WAGO 765-1103/100-000 Manual
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WAGO 765-1103/100-000 Manual

WAGO 765-1103/100-000 Manual

16-channel digital output; profinet; 24 v dc; 2.0 a; 8 × m12 connection
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WAGO I/O System Field
16-Channel Digital Output; PROFINET; 24 V DC; 2.0 A;
8 × M12 Connection
765-1103/100-000
Product manual | Version 2.2.0

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Summary of Contents for WAGO 765-1103/100-000

  • Page 1 WAGO I/O System Field 16-Channel Digital Output; PROFINET; 24 V DC; 2.0 A; 8 × M12 Connection 765-1103/100-000 Product manual | Version 2.2.0...
  • Page 2 We wish to point out that the software and hardware terms as well as the trademarks of companies used and/or mentioned in the present manual are generally protected by trademark or patent. WAGO is a registered trademark of WAGO Verwaltungsgesellschaft mbH. Product manual | Version: 2.2.0 16DO FLD PN DC 24V 2.0A...

  • Page 3: Table Of Contents

    Process Image ......................  24 Forcing ........................ 25 Monitoring Functions .....................  25 Overload protection .................... 26 Parameterization Tools .................. 26 Overview ......................  26 5.5.1 WAGO Webserver I/O Field .................  27 5.5.2 Product manual | Version: 2.2.0 16DO FLD PN DC 24V 2.0A...
  • Page 4 Table of Contents 765-1103/100-000 WAGO I/O Field app .................. 28 5.5.3 Communication Interfaces.................. 29 PROFINET .................... 30 5.6.1 OPC UA Server ....................  31 5.6.2 Planning .......................... 32 Structure Guidelines.................... 32 Data Security .................... 32 6.1.1 EMC Installations .................. 32 6.1.2 Power Supply Concept.................. 33 Designing the Power Supply ................
  • Page 5 10.3.1.4.8 Forcing Digital Inputs and Outputs .......... 73 WAGO I/O Field app .................. 75 10.3.2 10.3.2.1 Parameterizing a Module with the WAGO I/O Field App ..... 75 OPC UA Server ....................  75 10.3.3 10.3.3.1 Parameterizing the Product via OPC UA.......... 76 10.3.3.1.1 Identifying Devices..............
  • Page 6 Table of Contents 765-1103/100-000 14.2 Operational Description.................. 102 14.3 Protected Rights.................... 104 Product manual | Version: 2.2.0 16DO FLD PN DC 24V 2.0A...

  • Page 7: Provisions

    The terms set forth in the General Business and Contract Conditions for Delivery and Service of WAGO GmbH & Co. KG and the terms for software products and products with integrated software stated in the WAGO Software License Contract – both available at ü www.wago.com...

  • Page 8: Typographical Conventions

    Provisions 765-1103/100-000 Obligations of Installers/Operators The installers and operators bear responsibility for the safety of an installation or a sys- tem assembled with the products. The installer/operator is responsible for proper installa- tion and safety of the system. All laws, standards, guidelines, local regulations and ac- cepted technology standards and practices applicable at the time of installation, and the instructions in the the products’...
  • Page 9 765-1103/100-000 Provisions Figures Figures in this documentation are for better understanding and may differ from the actual product design. Notes DANGER Type and source of hazard Possible consequences of hazard that also include death or irreversible injury • Action step to reduce risk...
  • Page 10 Provisions 765-1103/100-000 without any reference to patent rights. WAGO GmbH & Co. KG, or for third-party prod- ucts, their manufacturer, retain all rights regarding patent, utility model or design registra- tion. ® Third-party trademarks are referred to in the product documentation. The “...

  • Page 11: Safety

    765-1103/100-000 Safety Safety 2.1 General Safety Rules • This documentation is part of the product. Therefore, retain the documentation during the entire service life of the product. Pass on the documentation to any subsequent user of the product. In addition, ensure that any supplement to this documentation is included, if necessary.

  • Page 12: Indirect Safety

    In addition, note the information on the product housing and further infor- mation, e.g. at ü www.wago.com/<item number>. • Only permit skilled personnel approved by WAGO to perform repair work. Product manual | Version: 2.2.0 16DO FLD PN DC 24V 2.0A...

  • Page 13: Overview

    Overview Overview The module 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 applicable. Several sensors can be connected to the product for connection to the field level.

