WAGO I/O System Field 8-Channel Digital Output; Profinet; DC 24 V; 2.0 A; 4 × M12 Connection 765-1104/0100-0000 Product manual | Version 2.1.
Legal Information 765-1104/0100-0000 © 2020 WAGO Kontakttechnik GmbH & Co. KG All rights reserved. WAGO Kontakttechnik GmbH & Co. KG Hansastraße 27 D - 32423 Minden Phone: +49 571/887 – 0 Fax: +49 571/887 – 844169 E-Mail: * info@wago.com Internet: ü www.wago.com Technical Support Phone: +49 571/887 – 44555 Fax: +49 571/887 – 844555 E-Mail: * support@wago.com Every conceivable measure has been taken to ensure the accuracy and completeness of this documentation.
765-1104/0100-0000 Table of Contents Table of Contents 1 Provisions......................................................................................................................... 7 1.1 Document Portfolio.................................................................................................. 7 1.2 Intended Use ........................................................................................................... 7 1.3 Typographical Conventions...................................
Table of Contents 765-1104/0100-0000 5.5.2 WAGO IO-Link Configurator......................................................................... 26 5.5.2.1 Possible Operating Modes .................................................................. 26 5.5.2.2 Device Description File (IO Device Description – IODD)..................... 26 5.5.2.3 IODD Viewer........................................................................................ 26 5.5.2.4 IODDfinder..............................................
765-1104/0100-0000 Table of Contents 9.2 Connect Power Supply.......................................................................................... 47 9.3 Connecting Cables ................................................................................................ 50 9.4 Connecting Fieldbus ............................................................................................. 50 9.5 Connect Sensors/Actuators ...........................................................................
Table of Contents 765-1104/0100-0000 10.2.3.4.4 Quick Start Guide: Using TCI, e.g., in STEP 7 or the TIA Portal ................................................................................................. 104 10.2.3.4.5 IO-Link Implementation............................................................ 105 10.2.4 WAGO I/O Field app .................................................................................. 106 10.2.4.1 Parameterizing the Product with the WAGO I/O Field App ...............
65-1104/0100-0000 Provisions Provisions 1 This documentation applies to the following product: 0765-1104/0100-0000. 1.1 Document Portfolio Note Observe the applicable documentation! This product must only be installed and operated according to the instructions of the complete Instructions for use. Knowledge of the complete Instructions for use is required for proper use. 1. Carefully read the Product Manual. 2. Before commissioning, follow the instructions in section 8 Safety [} 11].
Provisions 765-1104/0100-0000 • Use of the product in areas with special risk that require continuous fault-free operation and in which failure of or operation of the product can result in an imminent risk to life, limb or health or cause serious damage to property or the environment (such as the operation of nuclear power plants, weapons systems, aircraft and motor vehicles).
765-1104/0100-0000 Provisions Action Instructions ü This symbol identifies a precondition. 1. Action step 2. Action step ð This symbol identifies an intermediate result. ð This symbol identifies the result of an action.
Provisions 765-1104/0100-0000 Figures Figures in this documentation are for better understanding and may differ from the actual product design. 1.4 Legal Information Intellectual Property Unless barred by applicable legal provisions, unauthorized copying and distribution of this document, as well as the use and communication of its content are strictly prohibited unless expressly authorized by prior agreement. Third-party products are always mentioned without any reference to patent rights.
765-1104/0100-0000 Safety Safety 2 This section contains safety rules that must be followed for hazard-free use of the product. This section is aimed at the following target groups: • Planners and installers • Operators • Qualified assembly personnel • Qualified installation personnel (electrical installation, technician network installation etc.) • Qualified operating personnel • Qualified service and maintenance personnel Obey the following safety rules: 2.
Safety 765-1104/0100-0000 Shielding/Network • Observe the applicable standards for EMC-compatible installations. 2.3 Mechanical Safety • Cooling of the product must not be impaired. Ensure air can flow freely and that the minimum clearances from adjacent products/areas are maintained. • Do not install the product on or in the vicinity of easily flammable materials. • Before startup, please check the product for any damage that may have occurred during shipping.
765-1104/0100-0000 Overview Overview 3 The product is part of the WAGO I/O System Field 765. It is intended for industrial use within a PROFINET network and communicates with a central controller and/or directly with the control level, if necessary. Several sensors / actuators can be connected to the product for connection in the field level. The product electronics are protected from environmental influences by the completely encapsulated product housing.
Properties 765-1104/0100-0000 Properties 4 4.1 View Figure 1: View 14 Product manual | Version: 2.1.0 16DO FLD PN DC 24V 2.
765-1104/0100-0000 Properties Table 2: Legend for “View” Figure Function Position ETHERNET Bluetooth ® Indicators Identification Custom Name Description 2 X21 ETHERNET interface, M12, D-coded, PROFINET port 1 1 LNK (X21) Link LED for port X21 3 ACT (X21) Activity LED for port X21 24 X22 ETHERNET interface, M12, D-coded, PROFINET port 2 25 LNK (X22) Link LED for port X22 23 ACT (X22) Activity LED for port X22 4 BT Bluetooth® antenna, including Bluetooth® LED 22 SYS System LE
Properties 765-1104/0100-0000 Table 3: Power supply Supply Voltage Input M12, L-coded, plug, 5-pin (4 + FE) Supply Voltage Output M12, L-coded, socket, 5-pin (4 + FE) Pin Signal Description 1 1L+ 24 VDC supply voltage U1L for system and sensor/actuator 2 2L− Reference potential for 2L 3 1L− Reference potential for 1L 4 2L+ 24 VDC auxiliary/ control voltage U2L FE FE Functional ground CAUTION Upper limit on current consumption from X32 (Power out) Before connecting one or more product
765-1104/0100-0000 Properties 4.2.3 Network Connections 4.2.3.1 ETHERNET Interfaces Table 6: ETHERNET Interfaces ETHERNET Pin Signal Description 1 TX+ Positive send data 2 RX+ Positive receive data 3 TX– Negative send data 4 RX– Negative receive data Housing Shield Shield connection; housing is connected to functional ground M12, D-coded, socket, 4-pin 4.3 Circuit Diagram The following figure shows the schematic circuit diagram of the product.
