Home

Switche RS20/RS30/RS40, MS20/MS30, OCTOPUS - e

1. Node in PROFINET 10 System Device number f2 4 PROFINET I0 System 100 IP address 192 168 0 11 Ethemet IV Assign IP address via IO controller Comment Figure 13 Dialog for entering the object name name of the switch and the IP parameter L Enter the same device name here O Click on Ethernet Enter the IP parameters Close the Ethernet input window L Click on OK to close the properties window The switch is now included in the configuration UM Industrial Protocols 42 Release 7 1 12 2011 PROFINET IO 3 1 Integration into a Control System Configuring IO Cycle L In the hardware configuration right click on the Switch and select Object properties Properties PN IO X1 General Addresses 10 Cycle Media Redundancy Update Time Mode E z Eactor Send clock ms Update time ms E fice gt x oo Watchdog Time Number of accepted update cycles with missing I0 data 3 v Watchdog time ms 384 000 Cancel Help Figure 14 Dialog for entering the IO Cycle L In the Properties window select the IO Cycle tab C Under Update Time Update time ms select the required update time in ms for the IO Cycle see fig 14 Under watchdog Time Number of accepted update cycles with missing IO data select the required number for the IO Cycle see fig 14 L Click on OK to close the properties window UM Industrial Pro
2. Deferred Transmissions Late Collisions Excessive Collisions MAC TX Errors Carrier Sense Errors Frame Too Long MAC RX Errors Control Bits Bit 0 Autoneg enable disable 1 enable Bit 1 Duplex mode 1 full duplex if Autoneg is disabled Interface speed in MBits s 10 100 if Autoneg is disabled Value 0 Unknown interface type Value 1 The interface is internal Value 2 Twisted pair Value 3 Optical fiber UM Industrial Protocols Release 7 1 12 2011 EtherNet IP Id Attribute Access Data type rule 8 Interface State Get USINT 9 Admin State Set USINT 10 Interface Label Get SHORT _ STRING Table 5 Ethernet Link Objekt UM Industrial Protocols Release 7 1 12 2011 2 2 EtherNet IP Parameters Description Value 0 Unknown interface state Value 1 The interface is enabled Value 2 The interface is disabled Value 3 The interface is testing Value 1 Enable the interface Value 2 Disable the interface Interface name The content of the string is vendor specific 23 EtherNet IP 2 2 EtherNet IP Parameters The switch supports additional vendor specific attributes id Attribute 100 Ethernet 64 Interface Index H 101 Port Control 65 H 102 Interface 66 Utilization H 103 Interface 67 Utilization H Alarm Upper Threshold 104 Interface 68 Utilization H Alarm Lower Threshold Access rule Get Get Set Get Get Set Get Set 105 Broa
3. Address Q addre Product Support Information Ctrl F2 FAQs Ctrl F7 Find Manual Ctrl F6 Wii Telnet Start Device Tool HIRSCHMANN Config Tools gt Eza Figure 20 Call up the Hirschmann operating program UM Industrial Protocols Release 7 1 12 2011 49 PROFINET IO 3 1 Integration into a Control System 3 1 4 Swapping devices Hirschmann devices support the device swapping function with an engineering station If identical devices are being swapped the engineering station assigns the parameters of the original device to the new device The device swapping function with Simatic S7 requires the following prerequisites S7 300 with SW release from V2 7 currently available for CPU 319 or S7 400 with SW release from V5 2 Hirschmann device SW release from 05 0 00 Neighboring device s support s LLDP Topology neighborhood relationships is configured and loaded onto SPS Device swapping requires the following conditions the replacement device is of exactly the same type as the device to be replaced the replacement device is connected to exactly the same place in the network same ports and neighboring devices the replacement device has a Profinet default configuration Set the device name to null string If all these conditions are fulfilled the engineering station automatically assigns the parameters of the original device device name IP parameters and configuration data to the replacement device
4. Partner port Any partner Cable Data Figure 19 Dialog for entering the topology L In the Properties window select the Topology tab CI Under Port Interconnection Local port select the required setting for the port see fig 19 C Under Partner Partner port select the required setting for the partner port see fig 19 L Click on OK to close the properties window UM Industrial Protocols 48 Release 7 1 12 2011 PROFINET IO 3 1 Integration into a Control System 3 1 3 Configuring the device Included with the device is the program Hirschmann Tool Calling Interface which you can install with the installation program HirschmannToolCallingInterfaceXXXXXSetup exe XXXXX software version e g 01000 After installing the program Hirschmann Tool Calling Interface you have the option of starting two Hirschmann operating programs in Simatic S7 in order to perform more detailed device configurations CO In Simatic S7 right click on a device and select Web based Interface WWW or Telnet in the drop down menu SE PROFIBUS PA PROFINET I0 E SIMATIC 300 i SIMATIC 400 E SIMATIC PC Based Control 300 400 Ethernet 1 PROFINET IO System 100 Ctrl C B SIMATIC PC Station Replace Object Edit PROFINET IO System IP addresses PROFINET IO Domain Management PROFINET IO Topology Delete Del Move Go To b Object Properties Alt Return Assign asset ID
5. RPI E Module Properties LocalENB ETHERNET MODULE 1 1 General Connection Module Info Requested Packet Interval RPI 1d ms 1 0 3200 0 ms F Inhibit Module I Major Fault On Controller If Connection Fails While in Run Mode Pu Module Fault Status Offline Cancel Apply Help Figure 5 Module properties for the Request Packet Interval RPI UM Industrial Protocols Release 7 1 12 2011 17 EtherNet IP 2 1 Integration into a Control System Note If for example a management program is occupying the Switch CPU with SNMP requests the I O connection between the programmable logic controller PLC and the Switch can be interrupted for a time As the Switch can still transmit data packages in this case the system can also still be ready for operation The monitoring of the I O connection to the Switch CPU as a failure criterion can result in system failure and is therefore less suitable as a failure criterion Example of integration from the Sample Code Library The Sample Code Library is a website from Rockwell The object of the website is to provide users with a place where they can exchange their best architecture integration applications On the website http samplecode rockwellautomation com search for catalog number 9701 This is the catalog number of an example for integrating Hirschmann switches into RS Logix 5000 rel 16 PLC firmware release 16 UM Industrial Protocols 18 Release 7 1 12 2011 Eth
6. 12 2011 About this Manual About this Manual The Industrial Protocols user manual describes how the device is connected by means of a communication protocol commonly used in the industry such as EtherNet IP and PROFINET IO The following thematic sequence has proven itself in practice Device configuration in line with the Basic Configuration user manual Check on the connection switch lt gt PLC Program the PLC The Installation user manual contains a device description safety instructions a description of the display and the other information that you need to install the device The Redundancy Configuration User Manual document contains the information you require to select the suitable redundancy procedure and configure it You will find detailed descriptions of how to operate the individual functions in the GUI and Command Line Interface reference manuals UM Industrial Protocols Release 7 1 12 2011 5 About this Manual The Industrial HiVision Network Management Software provides you with additional options for smooth configuration and monitoring Simultaneous configuration of multiple devices Graphic interface with network layout Auto topology discovery Event log Event handling Client server structure Browser interface ActiveX control for SCADA integration SNMP OPC gateway Maintenance Hirschmann are continually working on improving and developing their software Y