  • Page 14: Properties

    Properties 765-1103/100-000 Properties 4.1 View Figure 1: View Table 1: Legend for “View” Figure Function Position Custom Name Description ETHERNET ETHERNET interface, M12, D-coded, PROFINET port 1 Product manual | Version: 2.2.0 16DO FLD PN DC 24V 2.0A...

  • Page 15: Connections

    765-1103/100-000 Properties Function Position Custom Name Description LNK (X21) Link LED for port X21 ACT (X21) Activity LED for port X21 ETHERNET interface, M12, D-coded, PROFINET port 2 LNK (X22) Link LED for port X22 ACT (X22) Activity LED for port X22 ®...

  • Page 16: Communication Interfaces

    Properties 765-1103/100-000 Table 2: Supply Voltage Supply Voltage In- Supply Voltage Signal Description Output 24 VDC supply voltage U for system and sensor/actuator 2L− Reference potential for 2L 1L− Reference potential for 1L 24 VDC auxiliary/control voltage U Functional ground M12, L-coded, plug,...

  • Page 17: Circuit Diagram

    765-1103/100-000 Properties 4.3 Circuit Diagram The following figure shows the schematic circuit diagram of the product. Figure 2: Circuit Diagram for Each Port 4.4 Technical data 4.4.1 Product Table 5: Product Property Value Item Number 765-1103/100-000 Product function 16-channel digital output Product name (short) 16 DO FLD PN 24 VDC 2.0 A...

  • Page 18: Connection Technology

    Properties 765-1103/100-000 4.4.3 Connection Technology Table 7: Connection Technology Property Value 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 outputs 8 × M12, A-coded, socket, 5-pin Tightening torque M12: 1.0 Nm...

  • Page 19: Electrical Safety

    765-1103/100-000 Properties Parameters Value Value (per UL) Current consumption of supply connections Max. 16 A; ensure external External fuses in lines 1L limitation or use fuses in and 2L: max. 16 A, time- the cables delay, min. 30 VDC The maximum total current...

  • Page 20: Communication

    Properties 765-1103/100-000 Property Value Value (per UL) Pollution degree 3 (EN 60664-1) Operating altitude 0 ... 2000 m Overvoltage category II (EN 60664-1) Protection type IP67 (EN 60529) Indoor use (enclosure type 12, 13; IP67) Protection class III (EN 61140) Vibration resistance 5g (IEC 60068-2-6) Shock resistance 50g (IEC 60068-2-27) 4.4.7 Communication...

  • Page 21: Derating

    The product provides measured values for temperature and current, which you can display with WAGO Webserver I/O Field or read out via OPC UA. The following figure shows the maximum permissible current (I) that can flow into the product as a function of the surrounding air temperature (T).

  • Page 22: Regulations And Standards

    Properties 765-1103/100-000 Figure 4: Derating of a Contact (Pin) of L-Coded Connections X31 and X32 (For Core Cross-Section = 0.25 mm /AWG 14) Also note the derating curve for the individual contacts (pins) of the A-coded connections port X01, X02 etc. The following figure shows the maximum permissible current (I) that can flow through the contact (pin) as a function of the ambient temperature (T).
  • Page 23 765-1103/100-000 Properties ® Bluetooth This module has an RF transmitter with the following specifica- tions: • Operating frequency: 2402–2480 MHz • Maximum RF output power: < 20 mW Certificate number: R20-0935-01-TEC (Wideline) FCC ID: 2AKUE-WIDELINE ISED Certificate number: 22322-WIDELINE Note More information on approvals You can find detailed information on the approvals online at: ü www.wago.com/<item number>...

  • Page 24: Functions

    Functions 765-1103/100-000 Functions 5.1 Process Image Process Data of the 16 DO Module The process data of the digital outputs can be transferred on a port basis (the default) or pin basis. The following tables show the port and pin assignment.

  • Page 25: Forcing

    The “Forcing” function can be accessed through the following tools: • WAGO I/O Field Webserver • WAGO I/O Field app on mobile devices Systems like SPS, TIA Portal and the like also have forcing functions. Such forcing func- tions should not be confused with the ones described in this section and will not be con- sidered within the context of this section.

  • Page 26: Overload Protection

    The measurements are performed for the module and for pin 1, pin 2 and pin 4 of each port. The measured values can be displayed in the WAGO I/O Field Webserver or the WAGO I/O Field app. Alternatively, an OPC UA client can read out the measured values and display them.

