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Siemens SIMATIC 6ES7158-3MU10-0XA0 Hardware Installation And Operating Manual
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Siemens SIMATIC 6ES7158-3MU10-0XA0 Hardware Installation And Operating Manual

Siemens SIMATIC 6ES7158-3MU10-0XA0 Hardware Installation And Operating Manual

Bus couplers pn/mf coupler
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Summary of Contents for Siemens SIMATIC 6ES7158-3MU10-0XA0

  • Page 2 Preface Documentation guide SIMATIC Product overview Assembling Bus couplers PN/MF Coupler Connecting PROFINET IO Hardware Installation and Operating Manual EtherNet/IP Operation and maintenance Technical specifications Dimension drawing Article numbers and accessories Response times Safety-related symbols 07/2020 A5E50018670-AA...
  • Page 3 Note the following: WARNING Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation. If products and components from other manufacturers are used, these must be recommended or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and maintenance are required to ensure that the products operate safely and without any problems.

  • Page 4: Preface

    Preface Purpose of this manual This manual provides all the necessary information for configuring, installing, connecting and commissioning the PN/MF Coupler. Required basic knowledge The following knowledge is required in order to understand the manual: • General knowledge of automation technology •...
  • Page 5 Siemens' products and solutions undergo continuous development to make them more secure. Siemens strongly recommends that product updates are applied as soon as they are available and that the latest product versions are used. Use of product versions that are no longer supported, and failure to apply the latest updates may increase customers' exposure to cyber threats.
  • Page 6 Preface Industry Mall The Industry Mall is the catalog and order system of Siemens AG for automation and drive solutions on the basis of Totally Integrated Automation (TIA) and Totally Integrated Power (TIP). You can find catalogs for all automation and drive products on the Internet (https://mall.industry.siemens.com) and in the Information and Download Center.

  • Page 7: Table Of Contents

    Table of contents Preface ..............................3 Documentation guide ..........................9 Product overview ..........................12 Area of application and function ..................12 MultiFieldbus engineering ....................14 Properties .......................... 16 Operator controls and display elements ................19 Detect active fieldbus......................20 Assembling ............................21 Assembly rules ........................
  • Page 8 Table of contents Configuring, parameter assignment and commissioning with PROFINET IO ......39 5.2.1 Configuring and commissioning the PN/MF Coupler (Overview) .......... 39 5.2.2 Requirements ........................39 5.2.3 Assignment of the modules ....................40 5.2.4 Configuring the PN/MF Coupler with GSD file ..............41 5.2.5 Configuring the PN/MF Coupler with STEP 7 TIA Portal ............
  • Page 9 Table of contents Supported CIP objects for EtherNet/IP ................. 86 6.4.1 Identity Object ........................86 6.4.2 Assembly Object ........................ 88 6.4.3 Connection Manager Object ....................90 6.4.4 TCP/IP Interface Object ....................... 91 6.4.5 EtherNet Link Object ......................95 6.4.6 LLDP Management Object ....................100 6.4.7 LLDP Data Table Object ....................

  • Page 10: Documentation Guide

    You need to register once to use the full functionality of "mySupport". You can find "mySupport" on the Internet (https://support.industry.siemens.com/My/ww/en). "mySupport" - Documentation In the Documentation area of "mySupport", you have the possibility to combine complete manuals or parts of them to make your own manual.
  • Page 11 • Manuals, characteristics, operating instructions, certificates • Product master data You can find "mySupport" - CAx Data on the Internet (https://support.industry.siemens.com/my/ww/en/CAxOnline). Application examples The application examples support you with various tools and examples for solving your automation tasks. Here, solutions involving the interaction of multiple components in the system are shown, thus departing from the focus on individual products.
  • Page 12 Documentation guide PRONETA With SIEMENS PRONETA (PROFINET network analysis), you analyze the plant network during commissioning. PRONETA features two core functions: • The topology overview independently scans PROFINET and all connected components. • PRONETA also scans: configuration of the station name, IP subnet mask and identification and maintenance data (I&M1..3)

  • Page 13: Product Overview

    Product overview Area of application and function Area of application and customer benefits You use the PN/MF Coupler in order to: • connect an EtherNet/IP network to a PROFINET subnet • interconnect two PROFINET subnets To do this, use: • User data via input or output address ranges which can be separated or coupled The maximum size of the transferable input and output data is: •...
  • Page 14 Product overview 2.1 Area of application and function Figure 2-2 Coupling of two PROFINET IO subnets with one PN/MF Coupler Principle of operation • Data exchange with I/O modules: Through the configured inputs of a slot, the local CPU or EtherNet/IP scanner reads the values that the CPU of the other subnet writes over the configured outputs of the coupling partner.

  • Page 15: Multifieldbus Engineering

    – For x86 systems (https://aka.ms/vs/15/release/vc_redist.x86.exe) – For x64 systems (https://aka.ms/vs/15/release/vc_redist.x64.exe) Electronic Data Sheet (EDS) For integration in EtherNet/IP configuration systems, a generic EDS file according to CIP specification Vol.1 is available for download (https://support.industry.siemens.com/cs/ww/en/ps/27993). PN/MF Coupler Hardware Installation and Operating Manual, 07/2020, A5E50018670-AA...
  • Page 16 Product overview 2.2 MultiFieldbus engineering Requirements You need at least MFCT version V1.1 to configure the PN/MF coupler. You can find version information for MFCT on the "About" tab. PN/MF Coupler Hardware Installation and Operating Manual, 07/2020, A5E50018670-AA...

  • Page 17: Properties

    Product overview 2.3 Properties Properties Article number 6ES7158-3MU10-0XA0 View Figure 2-3 View of the PN/MF Coupler with mounted strain relief (accessory) PN/MF Coupler Hardware Installation and Operating Manual, 07/2020, A5E50018670-AA...
  • Page 18 Product overview 2.3 Properties Properties The PN/MF Coupler has the following properties: • Data exchange between an EtherNet/IP scanner and a PROFINET IO controller across network boundaries while fully maintaining network separation, which means no support of routing functions. • Data exchange between two PROFINET IO controllers across network boundaries while fully maintaining network separation, which means no support of routing functions.
  • Page 19 Product overview 2.3 Properties Properties via PROFINET IO • Data exchange in total of maximum 1440 bytes of input data and 1440 bytes of output data • Integrated switch on both sides with 2 ports • Supported Ethernet services: ping, arp, SNMP, LLDP •...

