User`s Manual
Contents
1. SN oN sw101 sw101 FA010601 ai Figure 1 6 SIMULATE_ENABLE Switch Position A IMPORTANT e Removing and installing cover are necessary for the setting SIMULATE_ENABLE switch Perform removing and installing cover as described in following Section of user s manual Refer to Subsection 5 4 2 of IM01E20D01 01E or refer to Subsection 10 1 2 of IM 01E20C02 01E e To preserve the safety do not touch the electrical circuit and cable except the SIMULATE_ENABLE switch IM 01E20A01 02EN ed uonesiunwwos snqpjel j NOLLVGNNO 4 E lt 2 PROFIBUS PA Communication Type gt 8 2 PROFIBUS PA Communication Type PROFIBUS PA is fully dependent upon digital communication protocol and differs in operation from conventional 4 to 20 mA transmission and the BRAIN communication protocol HMI Class 2 Master FieldMate FP EDIM Class Master PDM EDDL etc I O CARD PLC etc bobs PROFIBUS DP qn DP PA Coupler PROFIBUS DP devices PROFIBUS PA 31 25 kbps PROFIBUS PA devices AXF FA020101 ai Figure 2 1 1 PROFIBUS System Construction 2 1 Connection of Devices The following are required for use with PROFIBUS PA devices e Power supply PROFIBUS PA requires a dedicated power supply I2. 141 PB Sim _ _ _ E _ L _ _ enabled Note1 142 TB VF Sim 7 Z p 7 p 7 z enabled Note1 143 Al Sim Depend on Depend on Depend on enabled Note1 SIMULATE Status SIMULATE Status SIMULATE Status 144 Total1 Sim TOT1 Depend on TOT1 Depend on TOT1 Depend on enabled Note1 SIMULATE SIMULATE SIMULATE Status Status Status TOT2 TOT2 TOT2 TOT3 TOT3 TOT3 145 Total2 Sim TOT1 TOT1 TOT1 enabled Note1 TOT2 Depend on TOT2 Depend on TOT2 Depend on SIMULATE SIMULATE SIMULATE Status Status Status TOT3 TOT3 TOT3 146 Total3 Sim TOT1 TOT1 TOT1 enabled Note1 TOT2 TOT2 TOT2 TOT3 Depend on TOT3 Depend on TOT3 Depend on SIMULATE SIMULATE SIMULATE Status Status Status 147 DI1 Sim DI1 Depend on DI1 Depend on DI1 Depend on enabled Note1 SIMULATE SIMULATE SIMULATE T T T Status Status Status DI2 Dl2 Dl2 148 Dl2 Sim DIt Di4 DI1 enabled Note1 DI2 Depend on DI2 Depend on DI2 Depend on T gt i g g SIMULATE SIMULATE SIMULATE Status Status Status 150 Al FB Man Mode 151 Total1 FB Man Mode 152 Total2 FB Man Mode 153 Total3 FB Man Mode 154 DI1 FB Man Mode 155 DI2 FB Man Mode Note1 Make it the condition that the hardware simulation jumper is ON IM 01E20A01 02EN lt 2 PROFIBUS PA Communicat
3. ed uonesiunwwo snqpjel j NOLLVGNNO 4 E lt 1 FOUNDATION Fieldbus Communication Type gt 2 A caution Do not connect to these terminals which are marked CAUTION Don t connect e Host Used for accessing field devices A dedicated host such as DCS is used for an instrumentation line while dedicated communication tools are used for experimental purposes For operation of the host refer to the instruction manual for each host No other details on the host are given in this manual e Cable Used for connecting devices Refer to Fieldbus Technical Information Tl 38K03A01 01E for details of instrumentation cabling For laboratory or other experimental use a twisted pair cable two to three meters in length with a cross section of 0 9 mm or more and a cycle period of within 5 cm 2 inches may be used Termination processing depends on the type of device being deployed For AXF use an M4 screw terminal claw Some hosts require a connector Refer to Yokogawa when making arrangements to purchase the recommended equipment Connect the devices as shown in Figure 1 1 2 Connect the terminators at both ends of the trunk with a minimum length of the spur laid for connection Fieldbus power Z Terminator FA010103 ai Figure 1 1 2 Cabling A NOTE No CHECK terminal is used for fieldbus communication AXF Do not connect the field indicator and check meter Before using
