ABB S800 I/O Manual
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ABB S800 I/O Manual

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S800 I/O
DTM 6.0
System Version 6.0
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Summary of Contents for ABB S800 I/O

  • Page 1 S800 I/O DTM 6.0 System Version 6.0 Power and productivity for a better world™...
  • Page 3 S800 I/O DTM 6.0...
  • Page 4 This document contains information about one or more ABB products and may include a description of or a reference to one or more standards that may be generally relevant to the ABB products. The presence of any such description of a standard or reference to a standard is not a representation that all of the ABB products referenced in this document support all of the features of the described or ref- erenced standard.

  • Page 5: Table Of Contents

    Terminology........................10 Applicable Specifications ....................12 Released User Manuals and Release Notes..............12 Section 1 - Introduction FDT/DTM - General......................13 Product Overview ......................13 ABB Standard Drive Integration ................17 Product Scope.......................18 Prerequisites and Requirements ..................19 Intended User........................19 Section 2 - Installation System Prerequisites......................21 Installation Directory.......................22 Language Setting ......................23...
  • Page 6 Table of Contents User Interfaces......................... 30 Frame Application......................30 System Structure ....................31 User Roles ........................32 Buttons ..........................33 Input/Output Boxes ......................34 Status Bar ........................35 Applications ........................36 About DTM......................39 Identification ......................40 Diagnosis ......................41 Observe ......................
  • Page 7 Table of Contents DO801/DO802/DO810/DO814/DO815/DO818/DO820/DO821/DO828 ....131 DO840 ...........................133 DO890 ...........................137 DP820 ..........................140 DP840 ..........................143 ABB Standard Drive......................146 Appendix A - Operating with HART DTMs Introduction ........................147 Connecting a HART instrument ..................147 Supervision of HART instrument ..................148 Appendix B - Dynamic Data CI801 Dynamic values ....................149...
  • Page 8 Table of Contents DP840 Dynamic values ....................171 Revision History Updates in Revision Index B..................173 3BSE027630-600 B...

  • Page 9: About This User Manual

    This User manual provides a description of the S800 I/O DTM product which includes DTMs for the S800 I/O (see Product Overview on page 13).

  • Page 10: Warning, Caution, Information, And Tip Icons

    Warning, Caution, Information, and Tip Icons About This User Manual Feature Pack functionality included in an existing table is indicated using a table footnote (*): Feature Pack Functionality Unless noted, all other information in this User Manual applies to 800xA Systems with or without a Feature Pack installed.
  • Page 11 Remote Transducer applications in industrial process metrology. I/O module In this user manual the term I/O module is related to a S800 I/O module. Instrument In this user manual the term instrument is related to a HART instrument. Intrinsic Safety I.S.

  • Page 12: Applicable Specifications

    • Included on the documentation media provided with the system and published to ABB SolutionsBank when released as part of a major or minor release, Service Pack, Feature Pack, or System Revision. • Published to ABB SolutionsBank when a User Manual or Release Note is updated in between any of the release cycles listed in the first bullet.

  • Page 13: Section 1 Introduction

    (plausibility), offers graphical user dialogs, manages device configuration and diagnosis, and supplies the device-specific documentation. The product S800 I/O DTM covers the following S800 I/O modules: Table 1. S800 I/O Units Units Description...
  • Page 14 Product Overview Section 1 Introduction Table 1. S800 I/O Units (Continued) Units Description AI815 Analog Input,1*8 channels, 0..20 mA, 4..20 mA, 0..5V, 1..5 V,  HART Interface, Extended Diagnosis Analog Input differential,  AI820 1*4 channels, -20..20 mA, 0..20 mA, ...
  • Page 15 Section 1 Introduction Product Overview Table 1. S800 I/O Units (Continued) Units Description AI895 Analog Input, 1*8 channels, 4..20 mA, I.S. and HART Interface AO801 Analog Output 1*8 channels, 0...20 mA, 4...20 mA Analog Output, 1*8 channels,  AO810 0..20 mA, 4..20 mA Analog Output, 1*8 channels, ...
  • Page 16 Product Overview Section 1 Introduction Table 1. S800 I/O Units (Continued) Units Description DI814 Digital Input 24 V d.c., 2*8 channels, current source DI818 Digital Input 24 V d.c., 32 channels DI820 Digital Input 120 V a.c., 110 V d.c.,...

  • Page 17: Abb Standard Drive Integration

    FDT version 1.2 and addendum. ABB Standard Drive Integration ABB Standard drives can be connected to the S800 I/O system. The FCI works as a communication link between the fieldbus master and the drives. No application software concerning this functionality is stored in the FCI.

  • Page 18: Product Scope

    The product also contains DTMs that has HART tool routing functionality. Tool routing describes a mechanism to enable sub connected DTMs, such as the Basic HART DTM to communicate through a S800 I/O DTM to HART instruments connected to a S800 I/O module. For this function no graphical user interface is required.

  • Page 19: Prerequisites And Requirements

    Section 1 Introduction Prerequisites and Requirements Prerequisites and Requirements The S800 I/O DTM conforms to applicable parts of FDT 1.2 and addendum and requires a frame application conforming to FDT 1.2. For details about the supported operating systems and FDTs, see...
  • Page 20 Intended User Section 1 Introduction 3BSE027630-600 B...

  • Page 21: Section 2 Installation

    AI895, AO815, AO845 and AO895, a HART DTM has to be installed (for example  Basic HART DTM). The S800 I/O DTM version 1.0/0 and higher will not run in frame applications conforming to version 0.98 of the FDT specification. The FDT versions differ in the expanded number of interfaces, their meaning and data management.

  • Page 22: Installation Directory

    Installation Directory Section 2 Installation Installation Directory The S800 I/O DTM files are stored in the following path and directories: Figure 1. Installed DTMs 3BSE027630-600 B...

  • Page 23: Language Setting

    Ensure that the backup is clearly marked and carefully maintained. Initial Installation Sequence The S800 I/O DTM consists of a single program to install all DTMs.  The installation process is the same for all components and is therefore described only once.
  • Page 24 Initial Installation Section 2 Installation Enter msiexec <space> i <space>"MSIname"and press enter. The system prepares for installation. Figure 2. Windows Installer Follow the instructions on the screen and accordingly click Next. Figure 3. InstallShield Wizard 3BSE027630-600 B...
  • Page 25 Section 2 Installation Initial Installation Enter the User Name and the Company Name. Figure 4. Customer Information Screen 3BSE027630-600 B...
  • Page 26 Initial Installation Section 2 Installation Click Install to start the installation process. Figure 5. Installation start-up 3BSE027630-600 B...
  • Page 27 Section 2 Installation Initial Installation Click Finish to complete the installation process. Figure 6. Installation complete This completes the installation of S800 DTM. 3BSE027630-600 B...
  • Page 28 Initial Installation Section 2 Installation 3BSE027630-600 B...

