Belden Lumberg Automation LioN-P 0980 ESL 309-121-EEC Manual

Profinet io-link master

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Manual

LioN-P PROFINET IO-Link Master

0980 ESL 308-121, 0980 ESL 398-121

0980 ESL 309-121, 0980 ESL 399-121

0980 ESL 309-121-EEC, 0980 ESL 399-121-EEC

0980 ESL 109-121, 0980 ESL 199-121

0980 ESL 109-332, 0980 ESL 199-332

0980 ESL 109-122, 0980 ESL 199-122

0980 ESL 109-331, 0980 ESL 199-331

Manual LioN-P PROFINET IO-Link Master

Technical Support

Version 2.3 11/2019

support-automation@belden.com

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Summary of Contents for Belden Lumberg Automation LioN-P 0980 ESL 309-121-EEC

Page 1 0980 ESL 309-121-EEC, 0980 ESL 399-121-EEC 0980 ESL 109-121, 0980 ESL 199-121 0980 ESL 109-332, 0980 ESL 199-332 0980 ESL 109-122, 0980 ESL 199-122 0980 ESL 109-331, 0980 ESL 199-331 Manual LioN-P PROFINET IO-Link Master Technical Support Version 2.3 11/2019 support-automation@belden.com...
Page 2: Table Of Contents
Contents Contents 1 About this manual 1.1 General information 1.2 Explanation of symbols 1.2.1 Use of danger information 1.2.2 Use of general information 1.3 Version information 2 Safety instructions 2.1 Intended use 2.2 Qualified personnel 3 Designations and synonyms 4 System description 4.1 PROFINET product features 4.2 IO port features 4.3 Integrated web server...
Page 3 Contents 5.2.2 Module 0980 ESL 1x9-121 5.2.3 Module 0980 ESL 1x9-332 5.2.4 Module 0980 ESL 1x9-122 5.2.5 Module 0980 ESL 1x9-331 5.3 Port assignments 5.3.1 PROFINET ports, M12 socket, 4-pin, D-coded 5.3.2 Power supply with M12 power L-coded 5.3.3 PROFINET and power supply with M12 Hybrid 5.3.4 IO ports as M8 or M12 sockets 5.3.4.1 IO-Link Type A 5.3.4.2 IO-Link Type B...
Page 4 Contents 6.4.8.2 Digital-IO mode for Ch. B/Pin 2 (LioN-P 60 devices) 6.5 IO-Link Device Parameterization 6.5.1 SIEMENS IO-Link library 6.6 SNMP 6.7 Media Redundancy Protocol (MRP) 6.8 Identification & maintenance functions (I&M) 6.8.1 Supported I&M features 6.8.1.1 Module-specific I&M features 6.8.1.2 IO-Link Master I&M functions 6.8.1.3 IO-Link Device I&M functions 6.8.2 Reading and writing I&M data...
Page 5 Contents 8.2 Error of the auxiliary/actuator power supply 8.3 Overload/short-circuit of the IO port sensor supply outputs 8.4 Overload/short circuit of the digital 500 mA outputs 8.5 Overload/short circuit of the digital outputs 8.6 Overload/short circuit of the Type B port aux. power supply 8.6.1 For LioN-P 30 devices 8.6.2 For LioN-P 60 devices 8.7 IO-Link C/Q error...
Page 6 Contents 11.9 Differences between 0980 ESL 3x8-121 and 0980 ESL 3x9-121 11.10 LEDs 12 Accessories Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...
Page 7: About This Manual
Im Gewerbepark 2 58579 Schalksmühle Germany support-automation@belden.com www.lumberg-automation.com Belden Deutschland GmbH – Lumberg Automation™ – reserves the right to make technical changes or changes to this manual at any time without notice. Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...
Page 8: Explanation Of Symbols
1.2 Explanation of symbols 1 About this manual 1.2 Explanation of symbols 1.2.1 Use of danger information Danger information is denoted as follows: Danger: Means that death, serious physical injury or substantial damage to property will occur if the required safety measures are not taken.
Page 9: Version Information
1 About this manual 1.3 Version information 1.3 Version information Index Created Changed Version number Version 1.0 Version 1.1 Date 02-09-2016 06-14-2016 Name/department MJ / 02RH-NT GL / 02RH-NT Index Changed Changed Version number Version 2.0 Version 2.1 Date 11-03-2016 06-10-2017 Name/department MJ / 02RH-NT...
Page 10: Safety Instructions
2.1 Intended use 2 Safety instructions 2 Safety instructions 2.1 Intended use The devices described in this manual are decentralized input/output assemblies on a PROFINET IO network. We adhere to all safety standards when developing, producing, testing, and documenting our products. When you adhere to the handling specifications and safety instructions described for the configuration, assembly, and correct operation, there should not normally be any risks for people or equipment.
Page 11: Qualified Personnel
Only Belden Deutschland GmbH – Lumberg Automation™ – is permitted to make changes to the hardware or software of the products that go beyond the scope of this manual.
Page 12: Designations And Synonyms
3 Designations and synonyms 3 Designations and synonyms Extended Environmental Conditions LioN-P 30 LioN-P devices with a width of 30mm LioN-P 60 LioN-P devices with a width of 60mm Type A IO-Link port specification (Class A) Type B IO-Link port specification (Class B) IO port X1 - X8 IO port pin 4 (C/Q)