  • Page 20: Operator Controls And Display Elements

    Product overview 2.4 Operator controls and display elements Operator controls and display elements Display elements and interfaces ① Diagnostic LEDs for EtherNet/IP or PROFINET IO ④ 24 V DC power supply PS1 / PS2 (X80/X81) subnet 1 and 2 (X1, X2) ②...

  • Page 21: Detect Active Fieldbus

    Product overview 2.5 Detect active fieldbus Detect active fieldbus For exclusive operation on a fieldbus (not MF Shared Device) you can recognize the active fieldbus by the number of green LEDs on the MF device. This requires that there are no errors and that the MF device is in cyclic data exchange with an IO controller/scanner.

  • Page 22: Assembling

    Assembling Assembly rules Mounting position You can install the PN/MF Coupler under the following conditions: • for horizontal mounting T = 60 °C • for vertical mounting T = 50 °C You can find more information on the operating conditions in section General technical specifications (Page 110).

  • Page 23: Installing The Pn/Mf Coupler

    Assembling 3.2 Installing the PN/MF Coupler Installing the PN/MF Coupler Necessary components • PN/MF Coupler • SIMATIC BusAdapter • Strain relief for mechanical load of the PROFINET connections • Mounting rail: – Standard mounting rail (7.5 mm), or – Standard mounting rail (15 mm) You can find the article numbers for the components in the appendix Article numbers and accessories (Page 130).

  • Page 24: Removing The Pn/Mf Coupler

    Assembling 3.3 Removing the PN/MF Coupler Removing the PN/MF Coupler Removing the PN/MF Coupler 1. Switch off the power supply of the PN/MF Coupler. Disconnect the two 24 V DC connectors PS1 and PS2 from the PN/MF Coupler or the 24 V DC wiring. 2.

  • Page 25: Applying Reference Identification Labels

    Assembling 3.5 Applying reference identification labels Applying reference identification labels Procedure Proceed as follows to apply a reference identification label: 1. Break off the reference identification labels from the sheet. 2. Insert the reference identification labels into the opening on the PN/MF Coupler. The insertion opening is located on the top in each case.

  • Page 26: Strain Relief

    Assembling 3.6 Strain relief Strain relief Article number 6ES7193-6RA00-1AN0 (5 strain relief units incl. screws) View Figure 3-2 Strain relief Properties • The strain relief is a mechanical protective device for the electrical PROFINET cables on the BusAdapter. • The strain relief is suitable for all optical and electrical PROFINET cables of the BusAdapter. •...
  • Page 27 Assembling 3.6 Strain relief Procedure To install the strain relief, follow these steps: 1. Press the strain relief below the BusAdapter seat of the PROFINET device. 2. Fasten the strain relief (1 screw with 0.7 to 0.8 Nm tightening torque). 3.

  • Page 28: Connecting

    Connecting Electrical isolation and grounding 4.1.1 Introduction Redundant 24 V DC power supply You have the option of connecting the PN/MF Coupler to two independent 24 V DC power supplies (SELV/PELV). Only one 24 V DC power supply is active at a time. If one power supply fails, the other becomes active automatically.
  • Page 29 You can find additional information on lightning protection in function manual Installing S7- 1500, ET 200MP, ET 200SP, ET 200AL controllers in an interference-proof manner (https://support.industry.siemens.com/cs/ww/en/view/59193566). Protection from external electrical effects The table below identifies what you must pay attention to for protection from electrical effects or faults.

  • Page 30: Connections

    Connecting 4.2 Connections Connections PN/MF Coupler connectors The following figure shows all the connections that you establish to and from the PN/MF Coupler (in the figure, with BA 2×RJ45 BusAdapters): ① EtherNet/IP or PROFINET IO subnet 1 (X1 PROFINET) ② PROFINET IO subnet 2 (X2 PROFINET) ③...

  • Page 31: Connecting The Power Supply

    Connecting 4.3 Connecting the power supply Connecting the power supply Required tools You need a screwdriver with a maximum blade width of 3.5 mm to connect the power supply. Power supply unit Only SELV/PELV power supplies with safe, electrically isolated, safety extra-low voltage (≤...
  • Page 32 Connecting 4.3 Connecting the power supply Connection for power supply The power supply connections for the 24 V power supply are located on the front of the PN/MF Coupler. The connections have the following meaning: Table 4- 1 Connector assignment of power supply for the PN/MF Coupler View Signal name Description...
  • Page 33 Connecting 4.3 Connecting the power supply Wiring rules for PN/MF Coupler Wiring rules for ... PN/MF Coupler (supply voltage) Permitted cable cross-sections of solid cables (Cu) 0.2 to 2.5 mm : 24 to 13 Permitted cable cross- Without wire-end ferrule 0.2 to 2.5 mm sections of flexible cables : 24 to 13...

  • Page 34: Connecting The Simatic Busadapter

    SIMATIC BusAdapter. You can find the SIMATIC BusAdapters that are available and how they are connected in the ET 200SP BusAdapter (https://support.industry.siemens.com/cs/ww/en/view/109751716) device manual. PN/MF Coupler...

  • Page 35: Block Diagram

    Connecting 4.5 Block diagram Block diagram Block diagram The following figure shows the block diagram of the PN/MF Coupler. ① Switch (component of the controller) 24 V DC supply voltage ② Controller, right and left Ground ③ Coupling LK 1, 2 Link LED ④...

  • Page 36: Profinet Io

    PROFINET IO PROFINET IO functions 5.1.1 Device replacement Device replacement without topology configuration The device name is also automatically permanently stored on the SIMATIC BusAdapter in addition to the PN/MF Coupler. A device name stored in the BusAdapter is required for device replacement without topology configuration.

  • Page 37: Media Redundancy (Mrp)

    You can find more information: • In the STEP 7 online help • as of STEP 7 V14, in the SIMATIC PROFINET Function Manual (https://support.industry.siemens.com/cs/ww/en/view/49948856). 5.1.2 Media redundancy (MRP) Media redundancy (MRP) Function for safeguarding communication and system availability. A ring topology ensures that an alternative communication path is made available if a transmission route fails.

  • Page 38: Docking Station

    PROFINET IO 5.1 PROFINET IO functions 5.1.3 Docking station PN/MF Coupler as docking station and docking unit The PN/MF Coupler is available as a docking station and also as a docking unit. The following figure shows an automation cell with a PN/MF Coupler as a docking station and several docking units.
  • Page 39 PROFINET IO 5.1 PROFINET IO functions The following figure shows an automation cell with a PN/MF Coupler as docking unit. Figure 5-2 PN/MF Coupler as docking unit Requirements You need to be aware of the following points: • The IO devices of all docking units must be deactivated as default in the configuration. •...