7. H HIRSCHMANN A BELDEN BRAND User Manual Industrial Protocols Industrial ETHERNET Gigabit Switch RS20 RS30 RS40 MS20 MS30 OCTOPUS RSR20 RSR30 PowerMICE MACH 100 MACH 1000 MACH 4000 With L2E L2P L3E or L3P software UM Industrial Protocols Technical Support Release 7 1 12 2011 HAC Support Belden com The naming of copyrighted trademarks in this manual even when not specially indicated should not be taken to mean that these names may be considered as free in the sense of the trademark and tradename protection law and hence that they may be freely used by anyone 2011 Hirschmann Automation and Control GmbH Manuals and software are protected by copyright All rights reserved The copying reproduction translation conversion into any electronic medium or machine scannable form is not permitted either in whole or in part An exception is the preparation of a backup copy of the software for your own use For devices with embedded software the end user license agreement on the enclosed CD applies The performance features described here are binding only if they have been expressly agreed when the contract was made This document was produced by Hirschmann Automation and Control GmbH according to the best of the company s knowledge Hirschmann reserves the right to change the contents of this document without prior notice Hirschmann can give no guarantee in respect of the correctness or accuracy of the information in this d
8. Industrial Protocols 14 Release 7 1 12 2011 EtherNet IP 2 1 Integration into a Control System 2 1 Integration into a Control System After installing and connecting the switch you configure it according to the Basic Configuration user manual Then O Use the Web based interface in the Switching Multicasts IGMP dialog to check whether the IGMP Snooping is activated O Use the Web based interface in the Advanced Industrial Protocols dialog to check whether EtherNet IP is activated L Use the Web based interface in the Advanced Industrial Protocols dialog to download the EDS EtherNet IP configuration file and the icon to your local computer Note If EtherNet IP and the router function are switched on at the same time malfunctions could occur with EtherNet IP for example in connection with RS Who Therefore you should switch off the router function of the device Switch off the router function in the Web based interface Routing Global dialog Switch off the router function in the Command Line interface in the configuration mode prompt Config with the command no ip routing UM Industrial Protocols Release 7 1 12 2011 15 EtherNet IP 2 1 Integration into a Control System Configuration of a PLC using the example of Rockwell software Open the EDS Hardware Installation Tool of RSLinx Use the EDS Hardware Installation Tool to add the EDS file Restart the RSLinx service so tha
9. Module 1 port 3 5 4 Module 1 port 4 Module 1 port 4 6 5 Module 2 port 1 Module 1 port 5 7 6 Module 2 port 2 Module 1 port 6 8 7 Module 2 port 3 Module 1 port 7 9 8 Module 2 port 4 Module 1 port 8 10 9 Module 3 port 1 Module 2 port 1 11 10 Module 3 port 2 Module 2 port 2 12 11 Module 3 port 3 Module 2 port 3 13 12 Module 3 port 4 Module 2 port 4 14 13 Module 4 port 1 Module 2 port 5 Table 11 Assignment of the switch ports to the Ethernet Link Object Instances UM Industrial Protocols 32 Release 7 1 12 2011 EtherNet IP 2 2 9 Supported Services 2 2 EtherNet IP Parameters The table gives you an overview of the services for the object instances supported by the EtherNet IP implementation Service code Identity Object Get Attribute All All Attributes 01H Set Attribute All 02H Get Attribute All Attributes Single OEH Set Attribute Single 10H TCP IP Interface Object All Attributes Settable Attributes 3 5 6 All Attributes Settable Attributes 3 5 6 Reset 05H Parameter 0 1 Save Parameter 0 1 Configuration 35H Vendor specific Table 12 Supported Services UM Industrial Protocols Release 7 1 12 2011 Ethernet Link Object All Attributes All Attributes Settable Attributes 6 65H 67H 68H 69H Switch Agent Object All Attributes All Attributes Settable Attributes 7 Save Switch Configuration 33 Et
10. O O O O O Drawings O O O O O Tables O O O O O Did you discover any errors in this manual If so on what page UM Industrial Protocols 66 Release 7 1 12 2011 Readers Comments Suggestions for improvement and additional information General comments Sender Company Department Name Telephone number Street Zip code City E mail Date Signature Dear User Please fill out and return this page as a fax to the number 49 0 7127 14 1600 or per mail to Hirschmann Automation and Control GmbH Department 01RD NT Stuttgarter Str 45 51 72654 Neckartenzlingen UM Industrial Protocols Release 7 1 12 2011 67 Readers Comments 68 UM Industrial Protocols Release 7 1 12 2011 Index C Index A Alarm Alarm setting C CIP Common Industrial Protocol Conformity class D Device description language E EDS Engineering Station Engineering system EtherNet IP website F FAQ G GSD GSD file GSDML GSDML File Generator Generic Ethernet Module H HIPER Ring HiVision IGMP Snooping Icon Industrial Protocols M MRP 56 38 13 35 35 15 65 50 51 39 14 71 38 40 65 35 40 35 38 39 16 15 15 38 40 5 Message URL http www hicomcenter com Module properties O ODVA ODVA website P PC Worx UM Industrial Protocols Release 7 1 12 2011 72 44 13 14 39 3 2 PROFINET IO Parameters PROFIBUS Organization 35 P
11. Procedure for swapping devices C Reset the replacement device to the state on delivery System name null string IP address 0 0 0 0 or DHCP PROFINET IO activated C Make a note of the port assignment of the original device and remove the original device from the system The PLC now detects an error C Now insert the replacement device at the same position in the network Make sure the port assignments are the same as for the original device The PLC finds the replacement device and configures it like the original device The PLC detects normal operation again If necessary reset the PLC to Run UM Industrial Protocols 50 Release 7 1 12 2011 PROFINET IO 3 1 Integration into a Control System 3 1 5 Swapping modules The PROFINET IO stack in the device detects a change in the modules connected and reports the change to the engineering station If a previously configured module is removed from the device the engineering station reports an error If a configured module that was missing is connected the engineering station removes the error message UM Industrial Protocols Release 7 1 12 2011 51 PROFINET IO 3 1 Integration into a Control System 3 1 6 Monitoring the network Topology Discovery After the user initializes the Topology Discovery the engineering station looks for connected devices a3 Topology Editor Table view Graphic view Offline online comparison Configured topology offline D