  • Page 29: Section 3 Run-Time Operation

    This section describes how to operate the DTM with the applications in a frame application, for example Fieldbus Builder. After the DTMs are installed, start the frame application and locate  the S800 I/O DTM. See appropriate documentation for handling of  the frame application. This section is also available as Online Help.

  • Page 30: User Interfaces

    User Interfaces Section 3 Run-time Operation User Interfaces Most DTM applications have a graphical user interface for display variables, input/output parameter values or executing commands. Only two applications (download/upload) do not have a graphical user interface. They are controlled exclusively by the frame application (the DTM works in the background). The user interface comprises a header, which is provided by the frame application.

  • Page 31: System Structure

    Section 3 Run-time Operation System Structure System Structure The figure below is an example of a system structure for the hardware hierarchy and the corresponding DTMs were the S800 I/O is used. Figure 7. Example of System Structure 3BSE027630-600 B...

  • Page 32: User Roles

    User Roles Section 3 Run-time Operation User Roles The DTM checks the user rights when an application starts up. Certain users may even be prohibited from using some applications. If access to an application is permitted, a distinction is made between restricted access (read-only) and full access (read and write) to its functions.

  • Page 33: Buttons

    Section 3 Run-time Operation Buttons Buttons The following buttons are not application-specific and always have the same function: Press the Ok button if you want to save all data and close the graphical interface. The DTM will then save the data for that application to the database and/or device. If Cancel is pressed, the DTM will reject all data input (since the last time data was saved/applied) and close the interface.

  • Page 34: Input/Output Boxes

    Input/Output Boxes Section 3 Run-time Operation Input/Output Boxes The input/output boxes are used to display and input data (parameter values). Depending on the meaning of the parameter, numerical values or character strings can be entered. In some cases, these values must be selected from a list containing a fixed number of default entries.

  • Page 35: Status Bar

    Section 3 Run-time Operation Status Bar Status Bar The status bar at the bottom of the user interface comprises a total of three fields. The status bar provides the following information: The left-hand field provides information about the on-going transactions within the application.

  • Page 36: Applications

    Applications Section 3 Run-time Operation Applications Following applications are currently available for the S800 I/O DTM: • About DTM Displays version information. • Identification Displays information about the hardware. • Diagnosis Displays diagnosis for the unit. • Observe Displays the cyclic data.
  • Page 37 Section 3 Run-time Operation Applications Table 3. Applications available for the S800 I/O DTM (Continued) About Identifi- Configurati Parameter Module Diagnosis Observe Service cation -ization AI835 AI835A AI843 AI845 AI880 AI890 AI893 AI895 AO801 AO810 AO815 AO820 AO845 AO890 AO895...
  • Page 38 Applications Section 3 Run-time Operation Table 3. Applications available for the S800 I/O DTM (Continued) About Identifi- Configurati Parameter Module Diagnosis Observe Service cation -ization DI820 DI821 DI825 DI828 DI830 DI831 DI840 DI885 DI890 DO801 DO802 DO810 DO814 DO815 DO818...

  • Page 39: About Dtm

    (2) The module supports SOE (Sequence Of Events), but this feature can only be used in a frame application that also supports SOE. About DTM For general information, directly related to the S800 I/O DTM, select the “About DTM” menu item. It will show the DTM version information. Figure 8. About DTM...

  • Page 40: Identification

    It shows the type of module, which functionality it has and the device revision. Furthermore it has a picture of the module and a comment box. Figure 9. Identification, this example shows DI810 Module area • Module type Shows the S800 I/O module type. • Vendor name Shows the vendor name. 3BSE027630-600 B...

  • Page 41: Diagnosis

    Control Builder, the new position is not updated in the window. Close and open the Identification window to view the updated position. Function area Describes hardware specific data for the module. See the S800 I/O manuals for more detailed information about the functions of the module. Revisions area •...
  • Page 42 Diagnosis Section 3 Run-time Operation Station specific diagnosis is displayed in Diagnosis control for the CI801 or CI840 DTM. AI895 and AO895 have also specific HART diagnosis, see Diagnosis section for respective unit. Figure 10. Diagnosis for I/O modules not supporting Diagnostic History 3BSE027630-600 B...
  • Page 43 Section 3 Run-time Operation Diagnosis Figure 11. Diagnosis for AI815, AO815, AI830, AI835, AI835A, AI843, AI845 and AO845 Channel Status area Displays the channel status reported by the module in cyclic data. Module Diagnosis area Reports diagnostic that affects the entire I/O module i.e. Wrong module type. Channel Diagnosis area Reports errors on separate channels.

  • Page 44: Observe

    Observe Section 3 Run-time Operation Read Diagnostic History Shows a list of diagnostic events that have been changed since the list was last read. When clicking this button the history on the I/O module will be erased. Observe The Observe control displays the dynamic data and channel status for a module in online mode.
  • Page 45 Section 3 Run-time Operation Observe Observe Analog modules Displays the dynamic data, both in digits, percent and as a gauge bar and the chosen signal range. Figure 12. Observe, Analog modules, this example shows AI895 for AC800F and AC870P 3BSE027630-600 B...
  • Page 46 Observe Section 3 Run-time Operation Figure 13. Observe, Analog modules, this example shows AI845 for AC800M The Observe window can also be used to analyze overflow or underflow in the signals at each channel.  For underflow, no value is shown in the gauge bar. For overflow, a percentage value (above 100%) is shown in the gauge bar.
  • Page 47 Section 3 Run-time Operation Observe Observe Digital modules Displays the dynamic data and the channel status. Figure 14. Observe, Digital modules, this example shows DO810 3BSE027630-600 B...

  • Page 48: Ci801

    CI801 Section 3 Run-time Operation CI801 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data CI801 Dynamic values on page 149. Diagnosis Diagnosis control shows the status of the CI801 and node specific errors and warnings.
  • Page 49 Section 3 Run-time Operation CI801 General tab Figure 15. CI801 - Diagnosis - General Tab Device state area This text field shows the actual state of the FCI. Either the state is Operational or the text field is left blank. Device diagnostics area The device specific errors that are detected for the CI801 are: •...
  • Page 50 CI801 Section 3 Run-time Operation • Redundant power B failure Power fail on the optical modem Station address warning There is a mismatch between the actual address on the CI801 and the one configured in the system or if the address is set above 62. The warning will be cleared when the system is restarted with the right configuration or if the switch on the CI801 is changed back to the configured address.
  • Page 51 Normal mode shall always be used if HART data is < 56 bytes. Mark the check box if the HART data is > 56 bytes but < 215 bytes. If Extended HART mode is chosen less I/O modules can be used. See S800 I/O Manuals for more details. •...