Page 13: System Description
4 System description 4.1 PROFINET product features 4 System description LioN modules (Lumberg Automation™ Input/Output Network) function as the interface in an industrial fieldbus system: They enable a central controller on the management level to communicate with the decentralized sensors and actuators on the field level.
Page 14 4.1 PROFINET product features 4 System description PROFINET IO Device RT LioN-P IO-Link master modules support PROFINET IO Device RT (real-time). This allows the transmission of time sensitive process data between network components in real-time communication. PROFINET specification V2.3, Conformance Class C (CC-C) LioN-P IO-Link master...
Page 15 4 System description 4.1 PROFINET product features The master modules use the DCP protocol to automatically assign IP addresses. LLDP The LLDP protocol is used to detect devices in the vicinity (neighborhood detection). SNMP The SNMP protocol handles network component monitoring and communication between the master and device.
Page 16: Io Port Features
4.2 IO port features 4 System description 4.2 IO port features The master modules support the IO-Link standard v1.1. Parametrization of the IO-Link devices in PROFINET via Siemens IO_LINK_CALL function modules for Step7 and TIA Portal. Parametrization of the IO-Link devices via TMG IO-Link Device Tool >...
Page 17: Integrated Web Server
4 System description 4.3 Integrated web server master. The function thus gives you an easy option for replacing the IO-Link device or IO-Link master. This is possible as of IO-Link specification V1.1 and only if the IO-Link device and the IO-Link master support the function.
Page 18 4.3 Integrated web server 4 System description With the Force Mode output and input values can be set for implementation reasons. Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...
Page 19: Other Features
4 System description 4.4 Other features 4.4 Other features Interface protection The modules have reverse polarity, short-circuit and overload protection for all interfaces. Failsafe The modules support a failsafe function. This allows you to define the behavior of every single channel configured as an output in the case of an interruption or a loss of PROFINET communication.
Page 20: Product Overview
4.5 Product overview 4 System description 4.5 Product overview The following IO-Link masters are available for the LioN-P system: Article Product designation Description Power & IO ports number Ethernet ports 934 878 005 0980 ESL 308-121 LioN-P M12-60, PWR - M12 8x M12 A-coded IO-Link Master L-coded,...
Page 21 4 System description 4.5 Product overview Article Product designation Description Power & IO ports number Ethernet ports 934 862 001 0980 ESL 109-331 LioN-P M12-30, PWR - M12 8x M12 A-coded Hybrid, IO-Link Master SP - PROFINET ETH – M12 934 964 001 0980 ESL 199-331 LioN-P M12-30,...
Page 22: Assembly And Wiring
5.1 General information 5 Assembly and wiring 5 Assembly and wiring 5.1 General information Mount the module on a flat surface using 2 screws (M4x 25/30). The torque required here is 1 Nm. Use washers for all fastening methods as per DIN 125. Attention: The modules have a ground connection with an M4 thread for the conduction of interference currents and the EMC immunity.
Page 23: Outer Dimensions
5 Assembly and wiring 5.2 Outer dimensions 5.2 Outer dimensions 5.2.1 Module 0980 ESL 3x8-121 & ESL 3x9-121 Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...
Page 24: Module 0980 Esl 1X9-121
5.2 Outer dimensions 5 Assembly and wiring 5.2.2 Module 0980 ESL 1x9-121 Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...
Page 25: Module 0980 Esl 1X9-332
5 Assembly and wiring 5.2 Outer dimensions 5.2.3 Module 0980 ESL 1x9-332 Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...
Page 26: Module 0980 Esl 1X9-122
5.2 Outer dimensions 5 Assembly and wiring 5.2.4 Module 0980 ESL 1x9-122 Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...
Page 27: Module 0980 Esl 1X9-331
5 Assembly and wiring 5.2 Outer dimensions 5.2.5 Module 0980 ESL 1x9-331 Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...
Page 28: Port Assignments
5.3 Port assignments 5 Assembly and wiring Attention: For U application: Be sure to use a UL-certified cable with a suitable evaluation to connect the devices (CYJV or PVVA). To program the control, please refer to the OEM information, and only use suitable accessories. Only approved for interior use.
Page 29: Power Supply With M12 Power L-Coded
5 Assembly and wiring 5.3 Port assignments Port Signal Function PROFINET Transmit data plus Ports X01, X02 Receive data plus Transmit data minus Receive data minus Table 3: Assignment of ports X01, X02 Caution: Risk of destruction! Never connect the power supply to the data cables.