12. and information parameters The device supports 2 instances Instance 1 represents the bridge s primary RSTP instance and instance 2 represents the secondary Dual RSTP instance You will find further information on these parameters and how to set them in the Web based Interface reference manual UM Industrial Protocols Release 7 1 12 2011 27 EtherNet IP 2 2 EtherNet IP Parameters Id Attribute Access Data type Description rule 1 Bridge Identifier Set UDINT Range 0 to 61 440 in steps of 4 096 default Priority 32 768 refer to IEEE 802 1D 2004 17 13 7 2 Transmit Hold Set UINT Range 1 to 40 default 10 Count refer to IEEE 802 1D 2004 17 13 12 3 Force Protocol Set UINT Default 2 Version refer to IEEE 802 1D 2004 17 13 4 and dot1dStpVersion in RFC 4318 4 Bridge Hello Time Set UDINT Range 100 to 200 unit centi seconds 1 100 of a second default 200 refer to IEEE 802 1D 2004 17 13 6 and dot1dStpHoldTime in RFC 4188 5 Bridge Forward Set UDINT Range 400 to 3000 unit centi seconds default Delay 2100 refer to IEEE 802 1D 2004 17 13 5 and dot1dStpForwardDelay in RFC 4188 6 Bridge Max Age Set UINT Range 600 to 4000 unit centi seconds default 4000 refer to IEEE 802 1D 2004 17 13 8 and dot1dStpBridgeMaxAge in RFC 4188 7 Time Since Get UDINT Unit centi seconds Topology Change refer to dotidStpTimeSinceTopologyChange in RFC 4188 8 Topology Change Get UDINT Refer to dot
13. ro ro ro ro NMlHlO M AlO M A O M A O M Al O M AlO M H O lM H O M O M O PM O M oO hM oO Unavailable OK Error Unavailable OK Error Unavailable OK Error Unavailable OK Error Unavailable OK Error Unavailable OK Error Unavailable OK Error Unavailable OK Error Unavailable OK Error Unavailable Closed Open Unavailable Closed Open Unavailable OK Threshold value for temperature exceeded or not reached Unavailable OK Fan failure UM Industrial Protocols Release 7 1 12 2011 PROFINET IO Byte 13 14 15 16 17 Content Module removal ACA removal HIPER_Ring Ring Network coupling Connection Table 15 Device status UM Industrial Protocols Release 7 1 12 2011 3 2 PROFINET IO Parameters Acces Value Meaning S ro ro ro ro ro M HlO M HA CO M CO M CO M oO Unavailable OK A module has been removed Unavailable OK The ACA has been removed Unavailable OK Redundancy failure Unavailable OK Redundancy failure Unavailable OK Connection failure 59 PROFINET IO 3 2 PROFINET IO Parameters Byte Content Acces Value Meaning s 0 Report port error rw 0 Do not send alarms i Send alarm if one of the following alarm reasons occurs 1 Report connection rw 0 Do not send alarm error 1 Send alarm if the connection has failed 2 Transmission rate too rw 0 Do not send alarm high 1 Send alarm if
14. the threshold value for the temperature has been exceeded 3 Port on rw 0 Unavailable 1 Switched on 2 Switched off 4 Link status ro 0 Unavailable 1 Connection exists 2 Connection interrupted 5 Bit rate ro 0 Unavailable 1 Unknown 2 10 MBit s 2 100 MBit s 2 1000 MBit s 6 Duplex ro 0 Unavailable 1 Half duplex 2 Full duplex 7 Autonegotiation ro 0 Unavailable 1 Off 2 On Table 16 Port status parameters UM Industrial Protocols 60 Release 7 1 12 2011 PROFINET IO 3 2 PROFINET IO Parameters 3 2 3 I O Data You will find the bit assignment for the transferred I O data in the following table Direction Byte Bit Meaning Input 0 General Device status Signal contact 1 Signal contact 2 Temperature Fan Module removal ACA removal Not used Input 1 Power supply status Power supply unit 1 Power supply unit 2 Power supply unit 3 Power supply unit 4 Power supply unit 5 Power supply unit 6 Power supply unit 7 Power supply unit 8 Input 2 Supply voltage status HIPER Ring Ring Network coupling Connection error Not used Not used Not used Not used Not used Output Not defined Meaning of the bit content 0 OK or unavailable 1 Reason for report exists NIJA amp GC Po O NIJA B G Po O NIJA amp G PO O Table 17 Device I O data UM Industrial Protocols Release 7 1 12 2011 61 PROFINET IO Direction Byte Bit Input 0 0 1 2 3 4 5 6 7 Input 1 0 1 2 3 4 5 6 7 Inp
15. was not detected at the port Possible causes Non PNIO compliant device connected to this port Port interconnection configured but no device connected or partner device turned off cable defective Settings Unite Pint Figure 23 Diagnosis messages for the communication between the switches and IO devices UM Industrial Protocols 54 Release 7 1 12 2011 PROFINET IO 3 1 Integration into a Control System E Outputting port statistics Simatic S7 counts for each port the number of data packets received and sent the collisions etc You can view these figures in the form of statistic tables in Simatic S7 Path PDEVO5 SIMATIC 300 1 CPU 315 2 PN D Operating mode of the CPU lt gt RUN Status OK General 10 Device Diagnostics Communication Diagnostics Network Connection Statistics Port Statistical value Current Port 18 lt 1 P18 Dropped received packets no resources 0 Port 18 1 P18 Bad received packets 0 Port 18 1 P18 Received octets 399406 Port 18 lt 1 P18 Dropped send packets no resources 0 Port 18 lt 1 P18 Bad send packets transmit collisions 0 Port 18 lt 1 P18 Send octets 558230 Settings on oe Figure 24 Example of a port statistic table UM Industrial Protocols Release 7 1 12 2011 55 PROFINET IO 3 2 PROFINET IO Parameters 3 2 PROFINET IO Parameters 3 2 1 Alarms The switch supports alarms on the device and port levels see Device State in
16. EtherNet IP 2 2 EtherNet IP Parameters 2 2 3 Ethernet Link Object The switch supports at least one instance Instance 1 the instance of the CPU Ethernet interface of the Ethernet Link Object Class Code F6 246 of EtherNet IP Id Attribute Access Data type rule 1 Interface Speed Get UDINT 2 interface Flags Get DWORD 3 Physical Get ARRAY of 6 Address USINTs 4 Interface Get Struct MIB II Counters Counters Jeweils UDINT Struct Ethernet MIB Counters Jeweils UDINT 5 Media Counters Get 6 Interface Get Set Struct Control Control Bits WORD Forced Iface Speed UINT 7 interface Type Get USINT Table 5 Ethernet Link Objekt 22 Description Used interface speed in MBits s 10 100 1000 0 is used when the speed has not been determined or is invalid because of detected problems Interface Status Flags Bit 0 Link State 1 Link up Bit 1 0 Half Duplex 1 FullDuplex1 Bits 2 through 4 Autoneg Status 0 Autoneg in Progress 1 Autoneg unsuccessful 2 unsuccessful but Speed detected 3 Autoneg success 4 No Autoneg Bit 5 manual configuration requires reset always 0 because not needed Bit 6 detected hardware error MAC address of physical interface InOctets InUcastPackets InNUcastPackets InDiscards InErrors INUnknownProtos OutOctets OutUcastPackets OutNUcastPackets OutDiscards OutErrors Alignment Errors FCS Errors Single Collision Multiple Collision SQE Test Errors
17. NET IO UM Industrial Protocols Release 7 1 12 2011 35 PROFINET IO E Switch Models for PROFINET IO GSDML Version 1 0 Figure 7 Compact switch Figure 8 Modular switch UM Industrial Protocols 36 Release 7 1 12 2011 PROFINET IO E Switch Models for PROFINET IO GSDML Version 2 0 Compact SubSl SubSl Subslot 0x8001 SubSl 0x8002 SubSl SubSl SubSl SubSl 0x8003 0x8004 0x8005 0x8006 Figure 9 Compact switch Modular SubSl Subslot Figure 10 Modular switch UM Industrial Protocols Release 7 1 12 2011 37 PROFINET IO 3 1 Integration into a Control System 3 1 Integration into a Control System 3 1 1 Preparing the switch After installing and connecting the switch you configure it according to the Basic Configuration user manual C Use the Web based interface inthe Basic Settings Network dialog to check whether Local is selected in the Mode frame C Use the Web based interface in the Switching VLAN Global dialog to check whether VLAN 0 Transparent Mode is selected O Use the Web based interface in the Advanced Industrial Protocols PROFINET IO dialog to check whether Profinet IO is activated C Load the GSD ML file and the icon onto your local computer You get the GSD ML file and the icon by using the Web based interface in the Advanced Industrial Protocols dialog or by using the software Stand Alone GSDML File Generator for creating t