  • Page 40: 5.2 Configuring, Parameter Assignment And Commissioning With Profinet Io

    To configure the PN/MF Coupler under PROFINET IO, you need the following component: • STEP 7 TIA Portal V15.1 or higher • GSD file of the PN/MF Coupler. The GSD files can be downloaded on the Internet (https://support.industry.siemens.com/cs/ww/en/view/23742537). PN/MF Coupler Hardware Installation and Operating Manual, 07/2020, A5E50018670-AA...

  • Page 41: Assignment Of The Modules

    PROFINET IO 5.2 Configuring, parameter assignment and commissioning with PROFINET IO 5.2.3 Assignment of the modules Introduction You configure the PN/MF Coupler by configuring both sides separately. You configure the network side X1 for EtherNet/IP with MFCT (Page 60) and network side X2 for PROFINET with GSD file in STEP 7 (Page 41).

  • Page 42: Configuring The Pn/Mf Coupler With Gsd File

    Internet (https://support.automation.siemens.com/WW/view/en/23742537). GSD file The following GSD file is available for the PN/MF Coupler: GSDML-V2.35-Siemens-PNPNIOC-"date in format yyyymmdd".xml You can find more information on the procedure with GSD files in the STEP 7 online help. Configuring the PN/MF Coupler You configure the PN/MF Coupler with your configuration tool like any other IO device on PROFINET IO.

  • Page 43: Configuring The Pn/Mf Coupler With Step 7 Tia Portal

    PROFINET IO 5.2 Configuring, parameter assignment and commissioning with PROFINET IO 5.2.5 Configuring the PN/MF Coupler with STEP 7 TIA Portal 5.2.5.1 Configuring the PN/MF Coupler with STEP 7 TIA Portal Configuration of the PN/MF Couplers 1. Drag PN/MF Coupler 6ES7158-3AD10-0XA0 from the Network components/Gateways directory of the hardware catalog to the PROFINET network.

  • Page 44: Example: Configuring With Step 7 Tia Portal

    PROFINET IO 5.2 Configuring, parameter assignment and commissioning with PROFINET IO 5.2.5.2 Example: Configuring with STEP 7 TIA Portal Task You want to transfer I/O data to or from the IO controller: Bus side X1 Bus side X2 2 bytes inputs (IN 2 bytes) 2 bytes outputs (OUT 2 bytes) 8 bytes outputs (OUT 8 bytes) 8 bytes inputs (IN 8 bytes)

  • Page 45: Generating A Gsd File With Step 7 Tia Portal

    PROFINET IO 5.2 Configuring, parameter assignment and commissioning with PROFINET IO 5.2.5.3 Generating a GSD file with STEP 7 TIA Portal Generating a GSD file for only one side You have finished configuring your PN/MF Coupler and want to generate a GSD file for side X1 or X2.

  • Page 46: Parameters

    PROFINET IO 5.2 Configuring, parameter assignment and commissioning with PROFINET IO Table 5- 5 Configuration in subnet 2 (bus side X2) Transfer area Virtual Type I-length Q-length I-address Q- Access slot address Transfer_area_1 Byte(s) 10...11 CPU2 Transfer_area_2 Byte(s) 8...15 CPU2 Transfer_area_3 Byte(s) 12...19...
  • Page 47 PROFINET IO 5.2 Configuring, parameter assignment and commissioning with PROFINET IO Diagnostics Undervoltage An undervoltage diagnostics is triggered when the supply voltage drops below 19.2 V. Once the supply voltage exceeds 20.4 V again, an undervoltage diagnostics is no longer shown.

  • Page 48: Commissioning The Pn/Mf Coupler

    PROFINET IO 5.2 Configuring, parameter assignment and commissioning with PROFINET IO Diagnostics for error in other network You use the diagnostics for error in other network to determine that the other bus side has no configuration data. This diagnostic message is selected by default and can be disabled for each interface separately.

  • Page 49: Identification Data

    PROFINET IO 5.2 Configuring, parameter assignment and commissioning with PROFINET IO 5.2.8 Identification data Definition Identification data is data that is stored in a module that supports you in: • Checking the system configuration • Locating hardware changes in a system •...
  • Page 50 Default setting Explanation Identification data 0: (data record index AFF0 hex) VendorIDHigh Read (1 byte) 00 hex Name of the manufacturer: 42 dec = SIEMENS AG VendorIDLow Read (1 byte) 2A hex Order_ID Read (20 bytes) 6ES7158-3AD10-0XA0 Article number of the module...

  • Page 51: Profinet Io Interrupts, Diagnostics, Error Messages And System Events

    PROFINET IO 5.3 PROFINET IO interrupts, diagnostics, error messages and system events PROFINET IO interrupts, diagnostics, error messages and system events 5.3.1 Diagnostics via LED displays LEDs on the PN/MF Coupler The LEDs on the PN/MF Coupler and their function are described below. RN 1 RUN LED network side 1 (green) RN 2...
  • Page 52 PROFINET IO 5.3 PROFINET IO interrupts, diagnostics, error messages and system events Meaning of the LED displays The following tables contain the meanings of the status and error displays. RN/NS, ER/MS, MT/IO LEDs on the PN/MF Coupler Table 5- 9 Status and error displays of the RN/NS, ER/MS, MT/IO LEDs LEDs Meaning...
  • Page 53 LK1 and LK2 LEDs of the PROFINET in- reconnecting the supply voltage. terface do not flash). Run a firmware update. If the error persists, contact Siemens Indus- try Online Support (see also Reading service data (Page 57)). Replace the PN/MF Coupler.

  • Page 54: Diagnostics By User Program

    PROFINET IO 5.3 PROFINET IO interrupts, diagnostics, error messages and system events LK1/LK2 LEDs on the BusAdapter Table 5- 11 Status and error displays of LK1/LK2 LEDs Meaning Remedy LK1/LK2 There is no Ethernet connection between the Check whether the bus cable to the switch/IO control- PROFINET IO interface of your PROFINET ler is interrupted.
  • Page 55 PROFINET IO 5.3 PROFINET IO interrupts, diagnostics, error messages and system events Codes of the extended channel diagnostics The following extended channel diagnostics are signaled for the PN/MF Coupler: Slot ChannelError- ExtendedChannelError- Associated value Diagnostics number Type (CET) Type (ECET) AddValue 0x0601 0x0681...