Properties 765-1104/0100-0000 Housing Metal Mounting type Screw mount, 2 × M4 Tightening torque 1.2 Nm 4.4.3 Connection Technology Power connector PWR IN: M12 L-coded, 5-pin, plug PWR OUT: M12 L-coded, 5-pin, socket PROFINET connection 2 × M12, D-coded, socket, 4-pin Digital Inputs 4 × M12, A-coded, socket, 5-pin Tightening torque 1.0 Nm Digital Input/Output, 1L or 2L Powered Digital Input Characteristic Type 3 (IEC 61131-2) Parameters Digital software input filter: without, 3 ms ...
765-1104/0100-0000 Properties Self-protection Overcurrent, overload and overtemperature Voltage drop through high-side path Less than 200 mV Maximum capacitive load 1000 μF parallel to 24 Ω; 0.1 Hz 470 μF parallel to 12 Ω; 0.1 Hz 220 μF parallel to 6 Ω; 0.1 Hz Maximum inductive load 1.15 H / 2 A; 0.2 Hz; DC13 Diagnostics (1L+, 2L+) Events: overcurrent, overload and overtemperature 4.4.4 Power Supply Voltage 1L, 2L 24 VDC, –25 %/+30 % (18 VDC ...31.
Properties 765-1104/0100-0000 Relative humidity (operation) 5 % ... 95 % Pollution degree 3 (EN 60664-1) Operating altitude 0 ... 2000 m Overvoltage category II (EN 60664-1) Protection type IP67 (EN 60529) Protection class III (EN 61140) 4.4.
765-1104/0100-0000 Properties We declare that we meet the EN 62479 standard with respect to the limiting value for low powers less than 20 mW. Therefore, the product fundamentally corresponds to the European limiting values for high-frequency radiation. 4.5 Derating Please note the derating for use of the product. The surrounding air temperature and the current affect the product’s heat generation. The derating curve was created with the following conditions of use: “without air movement and with 0.
Properties 765-1104/0100-0000 UL UL 61010-1 and UL 61010-2-201, “Ordinary Location” Bluetooth® This module has an RF transmitter with the following specifications: • Operating frequency: 2402–2480 MHz • Maximum RF output power: < 20 mW In progress Note More information on approvals You can find detailed information on the approvals online at: ü www.wago.com/- 22 Product manual | Version: 2.1.0 16DO FLD PN DC 24V 2.
765-1104/0100-0000 Functions Functions 5 5.1 Process Image Process Data of the 8 DIO Module The process data of the digital inputs and outputs can be transferred on a port basis (the default) or pin basis. The following tables show the port and pin assignment.
Functions 765-1104/0100-0000 5.2 Forcing This section describes the forcing functions for the product’s input and output data. In forcing, the actual values of the product’s inputs and outputs are “forcibly” overwritten by other values, regardless of their status. The user provides these values and identifies them as forcing values. This method is helpful for commissioning systems and troubleshooting.
765-1104/0100-0000 Functions The OPC UA client application can use the measured values, for example to implement load management. You can find information on load management in section 8 Design Power Supply [} 33]. 5.4 Overload Protection The product has internal overload protection for the output current. The output currently is constantly measured and monitored for values exceeding the maximum.
Functions 765-1104/0100-0000 Table 23: Parameterization Overview Tool PROFINET Modules and Submod- Port configuration ules WAGO Webserver I/O Field – Yes WAGO I/O Field app – Yes Note Parameters via PROFINET take precedence Each time PROFINET communication starts up, the IO-Controller transfers the configuration and parameters to the 765 module. Port configuration parameters that were set by the I/O Field Webserver, the I/O Field app or the OPC UA client are overwritten.
765-1104/0100-0000 Functions TCI only describes the software interface. It does not determine what technology is used for product integration. This allows tools for adaptation to FDT DTM to be connected just like tools that interpret EDDs, as well as Web browsers or tools that are specially developed or adapted for use with TCI.
Functions 765-1104/0100-0000 • User setup and management, as well as user login and logout • Reset product to factory settings and restart firmware • Simulating inputs; forcing outputs Examples of port information include: • Display current measured values of the digital inputs and outputs: temperature, voltage, current and status on pins 1, 2 and 4 • Display the status information for the entire port • Configure ports, e.g.
765-1104/0100-0000 Functions Table 24: Function Overview for WAGO Webserver I/O Field for Digital Input/Output Modules Menu Tab Description Settings (All) Product settings Section Device configuration Configure parameters for IP connection 8 Configuring IP Parameters [} 66] Maintenance information Store maintenance information 8 Storing Maintenance Information [} 66] Factory reset Resetting the product to factory settings 8 Resetsetting the Module to the Factory Settings [} 69] Firmware up
Functions 765-1104/0100-0000 • • • • • • Importing device description file (IODD) of the IO-Link device Parameterizing IO-Link devices Managing customer-specific product names Displaying diagnostic and status information Managing product-specific documents (datasheets, manuals etc.) User and rights management The functional scope described can vary depending on the module type. Note Read the online help! You can find Product-specific information on the WAGO I/O Field app in the online help for the app.
765-1104/0100-0000 Functions • User access: anonymous (only read access) or username/password (read and write access) Product manual | Version: 2.1.0 16DO FLD PN DC 24V 2.
Planning 765-1104/0100-0000 Planning 6 6.1 Structure Guidelines 6.1.1 Installation Site and Touch-Proof Protection This is a class A product. It may cause radio interference in residential areas. The installer/operator must take appropriate measures to avoid radio interference.