4. Figure 2 1 2 Terminal Connection IM 01E20A01 02EN lt 2 PROFIBUS PA Communication Type gt 9 A caution Do not connect to these terminals which are marked CAUTION Don t connect e DP PA Couplers PROFIBUS PA requires DP PA couplers which convert the RS 485 signals to the IEC 61158 2 signal level and power the field devices via the PROFIBUS PA e Cable Refer to Figure 2 1 1 Table 2 1 PROFIBUS PA Cables and Transmissible Length Max length of Type of cable Cable cable specifications reference value Type A Individually shielded 18AWG 4 900 m twisted pair cable 0 82 mm Type B Overall shielded twisted 22AWG 1 200 m pair cable 0 32 mm Type C Unshielded twisted pair 26AWG 400 m cable 0 13 mm Type D Overall shielded non 16AWG 200m twisted cable 1 25 mm Note Yokogawa recommends the use of Type A Usage of Type B and D is restricted Yokogawa does not recommend the use of Type C Before using a PROFIBUS PA configuration tool other than the existing class 1 and class 2 Masters confirm it does not affect the loop functionality in which all devices are already installed in operation Disconnect the relevant control loop from the bus if necessary IMPORTANT e Itis mandatory to turn on the power supply of the AXF before turning on the power supply for the PROFIBUS line Connecting a PROFIBUS PA configuration tool to a loop with its existin
5. TOT3 Good TOT3 Good TOT3 Good Active Advisory Active Advisory Active Advisory Alarm High limt Alarm High limt Alarm High limt ols 40 PB O S Mode Bad Bad Bad Bad Bad Bad Bad Bad Bad Mode Out of Service Out of Service Out of Service Out of Service Out of Service Out of Service Out of Service Out of Service Out of Service Alarms Const Const Const Const Const Const Const Const Const 41 TB O S Mode Uncertain Uncertain Uncertain Uncertain Non Uncertain Non Uncertain Non Uncertain Uncertain Uncertain Substitude Substitude Substitude Specific ok Specific ok Specific ok Substitude Substitude Substitude Value ok Value ok Value ok Value ok Value ok Value ok 42 Al FB O S Mode Bad Bad Bad Out of Service Out of Service Out of Service Const Const Const 43 Total1 FB O S TOT1 Bad TOT1 Bad TOT1 Bad Mode Out of Service Out of Service Out of Service Const Const Const TOT2 TOT2 TOT2 TOT3 TOT3 TOT3 44 Total2 FB O S TOT1 TOT1 TOT1 Mode TOT2 Bad TOT2 Bad TOT2 Bad Out of Service Out of Service Out of Service Const Const Const TOT3 TOT3 TOT3 45 Total3 FB O S TOT1 TOT1 TOT1 Mode TOT2 TOT2 TOT2 TOTS Bad TOT3 Bad TOTS Bad Out of Service Out of Service Out of Service Const Const Const 46 DI1 FB O S DI1 Bad Out of DI1 Bad Out of DI1 Bad Out of Mode Service
6. Hold oon ation E 12 A D H Fault 198 Other Hold BAD Device Failure Ams OmgureTon Eor 13 A D L Fault 197 Other Hold BAD Device Failure 57 Dens SetEr 457 Other Hoa BAD Configuration Error 14 A D Z Fault 196 Other Hold BAD Device Failure 5 e BAD Sensor aaa 156 Other Hold PAD one 15 Coil Open 195 Other Hold adi e onriguraden Emor Failure Setting BAD 72 Size Set Err 155 Other Hold w 194 Other Hold BAD Device Failure Alarms Configuration Error BAD i 73 Adh Set Err 154 Other Hold e A a uP 190 Other Variable BAD Device Failure Configuration Error 120 IT1 Clock ie System 101 commi 189 Other Variable BAD Device Failure Per Err Alarms EEPROM Fault 121 IT2 Clock 102 IT1 Not i Per Err i paved 122 AR Range 103 IT2 Not Set Err g Saved Uncertain Q I Comm 80 Adhesion 4180 h Sene Conversi Z 188 Other Variable BAD Device Failure Wng er Ra a fs