  • Page 52: Ci840

    CI840 Section 3 Run-time Operation CI840 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data CI840 Dynamic values on page 150. Diagnosis Diagnosis control shows the status of the CI840 and node specific errors and warnings.
  • Page 53 Section 3 Run-time Operation CI840 General tab Figure 18. CI840 - Diagnosis - General Tab Device state area This text field shows the actual state of the FCI. Either the state is Operational or the text field is left blank. Device diagnostics area The device specific errors that are detected for the CI840 are: •...
  • Page 54 CI840 Section 3 Run-time Operation • Redundant power A failure For the CI840 or an optical modem. • Redundant power B failure For the CI840 or an optical modem. • CI840 in position A is primary CI840 in position A is primary in a redundant pair also set if used as single. •...
  • Page 55 Section 3 Run-time Operation CI840 Figure 19. CI840 - Configuration for AC870P Sequence of Events The Sequence of Events checkbox determines the status of the SOE feature in the supported I/O modules: • If this checkbox is checked, the SOE drop-down menu in the Channel Parameters tab of the supported I/O modules is activated.
  • Page 56 CI840 Section 3 Run-time Operation Figure 20. CI840 - Configuration for AC800F • Power supervision of FCI Mark the check box if the voltage supply to the FCI shall be supervised. Only if redundant power supply. • Power supervision of opto extension Mark the check box if the voltage supply to the cluster shall be supervised.
  • Page 57 ‘EnableSOE’ attribute to 1. ServiceEntries.xml The location of ServiceEntries.xml <ProgramData>\ABB\800xA\S800DTM. The ProgramData folder is hidden, by default. Table 4 describes the different configuration control options for the SOE supported modules DI825, DI830/DI831 and DI885, used with CI840 for AC870P. ...
  • Page 58 CI840 Section 3 Run-time Operation Table 4. Configuration control of SOE supported modules used with CI840, for AC870P Status of ‘Sequence of Displayed status in the Whether the displayed Events’ checkbox in ‘SOE’ drop-down menu in SOE status in DI8xx CI840 Configuration DI825/DI830/DI835/DI885 can be changed...
  • Page 59 Section 3 Run-time Operation CI840 Service The service control is used for reading acyclic data. Figure 21. CI840 - Service Service functions area Click the Execute button to perform a switch over between unit A and unit B. Status area In the Status area you can see which unit that is primary.

  • Page 60: Ai801/Ai810/Ai820/Ai825

    AI801/AI810/AI820/AI825 Section 3 Run-time Operation AI801/AI810/AI820/AI825 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data AI801/AI810/AI815/AI830/AI835/AI845/AI890/AI893/AI895 Dynamic values on page 151, and AI820/AI825 Dynamic values on page 152. Diagnosis Diagnosis on page 41. Observe Observe on page 44.
  • Page 61 Section 3 Run-time Operation AI801/AI810/AI820/AI825 Channel parameters tab The control looks the same for all modules but for the number of channels. Figure 22. AI801/AI810/AI820/AI825 - Configuration Channel area Mark the Deactivate check box if the channel shall not be used. Make the required choices in the Filter time, Signal range and Linearization drop-down menus.

  • Page 62: Ai815/Ai845

    AI815/AI845 Section 3 Run-time Operation AI815/AI845 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data AI801/AI810/AI815/AI830/AI835/AI845/AI890/AI893/AI895 Dynamic values on page 151. Diagnosis Diagnosis on page 41. Observe Observe on page 44. Configuration This control is not available if the unit is used towards AC 800M. The configuration data is then set via Control Builder Professional.
  • Page 63 Section 3 Run-time Operation AI815/AI845 Module parameters tab Figure 23. AI815 - Configuration - Module Parameters Tab 3BSE027630-600 B...
  • Page 64 AI815/AI845 Section 3 Run-time Operation Figure 24. AI845 - Configuration - Module Parameters Tab Mark the Redundancy check box if the unit shall be set for redundant operation. This check box is only applicable for AI845 when configured via CI840. Mark the External power supervision check box if supervision of the power supply to the transducer shall be enabled.
  • Page 65 Section 3 Run-time Operation AI815/AI845 Channel parameters tab The Channel parameters tab shows the user parameters of the module. It shows Filter time, Linearization function and Signal range. Figure 25. AI815 and AI845 - Configuration - Channel Parameters Tab Channel area Mark the Deactivate check box if the channel shall not be used.
  • Page 66 AI815/AI845 Section 3 Run-time Operation Service The service control is used for reading acyclic data and is only visible if the module is configured via a CI840. The service control is only applicable for AI845. Redundancy Tab Figure 26. AI845 - Service - Redundancy Tab The Redundancy Tab is only shown in Commissioning mode.
  • Page 67 Section 3 Run-time Operation AI815/AI845 In the Module status area you can see which I/O module that is treated as primary by CI840. By clicking the Update button you update the status for which of the I/O module that are the primary. The HART Primary unit does not have to be identical with the Primary unit described in this control.
  • Page 68 AI815/AI845 Section 3 Run-time Operation HART Primary Tab Figure 27. AI845 - Service - HART Primary Tab The HART Primary Tab is only shown in Engineering mode. Here you select through which unit HART communication should happen. The HART Primary unit can be, but does not have to be, identical with the unit treated as primary by CI840 seen in Service Control in Commissioning mode.

  • Page 69: Ai830

    Section 3 Run-time Operation AI830 AI830 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data AI801/AI810/AI815/AI830/AI835/AI845/AI890/AI893/AI895 Dynamic values on page 151. Diagnosis Diagnosis on page 41. Observe Observe on page 44. Configuration This control is not available if the unit is used towards AC 800M. The configuration data is then set via Control Builder Professional.
  • Page 70 AI830 Section 3 Run-time Operation Module parameters tab Figure 28. AI830 - Configuration - Module Parameters Tab Grid frequency area Make the required choice in the Grid frequency drop-down menu. 3BSE027630-600 B...
  • Page 71 Section 3 Run-time Operation AI830 Channel parameters tab Figure 29. AI830 - Configuration - Channel Parameters Tab Channel area Mark the Deactivate check box if the channel shall not be used. Make the required choices in the Filter time and Signal range drop-down menus. 3BSE027630-600 B...

  • Page 72: Ai835/Ai835A

    AI835/AI835A Section 3 Run-time Operation AI835/AI835A The difference between the AI835 and AI835A modules is that AI835A has some supplementary features. AI835A supports the same thermocouple types as AI835 and additionally TC types D, L and U. AI835A has also a possibility to use remote cold junction compensation.
  • Page 73 Section 3 Run-time Operation AI835/AI835A Module parameters tab Figure 30. AI835/AI835A - Configuration - Module Parameters Tab Grid Frequency area Make the required choice in the Grid frequency drop-down menu. Fix Junction Temperature area Type the required value in the Fix junction temperature text field. 3BSE027630-600 B...
  • Page 74 AI835/AI835A Section 3 Run-time Operation Channel parameters tab Figure 31. AI835/AI835A - Configuration - Channel parameters Tab Channel area Mark the Deactivate check box if the channel shall not be used. Make the required choices in the Filter time, Signal range and Cold junction temperature drop-down menus.

