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Appendix B  Dynamic Data

DP820 Dynamic values

3BSE027630-600 B

169

 

r_co#

Reset coincidence

DO#

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

3 = Sync. if count.dir=down and 
      input ST=active

4 = Sync. if count.dir=up and input 
      DI=pos. edge

5 = Sync. if count.dir=down and 
      input DI=pos. edge

6 = Sync. if count.dir=up and input 
      DI=neg. edge

7 = Sync. if count.dir=down and 
      input DI=neg. edge

8 = Sync. if count.dir=up and input 
      ST=active and DI=pos. edge

9 = Sync. if count.dir=down and 
      input ST=active and DI=pos. 
      edge

10 =Sync. if count.dir=up and input 
       ST=active and DI=neg. edge

11 = Sync. if count.dir=down and 
       input ST=active and DI=neg. 
       edge

12 =Sync. if coincidence on "own" 
       channel

13 =Sync. if coincidence on "other" 
       channel

14 and 15 = Not used

Abbreviation

Name

Values

Summary of Contents for S800 I/O

Page 1: ...Power and productivity for a better world S800 I O DTM 6 0 System Version 6 0 ...

Page 2: ......

Page 3: ...S800 I O DTM 6 0 ...

Page 4: ...installa tion of antivirus programs and so on to protect the system its products and networks against security breaches unauthorized access interference intrusion leakage and or theft of data or information ABB verifies the function of released products and updates However system product owners are ulti mately responsible to ensure that any system update including but not limited to code changes c...

Page 5: ...eleased 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 Backup 23 Initial Installation 23 Section 3 Run time Operation Introduction 29 Data Storage 29 ...

Page 6: ...tions 36 About DTM 39 Identification 40 Diagnosis 41 Observe 44 CI801 48 CI840 52 AI801 AI810 AI820 AI825 60 AI815 AI845 62 AI830 69 AI835 AI835A 72 AI843 75 AI880 79 AI890 80 AI893 82 AI895 86 AO801 AO810 AO820 99 AO815 AO845 101 AO890 106 AO895 108 DI801 DI802 DI803 DI810 DI811 DI814 DI818 DI820 DI821 DI828 DI890 115 DI825 118 DI830 DI831 122 DI840 125 DI885 128 ...

Page 7: ...I830 AI835 AI845 AI890 AI893 AI895 Dynamic values 151 AI820 AI825 Dynamic values 152 AI835A Dynamic Values 152 AI843 Dynamic values 153 AO801 AO810 AO815 AO845 AO890 AO895 Dynamic values 154 AO820 Dynamic values 155 DI801 DI810 DI811 DI814 DI828 DI840 Dynamic values 156 DI818 Dynamic values 157 DI802 DI803 DI820 DI821 DI890 Dynamic values 159 DI825 Dynamic Values 160 DI830 DI831 Dynamic Values 161...

Page 8: ...Table of Contents 8 3BSE027630 600 B DP840 Dynamic values 171 Revision History Updates in Revision Index B 173 ...

Page 9: ...using the following two separators Feature Pack Functionality______________________________________________________________________ Feature Pack Content ___________________________________________________________________________________________ Any security measures described in this User Manual for example for user access password security network security firewalls virus protection etc represent...

Page 10: ... equipment could under certain operational conditions result in degraded process performance leading to personal injury or death Therefore fully comply with all Warning and Caution notices Terminology A complete and comprehensive list of terms is included in System 800xA System Guide Functional Description 3BSE038018 The listing includes terms and definitions that apply to the 800xA System where t...

Page 11: ...irectly and the others in 1 to 7 I O clusters Frame Application FA Frame application run time environment in accordance with the FDT specification for operating DTMs Field Device Tool FDT Interfaces for integrating device specific components into a frame application Graphical User Interface GUI Graphical user interface Highway Addressable Remote Transducer HART Digital communication protocol devel...

Page 12: ...in the following ways 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 A product bulletin is published each time Syst...

Page 13: ...rer together with the intelligent field device or I O component The DTM is familiar with the way the field device works 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 CI801 Remote PROFIBUS DPV1 Communication In...

Page 14: ...Input 1 8 channels Resistance Temperature Detector RTD AI835 Analog Input 1 8 channels Thermocouples TC AI835A Analog Input 1 8 channels Thermocouples TC with remote Cold junction compensation AI843 Analog Input 1 8 channels Thermocouples TC AI845 Analog Input 1 8 channels 0 20 mA 4 20 mA 0 5V 1 5 V HART Interface Extended Diagnosis Redundant Applications AI880 High Integrity Analog Input 1 8 chan...

Page 15: ... 10 V individually isolated AO845 Analog Output 1 8 channels 4 20 mA HART Interface Extended Diagnosis Redundant Applications AO890 Analog Output 1 8 channels 0 20 mA 4 20 mA I S Interface AO895 Analog Output 1 8 channels 4 20 mA I S and HART Interface DI801 Digital Input 24 V d c 1 16 channels 1 DI802 Digital Input 120 V a c 110 V d c 8 1 channels DI803 Digital Input 230 V a c 220 V d c 8 1 chann...