Page 30: Profinet And Power Supply With M12 Hybrid
5.3 Port assignments 5 Assembly and wiring Power supply Signal Function (+24 V) Sensor/system power supply GND_U Ground/reference potential U GND_U Ground/reference potential U (+24 V) Auxiliary supply (electrically isolated to U FE (PE) Functional ground Table 4: Power supply with M12-Power Attention: Only use power supply units for the system/sensor and actuator supply that correspond to PELV (Protective Extra...
Page 31: Io Ports As M8 Or M12 Sockets
5 Assembly and wiring 5.3 Port assignments Ether + Signal Function Power Supply PROFINET Transmit data plus Ports X01, X02 Receive data plus Transmit data minus Receive data minus GND_U Ground/reference potential GND_U GND_U Ground/reference potential GND_U (+24 V) Sensor/system power supply (+24 V) Auxiliary supply (electrically isolated)
Page 32: Io-Link Type B
5.3 Port assignments 5 Assembly and wiring Figure 7: Schematic drawing IO port as M12 socket IO-Link Type A IO-Link Signal Function Type A IO-Link sensor power supply +24 V IN-x Ch. B: Digital input (type 1) IO-Link sensor supply GND_U Ch.
Page 33 5 Assembly and wiring 5.3 Port assignments IO-Link Signal Function Type B IO-Link sensor power supply +24 V 2L+ (U Ch. B: Auxiliary power supply (electrically isolated with respect to the sensor/system power supply) IO-Link sensor supply GND_U Ch. A: IO-Link data communication 2M (GND_U Ground/reference potential U Table 7: IO ports as M8 or M12 socket IO-Link Type B...
Page 34: Starting Operation
6.1 GSDML file 6 Starting operation 6 Starting operation 6.1 GSDML file A GSD file in XML format is required to configure the LioN-P modules. All module variants are grouped in a single GSDML file. This can be downloaded from our homepage www.beldensolutions.com/en/Service/download_center/index.phtml.
Page 35: State On Delivery
6 Starting operation 6.3 State on delivery 6.3 State on delivery PROFINET parameters in state on delivery or after a factory reset: PROFINET name: Name not assigned IP address: 0.0.0.0 Subnet mask: 0.0.0.0 Device designations: 0980 ESL 109-121 0980 ESL 109-122 0980 ESL 109-331 0980 ESL 109-332 0980 ESL 308-121...
Page 36: Assigning A Unique Device Name
6.4 Configuration of the LioN-P 6 Starting operation PROFINET IO modules in STEP 7 6.4.1 Assigning a unique device name PROFINET IO devices are addressed on PROFINET via a unique device name. This can be freely assigned by the user, but may only be used once on the network.
Page 37: Configuring The Io-Link Channels
6 Starting operation 6.4 Configuration of the LioN-P PROFINET IO modules in STEP 7 6.4.3 Configuring the IO-Link channels A pre-configuration of the IO function is automatically used for slot 1 of the subrack. By default, all channels are pre-configured as digital inputs as per the IO-Link specification.
Page 38: Deleting The Configuration Of An Io-Link Channel
6.4 Configuration of the LioN-P 6 Starting operation PROFINET IO modules in STEP 7 6.4.3.1 Deleting the configuration of an IO-Link channel 1. To delete an IO-Link channel, select the desired IO-Link channel in HWConfig. 2. Right click and then select the Clear option in the menu that appears. 3.
Page 39 6 Starting operation 6.4 Configuration of the LioN-P PROFINET IO modules in STEP 7 Figure 10: Free IO-Link channel 4. Right click this entry. The following menu appears: Figure 11: Menu dialog 5. Select the Clear option. Press Yes to confirm the dialog that follows. Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...
Page 40: Creating An Io-Link Channel Configuration
6.4 Configuration of the LioN-P 6 Starting operation PROFINET IO modules in STEP 7 Figure 12: Free IO-Link channel 6.4.3.2 Creating an IO-Link channel configuration Click 3x on the + symbols in the hardware catalog of the device you want to configure to reveal a selection of options: Figure 13: IO-Link channel configuration Select the desired option, click and hold down the left mouse button to drag...
Page 41 6 Starting operation 6.4 Configuration of the LioN-P PROFINET IO modules in STEP 7 In this mode the channel operates as a digital input. The IO-Link master does not try to establish communication to a connected IO-Link device. SIO mode (DI) This mode is used to parameterize the IO-Link devices.
Page 42: Parameterization Of The Io-Link Channels
6.4 Configuration of the LioN-P 6 Starting operation PROFINET IO modules in STEP 7 modules with data lengths of 1-32 input and/or output bytes are available. If no suitable configuration module is available for the device, the next larger data length must be selected.