  • Page 56: Interrupts

    Use the start information of OB 86, for example, and the list of the diagnostics and configuration data records (https://support.industry.siemens.com/cs/ww/en/view/19289930) for PROFINET IO for this purpose. • Maintenance alarms The PN/MF Coupler supports diagnostics and the maintenance concept in PROFINET according to IEC 61158-6-10.

  • Page 57: Diagnostics Readout

    • 0x80 Valid user data received from coupling partner Structure of the diagnostic data records You can find the structure of the diagnostic data records and programming examples in the Programming Manual (https://support.industry.siemens.com/cs/ww/en/view/19289930) in sections Structure of the diagnostic data records and Examples for the diagnostic data records.

  • Page 58: Stop Of The Io Controller And Recovery Of The Io Device

    • Device trace for X1 and X2 interface • Device memory statistics These are all cases where you can call Siemens Industry Online Support for help. Only Siemens Industry Online Support can evaluate this binary file. STEP 7 V5.6 or higher You can load the service data in STEP 7 as of V5.6 HF3.

  • Page 59: Ethernet/Ip

    EtherNet/IP EtherNet/IP functions 6.1.1 EtherNet/IP The interface module supports the following EtherNet/IP functions: • I/O communication with scanner • Configuring from the user program • Read diagnostics (interrupts are not supported) • Normative CIP objects • Resetting interface module to factory setting •...
  • Page 60 EtherNet/IP 6.2 Integration into the automation system In the MultiFieldbus Configuration Tool (MFCT), configure the MF device and assign an IP address and a device name to the MF device ①. Then, download the configuration to the MF device with the PROFINET IO mechanisms ②. The configuration is saved on the MF device ③. Generate and export the I/O data mapping of the MF device as user-defined type (UDT) as I5x file for EtherNet/IP in MFCT ④.

  • Page 61: Configuring With Mfct

    EtherNet/IP 6.2 Integration into the automation system 6.2.2 Configuring with MFCT 6.2.2.1 Settings In the "Settings" tab, you can specify basic properties of the MultiFieldbus Configuration Tool: • Select the user interface language. • Select the network adapter. You can also update the GSD file used. Language selection Under "Language selection", select the user interface language for the MFCT.

  • Page 62: Assigning Network Parameters

    EtherNet/IP 6.2 Integration into the automation system 6.2.2.2 Assigning network parameters In the "Home" tab, you can assign the network parameters for MF devices under "Accessible MF devices": 1. Click "Start scan" to find MF devices via the preset network interface. 2.

  • Page 63: Resetting The Mf Device

    EtherNet/IP 6.2 Integration into the automation system 6.2.2.3 Resetting the MF device On the "Home" tab, you can reset the MF device to factory settings under "Accessible MF devices": 1. Click "Start scan" to find MF devices via the preset network interface. 2.

  • Page 64: Creating New Multifieldbus Project In Mfct

    EtherNet/IP 6.2 Integration into the automation system 6.2.2.4 Creating new MultiFieldbus project in MFCT You can create a new MultiFieldbus project in the "Home" tab: 1. Select "Create new project" and enter a name and a path for the new MF project. Optionally, you can describe the project in more detail by entering the author and comments.

  • Page 65: Open Multifieldbus Project In Mfct

    EtherNet/IP 6.2 Integration into the automation system 6.2.2.5 Open MultiFieldbus project in MFCT You can open an existing MultiFieldbus project in the "Home" tab: 1. Select "Open project". – Under "Recently Used Projects", you can select a recently edited project and read it in directly by double-clicking it or using the "Open"...

  • Page 66: Selecting A Station

    EtherNet/IP 6.2 Integration into the automation system 6.2.2.6 Selecting a station You can create the configuration of the MF device in two ways: • From the catalog if the real MF station is not available. • From the network if the MF station is available online. Selecting the MF device from the catalog 1.
  • Page 67 EtherNet/IP 6.2 Integration into the automation system Selecting the MF device from the network and loading the configuration 1. Ensure that the network interface selected on the "Settings" tab is connected to the desired MF device. 2. Select the "Network" option under "Select MF device from". 3.

  • Page 68: Configuring A Station

    EtherNet/IP 6.2 Integration into the automation system 6.2.2.7 Configuring a station Under "Configure Station", assemble the station with IO modules from the hardware catalog based on the GSDML. The composition of the station is shown as a list on the left, sorted in ascending slot order. The IO modules of the hardware catalog based on the installed GSDML are shown on the right.
  • Page 69 EtherNet/IP 6.2 Integration into the automation system Selecting IO modules 1. Select the IO module from the hardware catalog for each slot and drag it onto the slot. Note The possible slots for the selected IO module are highlighted in green. Deleting IO modules 1.

  • Page 70: Parameter Assignment Of The Station

    EtherNet/IP 6.2 Integration into the automation system 6.2.2.8 Parameter assignment of the station Under "Assign Station Parameters", set the parameters of the previously configured station. The composition of the station is shown as a list on the left, sorted in ascending slot order. The parameters for the MF device and the modules/submodules are shown on the right.

  • Page 71: Transfer The Configuration

    EtherNet/IP 6.2 Integration into the automation system 6.2.2.9 Transfer the configuration The "Transfer configuration" area offers you the following options: • Download the project to the MF device. • Export the configuration for use in other engineering tools. Downloading the project to the MF device To transfer the MF project to the MF device, follow these steps: 1.
  • Page 72 EtherNet/IP 6.2 Integration into the automation system Fault rectification of the timeout on transfer to the MF device • Check the accessibility of the MF device via the network interface selected in MFCT. • Terminate the connection of the MF device to PROFINET IO controllers. •...

  • Page 73: Configuration In The Engineering System

    EtherNet/IP 6.2 Integration into the automation system Transfer/export status The progress and result of the file export and project download are each displayed. The fieldbus selected in the MF device as well as any differences between the configured and real hardware are also displayed.

  • Page 74: Configuring The Interface Module

    Configuring the module from the user program Module-specific data records can be read/written as explicit messages from the user program. You can find information on the structure of the data records, for example, in the manual of the respective module (https://support.industry.siemens.com/cs/ww/en/view/109742709). Message Type CIP Generic...
  • Page 75 EtherNet/IP 6.2 Integration into the automation system Example The following example shows how you read 6 bytes from slot 3 with parameter data record 128. Table 6- 2 CIP Request: Field Value Description Message Type CIP Generic Service Code 0x32 Read Record Class 0x66...