  • Page 75: Ai843

    Section 3 Run-time Operation AI843 AI843 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data AI843 Dynamic values on page 153 Diagnosis Diagnosis on page 41. Observe Observe on page 44. Configuration This control is not available if the unit is used towards AC 800M. The configuration data is then set via Control Builder Professional.
  • Page 76 AI843 Section 3 Run-time Operation Module parameters tab Figure 32. AI843 - Configuration - Module Parameters Tab Redundancy area Mark the Redundancy check box if the unit shall be set for redundant operation. This check box is only applicable for AI843 when configured via a CI840. Grid Frequency area Make the required choice in the Grid frequency drop-down menu.
  • Page 77 Section 3 Run-time Operation AI843 Channel parameters tab The Channel parameters tab shows the user parameters of the module. It shows Filter time, Signal range and Cold junction temperature. Figure 33. AI843 - Configuration -Channel Parameters Tab Channel area Mark the Deactivate check box if the channel shall not be used. Make the required choices in the Filter time, Signal range and Cold junction temperature drop-down menus.
  • Page 78 AI843 Section 3 Run-time Operation Service The service control is used for reading acyclic data and is only visible if the module is configured via a CI840. Figure 34. AI843 - Service - Redundancy Tab Redundancy Tab The Redundancy Tab is only shown in Commissioning mode. Module status area 3BSE027630-600 B...

  • Page 79: Ai880

    Section 3 Run-time Operation AI880 In the Module status area you can see which I/O module that is addressed by CI840. By clicking the Update button you update the status for which of the I/O module that are the primary. The module has to be configured via a CI840. AI880 This module is only supported as direct I/O connected to AC800M.

  • Page 80: Ai890

    AI890 Section 3 Run-time Operation AI890 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data AI801/AI810/AI815/AI830/AI835/AI845/AI890/AI893/AI895 Dynamic values on page 151. Diagnosis Diagnosis on page 41. Observe Observe on page 44. Configuration This control is not available if the unit is used towards AC 800M. The configuration data is then set via Control Builder Professional.
  • Page 81 Section 3 Run-time Operation AI890 Channel parameters tab Channel parameters tab shows the user parameters of the module. It shows Filter time, Linearization and Signal range. Figure 35. AI890 - Configuration - Channel Parameters Tab Channel area Mark the Deactivate check box if the channel shall not be used. Make the required choices in the Filter time, Signal range and Linearization drop-down menus.

  • Page 82: Ai893

    AI893 Section 3 Run-time Operation AI893 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data AI801/AI810/AI815/AI830/AI835/AI845/AI890/AI893/AI895 Dynamic values on page 151. Diagnosis Diagnosis on page 41. Observe Observe on page 44. Configuration This control is not available if the unit is used towards AC 800M. The configuration data is then set via Control Builder Professional.
  • Page 83 Section 3 Run-time Operation AI893 AI893 in RTD mode Channel parameters tab Figure 36. AI893 - Configuration in RTD mode Mark the Deactivate check box if the channel shall not be used. Make the required choices in the Filter time and Signal range drop-down menus. 3BSE027630-600 B...
  • Page 84 AI893 Section 3 Run-time Operation AI893 in TC mode Module parameters tab Figure 37. AI893 - Configuration in TC mode- Module Parameters Tab • Fix Junction Temperature area Type the required value in the Fix Junction Temperature text field. 3BSE027630-600 B...
  • Page 85 Section 3 Run-time Operation AI893 Channel parameters tab Channel parameters tab shows the user parameters of the module. It shows Filter time, Signal range and Cold junction temperature. Figure 38. AI893 - Configuration in TC mode - Channel Parameters Tab •...

  • Page 86: Ai895

    AI895 Section 3 Run-time Operation AI895 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data AI801/AI810/AI815/AI830/AI835/AI845/AI890/AI893/AI895 Dynamic values on page 151. Diagnosis Module diagnosis tab The module tab in the diagnosis window is used for reading diagnosis about the module itself.
  • Page 87 Section 3 Run-time Operation AI895 HART device tab The HART tab in the Diagnosis window is used for reading diagnosis about  the HART part of the module. Figure 39. AI895 - Diagnosis - HART device tab Device Status area •...
  • Page 88 AI895 Section 3 Run-time Operation • Hardware faults Shows one of the following faults for the module: – Channel fault (of any HART channels) – ROM fault – EEPROM fault • Instruments communication error Shows the summary of the communication error bits for the instruments.  According to the HART protocol specification.
  • Page 89 Section 3 Run-time Operation AI895 Field device status includes both fault conditions and abnormal operation modes or conditions and does not necessarily mean a faulty device. • Communication Error Case Communication error can be of the following types: – Parity error –...
  • Page 90 AI895 Section 3 Run-time Operation – More status available – Analogue output current fixed – Analogue output saturated – Non-primary variable out of limits – Primary variable out of limits Observe Observe on page 44. Configuration This control is not available if the unit is used towards AC 800M. The configuration data is then set via Control Builder Professional.
  • Page 91 Section 3 Run-time Operation AI895 Channel parameters tab Channel parameters tab shows the user parameters of the module. It shows Filter time, Signal range and Linearization. Figure 40. AI895 - Configuration - Channel Parameters Tab Channel area Mark the Deactivate check box if the channel shall not be used. Make the required choices in the Filter time, Signal range and Linearization drop-down menus.
  • Page 92 AI895 Section 3 Run-time Operation HART parameters tab Figure 41. AI895 - Parameterization 3BSE027630-600 B...
  • Page 93 Section 3 Run-time Operation AI895 General area • Number of retries (busy response) Writes the selected number of retries to the module. This affects the communication between the module and the HART instrument. Valid numbers are 0 - 10. This applies for a busy response. If the communication with the HART instrument fails when the default value is used, increase the value to ensure a better performance.
  • Page 94 AI895 Section 3 Run-time Operation HART Figure 42. AI895 - Service Module area • Manufacturer ID code Shows the number code for the manufacturer. • Manufacturer device type code Shows the number code for the type of module. • Device specific command rev Shows the number of the command revision.
  • Page 95 Section 3 Run-time Operation AI895 and HART specific commands. This number identifies the revision of this set of commands. • Software rev Shows the software revision of the firmware. • Hardware rev Shows the hardware revision. • Long address These text fields will show the long address, also known as extended address, which is defined by the HART protocol and consists of the "manufacturer identification code", "manufacturer's device type code"...
  • Page 96 AI895 Section 3 Run-time Operation – Operations in progress – Hardware faults – Instruments scan faults and status – Instruments communication error bits – Instruments status bits I/O Module Status area for more information. • Flush completed delayed response This function will delete the response that is stored in the buffer. If the DTM is in a lock situation when the I/O module always response busy then this function can be used to flush the HART response buffer.
  • Page 97 Section 3 Run-time Operation AI895 – If it does, the APPEARED bit is set, the DISAPPEARED and SEARCHING bits are cleared and the module restarts the normal scanning activity. – If it does not, the MISMATCHED bit is set, the DISAPPEARED bit is cleared and the module keeps on searching the instrument with ...
  • Page 98 AI895 Section 3 Run-time Operation – Instrument time-out: when the maximum amount of time that an I/O module will wait before deciding that the instrument has failed is elapsed. The value is fixed to 33 character times (305 ms) – Outgoing communication error: when bit 7 is set in the reply status first byte –...