765-1104/0100-0000 Planning • To restrict access to and control of individual products and networks, employ a “defense-in-depth” mechanism in your system’s security configuration. Table 25: Additional documentation Document Type Name & White Paper Cybersecurity in Production Facilities All the documentation is available at: ü www.wago.com. 6.2 Power Supply Concept 6.2.
Planning 765-1104/0100-0000 • Power supply of all connected sensors/actuators and hubs via 1L • Power supply of successive devices via 1L Supply cable 2: • Power supply of all connected sensors/actuators and hubs via 2L • Power supply of successive devices via 2L Rules In addition to the consumption of the connected devices, rules for the maximum load capacity must be followed.
765-1104/0100-0000 Planning 1. The currents IX0i_2L for powering the connected products, sensors and actuators (for each port i) 2. The current IX32_2L that flows through the supply voltage output PWR OUT (X32) to other connected products The following rule applies to both supply cables: Rule 2: Current feedthrough limiting The supply voltage for the products of a supply cable that are connected to the output supply connection PWR OUT is passed on through the product from the input supply connection.
Planning 765-1104/0100-0000 Product-Specific Information For supply cable 1L of the Digital Input/Output Module 765-1104/0100-0000, the currents declared in the following table must be taken into account: Table 27: Digital Input/Output Module 765-1104/0100-0000 - Currents in Supply Cable 1 Current Description IX31_1L Current to connection PWR IN (X31): current 1L+ / reverse current 1L− IX32_1L Current to connection PWR OUT (X32): current 1L+ / reverse current 1L− Ilogic Logic supply IX01_1L, IX02_
765-1104/0100-0000 Planning Table 29: Rules for Supply Cables 1 and 2 Current Supply Cable 1 Supply Cable 2 Reverse current to pin 3 (ground) (rule 3) IX0i_pin3_1L ≤ 4 A IX0i_pin3_2L ≤ 4 A 6.2.2 Requirements on the Power Supply Power Source Note PELV or SELV power source required Only operate the product with 24 VDC PELV (Protective Extra Low Voltage) or SELV (Safety Extra Low Voltage). Failure to comply may result in electric shock.
Planning 765-1104/0100-0000 2.
765-1104/0100-0000 Planning 6.3 Settings Options 6.3.
Planning 765-1104/0100-0000 Table 30: “DIO” (Digital Input Output) Parameters Parameter Group Parameters Default Value Range Description Force mode setting Force mode setting 0 0: Enable Force mode The “Forcing” operating mode is allowed to be used (default) 1: disable force mode The “Forcing” operating mode is not allowed to be used BT interface configu- BT optical interface ration 0 Bluetooth timeout [s] 30 0: activation allowed The Bluetooth interface can be enabled by an optical signal
765-1104/0100-0000 Planning Table 30: “DIO” (Digital Input Output) Parameters Parameter Group Parameters Default PIN 4 DI filter config- Port X01 / Power 1L, 0 uration Port X02 / Power 1L, Port X03 / Power 2L, Port X04 / Power 2L Value Range Description 0: no filter No filter active for detecting a signal change of the pin 4 input signal.
Transport and Storage 765-1104/0100-0000 Transport 7 and Storage The original packaging offers optimal protection during transport and storage. • Store the product in suitable packaging, preferably the original packaging. • Only transport the product in suitable containers/packaging. • Make sure the product contacts are not contaminated or damaged during packing or unpacking. • Observe the specified ambient climatic conditions for transport and storage (). 42 Product manual | Version: 2.1.
765-1104/0100-0000 Installation and Removal Installation 8 and Removal 8.1 Installation 8.1.
Installation and Removal 765-1104/0100-0000 • When mounting, be sure not to contaminate the connections. The contamination damages the contacts, which can limit the reliability of the contacts. 8.1.
765-1104/0100-0000 Installation and Removal • Grounding can be done separately via a cable lug and the mounting hole if the module is installed on a non-conductive subsurface Ensure proper contacts and a sufficient cable cross-section. 8.1.9 Shielding Product Use of shielded cables reduces electromagnetic interference and thus increases signal quality. Measurement errors, data transmission errors and interference due to excessive voltage can be prevented.
Installation and Removal 765-1104/0100-0000 3. Ensure that the equipment part on which you mounted the product is de-energized. 4. Unscrew the two M4 cylinder head screws and remove the product. 8.2.3 Removal of 0765-xxxx To remove the product, e.g., when replacing a device, proceed as follows: 1. Ensure that the equipment part on which you mounted the module is de-energized. 2. Unscrew the two M4 cylinder head screws with the Allen key. 3. Remove the product. 8.2.
765-1104/0100-0000 Connection Connection 9 9.1 General Information on Installation When laying cables, the local conditions and the applicable regulations are crucial for implementation. Be sure to maintain the minimum clearances between the cabling and possible sources of interference (including machines, welding equipment and power lines) to prevent loss and corruption of data. For planning and installation of a system, observe the regulations and standards.
Connection 765-1104/0100-0000 • 1L to power the logic and sensors/actuators • 2L to power actuators (separate actuator supply) All supply voltages are connected via L-coded M12 pluggable connectors. ! NOTICE Damage to electronics Connect each of the supply voltages (each to +24 V and 0 V) completely. Connecting multiple supply voltages through one 0 V connection is not permitted, since this would exceed the current load capacity of the contacts.
765-1104/0100-0000 Connection Figure 5: Example of Feeding in and Passing on the Supply Voltages In connection with this figure, note that the cables illustrated for current paths 1L and 2L are realized not as separate cables, but rather as separate wires within one common cable. Supply Cable and Power Supply (M12) Take the current load capacities into account. In this regard, see section 8 Design Power Supply [} 33].