18. ROFINET IO 5 R RPI 17 RS Who 15 Record 46 56 Redundancy 5 Request Packet Interval 17 Ring coupling 5 Router Function 15 Schulungsangebote 71 Simatic S7 39 Symbol 7 T TCP IP 13 35 Technische Fragen 71 Threshold value 38 U UDP IP 13 35 69 Index 70 3 2 PROFINET IO Parameters UM Industrial Protocols Release 7 1 12 2011 Further Support D Further Support Technical Questions In the event of technical queries please contact your local Hirschmann distributor or Hirschmann office You can find the addresses of our distributors on the Internet at http www beldensolutions com Our support is at your disposal at https hirschmann support belden eu com Please contact us in the EMEA region under Tel 49 0 1805 14 1538 E Mail hac support belden com in the Americas under Tel 1 717 217 2270 E Mail inet support us belden com in the Asia Pacific region under Tel 65 6854 9860 E Mail inet ap belden com Hirschmann Competence Center The Hirschmann Competence Center is ahead of its competitors Consulting incorporates copmprehensive technical advice from system evaluation through network planning to project planning Training offers you an introduction to the basics product briefing and user training with certification The current training courses to technology and products can be found at http www hicomcenter com Support ranges from the first installation through the standby service to m
19. ailswitch Family Layer 2 Enhanced RS20 0800M2M2SDAEPH m 30 V4 2 V5 0 Switching Devices G Gateway 1 0 Network Components J Sensors Figure 11 Adding a switch from the Simatic S7 library L To give the switch its name select the switch and in the menu bar choose Target System Ethernet Edit Ethernet Participants Edit Ethernet Node Ethernet node Nodes accessible online MAC address Browse Set IP configuration Use IP parameters Gateway IP address ss I Do not use router Subnet mask C Use router Obtain IP address from a DHCP server Identified by oj af Client ID eer Assign device name Device name Reset to factory settings ea Close Figure 12 Dialog for entering the switch name O Click on Browse Select your switch Click on OK UM Industrial Protocols Release 7 1 12 2011 41 PROFINET IO 3 1 Integration into a Control System L Give the switch its name Click on Assign Name O Click on Close L In the hardware configuration right click on the switch and select Object properties Properties rs 6eee5f General Short description RS20 0900NNS2SDAEHH RS20 0900NNS2SDAEHH Order No Firmware AS20 0900NNS2SDAEHH 06 0 Family Hirschmann Rail Switch Family L2 Enhanced Device name f s Beee5t GSD file GSDML V2 2 Hirschmann4utomation4ndControl AS20 0900NNS 2S DAE HH V60 2010 Change Release Number
20. aintenance concepts UM Industrial Protocols Release 7 1 12 2011 71 Further Support With the Hirschmann Competence Center you have decided against making any compromises Our client customized package leaves you free to choose the service components you want to use Internet http www hicomcenter com UM Industrial Protocols 72 Release 7 1 12 2011 Further Support UM Industrial Protocols Release 7 1 12 2011 13 fh HIRSCHMANN A BELDEN BRAND
21. ation and information parameters with one instance Instance 1 For further information on these parameters and how to adjust them refer to the Reference Manual Web based Interface Attribute ID Bit No Description Switch Status ID 01 DWORD 32 bit RO Bit 0 Overall state 0 ok 1 failed Like the signal contact Bit 1 Power Supply 1 0 ok 1 failed or does not exist Bit 2 Power Supply 2 0 ok 1 failed or does not exist Bit 3 Power Supply 3 0 ok or not possible on this platform 1 failed or does not exist Bit 4 Power Supply 4 0 ok or not possible on this platform 1 failed or does not exist Bit 5 Power Supply 5 0 ok or not possible on this platform 1 failed or does not exist Bit 6 Power Supply 6 0 ok or not possible on this platform 1 failed or does not exist Bit 7 Power Supply 7 0 ok or not possible on this platform 1 failed or does not exist Bit 8 Power Supply 8 0 ok or not possible on this platform 1 failed or does not exist Bit 9 DIP RM ON 1 OFF 0 Bit 10 DIP Standby ON 1 OFF 0 Bit 11 Signal Contact 1 0 closed 1 open Bit 12 Signal Contact 2 0 closed 1 open Bit 16 Temperature 0 ok 1 threshold exceeded Bit 17 Fan 0 ok or no fan 1 inoperable Bit 21 DIP Ring ports 0 module 1 ports 1 amp 2 1 module 2 ports 1 amp 2 Bit 22 DIP Configuration 1 enabled 0 disabled Bit 23 DIP HIPER Ring state 1 ON 0 OFF Bit 24 Module removed 1 removed Bit 25 ACA removed 1 remo
22. covery Basic Settings Network Activate the function and select HiDiscovery Protocol Read only access System Name Basic Settings Delete the field content System System data Table 1 Web based interface dialogs for setting the PROFINET IO parameters UM Industrial Protocols 12 Release 7 1 12 2011 EtherNet IP 2 EtherNet IP EtherNet IP which is accepted worldwide is an industrial communication protocol standardized by the Open DeviceNet Vendor Association ODVA on the basis of Ethernet It is based on the widely used transport protocols TCP IP and UDP IP standard EtherNet IP thus provides a wide basis supported by leading manufacturers for effective data communication in the industry sector UDP IP Unicast aX UDP IP Unicast Multicast EtherNet IP Stack Controller Figure 2 Communication between the controller PLC and the switch EtherNet IP adds the industry protocol CIP Common Industrial Protocol to the Ethernet as an application level for automation applications Ethernet is thus ideally suited to the industrial control technology sector UM Industrial Protocols Release 7 1 12 2011 13 EtherNet IP IEEE 802 3 Ethernet Figure 3 EtherNet IP CIP in the ISO OSI reference model In particular you will find EtherNet IP in the USA and in conjunction with Rockwell controllers For detailed information on EtherNet IP see the Internet site of ODVA at www ethernetip de UM
23. d relatively clean rooms the transmission devices used in automation are exposed to wider temperature ranges Dirty dusty and damp ambient conditions make additional demands on the quality of the transmission devices With the continued development of communication technology the demands and the communication properties have moved closer together The high bandwidths now available in Ethernet technology and the protocols they support enable large quantities to be transferred and exact transfer times to be defined With the creation of the first optical LAN to be active worldwide at the University of Stuttgart in 1984 Hirschmann laid the foundation for industry compatible office communication devices Thanks to Hirschmann s initiative with the world s first rail hub in the 1990s Ethernet transmission devices such as switches routers and firewalls are now available for the toughest automation conditions The desire for uniform continuous communication structures encouraged many manufacturers of automation devices to come together and use standards to aid the progress of communication technology in the automation sector This is why we now have protocols that enable us to communicate via Ethernet from the office right down to the field level UM Industrial Protocols Release 7 1 12 2011 9 Industrial Protocols Figure 1 Example of communication Hirschmann switches support the following industrial protocols and systems gt Et