  • Page 99: Ao801/Ao810/Ao820

    Section 3 Run-time Operation AO801/AO810/AO820 With a new diagnosis scan, the DISAPPEARED and APPEARED bits are cleared. AO801/AO810/AO820 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data AO801/AO810/AO815/AO845/AO890/AO895 Dynamic values on page 154, AO820 Dynamic values on page 155.
  • Page 100 AO801/AO810/AO820 Section 3 Run-time Operation Channel parameters tab The control looks the same for all modules but for the number of channels. Figure 43. AO801/AO810/AO820 - Configuration - Channel Parameters Tab Channel area Mark the Deactivate check box if the channel shall not be used. Make the required choices in the Signal range and OSP control drop-down menus.

  • Page 101: Ao815/Ao845

    Section 3 Run-time Operation AO815/AO845 AO815/AO845 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data AO801/AO810/AO815/AO845/AO890/AO895 Dynamic values on page 154. Diagnosis Diagnosis on page 41. Observe Observe on page 44. Configuration This control is not available if the unit is used towards AC 800M. The configuration data is then set via Control Builder Professional.
  • Page 102 AO815/AO845 Section 3 Run-time Operation Module parameters tab (only applicable for AO845) Figure 44. AO845 - Configuration - Module Parameters Tab • Redundancy Mark the Redundancy check box if the unit shall be set for redundant operation. Channel parameters tab The Channel parameters tab shows the user parameters of the module.
  • Page 103 Section 3 Run-time Operation AO815/AO845 Figure 45. AO815 and AO845 - Configuration - Channel Parameters Tab Channel area Mark the Deactivate check box if the channel shall not be used. Make the required choices in the Signal range and the OSP control drop-down menus.
  • Page 104 AO815/AO845 Section 3 Run-time Operation Service The service control is used for reading acyclic data and is only visible if the module is configured via a CI840. The service control is only applicable for AO845. Redundancy Tab The Redundancy Tab is only shown in Commissioning mode. Figure 46.
  • Page 105 Section 3 Run-time Operation AO815/AO845 In the Module status area you can see which I/O module that is treated as primary by CI840. By clicking the Update button you update the status for which of the I/O module that are the primary. The HART Primary unit does not have to be identical with the Primary unit described in this control.

  • Page 106: Ao890

    AO890 Section 3 Run-time Operation HART Primary module fails, HART communication does not switch over automatically to the other unit. The user must manually do the switchover. AO890 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data AO801/AO810/AO815/AO845/AO890/AO895 Dynamic values on page 154.
  • Page 107 Section 3 Run-time Operation AO890 Channel parameters tab The channel parameters tab shows the user parameters of the module. It shows Signal range, OSP control and OSP value. Figure 48. AO890 - Configuration - Channel Parameters Tab Channel area Mark the Deactivate check box if the channel shall not be used. Make the required choices in the Signal range and the OSP control drop-down menus.

  • Page 108: Ao895

    AO895 Section 3 Run-time Operation AO895 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data AO801/AO810/AO815/AO845/AO890/AO895 Dynamic values on page 154. Diagnosis Module diagnosis tab The module tab in the diagnosis window is used for reading diagnosis about the module itself.
  • Page 109 Section 3 Run-time Operation AO895 HART device tab The HART tab in the Diagnosis window is used for reading diagnosis about  the HART part of the module. Figure 49. AO895 - Diagnosis HART device tab on page 87 Observe Observe on page 44.
  • Page 110 AO895 Section 3 Run-time Operation Channel parameters tab The channel parameters tab (see Figure 40) shows the user parameters of the module. It shows Signal range, OSP control and OSP value. Channel area Mark the Deactivate check box if the channel shall not be used. Make the required choices in the Signal range and the OSP control drop-down menus.
  • Page 111 Section 3 Run-time Operation AO895 • Manufacturer device type code Shows the number code for the type of module. • Device specific command rev Shows the number of the command revision. Each HART instrument implements HART universal commands, HART common practice commands and HART specific commands.
  • Page 112 AO895 Section 3 Run-time Operation collects information about HART instruments on the channels (HART command 0 performed). If new devices are connected to an AO895 module, or if the devices are changed at specific channels of the module, executing the Perform master reset option ensures that the devices are detected, see Connecting a HART instrument on page...
  • Page 113 Section 3 Run-time Operation AO895 • Enable scan status This function turns on the scanning. The scanning function is implemented to monitor the presence of field instruments. When the scanning is enabled, all the instruments of the instruments list are scanned with HART command 1. A different channel every 5s.
  • Page 114 AO895 Section 3 Run-time Operation Shows if there are any responses in use for the primary master. Can be flushed with using the service function "Flush completed delayed response". • Number of retries for busy response Shows the configured number of retries for a busy response from the instrument to the module.

  • Page 115: Di801/Di802/Di803/Di810/Di811/Di814/Di818/Di820/Di821/ Di828/Di890

    Section 3 Run-time Operation DI801/DI802/DI803/DI810/DI811/DI814/DI818/DI820/DI821/ If an instrument does not reply the DISAPPEARED and SEARCHING bits related to that instrument are set. Then the module begins to scan that instrument with HART command 0. If there is a reply to command 0, the module verifies if it comes from the original instrument: –...
  • Page 116 DI801/DI802/DI803/DI810/DI811/DI814/DI818/DI820/DI821/ DI828/DI890 Section 3 Run-time Observe Observe on page 44. Configuration This control is not available if the unit is used towards AC 800M. The configuration data is then set via Control Builder Professional. Configuration consists of two tabs. The Module parameters tab shows the user parameters for the module and the Channel parameters tab shows parameters for separate channels.
  • Page 117 Section 3 Run-time Operation DI801/DI802/DI803/DI810/DI811/DI814/DI818/DI820/DI821/ Filter time channel area Make the required choice in the Filter time channel drop-down menu. Channel parameters tab The control looks the same for all modules but for the number of channels. Figure 51. DI801/DI802/DI03/DI810/DI811/DI814/DI818/DI820/DI821/DI828 - Configuration - Channel Parameters Tab Channel area Mark the Deactivate check box if the channel shall not be used.