Page 16: ... 48V d c 1 16 channels current sinking SOE Sequence of Events DI840 Digital Input 24 V d c 1 16 channels 1 Extended Diagnosis Redundant Applications DI885 Digital Input 24V 48V d c 1 8 channels current sinking SOE Sequence of Events DI890 Digital Input I S Interface 8 1 channels Galvanic isolation between channels DO801 Digital Output 24 V d c 0 5 A short circuit proof 1 16 channels 1 DO802 Digita...

Page 17: ...l Output 24 V d c 32 channels DO820 Digital Output Relay 8 1 channels 24 230 V a c 3 A cos 0 4 d c 42W DO821 Digital Output Relay 8 1 normally closed channels 24 230 V a c d c 3 A cos 0 5 d c 42 W DO828 Digital Output 230 V a c 16 channels DO840 Digital Output 24 V d c 0 5 A 2 8 channels Extended Diagnosis Redundant Applications DO890 Digital Output 12 V 40 mA I S interface 1 4 channels Galvanic i...

Page 18: ...roduct Scope The S800 I O DTM version 6 0 is suitable for executing various tasks also referred to as applications in the following description The applications have a graphical user interface 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 HAR...

Page 19: ... to FDT 1 2 For details about the supported operating systems and FDTs see System Prerequisites on page 21 Intended User This manual is designed specifically for application engineers commissioning engineers and maintenance personnel It provides for easy installation and operation of the S800 I O DTM Those using this document should be familiar with the basic method of operation of computers and s...

Page 20: ...Intended User Section 1 Introduction 20 3BSE027630 600 B ...

Page 21: ...nts Version 14 0 0 x ABB FDT Base Container Version 14 0 0 x For remote I O a PROFIBUS master DTM is required for example AC800F DTM To use the HART functionality together with the DTMs AI815 AI845 AI880 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...

Page 22: ...Installation Directory Section 2 Installation 22 3BSE027630 600 B Installation Directory The S800 I O DTM files are stored in the following path and directories Figure 1 Installed DTMs ...

Page 23: ...sts of a single program to install all DTMs The installation process is the same for all components and is therefore described only once Installation Procedure This procedure describes the manual installation and needs to be referred only if the automatic installation of S800 IO DTM is not performed along with the Control System installation To install the S800 I O DTM component through command pr...

Page 24: ...ation 24 3BSE027630 600 B 3 Enter msiexec space i space MSIname and press enter The system prepares for installation Figure 2 Windows Installer 4 Follow the instructions on the screen and accordingly click Next Figure 3 InstallShield Wizard ...

Page 25: ...Section 2 Installation Initial Installation 3BSE027630 600 B 25 5 Enter the User Name and the Company Name Figure 4 Customer Information Screen ...

Page 26: ...Initial Installation Section 2 Installation 26 3BSE027630 600 B 6 Click Install to start the installation process Figure 5 Installation start up ...

Page 27: ...Section 2 Installation Initial Installation 3BSE027630 600 B 27 7 Click Finish to complete the installation process Figure 6 Installation complete This completes the installation of S800 DTM ...

Page 28: ...Initial Installation Section 2 Installation 28 3BSE027630 600 B ...

Page 29: ...tion for handling of the frame application Data Storage The data parameters is only available temporarily in the DTM for processing When a user interface is closed or data is buffered the DTM saves the data permanently In off line mode data is saved in Frame Application In on line mode data is saved first to the I O module and then to the database However the DTM will only update the data in the d...

Page 30: ...ble the header should contain the process point the device name and the active application The DTM adds the application specific area in the middle and two footer lines The footer contains the standard buttons and status bar Frame Application The DTM informs the frame application about the possible applications The frame application usually provides a drop down menu for selecting an application or...

Page 31: ...ion System Structure 3BSE027630 600 B 31 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 ...

Page 32: ...lection R Data output only read R W Data input write and output read If in addition to the roles above you have administrators or OEM service rights the role of an observer will grant you unrestricted access to all applications The user roles are FDT specific They can have different names in different Frame Applications Table 2 User Roles Applications User Roles Observer Operator Maintenance Plann...

Page 33: ... 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 Press the Apply button to apply the number or text input and menu selections made The DTM will save all modifications made since the last time data was applied The interface remains open Press the Help butt...

Page 34: ... brightness The DTM highlights the fields containing modified data Pressing the Apply Ok or Cancel buttons and performing a save prompts the DTM to remove the highlighting When data is entered into an input box the DTM checks the data format value ranges etc The data plausibility check can only be carried out once all data has been entered The DTM carries out the plausibility check once the Apply ...

Page 35: ...nformation about the on going transactions within the application It will tell when the communication is progressing and when it is finished If any error occurs then a description will be displayed here The middle field provides information about the user name and the user role For more information about user roles see User Roles on page 32 The right hand field is currently not used for informatio...

Page 36: ...gnosis for the unit Observe Displays the cyclic data Configuration Used to set user parameters Parameterization Used to set HART parameters Service Used for sending special functions commands Table 3 Applications available for the S800 I O DTM Module About DTM Identifi cation Diagnosis Observe Configurati on Parameter ization Service CI801 X X X X CI840 X X X X X AI801 X X X X X AI810 X X X X X AI...