Connection 765-1104/0100-0000 U=2×I×R where: U Voltage drop 2 Factor for feed and return lines I Current RL Line resistance For WAGO 4 × 1.5 mm² supply cables, the cable resistance RL per wire RL <= 13.7 Ω/km. Example of Voltage Drop per Wire with a Current of 8 A on the WAGO 4 × 1.5 mm² Supply Cable U = 2 × 8 A × 13.7 Ω/km = 219.2 V/km This corresponds to a voltage drop of 2.19 V per 10 m of cable length. Example of Voltage Drop per Wire with a Current of 16 A on the WAGO 4 × 2.
765-1104/0100-0000 Connection For a cable that is pre-assembled on one end only, proceed as follows to connect it to an RJ45 plug: Figure 6: RJ45 Pin Assignment Because the Auto MDI(X) functionality is enabled for the respective ETHERNET connection, a crossover cable is not necessary. This functionality automatically detects the direction for sending data and receiving data, so it is irrelevant which cable type is used (crossed or uncrossed).
Connection 765-1104/0100-0000 Figure 7: Network Topology (Module Appearance May Differ) 9.5 Connect Sensors/Actuators The sensor/actuator cable provides power to the connected sensors/actuators and transfers the sensor and actuator signals. Note the current load capacity of the supply contacts; see rule 3 in section Rule 3: Ports X01, X02 etc. The following figure shows the potential routing of the two load circuits within the module. 52 Product manual | Version: 2.1.0 16DO FLD PN DC 24V 2.
765-1104/0100-0000 Connection FE Ethernet Ethernet PWR OUT 2L2 2L+ 4 1L+ 1 FE 3 2L1L- PWR IN 1L- 1L1L1L+ DIO B DIO A 2 2L+ 4 1L+ 1 FE 3 3 1 2 4 1L1L1L+ DIO B DIO A 3 1 2 4 2L2L2L+ DIO B DIO A 3 1 2 4 2L2L2L+ DIO B DIO A 3 1 2 4 Figure 8: Schematic Circuit Diagram of the Power Supply The following table shows the connection options for digital inputs and outputs.
Connection 765-1104/0100-0000 Table 32: Connect Digital Inputs/Outputs Connection Option Description Two digital inputs on channel A and B as a 3-conductor termination. Required port configuration: pin 4 and pin 2 as a digital input. One digital output on channel A as a 2-conductor termination. Required port configuration: Pin 4 as a digital output and pin 2 disabled. Two digital outputs on channel A and B as a 3-conductor termination. Required port configuration: pin 4 and pin 2 as a digital output.
765-1104/0100-0000 Commissioning Commissioning 10 10.1 Setting an IP Address The module requires an IP address so it can be addressed via the ETHERNET network. The module has no IP address when delivered. The module can get the IP address in various ways. • The PROFINET IO-Controller sets the IP address when PROFINET starts up. • You can set the IP address permanently or temporarily with the PROFINET engineering tool of the IO controller. Read the documentation of the PROFINET engineering tool.
Commissioning 765-1104/0100-0000 Figure 10: IP Configuration Dialog • Select the Use Static IP Address option. • Enter the IP address and the subnet mask. Entering the IP address is optional for the standard gateway. • With Make Settings Temporarily, you can specify whether the IP address should be set permanently or temporarily. • Click OK. The module is now accessible via the IP address, and you can open WAGO Webserver I/O Field with a browser, for example. 10.
765-1104/0100-0000 Commissioning 3. Configure the ports 4. Set the parameters ð The parameters are imported from the GSDML file. 10.2.1.1.1 Select the Product Select the product used from the device catalog. Product: 765-1104 Designation: 8DIO FLD PN DC 24V 2.0A 10.2.1.1.2 Configure the PROFINET Station Name and IP Address When delivered and after a factory rest, the IO device has no PROFINET product name, and the IP address is 0.0.0.0.
Commissioning 765-1104/0100-0000 10.2.2.2 WAGO Webserver I/O Field User Interface Figure 11: Dashboard Menu Item, Main Page When the user interface of WAGO Webserver I/O Field opens, the main page of the Dashboard appears first.
765-1104/0100-0000 Commissioning • The sum of all currents (for supply cables 1L and 2L) 10.2.2.3 Opening the Product Information via WAGO Webserver I/O Field 10.2.2.3.1 Display Port Information For each of the digital inputs/outputs of the module (port X01, port X02, etc.), individual port information can be found on the Information, Status, Configuration and Process data tabs. The Configuration tab also offers the option of making port settings. You can access the port information as follows: 1.
Commissioning 765-1104/0100-0000 Displaying Pin- and Port-Specific Measured Values and States The Information tab shows the following current measured values for each of pin 1, pin 2 and pin 4 of the selected port: • Temperature of the pin, measured in °C • Voltage on the pin, measured in volts • Current flowing through the pin, measured in amperes • State of the connection pin States of the Connection Pin The possible states of the connection pin are: • OK • Short circuit • Module-internal overload prote
765-1104/0100-0000 Commissioning Proceed as follows to display the status information on a specific port: 1. From the main menu of the Webserver (left), select the menu item which you want to view information about. 2. Open the Status tab ð The Status tab opens. The current port status information appears. 10.2.2.3.4 State The current port information of the digital input or output is displayed. Possible values are: • Digital Input: The port is in digital input mode.
Commissioning 765-1104/0100-0000 • • • • • • • • 8 Configuring Ports [} 62] 8 Configuring IP Parameters [} 66] 8 Storing Maintenance Information [} 66] 8 Updating Firmware [} 68] 8 Resetting Module to Factory Settings [} 69] 8 Configuring Bluetooth [} 70] 8 Logging Users on and off and Managing Them [} 73] 8 Forcing Digital Inputs and Outputs [} 75] 10.2.2.4.