  • Page 118: Di825

    Mark the Deactivate check box if the channel shall not be used. Make the required choice in the Channel supervision drop-down menu. DI825 This module requires CI840 and supports the SOE feature only with AC870P/Composer. Contact ABB Local Supplier for the Composer version. About DTM About DTM on page 39.
  • Page 119 Section 3 Run-time Operation DI825 Dynamic Data DI825 Dynamic Values on page 160. Diagnosis Diagnosis on page 41. Observe Observe on page 44. Configuration This control is not available if the unit is used towards AC 800M. The configuration data is then set via Control Builder Professional. For configuration of the module, select the “Configuration”...
  • Page 120 DI825 Section 3 Run-time Operation Module Parameters Tab Figure 53. DI825 - Configuration - Module Parameters Tab Power Supervision group 1 area Make the required choice in the Power Supervision group 1 drop-down menu, for supervising channels 2-4. Power Supervision group 2 area Make the required choice in the Power Supervision group 2 drop-down menu, for supervising channels 5-7.
  • Page 121 Section 3 Run-time Operation DI825 Channel Parameters Tab Figure 54. DI825 - Configuration - Channel Parameters Tab Channel area Mark the Deactivate check box if the channel shall not be used. Make the required choice in the SOE drop-down menu. For SOE configuration options when using this module with CI840, see Configuration Control of DI825/DI830/DI831/DI885 with CI840 for SOE...

  • Page 122: Di830/Di831

    DI830/DI831 Section 3 Run-time Operation DI830/DI831 This module requires CI840 and supports the SOE feature only with AC870P/Composer. Contact ABB Local Supplier for the Composer version. About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data DI830/DI831 Dynamic Values on page 161.
  • Page 123 Section 3 Run-time Operation DI830/DI831 Module Parameters Tab Figure 55. DI830/DI831 - Configuration - Module Parameters Tab Power Supervision group 1 area Make the required choice in the Power Supervision group 1 drop-down menu, for supervising channels 2-4. Power Supervision group 2 area Make the required choice in the Power Supervision group 2 drop-down menu, for supervising channels 5-7.
  • Page 124 DI830/DI831 Section 3 Run-time Operation Channel Parameters Tab Figure 56. DI830/DI831 - Configuration - Channel Parameters Tab Channel area Mark the Deactivate check box if the channel shall not be used. Make the required choice in the SOE drop-down menu. For SOE configuration options when using this module with CI840, see Configuration Control of DI825/DI830/DI831/DI885 with CI840 for SOE...

  • Page 125: Di840

    Section 3 Run-time Operation DI840 DI840 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data DI801/DI810/DI811/DI814/DI828/DI840 Dynamic values on page 156. Diagnosis Diagnosis on page 41. Observe Observe on page 44. Configuration This control is not available if the unit is used towards AC 800M. The configuration data is then set via Control Builder Professional.
  • Page 126 DI840 Section 3 Run-time Operation Module parameters tab Figure 57. DI840 - Configuration - Module Parameters Tab Redundancy area Mark the Redundancy check box if the unit shall be set for redundant operation. This check box is only applicable when configured via CI840. Channel supervision area Make the required choice the Sensor power supervision drop-down menu.
  • Page 127 Section 3 Run-time Operation DI840 Channel parameters tab It shows the user parameters of the module. Figure 58. DI840 - Configuration - Channel Parameters Tab Channel area Mark the Deactivate check box shows if the channel shall not be used. Make the required choice in the Filter time drop-down menu.

  • Page 128: Di885

    Update button you update the status for which of the I/O module that are the primary. DI885 This module requires CI840 and supports the SOE feature only with AC870P/Composer. Contact ABB Local Supplier for the Composer version. About DTM About DTM on page 39.
  • Page 129 Section 3 Run-time Operation DI885 Module Parameters Tab Figure 59. DI885 - Configuration - Module Parameters Tab Power supervision area Make the required choice in the Power supervision drop-down menu Channel supervision area Make the required choice in the Channel supervision drop-down menu. Sensor type area Make the required choice in the Sensor type drop-down menu.
  • Page 130 DI885 Section 3 Run-time Operation Channel Parameters Tab Figure 60. DI885 - Configuration - Channel Parameters Tab Channel area Mark the Deactivate check box if the channel shall not be used. Make the required choice in the SOE drop-down menu. For SOE configuration options when using this module with CI840, see Configuration Control of DI825/DI830/DI831/DI885 with CI840 for SOE...

  • Page 131: Do801/Do802/Do810/Do814/Do815/Do818/Do820/Do821/Do828

    Section 3 Run-time Operation DO801/DO802/DO810/DO814/DO815/DO818/DO820/DO821 /DO828 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data DO801/DO810/DO814/DO828/DO840 Dynamic values on page 163, DO818 Dynamic values on page 164 and DO802/DO815/DO820/DO821 Dynamic values on page 165. Diagnosis Diagnosis on page 41.
  • Page 132 DO801/DO802/DO810/DO814/DO815/DO818/DO820/DO821/DO828 Section 3 Run-time Module parameters tab The control looks the same for all modules but for the number of channels. Figure 61. DO802/DO810/DO814/DO815/DO818 /DO820/DO821/DO828 - Configuration - Module Parameters Tab Power supervision area Make the required choice in the Power supervision drop-down menu. The Power supervision is not available for DO801.

  • Page 133: Do840

    Section 3 Run-time Operation DO840 Channel parameters tab The control looks the same for all modules but for the number of channels. Figure 62. DO801/DO802/DO810/DO814/DO815/DO818 /DO820/DO821/DO828 - Configuration - Channel Parameters Tab Channel area Mark the Deactivate check box if the channel shall not be used. Make the required choices in the OSP control and OSP value drop-down menus.
  • Page 134 DO840 Section 3 Run-time Operation Identification Identification on page 40. Dynamic Data DO801/DO810/DO814/DO828/DO840 Dynamic values on page 163. Diagnosis Diagnosis on page 41. Observe Observe on page 44. Configuration This control is not available if the unit is used towards AC 800M. The configuration data is then set via Control Builder Professional.
  • Page 135 Section 3 Run-time Operation DO840 Module parameters tab Figure 63. DO840 - Configuration - Module Parameters Tab Redundancy area Mark the Redundancy check box if the unit shall be set for redundant operation. This check box is only applicable when configured via CI840. Supervision area Mark the External power supervision check box if supervision of the power supply to the output channels shall be enabled.
  • Page 136 DO840 Section 3 Run-time Operation Channel parameters tab Figure 64. DO840 - Configuration - Channel Parameters Tab Channel area Check the Deactivate check box shows if the channel shall not be used. Make the required choices in the OSP control and OSP value drop-down menus. Pulse test area DO840 has two groups (Group 1 = channel 1-8 and Group 2 = channel 9 -16), ...