Page 37: ...X 1 X AO801 X X X X X AO810 X X X X X AO815 X X X X X AO820 X X X X X AO845 X X X X X X AO890 X X X X X AO895 X X X X X X 1 X DI801 X X X X X DI802 X X X X X DI803 X X X X X DI810 X X X X X DI811 X X X X X DI814 X X X X X DI818 X X X X X Table 3 Applications available for the S800 I O DTM Continued Module About DTM Identifi cation Diagnosis Observe Configurati on Parameter ization Service ...

Page 38: ... DI885 2 X X X X X DI890 X X X X X DO801 X X X X X DO802 X X X X X DO810 X X X X X DO814 X X X X X DO815 X X X X X DO818 X X X X X DO820 X X X X X DO821 X X X X X DO828 X X X X X DO840 X X X X X X DO890 X X X X X DP820 X X X X X Table 3 Applications available for the S800 I O DTM Continued Module About DTM Identifi cation Diagnosis Observe Configurati on Parameter ization Service ...

Page 39: ...sion information DP840 X X X X X X ABB Standard Drive X X X 1 HART Parameterization only 2 The module supports SOE Sequence Of Events but this feature can only be used in a frame application that also supports SOE Figure 8 About DTM Table 3 Applications available for the S800 I O DTM Continued Module About DTM Identifi cation Diagnosis Observe Configurati on Parameter ization Service ...

Page 40: ...displaying information about the hardware 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 Module area Module type Shows the S800 I O module type Vendor name Shows the vendor name Figure 9 Identification this example shows DI810 ...

Page 41: ...ication 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 Hardware revision This revision will be read from the module and displayed in the text field in online mode Diagnosis The diagnosis control shows the status of the module It displays informa...

Page 42: ...600 B 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 ...

Page 43: ...un time Operation Diagnosis 3BSE027630 600 B 43 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: ...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 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 To stop the cyclic reading press the Cancel button ...

Page 45: ...n Observe 3BSE027630 600 B 45 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 ...

Page 46: ...ls 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 If AC 800M is used as the controller the underflow overflow information can also be read under the Unit Status tab of the module editor in the Control Builder Observe Section 3 Run time Operation 46 3BSE027630 600 B ...

Page 47: ...Section 3 Run time Operation Observe 3BSE027630 600 B 47 Observe Digital modules Displays the dynamic data and the channel status Figure 14 Observe Digital modules this example shows DO810 ...

Page 48: ...on page 39 Identification See Identification on page 40 Dynamic Data See CI801 Dynamic values on page 149 Diagnosis Diagnosis control shows the status of the CI801 and node specific errors and warnings Module specific diagnosis are displayed in the Diagnosis control for each I O module ...

Page 49: ...ws 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 Station warning At least one error is detected within the entire CI801 station including I O modules etc Redundant power A failure Power fail on the optical modem ...

Page 50: ...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 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 menu item...

Page 51: ...de 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 HCIR Enable Hot Configuration In Run active HCIR Factor Hot Configuration In Run Factor HCIR Watchdog Hot configuration In Run Worst Case Bus Cycle Base Figure 17 CI801 Configura...

Page 52: ...on page 39 Identification See Identification on page 40 Dynamic Data See CI840 Dynamic values on page 150 Diagnosis Diagnosis control shows the status of the CI840 and node specific errors and warnings Module specific diagnosis are displayed in the Diagnosis control for each I O module ...

Page 53: ...s left blank Device diagnostics area The device specific errors that are detected for the CI840 are Station warning At least one error is detected within the entire CI840 station including I O modules etc Redundancy warning Decreased availability due to error on redundant part in the entire CI840 station In system with only single CI840 this warning could be raised if the system is not correctly c...

Page 54: ...s cable to CI840 in position A is unconnected or broken Redundant cable B failed The Profibus cable to CI840 in position B is unconnected or broken Station address warning There is a mismatch between the actual address on the CI840 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 s...

Page 55: ...les If this checkbox is checked the SOE drop down menu in the Channel Parameters tab of the supported I O modules is activated The user can then select the SOE status for each channel If this checkbox is unchecked the SOE is disabled for the supported modules and the SOE drop down menu in the Channel Parameters tab of the supported modules are not activated SOE is supported in DI825 DI830 DI831 an...

Page 56: ... Redundancy Mark the check box if the CI840 shall be configured as a redundant module Extended HART mode 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 Memory Maps for more details Output hold time After a fail over a timer is started in the new primary CI840 Th...

Page 57: ...iceEntries xml is 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 It is assumed that the EnableSOE attribute is set to 1 globally Table 4 Configuration control of SOE supported modules used with CI840 for AC870P Status of Seque...

Page 58: ...fter a checked status SOE disable No Table 4 Configuration control of SOE supported modules used with CI840 for AC870P Status of Sequence of Events checkbox in CI840 Configuration Control Displayed status in the SOE drop down menu in DI825 DI830 DI835 DI885 Configuration Control Whether the displayed SOE status in DI8xx can be changed ...

Page 59: ...g acyclic data 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 By clicking the Update button you update the status for which of the units that are the primary Figure 21 CI840 Service ...