Page 43 6 Starting operation 6.4 Configuration of the LioN-P PROFINET IO modules in STEP 7 If parameter data of a device were stored previously, these data remain stored without any changes. Download only (master to device) Enables the parameter data download function to the IO-Link device on the master.
Page 44 6.4 Configuration of the LioN-P 6 Starting operation PROFINET IO modules in STEP 7 Enables the IO-Link parameter data download and upload function. An upload is performed when an IO-Link device is connected and the master does not have any valid data. This is the case if "Disabled and Cleared"...
Page 45: Iol Device Validation
6 Starting operation 6.4 Configuration of the LioN-P PROFINET IO modules in STEP 7 6.4.4.2 IOL Device Validation The IOL Device Validation (IO-Link Device Identification) lets you check the connected devices for the values set in the control program in order to, e.g., identify correctly connected devices and not start operations with them.
Page 46: Fail Safe Configuration (For Outputs Only)
6.4 Configuration of the LioN-P 6 Starting operation PROFINET IO modules in STEP 7 Replacement of the an IO-Link device of the same type is thus only possible if the serial number is changed in the Engineering Tool at the same time. VendorID The VendorID of the IO-link device used can be entered as a decimal value in the VendorID 1 (high-order byte)
Page 47 6 Starting operation 6.4 Configuration of the LioN-P PROFINET IO modules in STEP 7 All bits of the output data with a value of 1 are transmitted to the IO-Link device. Hold Last The last valid output value received by the control unit is continuously and cyclically transmitted to the IO-Link device.
Page 48: Parameterization Of The Status/Control Module
6.4 Configuration of the LioN-P 6 Starting operation PROFINET IO modules in STEP 7 6.4.5 Parameterization of the status/control module Figure 18: Status/Control module The status/control module in slot 1/sub-slot 1 is pre-configured for each LioNP IO-LinkMaster. It consists of 4 bytes of input and 4 bytes of output data for the digital IO/ data, and status and control bits of the IO-Link Master.
Page 49: General Diagnosis Settings
6 Starting operation 6.4 Configuration of the LioN-P PROFINET IO modules in STEP 7 The Digital-IO Bit Mapping Mode parameter can be used to define the mappings of the input/output bits that are transmitted in the cyclical data of the Status/Control Module from the control unit to the devices, or from the device to the control unit.
Page 50: Fail Safe Value (Do-Mode)
6.4 Configuration of the LioN-P 6 Starting operation PROFINET IO modules in STEP 7 Diagnostics or diagnostics levels can be enabled or disabled in the General Diagnosis Settings folder. The figure shows the default setting. Attention: "Report U supply voltage fault" is disabled in the default setting, to avoid diagnostic messages due to switching the supply voltage on or off later on.
Page 51: Surveillance Timeout Configuration (Lion-P 60 Devices)
6 Starting operation 6.4 Configuration of the LioN-P PROFINET IO modules in STEP 7 6.4.6 Surveillance Timeout Configuration (LioN-P 60 devices) For LioN-P 60 devices, the separate power supply 2L+ (UAux), which is available on type B IO-Link channels (Ch.B / Pin2), ports 5-8, can also be configured as an additional digital output (tab: "Digital-IO mode for Ch.
Page 52: Digital Input Logic
6.4 Configuration of the LioN-P 6 Starting operation PROFINET IO modules in STEP 7 6.4.7 Digital input logic This parameter can be used to configure the logic of channels used as digital inputs. Figure 23: Digital input logic Default setting NO (Normally Open) for all channels NO (Normally Open) A non-damped sensor has an open switching output...
Page 53: Digital-Io Mode For Ch. B/Pin
6 Starting operation 6.4 Configuration of the LioN-P PROFINET IO modules in STEP 7 6.4.8 Digital-IO mode for Ch. B/Pin 2 6.4.8.1 Digital-IO mode for Ch. B/Pin 2 (LioN-P 30 devices) The type B IO-Link ports of the LioN-P 30 devices have a fixed configuration. The functionality is shown in the following figure: Figure 24: Digital IO mode (LioN-P 30 devices) 6.4.8.2 Digital-IO mode for Ch.
Page 54 6.4 Configuration of the LioN-P 6 Starting operation PROFINET IO modules in STEP 7 Figure 25: Digital IO mode (LioN-P 60 devices) Default setting Auxiliary Power Supply (IO-Link Type B) Auxiliary Power (IO-Link Type B) In this mode, Pin 2 and Pin 5 of the type B IO-Link ports, ports 5 - 8, act as an auxiliary voltage output.
Page 55: Io-Link Device Parameterization
6 Starting operation 6.5 IO-Link Device Parameterization 6.5 IO-Link Device Parameterization 6.5.1 SIEMENS IO-Link library The SIEMENS STEP 7 "IO_LINK_CALL" function module can both acyclically write device parameters of an IO-link device and read parameters, measured values and diagnostic data. In a revised version of this library, "IO_LINK_CALL"...