  • Page 137: Do890

    Section 3 Run-time Operation DO890 Service The service control is used for reading acyclic data and is only visible if the module is configured via a CI840. The Service redundancy tab is as shown in Figure Module status area In the Module status area you can see which I/O module that is primary. By clicking the Update button you update the status for which of the I/O module that are the primary.
  • Page 138 DO890 Section 3 Run-time Operation Configuration consists of two tabs. The Module parameters tab shows the user parameters for the module and the Channel parameters tab shows parameters for separate channels. Module parameters tab Figure 65. DO890 - Configuration - Module Parameters Tab Power supervision area Make the required choice in the Power supervision drop-down menu.
  • Page 139 Section 3 Run-time Operation DO890 Channel parameters tab Figure 66. DO890 - Configuration - Channel Parameters Tab Channel area Mark the Deactivate check box if the channel shall not be used. Make the required choices in the OSP control, OSP value and Channel supervision drop-down menus.

  • Page 140: Dp820

    DP820 Section 3 Run-time Operation DP820 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data DP820 Dynamic values on page 167. Diagnosis Diagnosis on page 41. Observe The Observe control displays the dynamic for a module in online mode. It is possible to update the value once or to read it cyclic with an interval of 30 s by checking the corresponding check box.
  • Page 141 Section 3 Run-time Operation DP820 Figure 67. DP820 - Observe Configuration This control is not available if the unit is used towards AC 800M. The configuration data is then set via Control Builder Professional. Configuration consists of two tabs. The Module parameters tab shows the user parameters for the module and the Channel parameters tab shows parameters for separate channels.
  • Page 142 DP820 Section 3 Run-time Operation Channel parameters tab Figure 68. DP820 - Configuration - Channel Parameters Tabs Make the required choices in the channel parameter drop-down menus. 3BSE027630-600 B...

  • Page 143: Dp840

    Section 3 Run-time Operation DP840 DP840 About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data DP840 Dynamic values on page 171. Diagnosis Diagnosis on page 41. Observe Observe on page 44. Configuration This control is not available if the unit is used towards AC 800M. The configuration data is then set via Control Builder Professional.
  • Page 144 DP840 Section 3 Run-time Operation Module parameters tab Figure 69. DP840 - Configuration - Module Parameters Tab Redundancy area Mark the Redundancy check box if the unit shall be set for redundant operation. This check box is only applicable when configured via CI840. Channel supervision area Make the required choice in the Channel supervision drop-down menu.
  • Page 145 Section 3 Run-time Operation DP840 Channel parameters tab Figure 70. DP840 - Configuration - Channel Parameters Tab Channel area Mark the Deactivate check box if the channel shall not be used. Make the required choices in the Filter time, Pulse count/Freq measure and Interval Timer drop-down menus.

  • Page 146: Abb Standard Drive

    ABB Standard Drive Section 3 Run-time Operation ABB Standard Drive About DTM About DTM on page 39. Identification Identification on page 40. Dynamic Data Appendix B, Dynamic Data. Diagnosis Diagnosis on page 41. 3BSE027630-600 B...

  • Page 147: Appendix A Operating With Hart Dtms

    Appendix A Operating with HART DTMs Introduction The AI815/AO815, AI845/AO845, AI880 and the AI895/AO895 DTMs support to have HART DTMs connected to their channels. All seven DTMs have  8 channels reflecting their hardware channels. It is possible to connect one HART DTM to any of the channels of the parent AI815/AO815 DTM, AI845/AO845 DTM, AI880 DTM or AI895/AO895 DTM.

  • Page 148: Supervision Of Hart Instrument

    Supervision of HART instrument Appendix A Operating with HART DTMs The DTM for the AI895 and AO895 have a Service application with different functions for the module (For AI895, see Service on page 93; and for AO895, see Service on page 110). The service function Perform master reset will reset the HART functionality in the module and a new scan for HART instruments on every channel will be done.

  • Page 149: Appendix B Dynamic Data

    Appendix B Dynamic Data The dynamic data is predefined for all units in S800 I/O DTM. Each connection, or variable, is specified and explained in the tables below. This appendix is not applicable when using S800I/O DTM towards AC800M. CI801 Dynamic values...

  • Page 150: Ci840 Dynamic Values

    CI840 Dynamic values Appendix B Dynamic Data CI840 Dynamic values Signal Data Bit 07 Bit 06 Bit 05 Bit 04 Bit 03 Bit 02 Bit 01 Bit 00 type type Connection 1 Input Byte Abbreviation Description Station warning. Set if any error exists in the FCI station including modules.

  • Page 151: Ai801/Ai810/Ai815/Ai830/Ai835/Ai845/Ai890/Ai893/Ai895 Dynamic Values

    Appendix B Dynamic Data AI801/AI810/AI815/AI830/AI835/AI845/AI890/AI893/AI895 Dynamic AI801/AI810/AI815/AI830/AI835/AI845/AI890/AI893/AI895 Dynamic values Signal Data Description type type Connection 1 Input Integer Analog value channel 1 Connection 2 Input Integer Analog value channel 2 Connection 3 Input Integer Analog value channel 3 Connection 4 Input Integer Analog value channel 4...

  • Page 152: Ai820/Ai825 Dynamic Values

    AI820/AI825 Dynamic values Appendix B Dynamic Data AI820/AI825 Dynamic values Signal Data Description type type Connection 1 Input Integer Analog value channel 1 Connection 2 Input Integer Analog value channel 2 Connection 3 Input Integer Analog value channel 3 Connection 4 Input Integer Analog value channel 4...

  • Page 153: Ai843 Dynamic Values

    Appendix B Dynamic Data AI843 Dynamic values Signal Data Description type type Connection 7 Input Integer Analog value channel 7 Connection 8 Input Integer Analog value channel 8 Connection 9 Input Byte Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1...

  • Page 154: Ao801/Ao810/Ao815/Ao845/Ao890/Ao895

    AO801/AO810/AO815/AO845/AO890/AO895 Dynamic values Appendix B Dynamic Data Signal Data Description type type Connection Input Byte Not used Bit 0 CJ ch Connection Input Integer Application controlled CJT Abbreviation Name Values Channel status # 0 = channel OK 1 = channel error CJ ch Channel status for CJT channel 0 = channel OK...

  • Page 155: Ao820 Dynamic Values

    Appendix B Dynamic Data AO820 Dynamic values Signal Data Description type type Connection 8 Output Integer Analog value channel 8 Connection 9 Input Byte Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 Abbreviation Name Values...