Page 60: ...895 Dynamic values on page 151 and AI820 AI825 Dynamic values on page 152 Diagnosis See Diagnosis on page 41 Observe See 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 menu item It shows the user parameters for the module i...

Page 61: ...tab The control looks the same for all modules but for the number of channels 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 Figure 22 AI801 AI810 AI820 AI825 Configuration ...

Page 62: ... See AI801 AI810 AI815 AI830 AI835 AI845 AI890 AI893 AI895 Dynamic values on page 151 Diagnosis See Diagnosis on page 41 Observe See 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 menu item ...

Page 63: ...Section 3 Run time Operation AI815 AI845 3BSE027630 600 B 63 Module parameters tab Figure 23 AI815 Configuration Module Parameters Tab ...

Page 64: ...pervision check box if supervision of the power supply to the transducer shall be enabled If an error occurs the status of the unit is updated and the channel status bits will be set In the Shunt mode drop down menu you can choose between Internal shunt or External shunt External shunt shall always be set together with MTU TU844 or TU845 and at voltage signal together with other MTUs Figure 24 AI8...

Page 65: ... user parameters of the module It shows Filter time Linearization function and Signal range 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 Figure 25 AI815 and AI845 Configuration Channel Parameters Tab ...

Page 66: ...ce 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 Module status area ...

Page 67: ...dule 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 The HART Primary unit is set in the Service Control in Engineering mode ...

Page 68: ... 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 If the HART Primary module fails HART communication does not switch over automatically to the other unit The user must manually do the switchover ...

Page 69: ...s on page 151 Diagnosis See Diagnosis on page 41 Observe See 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 the channels i e F...

Page 70: ...0 Section 3 Run time Operation 70 3BSE027630 600 B Module parameters tab Figure 28 AI830 Configuration Module Parameters Tab Grid frequency area Make the required choice in the Grid frequency drop down menu ...

Page 71: ...7630 600 B 71 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 ...

Page 72: ...M 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 the channels i e Signal range and Filter time The difference between the AI835 and AI835A modules is that AI835A has some supplementary features AI835A supports the same thermo...

Page 73: ...3 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 ...

Page 74: ... 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: ...ge 40 Dynamic Data See AI843 Dynamic values on page 153 Diagnosis See Diagnosis on page 41 Observe See 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 menu item ...

Page 76: ...ndant 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 Deactivate CJ channel area Mark the Deactivate CJ channel check box if the Cold Junction channel shall not be used and the supervision disabled Fix Junction Temperature area Type the required value in the Fix Junction Temperature ...

Page 77: ...parameters of the module It shows Filter time Signal range and Cold junction temperature 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 Figure 33 AI843 Configuration Channel Parameters Tab ...

Page 78: ...0 B Service The service control is used for reading acyclic data and is only visible if the module is configured via a CI840 Redundancy Tab The Redundancy Tab is only shown in Commissioning mode Module status area Figure 34 AI843 Service Redundancy Tab ...

Page 79: ...nly Device specific HART commands are not predefined and can be implemented as both read or write commands If device specific commands are to be used the parameter has to be set to Full mode Note If the HART routing functionality of AI880A is not restricted by the modules configuration settings Read only or Disabled the operation procedures must include restrictions for use of this function If a w...

Page 80: ...I801 AI810 AI815 AI830 AI835 AI845 AI890 AI893 AI895 Dynamic values on page 151 Diagnosis See Diagnosis on page 41 Observe See 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 menu item ...

Page 81: ... the user parameters of the module It shows Filter time Linearization and Signal range 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 Figure 35 AI890 Configuration Channel Parameters Tab ...

Page 82: ...I801 AI810 AI815 AI830 AI835 AI845 AI890 AI893 AI895 Dynamic values on page 151 Diagnosis See Diagnosis on page 41 Observe See 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 menu item ...

Page 83: ...E027630 600 B 83 AI893 in RTD mode Channel parameters tab 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 Figure 36 AI893 Configuration in RTD mode ...

Page 84: ...peration 84 3BSE027630 600 B AI893 in TC mode Module parameters tab Fix Junction Temperature area Type the required value in the Fix Junction Temperature text field Figure 37 AI893 Configuration in TC mode Module Parameters Tab ...

Page 85: ...ers of the module It shows Filter time Signal range and Cold junction temperature 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 Figure 38 AI893 Configuration in TC mode Channel Parameters Tab ...

Page 86: ...39 Identification See Identification on page 40 Dynamic Data See 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 See Diagnosis on page 41 ...

Page 87: ...Operations in progress Shows an indication if one of the following operations is currently performed Reset Reset of the HART functionality Rebuild Collecting information about HART instruments HART command 0 performed Scan_enabled Normal operation if scanning is enabled Self test A check sum verification on HART non volatile parameters is performed Figure 39 AI895 Diagnosis HART device tab ...

Page 88: ...hat no instrument was found and have not been present on this channel before General status area The status can be of three different types either it is a communication error command response or field device status Note that if it is a communication error the other statuses will then be empty These status bytes are defined by the HART protocol specification See appropriate HART documentation for m...