  • Page 27: Wago Webserver I/O Field

    Each time PROFINET communication starts up, the IO-Controller transfers the configura- tion and parameters to the 765 Series module. Port configuration parameters that were set by the WAGO I/O Field Webserver, the WAGO I/O Field app or the OPC UA client are overwritten. Parameters via PROFINET take precedence.

  • Page 28: Wago I/O Field App

    • Update Bluetooth firmware Function overview The following overview shows the functions offered by WAGO Webserver I/O Field that is integrated into the product and the menu items/tabs in the user interface that can be used to address these functions: Table 23: Function Overview for the WAGO I/O Field Webserver for Digital Input/Output Modules...

  • Page 29: Communication Interfaces

    You can find Product-specific information on the WAGO App I/O Field in the online help for the app. An iOS version of the WAGO I/O Field app is available for free in the Apple App Store, and an Android version in the Google Play Store.

  • Page 30: Profinet

    Functions 765-1103/100-000 5.6.1 PROFINET The module exchanges the process data with the controller via PROFINET. The process data communication requires the controller and module to be configured and parameter- ized. If a value falls above or below a limiting value, e.g., a temperature limit, the module sends and alarm to the controller.

  • Page 31: Opc Ua Server

    765-1103/100-000 Functions 5.6.2 OPC UA Server The module has an integrated OPC UA server. Function Overview • Read module identification • Read configuration • Read measured values: current, voltage, temperature • Events: overcurrent, overload and overtemperature • Read status information •...

  • Page 32: Planning

    • Do not connect control components and control networks to an open network such as the Internet or an office network. WAGO recommends putting control components and control networks behind a fire- wall. • In the control components, close all ports and services not required by your application to minimize the risk of cyber attacks and to enhance cybersecurity.

  • Page 33: Power Supply Concept

    Greater shielding performance is achieved via low-impedance connection between shielding and ground. For this purpose, connect the shielding over a large surface area, e.g., using the WAGO 790 Shield Connection System. This is especially recom- mended for large-scale systems where equalizing or high impulse currents may occur.
  • Page 34 Planning 765-1103/100-000 Consumption For each supply cable, it is necessary to take into account the consumption that depends on the connected devices. Supply Cable 1: • Logic supply (about 200 mA) • Power supply of all connected sensors/actuators via 1L • Power supply of successive devices via 1L Supply Cable 2: •...

  • Page 35: Table 24 Upper Limits For Current On The Individual Pins Of The Connections

    765-1103/100-000 Planning An upper limit of 16 A applies to the total current in a supply cable. If this upper limit is ex- ceeded, there is a risk of destruction of or damage to the module. To avoid this, protect each supply line with a fuse or circuit breaker. In connection with this, also read section 8 Requirements on the Power Supply...

  • Page 36: Table 25: Module 765-1103/100-000 - Currents In Supply Line 1

    Note that the sum of the currents of pins 2 and 4 flows to pin 3. Product-Specific Information For supply line 1 of the 765-1103/100-000 Digital Output Module, the currents declared in the following table must be taken into account: Table 25: Module 765-1103/100-000 –...

  • Page 37: Requirements On The Power Supply

    765-1103/100-000 Planning Current Supply Cable 1 Supply Line 2 Ports Ports X01, ... , X08 (henceforth summarized as port X0i for 1 ≤ i ≤ 8) Supply current on pin 1 (rule 3) ≤ 4 A X0i_pin1_2L Signal current on pin 2/4 in normal ≤...

  • Page 38: Power Supply Examples

    • Power supply group via PWR OUT connection (with calculation of the permissible cur- rent feedthrough) Example of Individual Power Supply This example considers a single 765-1103/100-000 module where no additional devices are powered through its PWR OUT connection (X32). Product manual | Version: 2.2.0...
  • Page 39 765-1103/100-000 Planning Figure 6: Connect Example with Individual Power Supply (module image may vary) One digital input/output with a current consumption of max. 2 A is connected to connec- tions X01 to X04 of the module. The module’s current consumption is 0.2 A.

  • Page 40: Settings Options

    BT inter- signal of a mobile device and in connection with the configura- tion face is al- WAGO I/O Field app. tion lowed ® 1: disable The Bluetooth interface cannot be enabled by an optical activation of...