  • Page 76: I/O Data Mapping

    EtherNet/IP 6.2 Integration into the automation system 6.2.3.6 I/O data mapping I/O data mapping During parameter assignment of the MF device (Page 69), you can choose between two formats for the I/O data mapping: • With the "Byte" format, the input or output data of the modules of an I/O connection are lined up by increasing slot number (Slot.Subslot).

  • Page 77: Example Of I/O Data Mapping For I/O Data Alignment Byte

    EtherNet/IP 6.2 Integration into the automation system If the PROFINET communication of coupled modules fails on the X2 interface, EtherNet/IP input data is reset to zero and the IDS data status is set to BAD. Note For MSI and MSO submodules, the IDS.Diagnosis bit is 0. Comparable to the diagnostics interrupt of PROFINET, the diagnostics for MSI and MSO are only signaled in the IDS.Diagnosis bit for the default submodule (subslot = 1).

  • Page 78: Example Of I/O Data Mapping For I/O Data Alignment Word

    EtherNet/IP 6.2 Integration into the automation system Output buffer The following table shows the output buffer for the example configuration for the I/O data alignment Byte: Slot Name* Data Byte Description type offset Slot1_1_Id_0_Outputs Byte OUT 2 Byte Slot1_1_Id_1_Outputs Byte Slot3_1_Id_0_Outputs Byte OUT 2 Byte...
  • Page 79 EtherNet/IP 6.2 Integration into the automation system Input buffer The following table shows the input buffer for the example configuration for the I/O data alignment Word: Slot Name* Data Byte Description type offset Slot0_1_Id_0_IDS Byte Input Data State for the PN/MF Coupler Slot0_1_Id_1_Padding Byte Padding byte...
  • Page 80 EtherNet/IP 6.2 Integration into the automation system Output buffer The following table shows the output buffer for the example configuration for the I/O data alignment Word: Slot Name* Data Byte Description type offset Slot1_1_Id_0_Outputs Byte OUT 2 Byte Slot1_1_Id_1_Outputs Byte Slot3_1_Id_0_Outputs Byte OUT 2 Byte...

  • Page 81: Diagnostics

    EtherNet/IP 6.3 Diagnostics Diagnostics 6.3.1 Status and error displays for EtherNet/IP RN/NS, ER/MS, MT/IO LEDs on the MF device The LEDs display the status with the highest priority if there are different LED states due to overlaid events. (0 = off, 1 = green flashing, 2 = green, 3 = yellow, 4 = red flashing, 5 = red) The following table shows the meaning of the RN/NS, ER/MS LEDs and MT/IO LEDs for EtherNet/IP: Table 6- 6...
  • Page 82 EtherNet/IP 6.3 Diagnostics Table 6- 7 Status and error displays of the ER/MS LED Meaning Remedy ER/MS (MODUL STATUS) There is no MultiFieldbus project in the • Create a project with MFCT and transfer it to the MF device. MF device. The MF device is not exchanging data.
  • Page 83 EtherNet/IP 6.3 Diagnostics Combinations of the RN/NS, ER/MS, MT/IO LEDs on the MF device Combinations of the three LEDs are possible. The following table shows the possible combinations: Table 6- 9 Status and error displays of the RN/NS, ER/MS, MT/IO LEDs LEDs Meaning Notes...
  • Page 84 EtherNet/IP 6.3 Diagnostics LEDs Meaning Notes RN/NS ER/MS MT/IO (NET (MODUL STATUS) STATUS) STATUS) The MF device is not exchanging data. • Establish the cyclic communication There is an MF device fault. Flashes Flashes via the I/O register area of the MF device or via EtherNet/IP.

  • Page 85: Reading Diagnostics Via Cip Ethernet/Ip

    MF Devices (Page 53). The error code for I/O modules can be found in chapter "Diagnostics alarms" in the "Error code" column of the Equipment Manuals (https://support.industry.siemens.com/cs/ww/ en/view/109742709). PN/MF Coupler Hardware Installation and Operating Manual, 07/2020, A5E50018670-AA...
  • Page 86 EtherNet/IP 6.3 Diagnostics ExtChannelDiagnosis Field Size Description UserStructureIdentifier Unsigned16 0x8002 = ExtChannelDiagnosis ExtChannelDiagnosisData <Channel> ChannelNumber Unsigned16 0x0000 – 0x7FFF: Manufacturer-specific 0x8000: Submodule (only one coding should be used for ChannelProperties.Direction.) 0x8001 – 0xFFFF: Reserved <Channel> ChannelProperties Unsigned16 See the "ChannelProperties" table below <Channel>...

  • Page 87: Supported Cip Objects For Ethernet/Ip

    EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP Supported CIP objects for EtherNet/IP 6.4.1 Identity Object The following information applies to the Identity Object. Class code 0x01 Class attributes 1, 2, 3 Class services 0x01, 0x05, 0x0E Instance attributes 1, 2, 3, 4, 5, 6, 7 Instance services 0x01, 0x05, 0x0E Number of instances 1...
  • Page 88 EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP Device_Status definitions for the Identity object Bit(s) Called Definition Owned by TRUE indicates that the device (or an object in the device) has an owner. 0 = No Exclusive Owner IO connection established 1 = At least one Exclusive Owner IO connection established Reserved Configured...

  • Page 89: Assembly Object

    EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP Note Response after an error A device cannot communicate in the "Severe uncorrectable error" state. This means it might also not be able to signal a severe uncorrectable error. A reset service is not processed. The only option to remedy a severe, uncorrectable error is to turn the power supply off and then on again.
  • Page 90 EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP Instance attributes for the Assembly object: Instance 768 (0x300): Output Assembly/Connection Point Attribute ID Access rule Description Data type Default value Output data ARRAY of BYTE Instance 769 (0x301): Input Assembly/Connection Point Attribute ID Access rule Description Data type...

  • Page 91: Connection Manager Object

    EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP 6.4.3 Connection Manager Object The following information applies to the Connection Manager object. Class code 0x06 Class attributes 1, 2, 3 Class services 0x01, 0x0E Instance attributes 1, 2, 3, 4, 5, 6, 7, 8 Instance services 0x01, 0x0E Number of instances 1...