Page 89: ...un error Framing error Check sum error RX buffer overflow Undefined Command response Case Command response can show the following No command specific error Invalid selection Passed parameter too large Passed parameter too small Too few data bytes received Device specific command error In write protect mode Access restricted Device is busy Command not implemented Field device status Case Field devi...

Page 90: ...t saturated Non primary variable out of limits Primary variable out of limits Observe See 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 menu item ...

Page 91: ...nge and Linearization 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 Parameterization The parameterization control is used for sending parameters to the module This is for the HART part of the module Figure 40 AI895 Configuration Channel Parameters Tab ...

Page 92: ...AI895 Section 3 Run time Operation 92 3BSE027630 600 B HART parameters tab Figure 41 AI895 Parameterization ...

Page 93: ... 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 Number of retries other error 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 other error Service The service control is used for se...

Page 94: ...hows 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 Each HART instrument implements HART universal commands HART common practice commands Figure 42 AI895 Service ...

Page 95: ...evice status and Read gateway parameters are executed This flag is set every time a HART change is made for the configuration parameters Perform device self test This self test is related to the HART part of the module A check sum verification of the HART non volatile parameters is performed Perform master reset This function will reset the HART functionality of the module The HART activity and al...

Page 96: ...mber of instruments in list Number of instruments scanned Delayed response primary master Scan enabled Number of retries for busy response Number of retries for error response 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 instruments of the instrument lists are scanned with H...

Page 97: ...e by using the service function Perform master reset The maximum of instruments are one per channel which means eight total on the module Number of instruments scanned If the scan option is enabled the module will try to scan all elements that are in the instrument list See Enable scan status for more information about the scanning Delayed response primary master Shows if there are any responses i...

Page 98: ...t number of retries is 2 Scan enabled The scanning function is implemented to monitor the presence of field instruments When the scanning is enabled or if diagnosis is read all instruments of the instruments list are scanned a different channel every 5 s If an instrument does not reply the DISAPPEARED and SEARCHING bits related to that instrument are set Then the module begins to scan that instrum...

Page 99: ...ee AO801 AO810 AO815 AO845 AO890 AO895 Dynamic values on page 154 and AO820 Dynamic values on page 155 Diagnosis See Diagnosis on page 41 Observe See 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 menu item It shows the use...

Page 100: ...he number of channels 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 If the alternative Set OSP value is chosen you can type your own value 0 100 in the OSP value text field Figure 43 AO801 AO810 AO820 Configuration Channel Parameters Tab ...

Page 101: ...namic Data See AO801 AO810 AO815 AO845 AO890 AO895 Dynamic values on page 154 Diagnosis See Diagnosis on page 41 Observe See 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 menu item ...

Page 102: ...or 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 It shows Signal range OSP control OSP value and Output filter ...

Page 103: ...sed Make the required choices in the Signal range and the OSP control drop down menus If the alternative Set OSP value is chosen you can type your own value 0 100 in the OSP value text field Mark the Output filter check box if it shall be used Should be set when using HART Figure 45 AO815 and AO845 Configuration Channel Parameters Tab ...

Page 104: ...ce 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 Module status area Figure 46 AO845 Service Redundancy Tab ...

Page 105: ...not have to be identical with the Primary unit described in this control The HART Primary unit is set in the Service Control in Engineering mode 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 Se...

Page 106: ... DTM on page 39 Identification See Identification on page 40 Dynamic Data See AO801 AO810 AO815 AO845 AO890 AO895 Dynamic values on page 154 Diagnosis See Diagnosis on page 41 Observe See 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 Co...

Page 107: ... 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 If the alternative Set OSP value is chosen you can type your own value 0 100 in the OSP value text field Figure 48 AO890 Configuration Channel Parameters Tab ...

Page 108: ...M on page 39 Identification See Identification on page 40 Dynamic Data See 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 See Diagnosis on page 41 ...

Page 109: ...s about the HART part of the module See HART device tab on page 87 Observe See 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 menu item Figure 49 AO895 Diagnosis ...

Page 110: ...wn in Figure 41 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 Number of retries other ...

Page 111: ...acturer s device type code and three bytes called identification number Service functions area Reset configuration changed identification This function resets this change identification in the module This configuration changed flag is part of the general status and this status will be read when the function Read additional device status and Read gateway parameters are executed This flag is set eve...

Page 112: ...ns in progress Hardware faults Instruments scan faults and status Instruments communication error bits Instruments status bits See 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 ...

Page 113: ...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 command 0 Disable scan status This function turns off the scanning Gateway parameters Number of instruments in list Shows the number of instruments that the module has found on its channels ...

Page 114: ... 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 Incoming communication error byte count error received data byte number differs from byte count field command number error received command number differs...

Page 115: ... 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 command 0 With a new diagnosis scan the DISAPPEARED and APPEARED bits are cleared DI801 DI802 DI803 DI810 DI811 DI814 DI818 DI820 DI821 DI828 DI890 About DTM See About DTM on page 39 Identification See I...

Page 116: ...essional 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 The control looks the same for all modules but for the number of channels Power supervision area Make the required choice in the Power supervision drop down menu Figure 50 DI801 DI802 DI803 DI810 D...