  • Page 41: Setting The Profinet Configuration

    765-1103/100-000 Planning Parameter Parameter Default Value Description Group Value Range ® Bluetooth 5 ... 60 Switch-off time of the Bluetooth interface if not used; timeout con- ® A new Bluetooth connection can be established by an figuration [s] ® optical signal after the Bluetooth interface is reactivated.

  • Page 42: Transport And Storage

    Transport and Storage 765-1103/100-000 Transport 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.

  • Page 43: Installation And Removal

    765-1103/100-000 Installation and Removal Installation and Removal 8.1 Installation 8.1.1 Tools Required for Installation The following tools are required for installation: • Allen wrench for the M4 hex head mounting screws The following additional items are only required for installation where no threaded hole is present: •...

  • Page 44: Note On Protecting Against Heat Generation By The Product

    Installation and Removal 765-1103/100-000 • When mounting, be sure not to contaminate the connections. The contamination dam- ages the contacts, which can limit the reliability of the contacts. 8.1.4 Note on Protecting against Heat Generation by the Product During operation, the product can get hot! Therefore, always note the following informa- tion: •...

  • Page 45: Grounding

    765-1103/100-000 Installation and Removal 8.1.8 Grounding Functional Ground The L-coded M12 pluggable connectors of the product’s power supply have one FE (functional ground) pin, which is connected to the metal housing of the product. The metal housing in turn has a central grounding point for functional ground. You can ground the module as follows: •...

  • Page 46: Connection

    Connection 765-1103/100-000 Connection 9.1 General Information on Installation When laying cables, the local conditions and the applicable regulations are crucial for im- plementation. 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.

  • Page 47: Connect Power Supply

    WAGO recommends using pre-assembled cables. Power supply 2L is required to power actuators. The following figure gives an example of feeding in and passing on the supply voltages: Product manual | Version: 2.2.0...
  • Page 48 Connection 765-1103/100-000 Figure 7: 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 ca- ble.

  • Page 49: Connecting Cables

    Cable cross-section 9.3 Connecting Cables WAGO recommends using 765 Series connecting cables, pluggable connectors and ac- cessories for 756 Series products, which have been tailored specifically to the WAGO I/O System Field. 8 Connection Technology [} 18] The tightening torques given in section apply to the pluggable connectors of the connecting cables.
  • Page 50 3. Tighten the pluggable connector using the knurled-head screw. Connecting Multiple Products to One ETHERNET Network The fieldbus module of the WAGO I/O System Field has two connections with an inte- grated switch to allow wiring of a line topology.

  • Page 51: Connect Sensors/Actuators

    765-1103/100-000 Connection Figure 9: Network Topology (Module Appearance May Differ) 9.5 Connect Sensors/Actuators The sensor/actuator cable powers the connected sensors/actuators and transfers the sensor and actuator signals. Note the current load capacity of the supply contacts; see “Rule 3,” section Rule 3: Ports X01, X02 etc.
  • Page 52 Connection 765-1103/100-000 Ethernet Ethernet PWR OUT PWR IN DO B DO B DO A DO A 3 2L- DO B DO B DO A DO A 3 2L- DO B DO B DO A DO A 3 2L- DO B...

  • Page 53: Table 30 Connecting Digital Outputs

    765-1103/100-000 Connection Table 30: Connecting Digital Outputs Connection Option Description Connection of a digital output to channel A. Required port configuration: pin 4 and pin 2 as a digital input. Connection of two digital outputs to channels A and B. Required port configuration: pin 4 and pin 2 as a digital output.

  • Page 54: Commissioning

    Commissioning 765-1103/100-000 Commissioning Note The figures and descriptions below are an example configuration The figures and descriptions this section contains are based on an example configura- tion. Your configuration, and thus the content shown, may differ from the content illustrated here.
  • Page 55 765-1103/100-000 Commissioning Figure 11: List of the Products Found on the Local Network • Identify the device, e.g., on the basis of the MAC address or the product type IO System Field-765-xxxx. • Use the mouse cursor to select the corresponding device from the list of devices found.

  • Page 56: Configuration

    Commissioning 765-1103/100-000 • Click OK. The module is now accessible via the IP address, and you can open WAGO Web- server I/O Field with a browser, for example. 10.2 Configuration 10.2.1 Parameterizing the Module via PROFINET ü To configure the PROFINET IO-Controllers, you need the GSDML file.