765-1104/0100-0000 Commissioning If cyclic data exchange takes place via PROFINET, no configuration is possible. In this case, a message appears: Note: Changing configuration not allowed because interface state is “communicating.” To makes changes to a port’s configuration: 1. Select the required port (port X01, port X02, etc.) from the menu. 2. Open the Configuration tab. 3. Configure pin 4 by setting the port operating mode. 4. Configure the filter time for the digital input signals for pin 4 and pin 2.
Commissioning 765-1104/0100-0000 Configure Pin 2 (I/Q) The behavior of pin 2 can be selected from the IQ behavior drop-down menu. The following configuration options are available: Table 37: IQ Behavior Drop-Down Menu – Configuration of Pin 2 Selection Option Explanation Not supported Pin 2 supplies no output voltage. Power 2 Pin 2 supplies 24 VDC output voltage.
765-1104/0100-0000 Commissioning Table 39: Possible Values of the Backup Level Parameter Backup Level Meaning Production (“Restore”) Changes to all active parameters within the device are not copied and saved. Only special parameter data of the old device is stored for transfer to a new device. Device replacement with automatic or semi-automatic data storage is only supported for these “frozen” parameters.
Commissioning 765-1104/0100-0000 10.2.2.4.2 Configuring IP Parameters Figure 16: Settings Menu Item, Device Configuration Tab The Device configuration tab shows the following parameters for the IP protocol.
765-1104/0100-0000 Commissioning Figure 17: Settings Menu Item, Maintenance Information Tab Changes to settings require operator or admin rights. If you do not have these, the Maintain Information tab is grayed out and cannot be edited. The maintenance information includes: Table 42: Maintenance Information Name Data Format and Length Description Name Printable ASCII string, max.
Commissioning 765-1104/0100-0000 Table 42: Maintenance Information Name Data Format and Length Description Number of changes (Change Count) ASCII decimal num, max. 32 characters Counter for changes to the I&M0: REV_COUNTER hardware or the device parameters; only needs to be incremented if the data has really changed Corresponding I&M Field Date/time of the last service (Last Service Date) ASCII time indication, max. 32 characters Date/time of the last service, e.g.
765-1104/0100-0000 Commissioning Note Create backup before update When you update your product’s firmware, the state of your product before the update, including the firmware used up to that point, can no longer be reconstructed unless a firmware and configuration data backup exists. Changes to settings require operator or admin rights. If you do not have these, the Settings tab is grayed out and cannot be edited. To update the firmware, you need a firmware container file: FWUPDATE.ZIP.
Commissioning 765-1104/0100-0000 Figure 19: Settings Menu Item, Factory Reset Tab Changes to settings require operator or admin rights. If you do not have these, the Settings tab is grayed out and cannot be edited. Various settings can be reset according to the radio button selection: Table 43: Options for Resetting the Product to the Factory Settings Option Reset Settings Reset Device Information Module settings (e.g.
765-1104/0100-0000 Commissioning • Switching the Bluetooth® wireless connection on/off • Switching LED forcing on/off Proceed as follows to access these Bluetooth® functions in WAGO Webserver I/O Field: • Open the Bluetooth® tab ð The Bluetooth® tab appears.
Commissioning 765-1104/0100-0000 Table 44: Status of the last Bluetooth® firmware update Value Status 0 Ready for operation 1 Firmware file is being checked 2 Firmware update is being performed Activating the Bluetooth® Interface Using the QR Code Displayed Note Never use the product in areas where operation of radio equipment is prohibited. The product contains a radio transmitter that can impair the function of electronic medical devices such as hearing aids and pacemakers.
765-1104/0100-0000 Commissioning To switch the Bluetooth® interface wireless transmitter off, slide the Bluetooth® radio switch to the left. Switching LED Forcing on/off Proceed as follows to switch LED forcing (externally controlled LED mode) on: • Slide the LED forcing switch to the right ð LED forcing switches on. The LED on the Bluetooth® interface can now be externally controlled. To switch LED forcing off, slide the LED forcing switch to the left. 10.2.2.4.
Commissioning 765-1104/0100-0000 ð You can now no longer work in WAGO Webserver I/O Field with the rights you had been using till this point. The username used to log on is no longer shown in the upper left-hand corner. The Sign out menu item changes back to Sign in. Guest User Access By default, the Webserver recognizes the user guest without a password; this was set up for initial access or guest access.
765-1104/0100-0000 Commissioning An additional user can be created in the second row. Proceed as follows: 1. In the Username field, enter the username to user for the user. Users that are already in use are not allowed here. 2. In the Password field, enter the password for this username. 3. Using the combo box on the right, select the role for the new user being created (the available roles are Maintenance, Operator and Administrator). 4.
Commissioning 765-1104/0100-0000 Figure 24: DIO Forcing Menu Item, “DIO Forcing” Screen You have three options for each pin that supports the forcing function: Table 45: Input Options for Forcing for Each Pin of a Port Option “Force” Checkbox “Set/Clr” Checkbox Forcing – substitute value bit is set (1) Checked Checked Forcing – substitute value bit is deleted (0) Checked Not checked No forcing for this pin Not checked No meaning To enter these, there are two checkboxes in the table for each p
765-1104/0100-0000 Commissioning Concurrent Access As long as one user is accessing the forcing functionality through a forcing medium, e.g., WAGO Webserver I/O Field, it is locked for all other users of the module. They cannot access the forcing functionality until the user that is active now terminates his or her access. In this case, the Web browser displays a message box with the text “Somebody else is already forcing. Try again later.
Commissioning 765-1104/0100-0000 • Diagnostics, identification, parameterization and display of process data of WAGO IOLink devices • Writing output process data This normally the controller’s job, and the tool cannot write here concurrently. However, some WAGO IO-Link masters can also be operated on the tool without a PLC. In this case, the tool can also write the process data. In particular, this applies to some ETHERNET-based WAGO IO-Link masters.