Page 117: ...e 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 Channel area Mark the Deactivate check box if the channel shall not be used Figure 51 DI801 DI802 DI03 DI810 DI811 DI814 DI818 DI820 DI821 DI828 Configuration Channel Parameters Tab ...

Page 118: ...tivate 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 See About DTM on page 39 Identification See Identification on page 40 ...

Page 119: ...s on page 160 Diagnosis See Diagnosis on page 41 Observe See 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 menu item ...

Page 120: ...figuration 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: ...e 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 on page 57 Make the required choice in the Filter time drop down menu Make the required choice in the Normal position drop down menu ...

Page 122: ...ut DTM See About DTM on page 39 Identification See Identification on page 40 Dynamic Data See DI830 DI831 Dynamic Values on page 161 Diagnosis See Diagnosis on page 41 Observe See 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 Configurat...

Page 123: ...31 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: ...ctivate 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 on page 57 Make the required choice in the Filter time drop down menu Make the required choice in the Normal position drop down menu ...

Page 125: ...Data See DI801 DI810 DI811 DI814 DI828 DI840 Dynamic values on page 156 Diagnosis See Diagnosis on page 41 Observe See 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 menu item ...

Page 126: ...eters 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 Make the required choice the Channel supervision drop down menu ...

Page 127: ... Deactivate check box shows if the channel shall not be used Make the required choice in the Filter time drop down menu 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 34 Figure 58 DI840 Configuration Channel Parameters Tab ...

Page 128: ...OE feature only with AC870P Composer Contact ABB Local Supplier for the Composer version About DTM See About DTM on page 39 Identification See Identification on page 40 Dynamic Data See DI885 Dynamic Values on page 162 Diagnosis See Diagnosis on page 41 Observe See Observe on page 44 Configuration This control is not available if the unit is used towards AC 800M The configuration data is then set ...

Page 129: ...pervision 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 Sensor power supply area Make the required choice in the Sensor power supply drop down menu ...

Page 130: ...e 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 on page 57 Make the required choice in the Filter time drop down menu Make the required choice in the Normal position drop down menu ...

Page 131: ... on page 164 and DO802 DO815 DO820 DO821 Dynamic values on page 165 Diagnosis See Diagnosis on page 41 Observe See 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 ...

Page 132: ...rs tab The control looks the same for all modules but for the number of channels Power supervision area Make the required choice in the Power supervision drop down menu Figure 61 DO802 DO810 DO814 DO815 DO818 DO820 DO821 DO828 Configuration Module Parameters Tab The Power supervision is not available for DO801 ...

Page 133: ...but for the number of channels 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 DO840 About DTM See About DTM on page 39 Figure 62 DO801 DO802 DO810 DO814 DO815 DO818 DO820 DO821 DO828 Configuration Channel Parameters Tab ...

Page 134: ...10 DO814 DO828 DO840 Dynamic values on page 163 Diagnosis See Diagnosis on page 41 Observe See 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 menu item ...

Page 135: ...dundancy 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 If an error occurs the status of the unit is updated and the channel status bits will be set ...

Page 136: ...ke 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 each with 8 channels The pulse test checks if the process connection is OK by inverting all output for the group for 1 ms in intervals of 100 ms Internal channel error area Make the required choice Deactivated enabled or disabled in the Deactiva...

Page 137: ...e 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 DO890 About DTM See About DTM on page 39 Identification See Identification on page 40 Dynamic Data See DO890 Dynamic values on page 166 Diagnosis See Diagnosis on page 41 Observe See Observe on page 44 Configuration This control is not available if the unit is use...

Page 138: ... 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: ...B 139 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: ...40 Dynamic Data See DP820 Dynamic values on page 167 Diagnosis See 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 To stop the cyclic reading press the Cancel button ...

Page 141: ... 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 Figure 67 DP820 Observe ...

Page 142: ...DP820 Section 3 Run time Operation 142 3BSE027630 600 B Channel parameters tab Figure 68 DP820 Configuration Channel Parameters Tabs Make the required choices in the channel parameter drop down menus ...

Page 143: ...171 Diagnosis See Diagnosis on page 41 Observe See 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 144: ...cy 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 Signal range area Make the required choice in the Signal range drop down menu Shunt mode area Make the required choice in the Shunt mode drop down menu ...

Page 145: ...the Filter time Pulse count Freq measure and Interval Timer drop down menus 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 34 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...

Page 146: ...ction 3 Run time Operation 146 3BSE027630 600 B ABB Standard Drive About DTM See About DTM on page 39 Identification See Identification on page 40 Dynamic Data See Appendix B Dynamic Data Diagnosis See Diagnosis on page 41 ...

Page 147: ...channels of an AI815 AO815 AI845 AO845 AI880 AI895 or AO895 module If the instrument is connected at run time to an AI895 or AO895 for example when the module is operational then the module will not discover the new HART instrument automatically The AI815 AO815 DTM AI845 AO845 DTM AI880 DTM or AI895 AO895 DTM will only support HART DTMs and no DTMs operating with other protocols It is only possibl...