24. dcast Limit Get Set 69 H 106 Ethernet 6A Interface H Description Get Data type UDINT DWORD UDINT UDINT UDINT UDINT STRING max 64 Bytes even number of Bytes Description Interface Port Index iflndex from MIB II Bit 0 RO Link state 0 link down 1 link up Bit 1 R W Link admin state 0 disabled 1 enabled Bit 8 RO Access violation alarm Bit 9 RO Utilization alarm The existing Counter from the private MIB hmlfaceUtilization is used Utilization in percentage RX Interface Utilization Within this parameter the variable hmlfaceUtilizationAlarmUpperThreshold can be accessed Utilization in percentage RX Interface Utilization Upper Limit Within this parameter the variable hmlfaceUtilizationAlarmLowerThreshold can be accessed Utilization in percentage RX Interface Utilization Lower Limit Broadcast limiter Service Egress BC Frames limitation 0 disabled Frames second Interface Port Description from MIB II ifDescr e g Unit 1 Slot 2 Port 1 10 100 Mbit TX or unavailable max 64 Bytes Table 6 Hirschmann Ethernet Link Object Extensions a Unit 1 hundredth of 1 i e 100 corresponds to 1 24 UM Industrial Protocols Release 7 1 12 2011 EtherNet IP 2 2 EtherNet IP Parameters 2 2 4 Ethernet Switch Agent Object The switch supports the Hirschmann vendor specific Ethernet Switch Agent Object Class Code 954 149 for the switch configur
25. erNet IP 2 2 EtherNet IP Parameters 2 2 EtherNet iP Parameters 2 2 1 Identity Object The switch supports the identity object class code 01 of EtherNet IP The Hirschmann manufacturer ID is 634 Hirschmann uses the manufacturer specific ID 149 95 to indicate the product type Managed Ethernet Switch ID Attribute Access Data Type Description Rule 1 Vendor ID Get UINT Hirschmann 634 2 Device Type Get UINT Vendor specific Definition 149 95H Managed Ethernet Switch 3 Product Code Get UINT Product Code mapping is defined for every device type e g RS20 0400T1T1SDAPHH is 16650 4 Revision Get STRUCT Revision of the Ethernet IP implementation USINT Major currently 1 1 USINT Minor Major Revision and Minor Revision 5 Status Get WORD Not used 6 Serial Number Get UDINT Serial number of the device contains last 3 bytes of MAC address 7 ProductName Get Short String Displayed as Hirschmann order code e g max 32 bytes Hirschmann RSxxxxx Table 3 Identity Object UM Industrial Protocols Release 7 1 12 2011 19 EtherNet IP 2 2 EtherNet IP Parameters 2 2 2 TCP IP Interface Object The switch supports an instance instance 1 of the TCP IP Interface Object Class Code F5y 245 of EtherNet IP In the case of write access the switch stores the complete configuration in its flash memory Saving can take 10 seconds If the save process is interrupted for example by a power cut the switch may become inope
26. etected topology online Filter Show all devices X 3 devices found Partner port Figure 21 Topology Discovery UM Industrial Protocols 52 Release 7 1 12 2011 PROFINET IO 3 1 Integration into a Control System E Configuring the topology Simatic S7 gives the user the option to configure the topology and monitor it accordingly Simatic S7 displays the connection parameters quality and settings in a colored graphic 73 Topology Editor Table view Graphic view Offline online comparison Miniature View IRS20 2400M2M2SDAEHH scalance BEES SEBS Passive Components G SCALANCE X100 H SCALANCE WW medium converter PC Baugruppen Move picture mode deactivated Object Properties Options Print ne SSS SSS Se ee Cancel Help Figure 22 Configuring the topology UM Industrial Protocols Release 7 1 12 2011 53 PROFINET IO 3 1 Integration into a Control System E Communication diagnosis Simatic S7 monitors the communication quality and outputs messages relating to communication problems Path PDEVOS SIMATIC 300 1 CPU 315 2 PN D Operating mode of the CPU amp RUN Status 8e Error General 10 Device Diagnostics Communication Diagnostics Interface Network Connection Statistics Communication Diagnostics x Port 24 lt 1 P24 No neighbor could be detected Details of Diagnostics A port interconnection was configured but a single partner
27. he GSD ML file which is included in the delivery O Configure the alarm setting and the threshold value for the alarms you want to monitor UM Industrial Protocols 38 Release 7 1 12 2011 PROFINET IO 3 1 Integration into a Control System 3 1 2 Configuration ofthe PLC The following illustrates the configuration of the PLC using the example of the Simatic S7 software from Siemens and assumes that you are familiar with operating the software The device also supports engineering stations from other manufacturers such as PC Worx from Ph nix Note If for example a management program is occupying the Switch CPU with SNMP requests the I O connection between the programmable logic controller PLC and the Switch can be interrupted for a time As the Switch can still transmit data packages in this case the system can also still be ready for operation The monitoring of the I O connection to the Switch CPU as a failure criterion can result in system failure and is therefore less suitable as a failure criterion In the PLC default setting the PLC sees the interruption of the I O connection to the switch as a failure criterion According to the default setting this leads to a system failure To change this default setting you employ Step7 programming measures Providing the GDSML file The Hirschmann provides you with the following options for generating GDSML files and icons you can use the Web based interface in the Advanced Indus
28. herNet IP 34 2 2 EtherNet IP Parameters UM Industrial Protocols Release 7 1 12 2011 PROFINET IO 3 PROFINET IO PROFINET IO is an industrial communication network based on Ethernet that is accepted worldwide It is based on the widely used transport protocols TCP IP and UDP IP standard This is an important aspect for fulfilling the requirements for consistency from the management level down to the field level PROFINET IO enhances the existing Profibus technology for such applications that require fast data communication and the use of industrial IT functions DCP Discovery and Configuration Protocol Alarm High Alarm Low z ARP UDP IP Unicast HE ARP UDP IP Unicast Alarm High Alarm Low Profinet 1O Stack PNIO Profinet IO cyclic TR Frame DCP Discovery and Configuration Protocol Controller Figure 6 Communication between the Controller and the switch In particular you will find PROFINET IO in Europe and in conjunction with Siemens controllers PROFINET IO uses the device description language GSDML Generic Station Description Markup Language to describe devices and their properties so that they can be processed automatically You will find the device description in the GSD ML file of the device You will find detailed information on PROFINET on the Internet site of the PROFIBUS Organization at http www profibus com pall meta downloads article 00456 The devices conform to conformity class B for PROFI