  • Page 57: Wago Webserver I/O Field

    10.3.1.2 User Interface of the WAGO Webserver I/O Field Figure 13: Dashboard Menu Item, Main Page (Example View) When the user interface of the WAGO I/O Field Webserver opens, the main page of the Dashboard appears first. It shows the following product information: Product manual | Version: 2.2.0...

  • Page 58: Maintenance Information

    • A list of the licensed software components the product contains • A link for each licensed software component to the associated license terms 10.3.1.3 Opening the Product Information via WAGO Webserver I/O Field 10.3.1.3.1 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.

  • Page 59: Displaying Measured Values And Information On Connected Sensors/Actuators

    765-1103/100-000 Commissioning Table 32: Tab for port information (digital inputs/outputs X01, X02, etc.) Description Information Displays the current measured values for temperature, voltage and cur- rent, as well as the port state, individually for pin 1, pin 2 and pin 4. If an IO-Link device is connected to the digital input/output, its product data is also shown.

  • Page 60: Display Port Status Information

    Commissioning 765-1103/100-000 • Overvoltage • Undervoltage • Module-internal watchdog timer has elapsed 10.3.1.3.3 Display Port Status Information Figure 15: Port XX Menu Item, Status Tab (Example View) The Status tab shows status information for pins 2 and 4 of the selected port.

  • Page 61: Parameterizing The Module Via The Wago I/O Field Webserver

    Commissioning Figure 16: Port X0i Menu Item, Process Data Tab (Example View) 10.3.1.4 Parameterizing the Module via the WAGO I/O Field Webserver You can make the following settings on the module with WAGO Webserver I/O Field: 8 Configure Ports [} 62] • 8 Configuring IP Parameters [} 63] •...

  • Page 62: Configure Ports

    Commissioning 765-1103/100-000 10.3.1.4.1 Configure Ports Figure 17: Port XX Menu Item, Configuration Tab Table 33: Port Configuration Settings Name Type Description Port mode (pin 4) Drop-down menu Port operating mode (configuration of pin 4) Digital input signal filter Drop-down menu Filter time for digital input signals on pin 4 (only for (pin 4) “Port mode (pin 4)”...

  • Page 63: Configuring Ip Parameters

    765-1103/100-000 Commissioning Table 34: “Port Mode” Drop-Down Menu: Selecting the Operating Mode for Pin 2 and Pin 4 of the Selected IO- Link Port Selection Option Description Digital Output The port is used as a digital output. All elements of the port configuration are ig- nored except for the input and output data length.

  • Page 64: Storing Maintenance Information

    Commissioning 765-1103/100-000 The Webserver cannot configure these parameters, since they are set via the PROFINET connection. The additional tabs in the Settings menu item are explained below. 10.3.1.4.3 Storing Maintenance Information On the Maintenance Information tab, you can store maintenance information, such as the device name, the installation location and date, contact information, a description text or the date of the last and next product service.

  • Page 65: Update Firmware

    4. Click the [Apply] button. ð Your changes take effect. 10.3.1.4.4 Update Firmware With the Firmware upgrade tab, WAGO Webserver I/O Field provides the option to up- date the product firmware. Product manual | Version: 2.2.0 16DO FLD PN DC 24V 2.0A...
  • Page 66 To update the firmware, you need a firmware container file: FWUPDATE.ZIP. You can get it from the Downloads section of the WAGO website: ü http://www.wago.com. Proceed as follows to update the firmware: 1. In the left-hand column of the WAGO I/O Field Webserver, click the Settings menu item. ð The Device configuration tab appears.

  • Page 67: Resetsetting The Module To The Factory Settings

    765-1103/100-000 Commissioning The firmware update procedure is as follows: 1. The firmware from the FWUPDATE.ZIP firmware container file is stored in the mod- ule’s flash memory. 2. An internal reset is triggered. 3. Then the device maintenance firmware starts; this edits the firmware container file and installs the new firmware, including the module’s configuration files.

  • Page 68: Configure Bluetooth

    Commissioning 765-1103/100-000 1. In the left-hand column of the WAGO I/O Field Webserver, click the Settings menu item. ð The Device configuration tab appears. 2. Select the Factory reset tab. 3. Use the radio buttons to select the settings that you want to reset to their factory set- ting values.