  • Page 156: Di801/Di810/Di811/Di814/Di828/Di840 Dynamic Values

    DI801/DI810/DI811/DI814/DI828/DI840 Dynamic values Appendix B Dynamic Data DI801/DI810/DI811/DI814/DI828/DI840 Dynamic values Signal type Data type Description Connection 1 Input Bool Digital value channel 1 Connection 2 Input Bool Digital value channel 2 Connection 3 Input Bool Digital value channel 3 Connection 4 Input Bool Digital value channel 4...

  • Page 157: Di818 Dynamic Values

    Appendix B Dynamic Data DI818 Dynamic values DI818 Dynamic values Signal Data Description type type Connection 1 Input Bool Digital value channel 1 Connection 2 Input Bool Digital value channel 2 Connection 3 Input Bool Digital value channel 3 Connection 4 Input Bool Digital value channel 4...
  • Page 158 DI818 Dynamic values Appendix B Dynamic Data Signal Data Description type type Connection 23 Input Bool Digital value channel 23 Connection 24 Input Bool Digital value channel 24 Connection 25 Input Bool Digital value channel 25 Connection 26 Input Bool Digital value channel 26 Connection 27 Input...

  • Page 159: Di802/Di803/Di820/Di821/Di890 Dynamic Values

    Appendix B Dynamic Data DI802/DI803/DI820/DI821/DI890 Dynamic values DI802/DI803/DI820/DI821/DI890 Dynamic values Signal Data Description type type Connection 1 Input Bool Digital value channel 1 Connection 2 Input Bool Digital value channel 2 Connection 3 Input Bool Digital value channel 3 Connection 4 Input Bool Digital value channel 4...

  • Page 160: Di825 Dynamic Values

    DI825 Dynamic Values Appendix B Dynamic Data DI825 Dynamic Values Signal Data Description type type Connection 1 Input Bool Digital value channel 1 Connection 2 Input Bool Digital value channel 2 Connection 3 Input Bool Digital value channel 3 Connection 4 Input Bool Digital value channel 4...

  • Page 161: Di830/Di831 Dynamic Values

    Appendix B Dynamic Data DI830/DI831 Dynamic Values DI830/DI831 Dynamic Values Signal Data Description type type Connection 1 Input Bool Digital value channel 1 Connection 2 Input Bool Digital value channel 2 Connection 3 Input Bool Digital value channel 3 Connection 4 Input Bool Digital value channel 4...

  • Page 162: Di885 Dynamic Values

    DI885 Dynamic Values Appendix B Dynamic Data DI885 Dynamic Values Signal Data Description type type Connection 1 Input Bool Digital value channel 1 Connection 2 Input Bool Digital value channel 2 Connection 3 Input Bool Digital value channel 3 Connection 4 Input Bool Digital value channel 4...

  • Page 163: Do801/Do810/Do814/Do828/Do840 Dynamic Values

    Appendix B Dynamic Data DO801/DO810/DO814/DO828/DO840 Dynamic values DO801/DO810/DO814/DO828/DO840 Dynamic values Signal type Data type Description Connection 1 Output Bool Digital value channel 1 Connection 2 Output Bool Digital value channel 2 Connection 3 Output Bool Digital value channel 3 Connection 4 Output Bool Digital value channel 4...

  • Page 164: Do818 Dynamic Values

    DO818 Dynamic values Appendix B Dynamic Data DO818 Dynamic values Signal Data Description type type Connection 1 Output Bool Digital value channel 1 Connection 2 Output Bool Digital value channel 2 Connection 3 Output Bool Digital value channel 3 Connection 4 Output Bool Digital value channel 4 Connection 5 Output...

  • Page 165: Do802/Do815/Do820/Do821 Dynamic Values

    Appendix B Dynamic Data DO802/DO815/DO820/DO821 Dynamic values Signal Data Description type type Connection 22 Output Bool Digital value channel 22 Connection 23 Output Bool Digital value channel 23 Connection 24 Output Bool Digital value channel 24 Connection 25 Output Bool Digital value channel 25 Connection 26 Output Bool...

  • Page 166: Do890 Dynamic Values

    DO890 Dynamic values Appendix B Dynamic Data Signal Data Description type type Connection 3 Input Bool Digital value channel 3 Connection 4 Input Bool Digital value channel 4 Connection 5 Input Bool Digital value channel 5 Connection 6 Input Bool Digital value channel 6 Connection 7 Input...

  • Page 167: Dp820 Dynamic Values

    Appendix B Dynamic Data DP820 Dynamic values Abbreviation Name Values Channel status # Bit0=ch 1 …. Bit3=ch 4 0 = channel OK 1 = channel error DP820 Dynamic values Signal Data Description type type Connection 1 Input Integer Pulse counter value 1 Connection 2 Input Byte...
  • Page 168 DP820 Dynamic values Appendix B Dynamic Data Signal Data Description type type Connection Output Byte Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 r_lip2 r_of2 r_sy2 r_co2 coen2 r_lis2 LED2 Connection Output Byte Bit 7 Bit 3..6...
  • Page 169 Appendix B Dynamic Data DP820 Dynamic values Abbreviation Name Values r_co# Reset coincidence Activate DO LED# Activate used LED pcsy# Sync. (i.e. reset) of pulse counter Sync condition# Synchronization condition 0 = Synchronization inhibit 1 = Sync. if pcsy=1 2 = Sync. if count.dir=up and input ST=active...
  • Page 170 DP820 Dynamic values Appendix B Dynamic Data Abbreviation Name Values pxlc# Pulse counter value, freeze 0 = Latch inhibit on DI+. "Freeze" condition PSXL-value on pos. edge of DI signal. 1 = Latch inhibit on DI-. "Freeze" PSXL-value on neg. edge of DI signal....

  • Page 171: Dp840 Dynamic Values

    Appendix B Dynamic Data DP840 Dynamic values DP840 Dynamic values Signal Data type Description type Connection 1 Input UINT16 / Real Pulse counter value / Frequency value ch 1 Connection 2 Input UINT16 / Real Pulse counter value / Frequency value ch 2 Connection 3 Input UINT16 / Real...
  • Page 172 DP840 Dynamic values Appendix B Dynamic Data 3BSE027630-600 B...

  • Page 173: Updates In Revision Index B

    Revision History The following table lists the revision history of this User Manual. The revision index of this User Manual is not related to the 800xA 6.0 System Revision. Revision Description Date Index Published for 800xA System Version 6.0. December 2014 Published for 800xA System Version 6.0.3 September 2016 Updates in Revision Index B...
  • Page 174 Updates in Revision Index B 3BSE027630-600 B...
  • Page 176 Contact us www.abb.com/800xA Copyright© 2016 ABB. www.abb.com/controlsystems All rights reserved. Power and productivity for a better world...

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