Page 56 6.5 IO-Link Device Parameterization 6 Starting operation Figure 27: STEP 7 V5.5 Service data are uniquely addressed via the index and the sub-index and can be accessed or written via the logical start address of the status/control module (ID) inputs, the client access point (CAP = 255) and the corresponding IO-link port (PORT).
Page 57: Snmp
6 Starting operation 6.6 SNMP 6.6 SNMP The PROFINET IO-Link master supports SNMP objects required by the PROFINET specification as per protocol standard SNMP v1. These include objects from RFC 1213 MIB-II (System Group and Interfaces Group) and the LLDP MIB. Passwords: Read Community: public Write Community: private...
Page 58: Media Redundancy Protocol (Mrp)
6.7 Media Redundancy Protocol 6 Starting operation (MRP) 6.7 Media Redundancy Protocol (MRP) Redundant PROFINET communication can be implemented with the LioN-P modules via a ring topology without the use of additional switches. A MRP redundancy manager terminates the ring, detects individual failures, and transmits the data packets on the redundant path in case of error.
Page 59 6 Starting operation 6.7 Media Redundancy Protocol (MRP) Figure 28: Example of setting up the MRP redundancy manager in STEP7 Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...
Page 60 6.7 Media Redundancy Protocol 6 Starting operation (MRP) Figure 29: Example of setting up an MRP redundancy client in STEP7 Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...
Page 61: Identification & Maintenance Functions (I&M)
6 Starting operation 6.8 Identification & maintenance functions (I&M) Figure 30: Example of setting up the response monitoring times in STEP7 6.8 Identification & maintenance functions (I&M) The PROFINET module has the ability to uniquely identify the devices installed in the system via an electronic nameplate. This device-specific data can be read acyclically by the user at any time.
Page 62: Supported I&M Features
0. The specified index is used for mapping the data sets. Data object Length Access Default value / Description [byte] MANUFACTURER_ID Read 0x016A (Belden Deutschland GmbH) ORDER_ID Read Order number of module in ASCII SERIAL_NUMBER Read Defined in production process in ASCII...
Page 63: Io-Link Master I&M Functions
6 Starting operation 6.8 Identification & maintenance functions (I&M) Data object Length Access Default value / Description [byte] INSTALLATION_DATE Read/ 0x20 ff. (empty); Supported data format is a Write visible string with a fix length of 16 byte; “YYYY-MM-DD hh:mm” or “YYYY-MM-DD”...
Page 64 6.8 Identification & maintenance 6 Starting operation functions (I&M) Data object Length Access Default value / Description [byte] MANUFACTURER_ID Read 0x016A (Belden Deutschland GmbH) ORDER_ID Read Order number of module in ASCII SERIAL_NUMBER Read Defined in production process in ASCII HARDWARE_REVISION Read...
Page 65: Io-Link Device I&M Functions
6 Starting operation 6.8 Identification & maintenance functions (I&M) Data object Length Access Default value / Description [byte] NDEX_CAP1 Read 0xFF (Client Access Point for IOL_CALL) Table 14: I&M 99 (Slot 1, Index 0xB063) 6.8.1.3 IO-Link Device I&M functions The IO-Link device-specific I&M functions 16 and 23 can be read via slot 1, sub-slot 1.
Page 66: I&M Read Record
6.8 Identification & maintenance 6 Starting operation functions (I&M) Data object Length [byte] Data type Coding Description BlockType Word I&M 0: 0x0020 BlockHeader I&M 1: 0x0021 I&M 2: 0x0022 I&M 3: 0x0023 I&M 4: 0x0024 I&M 16 ... 23: 0x0F00 I&M 99: 0x0F00 BlockLength Word...
Page 67: I&M Write Record
6 Starting operation 6.8 Identification & maintenance functions (I&M) Figure 31: Example of a completed I&M 0 read action 6.8.2.2 I&M Write Record I&M data can be written via the standard WRREC (SFB53) function block in STEP 7. The logical address of the slot/sub-slot (ID), the I&M index (INDEX) and the data length (LEN) must be used as handover parameters.
Page 68 6.8 Identification & maintenance 6 Starting operation functions (I&M) Figure 32: Example of a completed I&M 1 write action Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...
Page 69: Fast Start-Up (Fsu) / Prioritized Start-Up
6 Starting operation 6.9 Fast Start-Up (FSU) / Prioritized Start-Up 6.9 Fast Start-Up (FSU) / Prioritized Start-Up The LioN-P modules with Fast Start-Up (FSU) support an optimized system start-up. This guarantees a faster restart after the power supply is restored. Fast Start-Up can be activated for the LioN-P modules with PROFINET interface [X1] >...
Page 70: Bit Assignment