Page 148: ... functionality in the module and a new scan for HART instruments on every channel will be done Supervision of HART instrument The AI895 or AO895 module has an supervision option see Scan enabled This option can be turned on or off from the DTM Service application with the service functions Enable scan and Disable scan This option only applies for HART instrument that already has been confirmed by ...

Page 149: ... values This appendix is not applicable when using S800I O DTM towards AC800M Signal type Data type Bit 07 Bit 06 Bit 05 Bit 04 Bit 03 Bit 02 Bit 01 Bit 00 Connection 1 Input Byte SW 0 0 0 RPB RPA 0 0 Abbreviation Description SW Station warning Set if any error exists in the FCI station including modules RPB Redundant power B failure opto extension RPA Redundant power A failure opto extension ...

Page 150: ...R RPB RPA FEB FEA Abbreviation Description SW Station warning Set if any error exists in the FCI station including modules RW Redundancy warning FPR If 0 FCI in position A is Primary or only FCI If 1 FCI in position B is Primary or only FCI RPB Redundant power B failure opto extension RPA Redundant power A failure opto extension FEB FCI error on FCI B to the right FEA FCI error on FCI A to the lef...

Page 151: ...nalog value channel 2 Connection 3 Input Integer Analog value channel 3 Connection 4 Input Integer Analog value channel 4 Connection 5 Input Integer Analog value channel 5 Connection 6 Input Integer Analog value channel 6 Connection 7 Input Integer Analog value channel 7 Connection 8 Input Integer Analog value channel 8 Connection 9 Input Byte Bit 7 S8 Bit 6 S7 Bit 5 S6 Bit 4 S5 Bit 3 S4 Bit 2 S3 ...

Page 152: ...on 4 Input Integer Analog value channel 4 Connection 5 Input Byte Not used Bit 3 S4 Bit 2 S3 Bit 1 S2 Bit 0 S1 Abbreviation Name Values S Channel status 0 channel OK 1 channel error Signal type Data type Description 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 ...

Page 153: ...nection 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 Connection 5 Input Integer Analog value channel 5 Connection 6 Input Integer Analog value channel 6 Connection 7 Input Integer Analog value channel 7 Connection 8 Input Integer Analog value channel 8 Con...

Page 154: ... channel error CJ ch Channel status for CJT channel 0 channel OK 1 channel error Signal type Data type Description Connection 1 Output Integer Analog value channel 1 Connection 2 Output Integer Analog value channel 2 Connection 3 Output Integer Analog value channel 3 Connection 4 Output Integer Analog value channel 4 Connection 5 Output Integer Analog value channel 5 Connection 6 Output Integer An...

Page 155: ...s S Channel status 0 channel OK 1 channel error Signal type Data type Description Connection 1 Output Integer Analog value channel 1 Connection 2 Output Integer Analog value channel 2 Connection 3 Output Integer Analog value channel 3 Connection 4 Output Integer Analog value channel 4 Connection 5 Input Byte Not used Bit 3 S4 Bit 2 S3 Bit 1 S2 Bit 0 S1 Abbreviation Name Values S Channel status 0 c...

Page 156: ...gital value channel 6 Connection 7 Input Bool Digital value channel 7 Connection 8 Input Bool Digital value channel 8 Connection 9 Input Bool Digital value channel 9 Connection 10 Input Bool Digital value channel 10 Connection 11 Input Bool Digital value channel 11 Connection 12 Input Bool Digital value channel 12 Connection 13 Input Bool Digital value channel 13 Connection 14 Input Bool Digital v...

Page 157: ...el 8 Connection 9 Input Bool Digital value channel 9 Connection 10 Input Bool Digital value channel 10 Connection 11 Input Bool Digital value channel 11 Connection 12 Input Bool Digital value channel 12 Connection 13 Input Bool Digital value channel 13 Connection 14 Input Bool Digital value channel 14 Connection 15 Input Bool Digital value channel 15 Connection 16 Input Bool Digital value channel ...

Page 158: ...Connection 27 Input Bool Digital value channel 27 Connection 28 Input Bool Digital value channel 28 Connection 29 Input Bool Digital value channel 29 Connection 30 Input Bool Digital value channel 30 Connection 31 Input Bool Digital value channel 31 Connection 32 Input Bool Digital value channel 32 Connection 33 Input Integer Channel status Abbreviation Name Values Channel status Bit0 ch 1 Bit31 c...

Page 159: ...l Digital value channel 2 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 Bool Digital value channel 7 Connection 8 Input Bool Digital value channel 8 Connection 9 Input Byte Channel status Abbreviation Name Values Channel status Bit0 ch...

Page 160: ...2 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 Bool Digital value channel 7 Connection 8 Input Bool Digital value channel 8 Connection 9 Input Byte Channel status Abbreviation Name Values Channel status Bit0 ch 1 Bit7 ch 8 0 channel O...

Page 161: ... Input Bool Digital value channel 7 Connection 8 Input Bool Digital value channel 8 Connection 9 Input Bool Digital value channel 9 Connection 10 Input Bool Digital value channel 10 Connection 11 Input Bool Digital value channel 11 Connection 12 Input Bool Digital value channel 12 Connection 13 Input Bool Digital value channel 13 Connection 14 Input Bool Digital value channel 14 Connection 15 Inpu...

