 11 11 11 2 5 1 Syntax INTEGER Access Read Description Contains a status message about the current hardware configuration Configuration OK 1 Configuration faulty 2 Configuration saved 3 flWorkFWParamSaveConfig OID Syntax Access Description 64 1 3 6 1 4 1 43846 11 11 11 11 1 INTEGER Read write The active configuration can be saved in the EEPROM Do not save configuration 1 has no effect Save configuration With read access the value is always 1 PHCENIX CONTACT 615503 FL IL 24 BK PAC 23 Meaning of the 7 Segment Display During startup operation Display Mean
50. short circuited by the input protective diode Polarity reversal 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 ex ternal power supply unit does not trip Ensure protection of 2 A by fuses through the external power supply unit Minimum current consumption at nominal voltage 92 mA At no load operation i e Ethernet connected no local bus devices are connected bus inac tive Maximum current consumption at nominal voltage 1 5 A loading the 7 5 V communications power with 2 A the 24 V analog voltage with 0 5 A 615503 PHGNIX 69 CONTACT FL IL 24 BK PAC Communications Power Voltage Jumper ippl Analog Supply vonage sumpe OOo Derating of the Communications Power and the Analog Terminal Supply 15 20 25 30 35 40 45 50 55 T C 61550009 P Loading capacity of the power supply unit of communications power and analog supply in Ta C Ambient temperature in C 70 PHGNIX 615503 CONTACT FL IL 24 BK PAC Power Dissipation Formula to calculate the power loss of the electronics Prot Paus PPERI w 2 W Bb Prop 2 6 W 1 15 XX den 0 7 A X dim Where Prot Total power dissipation of the terminal P BUS Power dissipation for the bus operation without I O load permanent P PER Power dissipation with I O connected lin Current consumption of t
51. sition of the user data for several devices in the word array 615503 PHGNIX 29 CONTACT FL IL 24 BK PAC 15 Startup Behavior of the Bus Terminal The startup behavior of the bus coupler is determined by two system parameters plug amp play mode and expert mode In the delivery state the P amp P mode is activated and the expert mode is deactivated 15 1 Plug amp Play Mode P amp P mode activated The FL IL 24 BK B supports plug amp play mode P amp P This mode enables connected Inline modules to be started up in the field using the Ethernet interface without a higher level computer The P amp P status active or inactive is stored retentively on the bus terminal In the P amp P mode the connected Inline terminals are detected and their function is checked If the physical configuration is ready for startup it is stored retentively as reference configuration If the connected configuration could be installed as reference configuration the PP LED of the bus coupler lights up The P amp P mode must be deactivated again so that the reference configuration will not be overwritten next time the bus coupler is started The deactivation of the P amp P mode at the same time serves as acknowledgement of the reference configuration and the release of the process data exchange Deactivated P amp P mode In the deactivated P amp P mode the reference configuration is compared to the physical configuration If they are identical the bus couple
52. snmplInBadVersions 4 snmpInBadCommunityNames 5 snmpInBadCommunityUses 6 snmpInASNParseErrs 7 not used 8 snmplinTooBigs 9 snmpInNoSuchNames snmpInBadValues snmplinReadOnlys snmpInGenErrs snmpInTotalReqVars snmpInTotalSetVars snmpInGetRequests snmpInGetNexts snmpInSetRequests snmp InGetResponses snmpInTraps 20 snmpOutT ooBigs 0 1 2 3 4 5 6 7 8 9 21 snmpOutNoSuchNames i i i 22 snmpOutBadValues 23 not used 24 snmpOutGenErrs 25 snmpOutGetRequests 26 snmpOutGetNexts 27 snmpOutSetRequests 28 snmpOutGetResponses 29 snmpOutTraps a s a i a 30 snmpEnableAuthenTraps 615503 PHGNIX 49 CONTACT FL IL 24 BK PAC 22 2 Private MIBs 22 2 1 Phoenix Contact MIB The Phoenix Contact MIB contains manufacturer information The following groups are described in this private Phoenix Contact MIB OID 1 3 6 1 4 1 4346 pxcModules OID 1 3 6 1 4 1 4346 1 and pxcGlobal OID 1 3 6 1 4 1 4346 2 MIB structure pxcBasicName OID Syntax Access Description pxcBasicDescr OID Syntax Access Description 50 1 pxcModules 1 pxcRootModule 2 pxcGlobal 1 pxcBasic 1 pxcBasicName 2 pxcBasicDescr 3 pxcBasicURL 1 3 6 1 4 1 43846 2 1 1 DisplayString Read Contains the manufactur