Error1 not Accurate gt 105 Comm 7 n P Uncertain a 187 Other Variable BAD Device Failure Error2 TE Zero 148 Other Sensor Conversion 9 106 DL g not Accurate Incomplete i 84 Disp Over f OD 107 Download I Wng a Fail Uncertain o l i ineering Uni 108 Not Ready Kk poeta Vel 147 Other oe Unit Oo 30 Sig Overflow 170 Other Hold na alae Violation Q ailure e Bans 130 Al Non N 3 31 Empty Pipe 169 Other Hold ae Schedule Failure 3 aaAdhe ye 131 IT1 Non g f Adhesion 167 Other Hold D Sensor Schedule 5 Alm Failure T32T2N o Process on F Alas j 0
7. User s AXF Series ApmAc AXF Manual Magnetic Flowmeter Installation Manual FounpaTion Fieldbus Communication Type and PROFIBUS PA Communication Type IM 01E20A01 02EN e e vigilantplant Contents 1 Founpation Fieldbus Communication Type Ee 1 1 Connection of Devices 00 0 cece cetcceseceeeeesseeeseeeseeeeaeers 1 132 OSE SCUING is entatoots Coconino 2 4 35 IBUS POWErON aisn 3 1 4 Integration of DD as cccsntsics cxesncsszvectantsssveseas tecenesenste eneserels ld 4 1 5 Generation Of AAI srci 4 1 5 1 Indication Of Alarm ccecccceeceeeeeseeeseeeeeees 4 1 5 2 Alarms and Event ccccccccsssceseecsseeeseeeneees 6 Integral Flowmeter 1 6 Simulation FUNCTION ccccecccccesessecesescecsscststenesceenseteee 6 a i ea ae 2 PROFIBUS PA Communication Type 2 1 Connection of DeVICES siio 8 2 2 Master S tinGS seis te ceves sccesce og ceiees sth siaaa 9 2 3 Integration of GSD 10 2 4 Bus and AXF Power ON as 10 2 5 Generation of Alarm era 2 5 1 Indication Of Alarm ccccccecsccseeeeseeeneeessees 11 2 5 2 Alarms and Warnings c cee eee 12 2 6 Simulation FUNCTION ccc ceseceeeeseeeeeseeeseeeeeeesee 15 Remote Flowtube Remote Converter AXFOOOG AXFOOUC AXFA14G AXFA14C AXFOOOH AXFOOOW Note means any of the following 002 005 010 015 025 032 040 050 065 080 100 125 150 200 250
8. 300 350 400 This manual outlines the basic guidelines for installation pro cedures of the ADMAG AXF Series FOUNDATION fieldbus type and PROFIBUS PA type For the items which are not covered in this manual see the user s manuals in the following table Note Refer to IM 01E20A01 01EN in addition to this manual Document No Title ADMAG AXF Series Founpation Fieldbus Communication Type Magnetic Flowmeter AXF PROFIBUS PA Communication Type Magnetic Flowmeter IM 01E20F02 01E IM 01E20F12 01E YOKOGAWA IM 01E20A01 02EN f 1st Editi Yokogawa Electric Corporation enn lt 1 FOUNDATION Fieldbus Communication Type gt 1 1 FOUNDATION Fieldbus Communication Type Fieldbus is fully dependent upon digital communication protocol and differs in operation from conventional 4 to 20 mA transmission and the BRAIN communication protocol It is recommended that novice users use field devices in accordance with the procedures described in this section The procedures assume that field devices will be set up on a bench or in an instrument shop 1 1 Connection of Devices The following are required for use with fieldbus devices e Power supply Fieldbus requires a dedicated power supply It is recommended that current capacity be well over the total value of the maximum current consumed by all devices including the host Conventional DC current cannot be used as is e Terminator Fieldbus requires two