7.1 Process data Status and Control 7 Bit assignment module, slot 1/sub-slot 1 7 Bit assignment The LioN-P IO-Link masters use a modular device model. Slot 1/sub-slot 1 contains the IO-Link master status and control module. This module always has 4 bytes of input data and 4 bytes of output data; it is always statically configured on selecting a LioN-P IO-Link Master from the GSD file.
Page 71 7 Bit assignment 7.1 Process data Status and Control module, slot 1/sub-slot 1 Port Channel Table 18: Byte 1, Digital Input Status Port Channel Table 19: Byte 2, IOL-COM state Port Channel Table 20: Byte 3, IOL PD valid Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...
Page 72: Output Data Of The Status/Control Modules (Except 0980 Esl 3X8-121)
7.1 Process data Status and Control 7 Bit assignment module, slot 1/sub-slot 1 Key: The digital input data return the status of the digital inputs. The data in the cells highlighted in blue are only available for LioN-P 60 devices are representing the output status. Channel: Channel number of the PROFINET device model used for diagnostic messages.
Page 73 7 Bit assignment 7.1 Process data Status and Control module, slot 1/sub-slot 1 Port Channel Table 24: Byte 3, reserved Key: The data in the cells highlighted in blue are only available for LioN-P 60 devices. Byte 0 (Pin 4, C/Q mode): The digital output on the corresponding port can be controlled via the process data.
Page 74: Output Data Of The Status/Control Modules For 0980 Esl 3X8-121
7.1 Process data Status and Control 7 Bit assignment module, slot 1/sub-slot 1 7.1.1.3 Output data of the Status/Control modules for 0980 ESL 3x8-121 Port Channel Table 25: Byte 0, Digital Output State Port Channel Table 26: Byte 1, Digital Output State Port Channel Table 27: Byte 2, COM mode...
Page 75: Digital Io Mapping Mode 2 (E2C Compatibility)
7 Bit assignment 7.1 Process data Status and Control module, slot 1/sub-slot 1 Port Channel Table 28: Byte 3, reserved Key: Byte 0 (Pin 4, C/Q mode): The digital output on the corresponding port can be controlled via the process data. The IO link port must be configured as a digital output in the Engineering Tool.
Page 76 7.1 Process data Status and Control 7 Bit assignment module, slot 1/sub-slot 1 Port Channel Table 30: Byte 1, Digital Input Status Port Channel Table 31: Byte 2, IOL-COM state Port Channel Table 32: Byte 3, IOL PD valid Key: The digital input data return the status of the digital inputs.
Page 77: Output Data Of The Status/Control Modules (Except 0980 Esl 3X8-121)
7 Bit assignment 7.1 Process data Status and Control module, slot 1/sub-slot 1 7.1.2.2 Output data of the Status/Control modules (except 0980 ESL 3x8-121) Port Channel Table 33: Byte 0, Digital Output State Port Channel Table 34: Byte 1, Digital Output Status Port Channel Table 35: Byte 2, COM mode...
Page 78 7.1 Process data Status and Control 7 Bit assignment module, slot 1/sub-slot 1 Port Channel Table 36: Byte 3, reserved Key: The data in the cells highlighted in blue are only available for LioN-P 60 devices. Byte 0 (Pin 4, C/Q mode): The digital output on the corresponding port can be controlled via the process data.
Page 79: Output Data Of The Status/Control Modules For 0980 Esl 3X8-121
7 Bit assignment 7.1 Process data Status and Control module, slot 1/sub-slot 1 7.1.2.3 Output data of the Status/Control modules for 0980 ESL 3x8-121 Port Channel Table 37: Byte 0, Digital Output Status Port Channel Table 38: Byte 1, Digital Output Status Port Channel Table 39: Byte 2, COM mode...
Page 80: Process Data Io-Link Ports, Slot 1/Sub-Slot 2 - Sub-Slot
7.2 Process data IO-Link ports, slot 1/ 7 Bit assignment sub-slot 2 - sub-slot 9 Port Channel Table 40: Byte 3, reserved Key: Byte 0 (Pin 4, C/Q mode): The digital output on the corresponding port can be controlled via the process data. The IO link port must be configured in digital output mode.
Page 81: Diagnostics Processing
8 Diagnostics processing 8.1 Error of the system/sensor power supply 8 Diagnostics processing 8.1 Error of the system/sensor power supply The voltage value for the incoming system/sensor power supply is also monitored globally. If the voltage drops below approx. 18 V, or exceeds approx.
Page 82: Overload/Short-Circuit Of The Io Port Sensor Supply Outputs
8.3 Overload/short-circuit of the IO 8 Diagnostics processing port sensor supply outputs diagnostic messaging is disabled by default and must be enabled via parameterization. The following group diagnostic message is generated: Channel number of diagnosis 0x8000 (diagnosis not channel-specific) Channel related diagnosis code 0x0103 Channel related diagnosis code message Undervoltage...
Page 83: Overload/Short Circuit Of The Digital 500 Ma Outputs