29. herNet IP gt PROFINET IO UM Industrial Protocols 10 Release 7 1 12 2011 Industrial Protocols Depending on the ordered Industrial Protocol variant the Switch offers the suitable default settings Settings Variant Order code EtherNet IP IGMP Snooping IGMP Querier Unknown Multicast Address Conflict Detection RSTP DIP switch 100 Mbit s TP ringports Static Query Port PROFINET IO Boot Modus VLAN 0 Transparent Modus HiDiscovery sysName 3 Byte MAC EtherNet IP E 1 1 1 Discard 1 0 SW Konfig Autoneg Automatic 0 DHCP 0 Read Write Product name 3 Byte MAC PROFINET IO P 0 0 0 Discard 0 1 SW Konfig Autoneg Automatic 1 Lokal 1 ReadOnly empty If you want to configure a device with the standard configuration for PROFINET IO you will find the corresponding dialogs of the Web basedInterface in the following table UM Industrial Protocols Release 7 1 12 2011 11 Industrial Protocols Parameter Dialog Action PROFINET IO Advanced Industrial Activate PROFINET IO Protcols Boot Mode Basic Settings Network Select Local Mode IP Address Basic Settings Network Enter the IP address 0 0 0 0 Local Netmask Basic Settings Network Enter the netmask 0 0 0 0 Local Gateway Address Basic Settings Network Enter the gateway address Local 0 0 0 0 VLAN 0 Transparent Switching VLAN Global Activate the VLAN 0 transparent mode HiDis
30. ial Protocols Release 7 1 12 2011 63 PROFINET IO 64 3 2 PROFINET IO Parameters UM Industrial Protocols Release 7 1 12 2011 GSD File Generator A GSD File Generator The program Stand alone GSD File Generator is located on the product CD The program allows you to generate a GSD file PROFINET IO and or an EDS file Ethernet IP EDS file from a later release onward with icon from a non existent device You can use these files to configure devices in your engineering station that are not installed in the network yet Profinet EDS File Generator i lol xj File Help Order Number OCTOPUS 8M 8P0E MA Open Configurator Save to Directory C Dokumente und EinstellungentusenEigene Dateien Select Generate PROFINET GSD E Exit Figure 25 Stand alone GSD file generator UM Industrial Protocols Release 7 1 12 2011 65 Readers Comments B Readers Comments What is your opinion of this manual We are always striving to provide as comprehensive a description of our product as possible as well as important information to assist you in the operation of this product Your comments and suggestions help us to further improve the quality of our documentation Your assessment of this manual Very Good Satisfactory Mediocre Poor Good Precise description O O O O O Readability O O O O O Understandability O O O O O Examples O O O O O Structure O O O O O Completeness O O O O O Graphics
31. idStpTopChanges in RFC 4188 100 InnerPort Get UINT Hirschmann specific object For instance 1 it holds the port number of the DRSTP Primary instance s inner port Forinstance 2 it holds the port number of the DRSTP Secondary instance s inner port 101 OuterPort Get UINT Hirschmann specific object For instance 1 it holds the port number of the DRSTP Primary instance s outer port For instance 2 it holds the port number of the DRSTP Secondary instance s outer port Table 8 Hirschmann RSTP Bridge Object UM Industrial Protocols 28 Release 7 1 12 2011 EtherNet IP 2 2 EtherNet IP Parameters 2 2 6 RSTP Port Object For the device TCSESM E The switch supports the Hirschmann specific RSTP Port Object class code 654 101 for the RSTP port configuration and information parameters with at least one instance Instance 1 represents the CPU s Ethernet Interface instance 2 represents the 15t physical port instance 3 the 2 physical port and so on You will find further information on these parameters and how to set them in the Web based Interface reference manual UM Industrial Protocols Release 7 1 12 2011 29 EtherNet IP id Attribute 1 Port Identifier Priority 2 mceheck 3 Port Path Cost 4 Port Admin Edge Port 5 Port Oper Edge Port 6 Port Admin PointToPoint 7 Port Oper PointToPoint 8 Port Enable 9 Port State 10 Port Role 100 DRSTP Table 9 Hirschmann RSTP Port Object 30 2 2 E
32. m when link goes down under Link state monitoring CI Under Object properties select the Options tab Simatic S7 specific To activate the link monitoring select a fixed setting for the port under Connection Transmission medium Duplex UM Industrial Protocols 46 Release 7 1 12 2011 PROFINET IO 3 1 Integration into a Control System E Configuring Connection Options L Right click on one of the slots 1 to n and select Object properties Properties PN IO Singlemode FX SC 100 M X1 P3 General Addresses Topology Options Parameters Connection Transmission medium duplex Automatic settings pe E Boundaries e I End of detection of accessible nodes r Figure 18 Dialog for entering the connection options L In the Properties window select the Options tab CO Under Connection Transmission medium duplex select the required setting for the port see fig 18 LI Click on OK to close the properties window UM Industrial Protocols Release 7 1 12 2011 47 PROFINET IO 3 1 Integration into a Control System Configuring Topology L Right click on one of the slots 1 ton and select Object properties Properties PN IO Singlemode FX SC 100 M X1 P3 General Addresses Topology Options Parameters Port Interconnection Local port IS 7 100 rs BeeeSf Singlemade Fx SC 100 M lt 1 P3 Medium Local port Fiber optic cable Partner port Cable name Partners
33. nt Object on page 25 1 0 Data Value data types and sizes to be defined Direction Device Status Bitmask see Switch Agent Attribute 1 Input DWORD 32 Bit Link Status Bitmask 1 Bit per port Input DWORD 0 No link 1 Link up Output Links Bitmask 1 Bit per port to acknowledge output Input DWORD Admin State Link state change can be denied e g for controller applied access port 0 Port enabled 1 Port disabled Utilization Alarm Bitmask 1 Bit per port Input DWORD 0 No alarm 1 Alarm on port Access Violation Bitmask 1 Bit per port Input DWORD Alarm 0 No alarm 1 Alarm on port Multicast Integer number of connections Input 1 DINT 32 bit Connections TCP IP Integer number of connections Input 1 DINT 32 bit Connections Link Admin State Bitmask one bit per port Output DWORD 0 Port enabled 1 Port disabled Table 10 I O Data a RS20 RS30 RS40 MS20 MS30 OCTOPUS PowerMICE RSR20 RSR30 MACH 100 and MACH 1000 32 Bit MACH 4000 64 Bit UM Industrial Protocols Release 7 1 12 2011 31 EtherNet IP 2 2 EtherNet IP Parameters 2 2 8 Assignment of the Ethernet Link Object Instances The table shows the assignment of the switch ports to the Ethernet Link Object Instances Ethernet Link RS20 RS30 RS40 MS20 MS30 MACH 4000 Object Instance RSR20 RSR30 PowerMICE OCTOPUS MACH 100 MACH 1000 1 CPU CPU CPU 2 1 Module 1 port 1 Module 1 port 1 3 2 Module 1 port 2 Module 1 port 2 4 3 Module 1 port 3
34. ocument Hirschmann can accept no responsibility for damages resulting from the use of the network components or the associated operating software In addition we refer to the conditions of use specified in the license contract You can get the latest version of this manual on the Internet at the Hirschmann product site www beldensolutions com Printed in Germany Hirschmann Automation and Control GmbH Stuttgarter Str 45 51 72654 Neckartenzlingen Germany Tel 49 0 1805 14 1538 Rel 7 1 12 2011 12 12 11 Contents Contents 2 1 2 2 3 2 About this Manual Key Industrial Protocols EtherNet IP Integration into a Control System EtherNet IP Parameters 2 2 1 Identity Object TCP IP Interface Object Ethernet Link Object Ethernet Switch Agent Object RSTP Bridge Object RSTP Port Object I O Data Assignment of the Ethernet Link Object Instances Supported Services MUMMYNVY NMUMMYNNN OUONDOBROdDPD PROFINET IO Integration into a Control System 1 Preparing the switch 2 Configuration of the PLC 3 Configuring the device 4 Swapping devices 5 Swapping modules 6 Monitoring the network OFINET IO Parameters 1 2 Alarms 3 3 3 3 3 3 P 3 3 Record parameters UM Industrial Protocols Release 7 1 12 2011 Contents 3 2 3 I O Data A GSD File Generator B Readers Comments C Index D Further Support 61 65 66 69 71 UM Industrial Protocols Release 7 1