765-1104/0100-0000 Commissioning You can now specify whether you want to transfer the license to your computer or a hardware dongle. Please select the corresponding option. Multiple licenses can be provided through one license key/link. Select the licenses you want to transfer and select “Activate Selected Licenses Now.” 10.2.3.2.3 Install An executable file “Setup.exe” installs the program. This copies all the required files to the working directory.
Commissioning 765-1104/0100-0000 10.2.3.3 WAGO IO-Link Configurator User Interface 10.2.3.3.1 Start Screen and Login Dialog The login dialog allows selection of the user role and can be protected with a password for each user role. When invoked via TCI, project data is only passed again during the invocation. To avoid having to constantly enter the login dialog over and over again during the commissioning phase, for example, you can switch it off for a specific “password validity” period.
765-1104/0100-0000 Commissioning The IO-Link masters of the WAGO I/O System Field are integrated into WAGO IO-Link Configurator through a WAGO-specified device description. The IO-Link masters are arranged by fieldbus standard and, if applicable, manufacturer. Entries can be deleted by right-clicking. IO-Link devices from all manufacturers can be supported. These are described by the associated IODDs, which must then be imported. WAGO IO-Link Configurator supports IODDs per specifications 1.0.1 and 1.1.
Commissioning 765-1104/0100-0000 The required address information is then assigned later online. The IO-Link masters are arranged in the topology according to the communication connection to the higher-level network. When it is operated from an engineering tool (TCI), the topology is passed from the engineering tool to the connected IO-Link device. The structure of the topology starts here with the CPU, followed by its communication threads with the connected IO-Link masters.
765-1104/0100-0000 Commissioning Table 48: Execution of WAGO IO-Link Configurator as a Standalone Program Menu Description Save File/Project As Save project at a new storage location; the last storage location with project directories is offered as the default setting.
Commissioning 765-1104/0100-0000 User Roles Table 52: WAGO IO-Link Configurator – User Roles User Role Description Operator (Observer) The user sees the “Operator” selection of parameters. Write access is usually not allowed. This is specified in the device description by the device manufacturer and may differ for different devices. The operator cannot change passwords or their validity periods. No password is preset in WAGO IO-Link Configurator for the user role “Operator.
765-1104/0100-0000 Commissioning Password validity (min): • This function is only available if “Login and Password Prompt” is not suppressed. After successful login to a user role, the product starts the selected time without a login dialog. If the user wants to switch roles, this can be done with the toolbar or menu. This requires entering the corresponding password. 10.2.3.3.6.
Commissioning 765-1104/0100-0000 Importing a Newer IODD with the Same Date in the File Name Except during the development phase for WAGO IO-Link devices, this should generally not occur. The device developer must ensure that different IODDs (for one device) with the same date are not circulated. However, in order to still allow this in the development phase, the imported IODD replaces the previous one. Since, in this case, the consistency of saved data is no longer ensured, the tool rejects it.
765-1104/0100-0000 Commissioning Right-clicking opens the context menu. • Delete Output Deletes the content of the output window; However, data continues to be written to the log file. • Reset Logfile Deletes the content of the output window and log file • Save Logfile As Saves the log file under a path of your choosing; send this file to WAGO Support along with support requests.
Commissioning 765-1104/0100-0000 Table 54: TCI Invocation Menu Extras/TCI Invocation/ Only Selected Subsystem Extras/TCI Invocation/ All Subsystems Symbol Explanation After the call from the engineering tool, only the subsystem (network line) and the accessible WAGO IOLink masters connected to it from which the call was made from the engineering tool are displayed. The WAGO IO-Link master selected in the engineering tool is also selected in the topology of WAGO IO-Link Configurator.
765-1104/0100-0000 Commissioning The lower section shows detailed information on the port selected in the table. 10.2.3.3.7.1 Searching for IO-Link Masters There are several options for searching for IO-Link masters and incorporating them into the project. With integrated execution via TCI, these functions are disabled, since the configuration is performed with the PLC engineering software. In the topology: • Right-click in an empty area ð A search is performed for all IO-Link masters.
Commissioning 765-1104/0100-0000 Figure 29: [Flash] Button 10.2.3.3.7.2 Online/Offline, Set Port Mode Online establishes the link to the IO-Link master. When the connection is established, the software checks whether the configuration can be modified by WAGO IO-Link Configurator and whether the configuration in the project planning (WAGO IO-Link Configurator) matches that in the IO-Link master. The configuration can only be modified offline and then transferred to the IO-Link master.
765-1104/0100-0000 Commissioning 10.2.3.3.7.4 Transferring Data Storage Data For replacement of defective IO-Link devices, the parameters are saved in the IO-Link master. The data storage data can be saved in the product so IO-Link masters can also be replaced without re-parameterization. This function allows IO-Link masters to be copied (cloned) as well. “Master to Project” transfers all available data storage data to the project database.
Commissioning 765-1104/0100-0000 The data in the device takes precedence and is applied to the parameter server. This setting can be used if the devices are pre-parameterized and the data is to be applied to the master. Furthermore, this also allows a master to be replaced if all devices have already been parameterized and their data is to be applied to the master. Data Storage Commands The parameterization can also be exchanged manually between the data storage and IOLink device.
765-1104/0100-0000 Commissioning • Port Config List of the connections with IO-Link standard port configuration; the implementation follows the standard master interface (SMI, IO-Link interface-specification V1.1.3). • Settings This tab only appears if the IO-Link requires additional parameterization or parameterization differing from the standard. There is a plug-in interface for manufacturer-specific dialogs for this purpose.
Commissioning 765-1104/0100-0000 Figure 31: “Port Config” Tab There is a toolbar for quick access: • Connected Status A connection exists between WAGO IO-Link Configurator and the WAGO IO-Link master • PLC Connection Status Indicates whether or not a PLC is connected to the master; if a PLC is connected, it has access rights for configuration and for writing process output data; otherwise, the tool has full access.