8 Diagnostics processing 8.4 Overload/short circuit of the digital 500 mA outputs Alternatively, the following error message is generated: Channel number of diagnosis 0x01 - 0x08 Channel related diagnosis 0x0113 code Channel related diagnosis High temperature limit of IO-Link port driver exceeded (short circuit or code message overload), detected by IO-Link master 8.4 Overload/short circuit of the digital 500 mA...
Page 84 8.5 Overload/short circuit of the digital 8 Diagnostics processing outputs Target value Actual value Comment Active Active OK, no diagnosis OK, no diagnosis Active Short-circuit Channel indicator is red. Channel error bit in the diagnosis is set. Channel is locked after the error is rectified. Table 41: Interpretation of channel errors When an output channel is activated (rising edge of the channel state) or deactivated (falling edge), the channel errors are filtered for the period that...
Page 85: Overload/Short Circuit Of The Type B Port Aux. Power Supply
8 Diagnostics processing 8.6 Overload/short circuit of the Type B port aux. power supply 8.6 Overload/short circuit of the Type B port aux. power supply 8.6.1 For LioN-P 30 devices In case of an overload or a short circuit between pin 2 and pin 5 on these ports (X5 - X8), the following group diagnostic message (non channelspecific) is generated: Channel number of...
Page 86: Io-Link C/Q Error
8.7 IO-Link C/Q error 8 Diagnostics processing 8.7 IO-Link C/Q error If an IO-Link device in COM mode is unplugged, an incorrect IO-Link device is plugged in, or an electrical fault occurs on the C/Q (Pin 4) line, for example, due to a short circuit, then following error message is generated: Channel number of 0x01 - 0x08...
Page 87: Io-Link Device Diagnostics
8 Diagnostics processing 8.8 IO-Link Device Diagnostics 8.8 IO-Link Device Diagnostics Diagnostics of IO-Link devices that the device sends to the IO-Link Master are reported via a standard channel diagnostic and an extended channel diagnostic. Standard channel diagnostic message: Channel number of 0x01 - 0x08 diagnostics Channel related diagnostic...
Page 88 8.8 IO-Link Device Diagnostics 8 Diagnostics processing Mode Type Res. Instance Table 42: Event Qualifier Value Definition Unknown Application 5 ... 7 reserved Table 43: Event Qualifier Instance Event Qualifier Res. This bit is reserved and must be set to 0. Value Definition Reserved...
Page 89: Port Configuration Tool
The key technological element for the operation of the connected devices is the mandatory IODD (IO Device Description) file. The IODD is accepted worldwide. The Belden IO-Link Device Tool supports IO-Link V1.0 (IODDs V1.0.1) and IO-Link V1.1 (IODDs V1.1). Main functions:...
Page 90 9 Port Configuration Tool Figure 33: Port configuration tool - Main window Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...
Page 91: The Integrated Web Server
10 The integrated web server 10 The integrated web server The LioN-P modules are equipped with an integrated web server which makes functions available for the configuration of modules and display of status and diagnostic information. Enter http:// followed by the IP address, such as http://192.168.1.5, in your web browser’s address bar.
Page 92: The Status Page
10.1 The Status page 10 The integrated web server 10.1 The Status page The status page provides a quick overview of the current state of the module. The left side shows a graphical representation of the module with all its LEDs and the positions of the rotary encoding switches.
Page 93 10 The integrated web server 10.1 The Status page Forcemode The Forcemode is a test option for the plant engineer, the input and output data can be set from this web page. The physical input data and the logical output data from the controller can be overruled in this mode.
Page 94 10.1 The Status page 10 The integrated web server Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...
Page 95: The Ports Page
10 The integrated web server 10.2 The Ports page 10.2 The Ports page Detailed port information is shown here. Port Diagnostics show incoming and outgoing diagnostics in clear text. Pin 2 and Pin 4 contain information about the configuration and state of the port. For IO-Link ports, additional information relating to the connected sensor and the process data is displayed.
Page 96: The System Page
10.3 The System page 10 The integrated web server 10.3 The System page The System page shows basic information for the module. The current firmware, its version, and the firmware date can be viewed below Firmware as well as the version of the web interface. All the information about the module itself is located below Device.
Page 97 10 The integrated web server 10.3 The System page Attention: During the factory reset process the BF/MS/RUN LED is cyclic triple flashing red. After completion the factory reset the BF/MS/ RUN LED is cyclic triple flashing green. Afterwards perform a power cycle and wait 10 seconds.