35. ou should regularly check whether there is a new version of the software that provides you with additional benefits You will find software information and downloads on the product pages of the Hirschmann website UM Industrial Protocols 6 Release 7 1 12 2011 Key Key The designations used in this manual have the following meanings List O Work step Subheading Link Cross reference with link Note A note emphasizes an important fact or draws your attention to a dependency Courier ASCII representation in user interface Symbols used WLAN access point p Router with firewall Switch with firewall Li Router Switch Bridge fa UM Industrial Protocols Release 7 1 12 2011 D 0 x Hub A random computer Configuration Computer Server PLC Programmable logic controller I O Robot UM Industrial Protocols Release 7 1 12 2011 Industrial Protocols 1 Industrial Protocols For a long time automation communication and office communication were on different paths The requirements and the communication properties were too different Office communication moves large quantities of data with low demands with respect to the transfer time Automation communication moves small quantities of data with high demands with respect to the transfer time and availability While the transmission devices in the office are usually kept in temperature controlle
36. power supply No alarms E ACA error No alarms _ Device status Cancel He Figure 16 Configuring device alarms for e g RS20 RS30 UM Industrial Protocols Release 7 1 12 2011 45 PROFINET IO 3 1 Integration into a Control System Configuring the port properties For modular devices slots 1 to n represent the modules Within the slots the ports are shown as records For non modular devices the slots 1 to n represent the ports Configuring Alarms L Right click on one of the slots 1 ton and select Object properties L In the Properties window select the Parameters tab C Select the desired alarms and close the window see fig 17 Properties PN IO Twisted Pair TX RJ45 1 X1 P8 General Addresses Topology Options Parameters Value H Port parameter E Alarms onn Bii Link state monitoring Generate diagnosis alarm when link goes down 2 Transmission rate monitoring No monitoring S E Admin state Active Cancel Help Figure 17 Port properties Special case LinkDown alarm The LinkDown alarm is made up of the AND link of the Hirschmann specific status for connection errors and of the Simatic S7 specific option for the connection Activating the LinkDown alarm CO Under Object properties select the Parameter tab Hirschmann specific Activate Alarms and select the option Generate diagnosis alar
37. rable Note The switch replies to the configuration change Set Request with a Response although saving of the configuration has not yet been completed UM Industrial Protocols 20 Release 7 1 12 2011 EtherNet IP id Attribute Access rule 1 Status Get 2 Interface Get Capability flags 3 Config Control Set Get 4 Physical Link Get Object 5 Interface Set Get Configuration 6 Host name Set Get 2 2 EtherNet IP Parameters Data type Description DWORD Interface Status 0 Interface not configured 1 Interface contains valid config DWORD Bit 0 BOOTP Client Bit 1 DNS Client Bit 2 DHCP Client Bit 3 DHCP DNS Update Bit 4 Configuration settable within CIP Other bits reserved 0 DWORD Bits 0 through 3 Value 0 using stored config Value 1 using BOOTP Value 2 using DHCP Bit 4 1 device uses DNS for name lookup always 0 because not supported Other bits reserved 0 Structure UINT Path to the Physical Link Objekt always 20H Path size F6H 24H 01H describing instance 1 of the EPATH Path Ethernet Link Object Structure IP Stack Configuration IP Address Netmask UDINT IP Gateway 2 Nameservers DNS not address supported and the domain name UDINT Netmask UDINT Gateway address UDINT Name server 1 UDINT Name server 2 STRING Domain name STRING Host name for DHCP DNS Update Table 4 TCP IP Interface Object UM Industrial Protocols Release 7 1 12 2011 21
38. sted to the size of maximum number of Switch ports means Port 1 e g a max no of 28 ports means that 1 DWORD is used 32 bit Switch Ports ID 08 ARRAY OF USINT BYTE 8 bit RO Instance number of the Mapping Ethernet Link Object Starting with All Ethernet Link Object Instances for the existing Ethernet Index 0 Switch Ports 1 N maximum number of ports When the means Port 1 entry is 0 the Ethernet Link Object for this port does not exist Switch Action ID 09 DWORD 32 bit RO Status Bit 0 Flash write in progress Bit 1 Unable to write to flash or write incomplete Table 7 Hirschmann Ethernet Switch Agent Object a RS20 RS30 RS40 MS20 MS30 OCTOPUS PowerMICE RSR20 RSR30 MACH 100 and MACH 1000 32 bit MACH 4000 64 bit The Hirschmann specific Ethernet Switch Agent Object provides you with the additional vendor specific service with the Service Code 35 for saving the switch configuration The switch replies to the request for saving the configuration as soon as it saved the configuration in the flash memory UM Industrial Protocols 26 Release 7 1 12 2011 EtherNet IP 2 2 EtherNet IP Parameters 2 2 5 RSTP Bridge Object For the device TCSESM E RSTP is a layer 2 protocol that enables the use of a redundant Ethernet topology e g a ring topology RSTP is specified in Chapter 17 of IEEE 802 1D 2004 The switch supports the Hirschmann specific RSTP Bridge Object class code 644 100 for the switch configuration
39. t RSLinx takes over the EDS file of the switch Use RSLinx to check whether RSLinx has detected the Switch Open your Logix 5000 project Integrate the switch into the Ethernet port of the controller as a new module Generic Ethernet Module goo Setting I O connection Input only Listen only Comm Format Data DINT Data DINT Input data DINT Run Program IP Address IP address of the IP address of the IP address of the switch switch switch Input Assembly Instance 2 2 2 Input Size 7 7 7 MACH 4000 11 MACH 4000 11 MACH 4000 11 Output Assembly Instance 1 254 255 Output Size 1 0 0 MACH 4000 2 Configuration Assembly Instance 3 3 3 Configuration Size 0 0 0 Table 2 Settings for integrating a Generic Ethernet Module UM Industrial Protocols 16 Release 7 1 12 2011 EtherNet IP 2 1 Integration into a Control System New Module Type ETHERNET MODULE Generic Ethernet Module Vendor Allen Bradley Parent LocalENB Hana Switch MICE 100 Connection Parameters Assembly Description Instance Size Input 2 iG H 32 bit f fi H Bz Output Comm Format Data DINT 7 Configuration 3 o eit Address Host Name a 2 al PAddress 192 168 154 100 Status Input C Host Name Status Outpu V Open Module Properties Cancel Help Figure 4 Integrating a new module into Logix 5000 L In the module properties enter a value of at least 100 ms for the Request Packet Interval