  • Page 69: Table 38 Status Of The Last Bluetooth Firmware Update

    ® To enable the Bluetooth interface, you must have the WAGO I/O Field app installed on the smartphone or tablet. Proceed as follows: ® • A DM code appears in the “Information” section of the Bluetooth tab.

  • Page 70: Logging Users On And Off And Managing Them

    Commissioning 765-1103/100-000 ð The light sensor registers this sequence. If the sequence is recognized as correct, the ® ® Bluetooth interface is enabled, and the product attempts to establish a Bluetooth connection to the smartphone or tablet. ® Starting a Bluetooth Firmware Update ®...
  • Page 71 From the Webserver main menu (left), select the Sign out menu item. ð You can now no longer work in the WAGO I/O Field Webserver 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.
  • Page 72 Commissioning 765-1103/100-000 The Administration tab provides role-based user administration. It allows you to create and delete users and assign them roles, which their rights depend on. Users can be di- vided into three roles: • Maintenance • Operator • Administrator Creating a New User When “User administration”...

  • Page 73: Forcing Digital Inputs And Outputs

    765-1103/100-000 Commissioning Figure 25: User Administration Menu Item (Example View) ð The new user is created and assigned the selected role. Removing Users To remove an existing user from the product’s user administration, proceed as follows: • Click the red square with the white “x” to the right of the user you want to remove.

  • Page 74: Table 39 Input Options For Forcing For Each Pin Of A Port

    Commissioning 765-1103/100-000 Figure 26: DIO Forcing Menu Item, “DIO Forcing” Screen (Example View) You have three options for each pin that supports the forcing function: Table 39: Input Options for Forcing for Each Pin of a Port Option “Force” Checkbox “Set/Clr” Checkbox Forcing –...

  • Page 75: Wago I/O Field App

    As long as one user is accessing the forcing functionality through a forcing medium, e.g., the WAGO I/O Field Webserver, 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 ac- cess.

  • Page 76: Parameterizing The Product Via Opc Ua

    Commissioning 765-1103/100-000 Figure 27: OPC UA: Device Information Model 10.3.3.1 Parameterizing the Product via OPC UA 10.3.3.1.1 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. The path to this node is: Root >...

  • Page 77: Setting Device Parameters

    765-1103/100-000 Commissioning 10.3.3.1.2 Setting Device Parameters The OPC UA server provides nodes with configuration parameters for the device. For ex- ample, the OPC UA client can read out the upper limiting value for temperature in the OverTemperature node. The path to this node is: Root >...

  • Page 78: Reading Port Process Values

    Commissioning 765-1103/100-000 Table 42: Port-Specific Configuration Parameters Node Name Node Class Access Default Description OverCurrentPin1 Variable Read Warning level for current upper limit on pin 1; unit: 1 mA 0: monitoring not enabled OverCurrentPin2 Variable Read Warning level for current upper limit on pin 2;...

  • Page 79: Reading Measured Power Values

    765-1103/100-000 Commissioning 10.3.3.1.5 Reading Measured Power 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 SumCur- rentL node. The path to this node is: Root >...

  • Page 80: Read Statistics

    Commissioning 765-1103/100-000 The path to this node is: Root > Object > DeviceSet > [device name] > DigitalConnector > PortXX > Diagnostics > Flags The following table lists port-specific diagnostic information. Table 47: Port-Specific Diagnostics Node Name Node Class Access Description...

  • Page 81: Ntp Client Configuration

    765-1103/100-000 Commissioning Measurement Node Name Node Class Access Description MinCurrentPin4 Variable Read Minimum current on pin 4 Temperature MaxTemperature- Variable Read Maximum tempera- Pin1 ture on pin 1 since the value was reset; unit: °C MaxTemperature- Variable Read Maximum tempera- Pin2 ture on pin 2 since the value was reset;...

  • Page 82: I/O Forcing Via Opc Ua

    Commissioning 765-1103/100-000 Table 49: NTP Client Configuration Node Name Node Access Default Description Class NtpClientServerIpAd- Variable Read/ IP address of the NTP server dress write The NTP client uses the IP address setting to retrieve the time from an NTP server.