53. t be activated be to the reference configuration cause the current configura Activate P amp P mode tion and the reference config Store a new configuration uration are not the same Create_Configuration Bus error the bus was Check the devices Get Diag Info he due to an error nF Networkerror sd error Check the Ethernet connection 66 PHGNIX 615503 CONTACT FL IL 24 BK PAC 24 Technical Data General Data 3 543 in x 2 835 in x 4 567 in 25 C to 85 C 13 F to 185 F IP 20 DIN 40050 IEC 60529 Humidity storage EN 60204 1 5 to 95 no condensation Air pressure operation 80 kPa to 108 kPa 2000 m 6562 ft above sea level Air pressure storage 70 kPa to 108 kPa 3000 m 9843 ft above sea level Preferred mounting position Perpendicular to a standard DIN rail Connection to protective earth ground The functional earth ground must be connected to the 24 V DC supply functional earth ground connection The contacts are directly connected with the voltage jumper and the FE springs on the bottom of the housing The terminal is grounded when it is snapped onto a grounded DIN rail Functional earth ground is only used to discharge interference Environmental compatibility Free from substances that would hinder coating with paint or varnish according to VW specifica tion Resistance to solvents Standard solvents Weight 270 g typical 615503 PHGNIX 67 CONTACT FL IL 24 B
54. ttemptFails 8 tcpEstabResets 9 tcpCurrEstab 10 tcplnSegs 11 tcepOutSegs 12 tcpRetransSegs 13 tepConnTable 1 tepConnEntry 1 tcepConnState 2 tcpoConnLocalAddress 3 tcpConnLocalPort 4 tcoConnRemAddress 5 teoConnRemPort 14 tcplnErrs 15 tcpOutRsts PHCENIX CONTACT 47 FL IL 24 BK PAC User Datagram Protocol Group UDP 1 3 6 1 2 1 7 The user datagram protocol group is mandatory for all systems with implemented UDP 7 udp 1 udpInDatagrams 2 udpNoPorts 3 udpInErrors 4 udpOutDatagrams 5 udpTable 1 udpEntry 1 udpLocalAddress 2 udpLocalPort EGP 1 3 6 1 2 1 8 The EGP group is mandatory for all systems with implemented EGP 8 egp 1 egpInMsgs 2 egpInErrors 3 egoOutMsgs 4 egoOutErrors 5 egopNeighTable 1 egoNeighEntry e egpNeighState j 11 egpNeighStateDowns 12 egopNeighIntervalHello 13 egpNeighIntervalPoll 14 egoNeighMode 15 egoNeighEventT rigger 6 egpAs fe PHCENIX CONTACT 615503 FL IL 24 BK PAC Simple Network Management Protocol Group 1 3 6 1 2 1 11 The simple network management protocol group is mandatory for all systems In SNMP devices which are optimized to support either a single agent or a single management station some of the listed objects will be described with the value 0 11 snmp 1 snmpInPkts 2 snmpOutPkts 3
55. uence is displayed Display Meaning O o 01 Boot Loader is started BootP request is sent b Firmware is extracted Firmware is started Plug amp play mode is activated Operation 8 2 Sending BootP Requests Initial Startup During initial startup the device sends a BootP request without interruption until it receives a valid IP address The requests are transmitted at varying intervals 2 s 4 s 8 s 2 s 4 s etc so that the net work is not loaded unnecessarily If valid IP parameters are received they are saved as configuration data by the device Later Startups If the device already has valid configuration data it only sends three more BootP requests on a re start If it receives a BootP reply the new parameters are saved If the device does not receive a re ply it starts with the previous configuration 16 PHGNIX 615503 CONTACT FL IL 24 BK PAC 9 Assigning an IP Address Using the Factory Manager ES AA T There are two options available when assigning the IP address reading the MAC address via BootP or manually entering the MAC address in the Add New Ethernet Device dialog box in the Factory Manager 9 1 BootP Ensure that the network scanner ise and the BootP server a have been started Connect the device to the network and the supply voltage The BootP request for the new device triggered by the device restart reset appears in the Factory Manager message window Select the
56. verter 660 nm LMC 10BASE T FO POF 27 44513 615503 PHGNIX 15 CONTACT FL IL 24 BK PAC Phoenix Contact GmbH amp Co KG Flachsmarktstr 8 32825 Blomberg Germany rep 49 0 52 35 3 00 gy 49 0 52 35 3 4 12 00 on www phoenixcontact com E amp Worldwide Locations i www phoenixcontact com salesnetwork i PHCENIX CONTACT 615503 Phoenix Contact 07 2003 Technical modifications reserved TNR 90 06 92 6
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