9. Const Service Const Service Const DI2 DI2 DI2 47 DI2 FB O S D1 DI1 D1 Mode DI2 Bad Out of DI2 Bad Out of DI2 Bad Out of Service Const Service Const Service Const Setting Alarms 50 Span gt 10m s Uncertain Uncertain Bad Uncertain Non Uncertain Uncertain Non Uncertain Uncertain Bad 51 Span lt 0 1m s Substitude Last Usage Non specific Specific ok Last Usable Specific ok Substitude Last Usage Non specific ole Value ok Value ok Const Value Const Value ok Value ok Const 56 H L HH LL Set 57 Dens Set Err Uncertain Uncertain Bad Uncertain Non Uncertain Uncertain Non Uncertain Uncertain Bad 71 Meas Mod Set Substitude Last Usage Non specific Specific ok Last Usable Specific ok Substitude Last Usage Non specific i Value ok Value ok Const Value Const Value ok Value ok Const 72 Size Set Err 73 Adh Set Err 120 Total1 Unit TOT1 Bad TOT1 Bad TOT1 Bad Set Err Configuration Configuration Configuration Error ok Error ok Error ok TOT2 TOT2 TOT2 TOT3 TOT3 TOT3 121 Total2 Unit TOT1 TOT1 TOT1 Set Err TOT2 Bad TOT2 Bad TOT2 Bad Configuration Configuration Configuration Error ok Error ok Error ok TOT3 TOT3 TOT3 122 Total3 Unit TOT1 TOT1 TOT1 Set Err TOT2 TOT2 TOT2 TOT3 Bad TOT3 Bad TOT3 Bad Configuration Configuration Configuration Error ok Error ok Error ok IM 01E20A01 02EN
10. e To preserve the safety do not touch the electrical circuit and cable except the SIMULATE_ENABLE switch e Removing and installing cover are necessary for the setting SIMULATE_ENABLE switch Perform removing and installing cover as described in following Section of user s manual Refer to Subsection 5 4 2 of IM 01E20D01 01E or refer to Subsection 10 1 2 of IM 01E20C02 01E IM 01E20A01 02EN d L uolesiuNnWIWOD Wd SNAIHONd a Revision Information Title Manual No AXF Series Magnetic Flowmeter Installation Manual Founpation Fieldbus Communication Type and PROFIBUS PA Communication Type IM 01E20A01 02EN 16 Edition 1st Date Aug 2015 Page Revised Item New publication IM 01E20A01 02EN
11. a fieldbus configuration tool other than the existing host confirm it does not affect the loop functionality in which all devices are already installed in operation Disconnect the relevant control loop from the bus if necessary A IMPORTANT Connecting a fieldbus configuration tool to a loop with its existing host may cause communication data scrambling resulting in a functional disorder or a system failure 1 2 Host Setting To activate fieldbus the following settings are required for the host A IMPORTANT Do not turn off the power immediately after setting When the parameters are saved to the EEPROM the redundant processing is executed for an improvement of reliability If the power is turned off within 60 seconds after setting is made the modified parameters are not saved and the settings may return to the original values Table 1 2 Operation Parameters Symbol Parameter V ST Slot Time Description and Settings Indicates the time necessary for immediate reply of the device Unit of time is in octets 256 us Set maximum specification for all devices For AXF set a value of 4 or greater V MID Minimum Inter PDU Minimum value of communication Delay data intervals Unit of time is in octets 256 us Set the maximum specification for all devices For AXF set a value of 4 or greater V MRD Maximum Reply The worst case time elapsed until Delay a reply is recorded The unit is S
12. terminators Refer to the supplier for details of terminators that are attached to the host e Field devices Connect fieldbus communication type AXF Refer to Figure 1 1 1 Two or more AXF devices or other devices can be connected 1st Edition Aug 2015 KP All Rights Reserved Copyright 2015 Yokogawa Electric Corporation Integral Flowmeter AXF Terminal configuration 09 CAUTION 8 Don t connect EEEE Basa eels FA010101 ai Terminal wiring Terminal Description Symbols p a Functional grounding N L Power supply FB Fieldbus FB communication signal Protective grounding Outside of the terminal Remote Converter AXFA14 Terminal configuration M EX1 AI ITA N EX2 f AITO L c fis G Te SA e ANIG a4 ll Me B GITO SB E E FB W E FB FA010102 ai Terminal wiring terminal Description Symbols P EXI 7 dna EX2 Excitation current Output a SA A Flow singal input B SB J a Functional grounding N Power suppi L J Pply FB Fieldbus FB 1 communication signal Protective grounding Outside of the terminal Figure 1 1 1 Terminal Connection IM 01E20A01 02EN