Page 98: The User Page
10.4 The User page 10 The integrated web server 10.4 The User page The User page provides the user management of the web interface. New users with access rights Admin or Write can be added here. For security reasons please change the default admin password immediately after configuring the device.
Page 99: Technical Data
11 Technical data 11.1 General 11 Technical data 11.1 General Protection class For all Digital LioN-P modules: IP65, IP67 (This only applies if the Only for modules with M12-L power connector (not for IP69 connectors are screwed modules with 7/8" power connector): together or if protective caps are used.) Ambient temperature...
Page 100: Profinet Protocol
11.2 PROFINET protocol 11 Technical data 11.2 PROFINET protocol Protocol PROFINET IO Device V2.3 Conformance Class C (CC-C) Netload Class Update cycle 1 ms GSDML file GDSML-V2.3x-LumbergAutomation-LioN-Pyyyymmdd.xml Transmission rate 100 Mbit/s, full duplex Transmission procedure 100BASE-TX Autonegotiation is supported Vendor ID Device ID 0305 (same for all LioN-P modules) Supported Ethernet protocols...
Page 101: Power Supply Of The Module Electronics/Sensors
11 Technical data 11.3 Power supply of the module electronics/sensors 11.3 Power supply of the module electronics/ sensors Nominal voltage U 24 V DC (SELV/PELV) Voltage range 18-30 V DC Power consumption of at 24 V DC: typ. 95 mA module electronics at 30 V DC: typ.
Page 102: Power Supply Of The Type B Ports (Auxiliary Supply)
11.4 Power supply of the type B ports 11 Technical data (auxiliary supply) 11.4 Power supply of the type B ports (auxiliary supply) Nominal voltage U 24 V DC (SELV/PELV) Voltage range 18-30 V DC Reverse polarity protection Operational indicator (U LED green: 18 V (+/- 1 V) < U <...
Page 103: Configured As A Digital Input
11 Technical data 11.5 IO-Link Master Ports (X1 - X8, Ch. A / C/Q / Pin 4) 11.5.1 Configured as a digital input Input connection Type 1 as per IEC 61131-2 Nominal input voltage 24 V DC Input current Typically 3 mA Channel type Normally open, p-switching Number of digital inputs...
Page 104: Configured As An Io-Link Port In Com Mode
11.6 Digital inputs (X1 – X4, type A 11 Technical data ports, Ch. B/Pin 2) 11.5.3 Configured as an IO-Link port in COM mode IO-Link master v1.1, IEC 61131-9 specification Communication rates 4.8 kbaud (COM 1), 38.4 kbaud (COM 2) and 230.4 kbaud (COM 3) Line lengths in the max.
Page 105 11 Technical data 11.6 Digital inputs (X1 – X4, type A ports, Ch. B/Pin 2) Figure 34: Block diagram Class-A Port Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...
Page 106: Lion-P 60: U Aux
11.7 LioN-P 60: U config. as a 11 Technical data digital output (X5 - X8, type B ports, Ch. B/Pin 2) 11.7 LioN-P 60: U config. as a digital output (X5 - X8, type B ports, Ch. B/Pin 2) Output type Normally open, p-switching Nominal output current per channel 2 A (for U...
Page 107: Lion-P 30: U Aux (X5 - X8)
11 Technical data 11.8 LioN-P 30: U (X5 - X8) 11.8 LioN-P 30: U (X5 - X8) Nominal output current per module max. 4 A Nominal output current per port max. 4 A Short-circuit/overload protected yes/yes Status indicator LED white per output Diagnostic indicator Red LED per channel Table 56: LioN-P 30 extended sensor supply (X5 - X8) type B ports...
Page 108 11.9 Differences between 0980 ESL 11 Technical data 3x8-121 and 0980 ESL 3x9-121 11.9 Differences between 0980 ESL 3x8-121 and 0980 ESL 3x9-121 Module type 0980 ESL 3x8-121 contains digital outputs electrically decoupled by series diodes in order to prevent unwanted reverse feeding of the sensor / actuator power supply caused by erroneous wiring.
Page 109 11 Technical data 11.10 LEDs 11.10 LEDs Green Auxiliary sensor/actuator voltage 18 V (+/- 1 V) < U < 30 V (+/- 1 V) Auxiliary sensor/actuator voltage < 18 V (+/- 1 V) or U > 30 V (+/- 1 V) if "Report U supply voltage fault" is enabled. None of the above conditions Green System/sensor voltage 18 V (+/- 1 V) <...
Page 110 11.10 LEDs 11 Technical data Link exists but no communication link to the PROFINET controller flashing at 2 Hz PROFINET controller has established an active connection to the device PROFINET diagnostic alarm active Watchdog time-out; fail safe mode is active flashing at 1 Hz DCP signal service is initiated via the bus flashing at...
Page 111: Manual Lion-P Profinet Io-Link Master
12 Accessories 12 Accessories In order to get access to various types of accessories, please visit our web page: http://www.beldensolutions.com Manual LioN-P PROFINET IO-Link Master Version 2.3 11/2019...

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Belden Lumberg Automation LioN-P 0980 ESL 309-121-EEC Manual

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