Page 162: ...2 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 Bool Digital value channel 7 Connection 8 Input Bool Digital value channel 8 Connection 9 Input Byte Channel status Abbreviation Name Values Channel status Bit0 ch 1 Bit7 ch 8 0 channel O...

Page 163: ...lue channel 6 Connection 7 Output Bool Digital value channel 7 Connection 8 Output Bool Digital value channel 8 Connection 9 Output Bool Digital value channel 9 Connection 10 Output Bool Digital value channel 10 Connection 11 Output Bool Digital value channel 11 Connection 12 Output Bool Digital value channel 12 Connection 13 Output Bool Digital value channel 13 Connection 14 Output Bool Digital v...

Page 164: ...ol Digital value channel 8 Connection 9 Output Bool Digital value channel 9 Connection 10 Output Bool Digital value channel 10 Connection 11 Output Bool Digital value channel 11 Connection 12 Output Bool Digital value channel 12 Connection 13 Output Bool Digital value channel 13 Connection 14 Output Bool Digital value channel 14 Connection 15 Output Bool Digital value channel 15 Connection 16 Outp...

Page 165: ...7 Output Bool Digital value channel 27 Connection 28 Output Bool Digital value channel 28 Connection 29 Output Bool Digital value channel 29 Connection 30 Output Bool Digital value channel 30 Connection 31 Output Bool Digital value channel 31 Connection 32 Output Bool Digital value channel 32 Connection 33 Input Integer Channel status Abbreviation Name Values Channel status Bit0 ch 1 Bit31 ch 32 0...

Page 166: ...channel 7 Connection 8 Input Bool Digital value channel 8 Connection 9 Output Byte Channel status Abbreviation Name Values Channel status Bit0 ch 1 Bit7 ch 8 0 channel OK 1 channel error 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...

Page 167: ...nection 4 Input Integer Pulse counter value 2 Connection 5 Input Byte Bit 7 li_sp2 Bit 6 tp2 Bit 5 coin2 Bit 4 sync2 Bit 3 li_ps2 Bit 2 owf2 Bit 1 up2 Bit 0 DI2 Connection 6 Input Real Measured frequency value 2 Connection 7 Output Integer Coincidence comparison value1 Connection 8 Output Byte Bit 7 r_lip1 Bit 6 r_of1 Bit 5 r_sy1 Bit 4 r_co1 Bit 3 coen1 Bit 2 DO1 Bit 1 r_lis1 Bit 0 LED1 Connection...

Page 168: ...ch inhibit owf Pulse counter overflow 0 No overflow 1 Overflow up Counting direction 0 Counting direction is down 1 Counting direction is up li_sp Latch inhibit frequency 0 Latch not inhibit 1 Latch inhibit tp Transducer power OK 0 False 1 True coin Coincidence has occurred 0 False 1 True sync Pulse counter has been synchronized 0 False 1 True DI Reflects the input signal 0 or 1 coen Enable coinci...

Page 169: ...c if count dir up and input DI pos edge 5 Sync if count dir down and input DI pos edge 6 Sync if count dir up and input DI neg edge 7 Sync if count dir down and input DI neg edge 8 Sync if count dir up and input ST active and DI pos edge 9 Sync if count dir down and input ST active and DI pos edge 10 Sync if count dir up and input ST active and DI neg edge 11 Sync if count dir down and input ST ac...

Page 170: ...on sw freeze bit frzps x in the Dynamic values 4 Latch inhibit on coincidence on the other channel r_lis Reset frequency value 1 Reset of bit lisp 0 splc Frequency value freeze condition Speed Latch Inhibit Condition 0 Latch inhibit on DI 1 Latch inhibit on DI 2 Latch inhibit on coin on own channel 3 Latch inhibit on sw freeze bit frzsp x in the Dynamic values frzps Freeze pulse counter value chan...

Page 171: ...Real Pulse counter value Frequency value ch 6 Connection 7 Input UINT16 Real Pulse counter value Frequency value ch 7 Connection 8 Input UINT16 Real Pulse counter value Frequency value ch 8 Connection 9 Input Bool Digital value channel 1 Connection 10 Input Bool Digital value channel 2 Connection 11 Input Bool Digital value channel 3 Connection 12 Input Bool Digital value channel 4 Connection 13 I...

Page 172: ...DP840 Dynamic values Appendix B Dynamic Data 172 3BSE027630 600 B ...

Page 173: ...s User Manual is not related to the 800xA 6 0 System Revision Revision Index Description Date A Published for 800xA System Version 6 0 December 2014 B Published for 800xA System Version 6 0 3 September 2016 Updated Section Sub section Description of Update Section 2 Installation Changed Windows 8 1 to Windows client operating system Changed Windows 2012 R2 Server to Windows server operating system...

Page 174: ...Updates in Revision Index B 174 3BSE027630 600 B ...

Page 175: ......

Page 176: ...Power and productivity for a better worldTM Contact us Copyright 2016 ABB All rights reserved 3BSE027630 600 B www abb com 800xA www abb com controlsystems ...

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