13. 43000BXXXXXXXX PD Tag i FT2001 Device Revision 1 Node Address OxF4 Serial No XXXXXXXXXXXXXXXXX Physical Location Note Our Device Description Files and Capabilities Files available at http Awww yokogawa com fid English or http Awww yokogawa co jp fid Japanese DEVICE INFORMATION 594543000BXXXXXXXX PD Tag FT2001 Device Revision i 1 Node Address 3 OxF4 Device ID Serial No XXXXXXXXXXXXXXXXX Physical Location Note Our Device Description Files and Capabilities Files available at http Awww yokogawa com fid English or http www yokogawa co jp fld Japanese FA010301 ai Figure 1 3 Device Information Sheet Attached to AXF If no AXF is detected check the available address range If the node address and PD tag are not specified when ordering default value is factory set If two or more AXFs are connected at a time with default value only one AXF will be detected from the host as AXFs have the same initial address Separately connect each AXF and set a different address for each IM 01E20A01 02EN ed uonesiunwwog snqpjel j NOLLVaNNO 4 E lt 1 FOUNDATION Fieldbus Communication Type gt 4 1 4 Integration of DD If the host supports DD Device Description the DD of the AXF needs to be installed Check if host has the following directory under its default DD directory 594543 000B 594543 is the manufacturer number of Yokogawa Electric Corpor
14. 501 ai 80 Adhesion Wng Figure 2 5 Error Identification on Indicator IM 01E20A01 02EN d L uolesiuNWWOD Wd SNAIHONd lt 2 PROFIBUS PA Communication Type gt 12 2 5 2 Alarms and Warnings The alarm and warning lists in each function block are shown in Table 2 5 1 to Table 2 5 3 Table 2 5 1 Status of each parameter in failure mode 1 2 Al Block TOT Block DI Block Category Alarm FSAFE_TYPE 0 FSAFE_TYPE 1 FSAFE_TYPE 2 FAIL_TOT 0 FAIL_TOT 1 FAIL_TOT 2 FSAFE_TYPE 0 FSAFE_TYPE 1 FSAFE_TYPE 2 System 10 uP Fault Uncertain Uncertain Bad Uncertain Uncertain Uncertain Uncertain Uncertain Bad Alarms 1 EEPROM Fault Substitude Last Usage Device Failure Non Specific ok Last Usable Non Specific ok Substitude Last Usage Device Failure i ay Value ok Value ok Const Value Const Value ok Value ok Const 12 A D H Fault 13 A D L Fault 14 A D Z Fault 15 Coil Open Bad Bad Sensor Failure Sensor Failure Const Const 16 EEPROM Dfit Bad Bad Device Failure Device Failure Const Const 100 Comm uP Faul Bad Bad Device Failure Device Failure 101 Comm ok ok EEPROM Fault 102 Total1 Not _ S E z _ Saved 103 Total2 Not Saved 104 Total3 Not _ E _ S 7 Saved 105 Comm Error1 Uncertain Uncertain Bad Uncertain Uncertain Uncertain Uncertain Uncertain Bad 106 C Error Substitude Last Usage Device Failu