  • Page 83: Using Opc Ua Client

    765-1103/100-000 Commissioning While the Force function is enabled, the watchdog timer needs to be triggered regularly. Triggering occurs each time an input simulation and output method is called. The watch- dog timer is also triggered when the “AssignedForceID” node is read. This means that regular reading of the “AssignedForceID”...
  • Page 84 Commissioning 765-1103/100-000 Figure 28: Add Server Dialog – Discovery Tab (Default) Product manual | Version: 2.2.0 16DO FLD PN DC 24V 2.0A...
  • Page 85 765-1103/100-000 Commissioning Figure 29: Add Server Dialog – Advanced Tab 4. In the Configuration Name field, enter a name for your configuration, e.g. “Test.” 5. Select the Advanced tab. 6. In the Server Information section of the Advanced tab, enter the following informa- tion in the Endpoint URL field: opc.tcp://<IP address>:4840.
  • Page 86 Commissioning 765-1103/100-000 9. Click OK. ð In the project window, UaExpert enters the server under Project > Servers e.g., “Test.” 10. Open the context menu of the server (“Test”) and select Connect. ð The connection is established. 10.3.3.1.10.2 Setting the Module Time via OPC UA Requirements •...
  • Page 87 765-1103/100-000 Commissioning Figure 30: NtpClientUpdateConfiguration Node 2. In the context menu, select Call. Figure 31: NtpClientUpdateConfiguration Node – Context Menu ð The Call NtpClientUpdateConfiguration on NtpClient dialog appears. Product manual | Version: 2.2.0 16DO FLD PN DC 24V 2.0A...
  • Page 88 Commissioning 765-1103/100-000 Figure 32: NTP Client Configuration Dialog 3. In the Input Arguments section, enter the value 3224725356 for the IP address of the NTP server in the ServerIpAddress field. 4. In the Input Arguments section, enter the number 3224725352 for the IP address of the alternate NTP in the ServerIpAddressFallback field.
  • Page 89 765-1103/100-000 Commissioning Figure 33: NTP Client Configuration Dialog (Succeeded) 10.3.3.1.10.3 Enabling Forcing Requirements • You must have an OPC UA client. • You must know the username and password, and this user must have permission to execute methods. • You must have already established a connection to the I/O module.
  • Page 90 Commissioning 765-1103/100-000 Figure 34: GetForcingID Method 3. Click [Call]. ð If the method call was successful, then the Force ID is displayed, and “0” appears under Status. The FLD LED on the I/O module flashes at a rate of 1 Hz. Figure 35: GetForcingID Method: Successful ð...
  • Page 91 765-1103/100-000 Commissioning Figure 36: GetForcingID Method: Unsuccessful 4. In the OPC UA client, drag the “AssignedForceID” node into the Data Access View window so that the AssignedForceID is read regularly ð Regular reading of the AssignedForceID triggers the watchdog timer and keeps the Force function enabled.

  • Page 92: Table 50 Input Arguments Of The Outputpin Method

    Commissioning 765-1103/100-000 Figure 37: OutputPin4 Method 4. Click [Call]. ð If the method call was successful, then the output data on the module is forced. ð If the method call was unsuccessful, then “−1” appears under Status. Description of the Input Arguments Table 50: Input Arguments of the OutputPin Method...

  • Page 93: Table 51 Output Arguments Of The Outputpin Method

    765-1103/100-000 Commissioning Input Arguments Description Example 1 (Force Mask has a value of 4): A value of 0 sets the output value of port X03 to 0. A value of 4 sets the output value of port X03 to 1.

  • Page 94: Setting The Module Time

    Commissioning 765-1103/100-000 Figure 38: DisableForcing Method ð If the method call was unsuccessful, then “−1” appears under Status. Description of the Input Arguments Table 52: Input Arguments of the DisableForcing Method Input Arguments Description Force ID Here the OPC UA client must use the Force ID that the OPC UA client had received after the GetForcingID method was called.

  • Page 95: Diagnostics

    Green Normal operating state Green Flashing (1 Hz) Force mode is active Green Flashing (4 Hz) WAGO IO-Link Configurator is connected to the module Yellow Configuration error Non-operational; no voltage Application Status The APL LED indicates the status of the application. Product manual | Version: 2.2.0...

  • Page 96: Table 57 Apl Led

    Diagnostics 765-1103/100-000 Table 57: APL LED Color State Description Duo LED, red/green/yellow (yellow = simultaneously red and green) LED with no function Yellow Flashing (1 Hz, 5 s) Module has a NameOfStation and/or an IP address. During module startup, the LED flashes for 5 s at 1 Hz.