765-1104/0100-0000 Commissioning • Online/Offline Establishes or terminates the connection • Upload of Data Storage Data from Master Loads the content of the data storage from the master into the project • Download of Data Storage Data into Master Loads the data storage data that was saved previously from the project into the master • Status of Data Storage Data in Project The tooltip indicates whether data storage data is stored in the project • Search Devices Searches for connected devices; if devices a
Commissioning 765-1104/0100-0000 10.2.3.3.9 IO-Link Device Control The IO-Link devices are described by XML device descriptions. These IODDs (IO Device Descriptions) are imported into the WAGO IO-Link Configurator device catalog. The configuration and parameterization can be performed both offline and online. The settings are saved in a project file, so they are available for documentation or product replacement, for example.
765-1104/0100-0000 Commissioning With IO-Link, table sections (menus) can be hidden and unhidden with conditions. If a variable that is used as a condition is edited, the menu display changes that depend on it do not take effect until they are transferred into the device or the tool’s database. In “block write mode,” you should always first write/transfer this variable and then edit it further. 10.2.3.3.9.
Commissioning 765-1104/0100-0000 10.2.3.3.9.2 “Common” Tab The “Common” tab shows general information from the IODD about the IO-Link device. 10.2.3.3.9.3 “Process Data” Tab This tab’s behavior depends on the IO-Link master and operating mode: • Offline: – Only the process data structure is shown. No values are shown, and no values can be set either. • Online: – Depending on the product, it may be possible to selectively write/force the data.
765-1104/0100-0000 Commissioning The operating mode can be set for the input with the context menu (right-click). This allows you to specify whether the value of an unchanged variable should be transferred to the module immediately after it is entered, or whether the inputs should be collected until they are transferred via command (also in the context menu). 10.2.3.3.9.5 “Device GUI” Tab If a plug-in for a graphical user interface for the device was also imported with the IODD, this tab is displayed.
Commissioning 765-1104/0100-0000 Figure 33: Scope Configuration Window Section Configuration of the Scope function • Visible Indicates whether the process data element is displayed; up to eight curves can be displayed simultaneously • IO (read only) Indicates whether the process data element represents input or output data • Name (read only) The name of the process data element • Digital Indicates whether the values are discrete values; the default setting for all booleans or integers with enumeration is
765-1104/0100-0000 Commissioning 10.2.3.3.9.7 “Generic” Tab This tab is for operating the IO-Link device even without an IODD. In this process, the data is displayed as raw data, and the addressing is performed via index and subindex. To make the default variables easily accessible, they are stored as a pulldown table by index. If no IODD is available, only this tab appears. Otherwise, it is available as a supplement.
Commissioning 765-1104/0100-0000 10.2.3.3.9.9 “IODD” Tab The information from the IODD for application programmers is displayed here in pre-processed form.
765-1104/0100-0000 Commissioning 10.2.3.4.1 Operate via TCI (Tool Calling Interface) TCI is a very simple software interface for integrating device software into engineering tools. TCI is specified by PNO (PROFIBUS Nutzerorganisation e.V.) and is now available as an open interface for PROFIBUS and PROFINET. Unfortunately, only a few manufacturers support this interface. They include Siemens, with STEP 7 and the TIA Portal, and Phoenix Contact with PC Worx.
Commissioning 765-1104/0100-0000 package contains a new IODD, it is imported automatically and assigned to the device after the update. WAGO IO-Link Configurator makes the firmware update available for all WAGO IO-Link masters. 10.2.3.4.3 Quick Start Guide: Using an ETHERNET IO-Link Master • Install WAGO IO-Link Configurator. • Connect the computer to the network to which the ETHERNET IO-Link masters are also connected. Note the information on Windows Firewall in section 8 Install [} 79].
765-1104/0100-0000 Commissioning 10.2.3.4.5 IO-Link Implementation This section provides some notes on IO-Link implementation with WAGO IO-Link Configurator. The implementation corresponds to the IO-Link interface and IODD specification. 10.2.3.4.5.1 Data Types WAGO IO-Link Configurator supports all the data types of the specification without restriction. • Display and Input Formats For number formats with decimal places, both decimal commas and decimal points are accepted as decimal separators.
Commissioning 765-1104/0100-0000 When the connection to the WAGO IO-Link master is established or the device control is activated, the data is not automatically synchronized with the device. This was a deliberate choice, since there are IO-Link devices with a great number of variables and low performance for transferring them. Therefore, it is possible to load individual variables by clicking on the device’s Status column with the mouse and only transferring modified variables in “Block Write Mode.” 10.2.
765-1104/0100-0000 Commissioning Figure 35: Figure 48: OPC UA: Device Information Model 10.2.5.1 Parameterizing the Product via OPC UA 10.2.5.1.1 Identifying Devices The device provides nodes for device identification. For example, the OPC UA client can read out the version of the device firmware used in the SoftwareRevision node.
Commissioning 765-1104/0100-0000 10.2.5.1.2 Configure Parameters The OPC UA server provides nodes with configuration parameters for the device. For example, the OPC UA client can read out the upper limiting value for temperature in the OverTemperature node. The path to this node is: Root > Object > DeviceSet > [device name] > DigitalConnector > Diagnostics > Configuration The following table lists device-specific configuration parameters.
765-1104/0100-0000 Commissioning Table 56: Device-Specific Configuration Parameters Node Name Node Class Access Description VoltageHysteresis Variable Read Voltage hysteresis; unit: mA If the voltage exceeds the limiting value, the voltage must fall back below the limiting value by the hysteresis to revoke the diagnosis. The OPC UA server provides nodes with configuration parameters for each port.
Commissioning 765-1104/0100-0000 10.2.5.1.4 Read Measured Values The OPC UA server provides nodes with calculated measured values. For example, the OPC UA client can read out the calculated total current of supply cable 1 in the SumCurrentL node. The path to this node is: Root > Object > DeviceSet > [device name] > DigitalConnector > Diagnostics > Current The following table lists device-specific (calculated) measured values.