15. Al Lo Lo E Schedule D m Poea 133 D11 Non o 111 Al Hi Hi Alm Schedule 7 3 112 PID Lo Lo f 134 DI2 Non a Alm Schedule 7 xe 113 PID Hi Hi X 135 AR Non Alm Schedule f 40 RS O S BAD Non specific 136 PID Non Mode Warning Schedule 41 1B O S Out of BAD Out of Service 140 Sim Jmpr is Mode Service On 42 Al FB O S 141 Al Sim Mode Enabled i 43 IT1 FB O S 7 142 DI1 Sim Mode Enabled k O S Mode 44 IT2 FB O S p 143 DI2 Sim Alarms Mode Enabled y 45 D11 FB O S 7 150 Al FB Man Mode Mode f 46 DI2 FB O S W 151 IT1 FB Man Mode Mode R 47 AR FB O S 5 152 IT2 FB Man Mode Mode 7 48 PID FB O S 153 D11 FB Man Mode Mode B 154 DI2 FB Man N Mode 155 AR FB Man a Mode 156 PID FB 7 Man Mode 160 PID FB 7 Bypass Mode IM 01E20A01 02EN lt 1 FOUNDATION Fieldbus Communication Type gt 6 1 5 2 Alarms and Events The following alarms or events can be reported by the AF if Link object and VCR static entry are set Analog Alerts Generated when a process value exceeds threshold By Al Block Hi Hi Alarm Hi Alarm Low Alarm Low Low Alarm Discrete Alerts Generated when an abnormal condition is detected By Resource Block Block Alarm Write Alarm By Transducer Block Block Alarm By Al DI IT AR and PID Blocks Block Alarm Update Alerts Generated when an important restorable parameter is updated By Resource Block Update Event By Transducer Block Update Event By Al DI IT AR and PID Blocks Upd
16. adh uolesiuNWIWOD Yd SNEI4AONd lt 2 PROFIBUS PA Communication Type gt 14 Table 2 5 3 Status of each parameter in warning mode Category Warning Wani Al Block TOT Block DI Block farnin 3 FSAFE_TYPE 0 FSAFE_TYPE 1 FSAFE_TYPE 2 FAIL_TOT 0 FAIL_TOT 1 FAIL_TOT 2 FSAFE_TYPE 0 FSAFE_TYPE 1 FSAFE_TYPE 2 80 Adhesion Wng Good NC Good NC Good NC Good NC Good NC Good NC Good NC Good NC Good NC Bt Brk Wi Maintenance Maintenance Maintenance Maintenance Maintenance Maintenance Maintenance Maintenance Maintenance SOMERE FER required ok required ok required ok required ok required ok required ok required ok required ok required ok 82 Auto Zero Wng Uncertain Uncertain Uncertain Uncertain Uncertain Uncertain Uncertain Uncertain Uncertain Non specific Non specific Non specific Non specific Non specific Non specific Non specific Non specific Non specific ok ok ok ok ok ok ok ok ok 84 Disp Over Wng 85 FLow Vel Over Uncertain Uncertain Uncertain Uncertain Uncertain Uncertain Uncertain Uncertain Uncertain Non specific Non specific Non specific Non specific Non specific Non specific Non specific Non specific Non specific Low High limt Low High limt Low High limt Low High limt Low High limt Low High limt Low High limt Low High limt Low High limt 90 Display Sw 140 Sim Jmpr On
17. ate Event An alert has following structure Table 1 5 2 Alert Object Subindex D 2 g x Otrt otr t Parameter Name Explanation L oL g 2 S 2 q lt 2 lt S lt 1 1 1 Block Index Index of block from which alert is generated 2 2 2 Alert Key Alert Key copied from the block 3 3 3 Standard Type Type of the alert Alert Name identified by A 4 4 Mff Type manufacturer specific DD 5 5 5 Message Type Reason of alert notification 6 6 6 Priority Priority of the alarm Time when this alert is first 7 7 7 Time Stamp detected Enumerated cause of this 8 8 Subcode alert 9 9 Value Value of referenced data 10 10 Relative Index naaie index of referenced ata F i Value of static revision 8 Static Revision ST REV of the block 11 11 9 Unit Index Unit code of referenced data 1 6 Simulation Function The simulation function simulates the input of a function block and lets it operate as if the data was received from the transducer block It is possible to conduct testing for the downstream function blocks or alarm processes ASIMULATE_ENABLE switch is mounted in the AXF amplifier This is to prevent the accidental operation of this function When this is switched on simulation is enabled See Figure 1 6 To initiate the same action from a remote terminal if REMOTE LOOP TEST SWITCH is written to the SIM_ENABLE_MSG parameter index 1044 of the resource block the result