  • Page 97: Diagnostics Via Profinet

    765-1103/100-000 Diagnostics Table 61: LED States – ETHERNET Status LED State Description Flickering (load-dependent) The indicator switches on and off at a frequency of 10 Hz, indicat- ing high ETHERNET activity: on for 50 ms and then off for 50 ms.
  • Page 98 Diagnostics 765-1103/100-000 Number Alarm Description Corrective Action (hex) 0x0101 Overvoltage Overvoltage in supply line 1L Check supply voltage The supply line has exceeded the limiting value for the maximum voltage. 0x0102 Overtemperature Overtemperature Eliminate external heat source or overload. The device temperature has exceeded the upper limiting value.

  • Page 99: Service

    765-1103/100-000 Service Service 12.1 Resetting to Factory Settings The device can be reset to the factory settings. Use the WAGO I/O Field Webserver for this purpose. 8 Resetsetting the Module to the Factory You can find information on the procedure in Settings [} 67].

  • Page 100: Decommissioning

    Decommissioning 765-1103/100-000 Decommissioning 13.1 Disposal and Recycling Table 65: 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.

  • Page 101: Appendix

    EU Declaration of Conformity Hereby, WAGO GmbH & Co. KG declares that the radio equipment type 765-1103/100-000 is in compliance with Directive 2014/53/EU. The full text of the EU declaration of conformity is available at the following internet address: ü www.wago.com /765-1103/100-000.

  • Page 102: Table 66 Bluetooth ® Transmitter

    GmbH & Co. KG may void the FCC authorization to operate this equipment. 14.2 Operational Description Product Description The product 765-1103/100-000 is used to output digital field signals, e.g., to actuators, which have been received by a higher-level controller. Description of operation (FCC) The product, a fieldbus module in the IP67 housing, serves the acquisition and output of data via sensors and actuators for the industrial control technology.

  • Page 103: Table 67 Temperature Ranges

    765-1103/100-000 Appendix Product Designs SlimLine (W × H × D) 35 × 30 × 210 mm WideLine (W × H × D) 60 × 30 × 210 mm Temperature Ranges Table 67: Temperature Ranges Ambient temperature (operation) –25 °C ... +70 °C Ambient temperature (storage) –40 °C ... +80 °C...
  • Page 104 Appendix 765-1103/100-000 14.3 Protected Rights ® ® • Adobe and Acrobat are registered trademarks of Adobe Systems Inc. • Android is a trademark of Google LLC. • Apple, the Apple logo, iPhone, iPad and iPod touch are registered trademarks of Apple Inc.
  • Page 105 Overview of Parameterization Tools .................. Table 22 Parameterization Overview....................Table 23 Function Overview for the WAGO I/O Field Webserver for Digital Input/Output Modules . Table 24 Upper Limits for Current on the Individual Pins of the Connections ........Table 25 Module 765-1103/100-000 –...
  • Page 106 List of Tables 765-1103/100-000 Table 36 Maintenance Information ....................Table 37 Options for Resetting the Module to the Factory Settings ..........® Table 38 Status of the Last Bluetooth Firmware Update..............Table 39 Input Options for Forcing for Each Pin of a Port ..............
  • Page 107 Figure 1 View ..........................Figure 2 Circuit Diagram for Each Port ..................Figure 3 Derating, 765-1103/100-000 ..................Figure 4 Derating of a Contact (Pin) of L-Coded Connections X31 and X32 (For Core Cross- Section = 0.25 mm /AWG 14) ..................Figure 5 Derating of a Contact (Pin) of the A-Coded Connections Port X01, X02, ...
  • Page 108 List of Figures 765-1103/100-000 Figure 36 GetForcingID Method: Unsuccessful ................Figure 37 OutputPin4 Method ....................... Figure 38 DisableForcing Method ....................Product manual | Version: 2.2.0 16DO FLD PN DC 24V 2.0A...
  • Page 109 765-1103/100-000 List of Figures Product manual | Version: 2.2.0 16DO FLD PN DC 24V 2.0A...
  • Page 110 WAGO is a registered trademark of WAGO Verwaltungsgesellschaft mbH. Copyright – WAGO GmbH & Co. KG – All rights reserved. The content and structure of the WAGO websites, catalogs, videos and other WAGO media are subject to copyright. Distri- bution or modification of the contents of these pages and videos is prohibited. Furthermore, the content may neither be copied nor made available to third parties for commercial pur-...

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