40. the Basic Configuration User Manual or the Web based Interface Reference Manual Alarms on device level Change in device status Failure of redundant power supply Failure removal of ACA Alarms on port level Change in link status Specified transfer rate exceeded Table 13 Alarms supported 3 2 2 Record parameters The switch provides records for Device parameters Device status Port status parameters UM Industrial Protocols 56 Release 7 1 12 2011 PROFINET IO Byte Content 0 Send alarm if status changes 1 Power Alarm 2 ACA Alarm 3 Module Alarm 3 2 PROFINET IO Parameters Acces Value Meaning S rw rw rw rw Table 14 Device parameters UM Industrial Protocols Release 7 1 12 2011 oj oj o Do not send alarms Send alarm if one of the following alarm reasons occurs Do not send alarm Send alarm if a power supply fails Do not send alarm Send alarm if the ACA is removed Do not send alarm Send alarm if the module connections are changed 57 PROFINET IO Byte Content 0 Device Status 1 Power supply unit 1 2 Power supply unit 2 3 Power supply unit 3 4 Power supply unit 4 5 Power supply unit 5 6 Power supply unit 6 7 Power supply unit 7 8 Power supply unit 8 9 Signal contact 1 10 Signal contact 2 11 Temperature 12 Fan Table 15 Device status 58 3 2 PROFINET IO Parameters Acces Value Meaning S ro ro ro ro ro ro ro ro ro
41. therNet IP Parameters Access Datatype Description rule Set Set Set Set Get Set Get Set Get Get Get UDINT BOOL UDINT BOOL BOOL UINT UINT UINT UINT UNT UINT Range 0 to 240 in steps of 16 default 128 refer to IEEE 802 1D 2004 17 13 10 True 1 False 2 refer to IEEE 802 1D 2004 17 19 13 and dotidStpPortProtocolMigration in RFC 4318 Range 1 to 200 00 000 default auto 0 refer to IEEE 802 1D 2004 17 13 11 and dotidStpPortAdminPathCost in RFC 4318 True 1 False 2 refer to IEEE 802 1D 2004 17 13 1 and dot1dStpPortAdminEdgePort in RFC 4318 True 1 False 2 refer to dot1dStpPortOperEdgePort in RFC 4318 forceTrue 0 forceFalse 1 auto 2 refer to dotidStpPortAdminPointToPoint in RFC 4318 True 1 False 2 refer to dot1dStpPortOperPointToPoint in RFC 4318 Enabled 1 Disabled 2 Refer to dotidStpPortEnable in RFC 4188 Disabled 1 Blocking 2 Listening 3 Learning 4 Forwarding 5 Broken 6 refer to dot1dStpPortState in RFC 4188 Unknown 0 Alternate Backup 1 Root 2 Designated 3 refer to dotidStpTopChanges in RFC 4188 Hirschmann specific object True 1 False 2 UM Industrial Protocols Release 7 1 12 2011 EtherNet IP 2 2 EtherNet IP Parameters 2 2 7 I O Data You will find the exact meaning of the individual bits of the device status in the I O data in Ethernet Switch Age
42. tocols Release 7 1 12 2011 43 PROFINET IO 3 1 Integration into a Control System Configuring Media Redundancy L In the hardware configuration right click on the Switch and select Object properties Properties PN IO X1 General Addresses 10 Cycle Media Redundancy MBP Configuration Domain tmrpdomain 1 Role LALA Figure 15 Dialog for entering the Media redundancy L In the Properties window select the Media Redundancy tab L Under MRP Configuration Domain select the required MRP domain for the node see fig 15 C Under MRP Configuration Role select the required role of the node in the ring see fig 15 L Under Ring Port 1 2 select the actice MRP Ring Ports L Click on OK to close the properties window Adding modules for modular devices C Use Drag amp Drop to pull a module from the library into a slot Simatic S7 adds the ports using the Module properties UM Industrial Protocols 44 Release 7 1 12 2011 PROFINET IO 3 1 Integration into a Control System E Configuring device property On slot 0 you enter the settings for the entire switch L Select the switch C Right click on slot 0 To configure the entire device select Object properties O In the Properties window select the Parameters tab Properties rs 6eee5f R S0 General Addresses Parameters H Device parameters E Status change No alarms E Redundant
43. trial Protocols PROFINET IO dialog to select PROFINET IO and download the GSDML file and the icon of the device you can use the Web based interface in the Advanced Industrial Protocols PROFINET IO dialog to select Other device and download the GSDML file and the icon of another device for which you enter the order description you can use the software included in the delivery Stand Alone GSDML File Generator to create the GSDML file UM Industrial Protocols Release 7 1 12 2011 39 PROFINET IO 3 1 Integration into a Control System Incorporating the switch in the configuration C Open the Simatic Manager from Simatic S7 L Open your project C Go to the hardware configuration O Install the GSD ML file using Extras Install GSD File Select the GSD file previously saved on your PC Simatic S7 installs the file together with the icon You will find the new switch under Profinet I0 Other Field Devices Switching Devices Hirschmann or under Profinet IO Other Field Devices Network Components Hirschmann O Use Drag amp Drop to pull the switch onto the bus cable UM Industrial Protocols 40 Release 7 1 12 2011 PROFINET IO 3 1 Integration into a Control System Profile Standard PROFIBUS DP S2 PROFIBUS PA S82 PROFINET I0 Additional Field Devices F t 1 PROFINET I0 System 100 Drives Gateway 0 5 Network Components Hirschmann Railswitch B AS 20 2400M2M25DAEHH Hirschmann R
44. ut n 0 1 2 3 4 5 6 7 Meaning of the bit content 0 no connection 1 connection active Output 0 NIJA B G PO O Table 18 Port I O data 62 Meaning Connection status for ports 1 to 8 Port 1 Port 2 Port 3 Port 4 Port 5 Port 6 Port 7 Port 8 Connection status for ports 9 to 16 Port 9 Port 10 Port 11 Port 12 Port 13 Port 14 Port 15 Port 16 Connection for port n 8 1 to port n 8 8 Port n 8 1 Port activated for ports 1 to 8 Port 1 activated Port 2 activated Port 3 activated Port 4 activated Port 5 activated Port 6 activated Port 7 activated Port 8 activated 3 2 PROFINET IO Parameters UM Industrial Protocols Release 7 1 12 2011 PROFINET IO Direction Byte Bit Output 1 0 1 2 3 4 5 6 7 Output n 0 1 2 3 4 5 6 7 Meaning 3 2 PROFINET IO Parameters Port activated for ports 9 to 16 Port 9 activated Port 10 activated Port 11 activated Port 12 activated Port 13 activated Port 14 activated Port 15 activated Port 16 activated Port activated for port n 8 1 to port n 8 8 Port n 8 1 activated Port n 8 2 activated Port n 8 3 activated Port n 8 4 activated Port n 8 5 activated Port n 8 6 activated Port n 8 7 activated Port n 8 8 activated Meaning of the output bit content 0 Port activated 1 Port deactivated Table 18 Port I O data UM Industr
45. ved Bit 28 Hiper Ring 1 loss of redundancy reserve Bit 29 Ring Netcoupling 1 loss of redundancy reserve Bit 30 Connection Error 1 link inoperable Switch ID 02 Struct INT RO Temperature F INT RO Temperature C Temperature Table 7 Hirschmann Ethernet Switch Agent Object UM Industrial Protocols Release 7 1 12 2011 25 EtherNet IP 2 2 EtherNet IP Parameters Attribute ID Bit No Description Reserved ID 03 Always 0 attribute is reserved for future use Switch Max ID 04 UINT 16 bit RO Maximum number of Ethernet Switch Ports Ports Multicast ID 05 WORD 16 bit RW Settings IGMP Snooping Bit 0 RW IGMP Snooping 1 enabled 0 disabled Bit 1 RW IGMP Querier 1 enabled 0 disabled Bit 2 RO IGMP Querier Mode 1 Querier 0 Non Querier Bit 4 6 RW IGMP Querier Packet Version 1 V1 2 V2 3 V3 0 Off IGMP Querier disabled Bit 8 10 RW Treatment of Unknown Multicasts Railswitch only 0 Send To All Ports 1 Send To Query Ports 2 Discard Switch Existing ID 06 ARRAY OF DWORD RO Bitmask of existing Switch Ports Ports Per Bit starting 1 Port existing 0 Port not available Array bit mask size is with Bit 0 adjusted to the size of maximum number of Switch ports e g means Port 1 a max no of 28 ports means that 1 DWORD is used 32 bit Switch Port ID 07 ARRAY OF DWORD RW Bitmask Link Admin Status Switch Control Ports Per Bit starting 0 Port enabled 1 Port disabled Array bit mask size is with Bit 0 adju

Switche RS20/RS30/RS40, MS20/MS30, OCTOPUS - e

Contents

Download Pdf Manuals

Related Search

Related Contents