  • Page 92: Tcp/Ip Interface Object

    EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP General services for the Connection Manager object Service Implemented for Service designation code Class Instance 0x01 Get_Attributes_All 0x0E Set_Attribute_Single 6.4.4 TCP/IP Interface Object The TCP/IP interface object offers you access to status information and configuration of the TCP/IP network interface.
  • Page 93 EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP Instance attributes for the TCP/IP interface object Attribute Access rule Description Data type Default value Value semantics Retrieve Interface status DWORD 0x00000002 See table below: "Table for "inter- (status) face status", attribute 1" Retrieve Interface capability DWORD...
  • Page 94 EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP Attribute Access rule Description Data type Default value Value semantics IP address UDINT IP address of the device The value 0 indicates that no IP address was configured. Other- wise, a valid address of class A, B or C must be set but not the loopback address (127.0.0.1).
  • Page 95 EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP Table for "Interface status", attribute 1 Bit(s): Called: Definition 0 to 3 Interface configura- Displays the status of the 0 = The interface configuration attribute was not config- tion status interface configuration at- ured tribute.

  • Page 96: Ethernet Link Object

    EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP 6.4.5 EtherNet Link Object The EtherNet Link object saves link-specific counters and status information for a IEEE 802.3 communication interface. MF devices have an embedded two-port switch and an instance of the EtherNet Link object for the internally accessible interface. Values set in instance 1 attribute 6 are valid for both ports.
  • Page 97 1 = Enabled and ready for send- ing (default) 2 = Disabled 3 = Testing Retrieve Interface name Human-readable identifier SHORT_STRI "Siemens, SIMATIC S7, Ethernet Port, X1 P1 R" "Siemens, SIMATIC S7, Ethernet Port, X1 P2 R" Retrieve Interface ca- Shows the capabilities of the...
  • Page 98 EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP Interface bit memory attribute Bit(s): Called: Definition Link status Specifies whether the IEEE 802.3 communication interface is connected to an active network: 0 = Inactive link. 1 = Active link. Specification of the link status depends on the implementation. Half duplex / full duplex Indicates the currently used duplex mode: 0 = Interface runs at half duplex.
  • Page 99 EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP Media counter (STRUCT from): Designation Data type Attribute description Alignment Errors UDINT Frames received that not only include complete octets FCS Errors UDINT Frames received that do not pass the FCS test Single Collisions UDINT Successfully transmitted frames with exactly one collision Multiple Collisions...
  • Page 100 EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP Interface capability The interface capability attribute displays the number of interface capabilities. The attribute is a structure with two main elements: Function bits and speed/duplex options Bit(s) Called: Definition Manual setting requires reset Indicates whether a device requires a reset to apply changes of the interface con- trol attribute (#6).

  • Page 101: Lldp Management Object

    EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP 6.4.6 LLDP Management Object The object contains management information for LLDP and should be present if LLDP is implemented on the device. Only one instance of the LLDP management object should be implemented. Referring to ODVA Specification Rel.1911 / Volume 2 (1.25) / 5-15 LLDP Management Object.

  • Page 102: Lldp Data Table Object

    EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP Attribute Access Designation Description Data Value semantics rule type Setting msgTxInterval From 802.1AB-2016. The inter- UINT 0-4 = Reserved, required val in seconds after which the 5-32768 = Message Transmission LLDP frames were sent from the Interval for LLDP frames, device 32769-65535 = Reserved...
  • Page 103 EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP Attributes for the LLDP Data Table Object Access Designation Description Data Value semantics trib- rule type ute ID Retrieval Ethernet Link The local instance number UINT 0 = Unknown required Instance Num- of the Ethernet Link Object 1-65535 = Ethernet Link Object (0xF6) in- that corresponds to the stance number...
  • Page 104 EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP Access Designation Description Data Value semantics trib- rule type ute ID Retrieval IPv4 Manage- The IPv4 management Struct A list of IPv4-encoded management address- required ment Addresses addresses of the neighbor- from: es, as defined by one or more received man- ing device.

  • Page 105: Param Object

    EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP 6.4.8 Param Object The following information applies to the Param Object of the MF device. Class code 0x66 Class attributes Class services Instance attributes Instance services Number of instances 256 Class attributes for the Param Object Attribute ID Access rule Description...
  • Page 106 EtherNet/IP 6.4 Supported CIP objects for EtherNet/IP Answer-Record-Mapping PROFINET EtherNet/IP ErrorCode1 CIP Status Success: 0x00 Successful Operation 0x00 Success Application error: 0xA0 Read Error 0x1F Vendor specific error 0xA1 Write Error 0x1F Vendor specific error 0xA2 Module Failure 0x1F Vendor specific error 0xA7 Busy 0x1E...

  • Page 107: Operation And Maintenance

    PLC > Show accessible devices To update the firmware, you will need files (*.UPD) containing the current firmware. You can find the latest firmware on the Internet (https://support.industry.siemens.com/cs/de/de/ps/6ES7-3AD10-0XA0/dl). Updating firmware via PROFINET IO Updating firmware via PROFINET IO You update the firmware using one of the two PROFINET IO interfaces.

  • Page 108: Replacing A Defective Pn/Mf Coupler

    Operation and maintenance 7.2 Replacing a defective PN/MF Coupler Replacing a defective PN/MF Coupler Introduction For a new PN/MF Coupler, the R/W objects (I&M, SNMP and parameter assignment data) in the PN/MF Coupler are set to factory settings. Replacement part case You must bring a previously used PN/MF Coupler to the "Reset to factory settings"...

  • Page 109: Reset To Factory Settings

    3. Mount the PN/MF Coupler again on the mounting rail, see Installing the PN/MF Coupler (Page 22). 4. Reassign the PN/MF Coupler parameters. For additional information on retentively stored data, refer to the PROFINET Function Manual (https://support.industry.siemens.com/cs/ww/en/view/49948856). PN/MF Coupler Hardware Installation and Operating Manual, 07/2020, A5E50018670-AA...

  • Page 110: Maintenance And Repair

    Operation and maintenance 7.4 Maintenance and repair Procedure using STEP 7 TIA Portal To restore the factory settings for the PN/MF Coupler using STEP 7 TIA Portal, follow these steps: Ensure there is an online connection to the PN/MF Coupler. 1.