765-1104/0100-0000 Commissioning The following table lists port-specific diagnostic information.
Commissioning 765-1104/0100-0000 Table 62: Port Specific Statistical Information 112 Node Name Node Class Access Description MinVoltagePin1, MinVoltagePin2, MinVoltagePin4 Variable Read Minimum voltage on pin 1, pin 2 or pin 4 since the value was reset; unit: mV Product manual | Version: 2.1.0 16DO FLD PN DC 24V 2.
765-1104/0100-0000 Diagnostics Diagnostics 11 11.1 Diagnostics via Indicators Power Supply Status The 1L and 2L LEDs indicate the status of the supply voltages.
Diagnostics 765-1104/0100-0000 Table 66: APL LED LED Color APL Duo LED, red/green/yellow (yellow = simultaneously red and green) Off State Description Off LED without function PROFINET IO-Device Status The BF and SF LEDs indicate the status of the PROFINET IO-Device. The LNK and ACT LEDs indicate the ETHERNET status. PROFINET IO-Device Status The following table describes the LED states of the PROFINET IO-Device.
765-1104/0100-0000 Diagnostics Table 70: LED States – ETHERNET Status LED State Description Flickering (load-dependent) The indicator switches on and off at a frequency of 10 Hz, indicating high ETHERNET activity: on for 50 ms and then off for 50 ms. The indicator switches on and off at irregularity intervals to indicate low ETHERNET activity. Bluetooth® Status The Bluetooth® LED is integrated into the Bluetooth® antenna and indicates the connection status.
Diagnostics 765-1104/0100-0000 11.2 Diagnostics via PROFINET General Alarms Table 73: General Alarms Number (hex) Alarm Description Corrective Action 0x0100 Undervoltage Undervoltage in supply line 1L Check supply voltage The supply line has fallen below the limiting value for the minimum voltage. 0x0101 Overvoltage Overvoltage in supply line 1L Check supply voltage The supply line has exceeded the limiting value for the maximum voltage.
765-1104/0100-0000 Service Service 12 12.1 Resetting to Factory Settings The product can be reset to the factory settings. Use WAGO Webserver I/O Field for this purpose. Section Parameterizing the Product via WAGO Webserver I/O Field describes this process. 12.2 Updating Firmware The product’s firmware can be updated. Use WAGO Webserver I/O Field for this purpose. You need the firmware file corresponding to the module type. The name of the firmware file is always FWUPDATE.
Decommissioning 765-1104/0100-0000 Decommissioning 13 13.1 Disposal and Recycling Table 74: WEEE Mark Logo Description Electrical and electronic equipment may not be disposed of with household waste. This also applies to products without this mark. Electrical and electronic equipment contain materials and substances that can be harmful to the environment and health. Electrical and electronic equipment must be disposed of properly after use.
765-1104/0100-0000 Appendix Appendix 14 14.1 Installation Regulations Specified by Approvals Because the following information refers to language-specific regulations, standards or certifications applicable to the specific installation and operation location, it is presented in the respective original language. EU Declaration of Conformity Hereby, WAGO Kontakttechnik GmbH & Co. KG declares that the radio equipment type 0765-1104/0100-0000 is in compliance with Directive 2014/53/EU.
Appendix 765-1104/0100-0000 Changes or modifications made to this equipment not expressly approved by WAGO Kontakttechnik GmbH & Co. KG may void the FCC authorization to operate this equipment. 14.2 Operational Description Product description The product is for the acquisition and output via IO-Link to sensors, actuators and hubs of field signals that are sent to a higherlevel controller or received. The product serves as a decentralized input/output unit in PROFINET I/O networks.
765-1104/0100-0000 Appendix We declare that we meet the EN 62479 standard with respect to the limiting value for low powers less than 20 mW. Therefore, the product fundamentally corresponds to the European limiting values for high-frequency radiation. Product Designs SlimLine (W × H × D) 35 × 30 × 210 mm WideLine (W × H × D) 60 × 30 × 210 mm Temperature range Surrounding air temperature (operation) –25 °C ... +70 °C Surrounding air temperature (storage) –40 °C ...
Appendix 765-1104/0100-0000 • • • • 122 PROFINET® is a registered trademark of Siemens AG. QR Code is a registered trademark of DENSO WAVE INCORPORATED. Subversion® is a trademark of the Apache Software Foundation. Windows® is a registered trademark of Microsoft Corporation. Product manual | Version: 2.1.0 16DO FLD PN DC 24V 2.
765-1104/0100-0000 List of Tables List of Tables Table 1 Complete instructions for use ............................................................................................ 7 Table 2 Legend for “View” Figure ................................................................................................... 15 Table 3 Power supply .....................................................................................................................
List of Tables Table 36 765-1104/0100-0000 “Port Mode” Drop-Down Menu: Selecting the Operating Mode for Pin 4 of the Selected IO-Link Port........................................................................................................................ 63 Table 37 IQ Behavior Drop-Down Menu – Configuration of Pin 2 .................................................... 64 Table 38 Possible Values of the Inspection Level Parameter...........................................................
765-1104/0100-0000 List of Tables Table 72 Port Status ......................................................................................................................... 115 Table 73 General Alarms .................................................................................................................. 116 Table 74 WEEE Mark ....................................................................................................................... 118 Table 75 Bluetooth® Transmitter ....
List of Figures 765-1104/0100-0000 List of Figures Figure 1 View .............................................................................................................................. 14 Figure 2 Circuit Diagram for Each Port ....................................................................................... 17 Figure 3 Derating, 0765-1104/0100-0000 ...................................................................................
765-1104/0100-0000 List of Figures Product manual | Version: 2.1.0 16DO FLD PN DC 24V 2.
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