  • Page 111: Technical Specifications

    Technical specifications General technical specifications 8.1.1 Introduction Scope of general technical specifications The general technical specifications include: • The standards and test values that are complied with and met by the described components. • The test criteria based on which the described components were tested. 8.1.2 Standards and approvals Currently valid markings and approvals...
  • Page 112 Technical specifications 8.1 General technical specifications Safety instructions WARNING Pulling or plugging a module is prohibited in the hazardous area. When you pull or plug a module or connector during operation, there is a risk of sparking. Sparks can cause an explosion in the hazardous area, death or serious physical injury as well as damage to property can result.
  • Page 113 Digital Industries Factory Automation DI FA AS SYS Postfach 1963 D-92209 Amberg They are also available for download on the Siemens Industry Online Support website, under the keyword "Declaration of Conformity". cULus approval Underwriters Laboratories Inc. according to • UL 61010-1 •...
  • Page 114 Technical specifications 8.1 General technical specifications cULus HAZ. LOC. approval Underwriters Laboratories Inc. according to • UL 61010-1 • UL 61010-2-201 • CAN/CSA C22.2 No. 61010-1 • CAN/CSA C22.2 No. 61010-201 • ANSI/ISA 12.12.01 • CAN/CSA C22.2 No. 213 (Hazardous Location) APPROVED for use in Class I, Division 2, Group A, B, C, D Tx;...
  • Page 115 Technical specifications 8.1 General technical specifications FM approval Factory Mutual Research (FM) according to • Approval Standard Class Number 3611, 3600, 3810 • ANSI/UL 121201 • ANSI/UL 61010-1 • CAN/CSA C22-2 No. 213 • CAN/CSA C22.2 No. 0-10 • CAN/CSA C22.2 No. 61010-1 APPROVED for use in Class I, Division 2, Group A, B, C, D Tx;...
  • Page 116 Technical specifications 8.1 General technical specifications IECEx approval According to IEC 60079-7 (Explosive atmospheres - Part 7: Equipment protection by increase safety "e") and IEC 60079-0 (Explosive atmospheres - Part 0: Equipment - General requirements). Special conditions in hazardous area: 1.
  • Page 117 Technical specifications 8.1 General technical specifications IEC 61131 The described components meet the requirements and criteria of IEC 61131-2 standard (Programmable logic controls, part 2: Equipment requirements and tests). IEC 61010-2-201 The PN/MF Coupler fulfills the requirements and criteria of standard IEC 61010-2-201. (Safety regulations for electrical equipment for measurement, control, and laboratory use Part 2-201: Particular requirements for control equipment).
  • Page 118 The PN/MF Coupler is not intended for use in residential areas. If you are using the PN/MF Coupler in residential areas, radio and TV reception may be affected. Reference The certificates for the markings and approvals can be found on the Internet under Service&Support (https://support.industry.siemens.com/). PN/MF Coupler Hardware Installation and Operating Manual, 07/2020, A5E50018670-AA...

  • Page 119: Electromagnetic Compatibility

    Technical specifications 8.1 General technical specifications 8.1.3 Electromagnetic compatibility Definition Electromagnetic compatibility (EMC) is the ability of an electrical installation to function satisfactorily in its electromagnetic environment without interfering with that environment. Among other things, the PN/MF Coupler also meets the requirements of the EMC legislation for the European single market.
  • Page 120 Technical specifications 8.1 General technical specifications Sinusoidal interference The following table shows the electromagnetic compatibility of the PN/MF Coupler with regard to sinusoidal interference (HF radiation). Sinusoidal interference Test values HF radiation (electromagnetic 80% amplitude modulation at 1 kHz fields) according to IEC 61000-4-3 •...

  • Page 121: Transport And Storage Conditions

    Technical specifications 8.1 General technical specifications Emission of radio interferences Emission of interference from electromagnetic fields in accordance with EN 61000-6-4: Table 8- 4 Interference emission of electromagnetic fields Frequency Interference emission from 30 to 230 MHz <40 dB (µV/m) Q from 230 to 1000 MHz <47 dB (µV/m) Q from 1 to 3 GHz...

  • Page 122: Mechanical And Climatic Ambient Conditions For Operation

    Technical specifications 8.1 General technical specifications 8.1.5 Mechanical and climatic ambient conditions for operation Operating conditions The described components are intended for weather-proof, stationary use. The device was tested with the following extensions and restrictions in accordance with IEC 60721-3-3 Class 3K3: Type of condition Mounting position Permitted range...
  • Page 123 Technical specifications 8.1 General technical specifications Mechanical environmental conditions The following table specifies the mechanical environmental conditions for the described components for sinusoidal vibrations. Table 8- 6 Mechanical environmental conditions Frequency range PN/MF Coupler for operation PN/MF Coupler for operation with with a BusAdapter without an a BusAdapter with an RJ45 socket RJ45 socket...
  • Page 124 The product data sheets with daily updated technical specifications can be found on the Internet (https://support.industry.siemens.com/cs/ww/en/ps/td) at Industry Online Support. Enter the article number or the short description of the desired module on the website.

  • Page 125: Specifications For Insulation Tests, Safety Class And Degree Of Protection

    Technical specifications 8.1 General technical specifications 8.1.6 Specifications for insulation tests, safety class and degree of protection Isolation The insulation is designed in accordance with the requirements of 61010-2-201. Note Galvanic isolation with 707 V DC (Type Test) is tested for modules with 24 V DC supply voltage (SELV/PELV).

  • Page 126: Technical Specifications Pn/Mf Coupler (6Es7158-3Mu10-0Xa0)

    Technical specifications PN/MF Coupler (6ES7158-3MU10-0XA0) Technical specifications of PN/MF Coupler The following table shows the technical specifications as of 07/2020. You can find a data sheet including daily updated technical specifications on the Internet (https://support.industry.siemens.com/cs/ww/en/pv/6ES7158-3MU10-0XA0/td?dl=en). Article number 6ES7158-3MU10-0XA0 General information...
  • Page 127 Technical specifications 8.2 Technical specifications PN/MF Coupler (6ES7158-3MU10-0XA0) Article number 6ES7158-3MU10-0XA0 Power loss Power loss, typ. 4 W; For 24 V input voltage and 2 plugged BA 2x RJ45 If BusAdapters with an optical interface are plugged, there is an additional 750 mW per opti- cal interface (3 W with 2 plugged BA 2x LC) Address area Address space per module...
  • Page 128 Technical specifications 8.2 Technical specifications PN/MF Coupler (6ES7158-3MU10-0XA0) Article number 6ES7158-3MU10-0XA0 Protocols Supports protocol for PROFINET IO Modbus TCP Protocols (Ethernet) • TCP/IP • SNMP • LLDP • ping • PROFINET IO Device Services – PROFIenergy – Prioritized startup – Shared device –...
  • Page 129 Technical specifications 8.2 Technical specifications PN/MF Coupler (6ES7158-3MU10-0XA0) Article number 6ES7158-3MU10-0XA0 Diagnostics indication LED Yes; green LED • RUN LED Yes; red LED • ERROR LED Yes; Yellow LED • MAINT LED Monitoring of the supply voltage (PWR-LED) Yes; green PWR LED •...

  • Page 130: Dimension Drawing

    Dimension drawing Dimension drawing Dimension drawing for PN/MF Coupler (dimensions in mm): The mounting rail is 7.5 mm deep in the dimension drawing. You can also use a mounting rail with 15 mm. PN/MF Coupler Hardware Installation and Operating Manual, 07/2020, A5E50018670-AA...

  • Page 131: Article Numbers And Accessories

    Article numbers and accessories Overview Table B- 1 Article numbers for the PN/MF Coupler Component Number in pack Article number PN/MF Coupler 1 unit 6ES7158-3AD10-0XA0 BusAdapter 1 unit 6ES7193-6AR00-0AA0 • BA 2×RJ45 (PROFINET BusAdapter with standard Ethernet socket) 1 unit 6ES7193-6AF00-0AA0 •...

  • Page 132: Response Times

    Response times Response times The time that elapses between an IO controller writing to the process image outputs and when this data can be read in the process image of the second IO controller depends on the following: • CPU cycle time of the two IO controllers •...

  • Page 133: Safety-Related Symbols

    Safety-related symbols Safety-related symbols for devices without Ex protection The following table contains an explanation of the symbols located in your SIMATIC device, its packaging or the accompanying documentation. Symbol Meaning General warning sign Caution/Notice You must read the product documentation. The product documentation contains information about the potential risks and enable you to recognize risks and im- plement countermeasures.

  • Page 134: Safety-Related Symbols For Devices With Ex Protection

    Safety-related symbols D.2 Safety-related symbols for devices with Ex protection Safety-related symbols for devices with Ex protection The following table contains an explanation of the symbols located in your SIMATIC device, its packaging or the accompanying documentation. Symbol Meaning The assigned safety symbols apply to devices with Ex approval. You must read the product documentation.
  • Page 135 Safety-related symbols D.2 Safety-related symbols for devices with Ex protection Symbol Meaning For Zone 2 potentially explosive atmospheres, be aware that the device may only be used when it is installed in an enclosure with a degree of protection ≥ IP54. For Zone 22 potentially explosive atmospheres, be aware that the device may only be used when it is installed in an enclosure with a degree of protection ≥...

  • Page 136: Glossary

    Glossary Autonegotiation Configuration protocol in Fast Ethernet. Before the actual data transfer, the devices on the network agree on a transfer mode that each participating device can work with (100 Mbps or 10 Mbps, full-duplex or half-duplex). A common transfer route connecting all nodes and having two defined ends. BusAdapter Enables free selection of the connection technology and layout for the PROFINET fieldbus.
  • Page 137 Glossary Device replacement without removable medium/programming device IO Devices having this function can be replaced simply: • A removable medium (such as Micro Memory Card) with the stored device name is not required. • The device name does not have to be assigned using the programming device. The replaced IO Device receives the device name from the IO Controller, not from the removable medium or from the programming device.
  • Page 138 Glossary External lightning protection External lightning protection is part of the lightning protection system and comprises an interception device, an arrester and a grounding system. In the event of a lightning strike, the external lightning protection serves to divert the lightning current safely to the ground. Corresponds with lightning protection zone 0 and 0 Fast Ethernet...
  • Page 139 Glossary Isochronous real-time communication Synchronized transmission method for the cyclic exchange of IRT data between PROFINET devices. A reserved bandwidth is available within the send cycle for IRT IO data. The reserved bandwidth guarantees that IRT data can also be transferred at reserved, synchronized intervals while other, higher network loads are active (for example, TCP/IP communication, or additional real-time communication).
  • Page 140 Glossary MF Device A device that supports EtherNet/IP. For example, PN/MF Coupler or IM155-6 MF HF. Parameter assignment The term parameterization denotes the transfer of parameters from the IO Controller to the IO Device. PELV Protective Extra Low Voltage = extra low voltage with safe isolation that is grounded. Power supply unit A power supply unit supplies power to the field devices and the distributed process I/Os connected to them.
  • Page 141 Glossary PROFINET Within the context of Totally Integrated Automation (TIA), PROFINET is the systematic continuation of the following systems: • PROFIBUS DP, the established fieldbus • Industrial Ethernet, the communication bus for the cell level Experiences from both systems have been and are being integrated in PROFINET. PROFINET is an Ethernet-based automation standard of PROFIBUS International (previously PROFIBUS User Organization e.V.), and defines a multi-vendor communication, automation, and engineering model.
  • Page 142 Glossary PROFINET IO Device Distributed field device which is assigned to one of the IO controllers (e.g. remote IO, valve terminals, frequency converters, switches). Reference potential Potential that is used to view and/or measure voltages for each circuit involved. SELV Safety extra low voltage (SELV) is voltage ≤...
  • Page 143 Glossary TN-S system In a TN-S system, the neutral conductor (N) and protective conductor (PE) are wire with separate insulation. The neutral conductor is connected to the grounded protective conductor at a central point, and only there. The protective conductor can be grounded any number of times.

  • Page 144: Index

    Index 24 V DC connector, 130 Data status byte, 56 24 V DC power supply, 28 Data validity display, 56 Degree of protection, 124 Delivery state, 108 Device name Deleting, 108 Accessories, 18, 130 Device replacement, 35 Approval Diagnostic data records ATEX, 114 Structure, 56 CE, 112...
  • Page 145 Index Mounting rail, 130 Mounting technology, 21 Galvanic properties, 27 MT (LED), 50 Grounding, 27 GSD file, 41 of STEP 7 TIA Portal, 44 Operating conditions, 121 Identification data, 48 IEC 61010, 116 IEC 61131, 116 Parameter, 45 IECEx approval, 115 PN/MF Coupler Installation as docking station, 37...
  • Page 146 Index Safety rules, 111 Scope, 3 Standard mounting rail, 22 Standards, 110, 112 Status and error displays LEDs, 51 Status displays, 50 Strain relief, 25, 130 Technical specifications Electromagnetic compatibility (EMC), 118 PN/MF Coupler, 125 Standards and approvals, 110 Test voltage, 124 Two-sided power supply, 30 Ungrounded installation, 27 Uninstalling, 23...

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