18. ation and OOOB is the AXF device number respectively If this directory is not found the DD of the AXF has not been included Create the above directory and copy the DD file OmOn ffo OMOn sym m n is a numeral into the directory Om in the file name shows the device revision and On shows the DD revision Once the DD is installed in the directory the name and attribute of all parameters of the AXF are displayed Off line configuration is possible by using capabilities files AXF has two capabilities levels 1 and 2 Select Capabilities level 1 when the AXF doesn t have LC1 PID function option Select Capabilities level 2 when the AXF has LC1 PID function option The capabilities level defines the kind and the number of function blocks that can be used The table below shows the relation Table 1 4 The capability level and function blocks that can be used Capabilities Level Al DI IT AR PID 1 1 2 2 1 0 2 1 2 2 1 1 If you do not have the DD or capabilities files you can download them from our web page http Avww yokogawa com fld 1 5 Generation of Alarm 1 5 1 Indication of Alarm When the self diagnostics function indicates that a device is faulty an alarm device alarm is issued from the resource block When an error block error is detected in each function block or an error in the process value process alarm is detected an alarm is iss
19. dvisory Active Advisory Alarm Low limt Alarm Low limt Alarm Low limt TOTS TOTS TOTS IM 01E20A01 02EN lt 2 PROFIBUS PA Communication Type gt Table 2 5 2 Status of each parameter in failure mode 2 2 13 Al Block TOT Block DI Block Category Alarm FSAFE_TYPE 0 FSAFE_TYPE 1 FSAFE_TYPE 2 FAIL_TOT 0 FAIL_TOT 1 FAIL_TOT 2 FSAFE_TYPE 0 FSAFE_TYPE 1 FSAFE_TYPE 2 Process Total2 Hi Alm TOT1 TOT1 TOT1 Alarms TOT2 Good TOT2 Good TOT2 Good Active Advisory Active Advisory Active Advisory Alarm High limt Alarm High limt Alarm High limt TOTS TOTS TOTS Total3 Lo Lo Alm TOT1 TOT1 TOT1 TOT2 TOT2 TOT2 TOT3 Good TOT3 Good TOT3 Good Active Critical Active Critical Active Critical Alarm Low limt Alarm Low limt Alarm Low limt Total3 Hi HiAlm TOT1 TOT1 TOT1 TOT2 TOT2 TOT2 TOT3 Good TOT3 Good TOT3 Good Active Critical Active Critical Active Critical Alarm High limt Alarm High limt Alarm High limt Total3 Lo Alm TOT1 TOT1 TOT1 TOT2 TOT2 TOT2 TOT3 Good TOT3 Good TOT3 Good Active Advisory Active Advisory Active Advisory Alarm Low limt Alarm Low limt Alarm Low limt Total3 Hi Alm TOT1 TOT1 TOT1 TOT2 TOT2 TOT2
20. e is factory set If two or more AXFs are connected at the same time with default value only one AXF will be detected from the host as AXFs have the same initial address Separately connect each AXF and set a different address for each 2 5 Generation of Alarm 2 5 1 Indication of Alarm When the self diagnostics function indicates that a device is faulty a diagnostic message DIAGNOSIS or DIAGNOSIS_EXTENSION is issued from the physical block When a diagnostic message is detected in each function block or a diagnostic message in the process value process alarm is detected a diagnostic message is issued from each block If a LCD indicator is installed the error number is displayed If two or more alarms are issued multiple error messages are displayed When an alarm has been occurred the corresponding alarm name description and suitable countermeasure will be displayed on the display unit The normal Display Mode and Alarm Mode may be displayed alternatively When a warning has been issued the corresponding content will be shown in the third line in the Display Mode Upon occurrence of an alarm example a System alarm Alarm name Description System Alarm 15 Coil Open Cut the power and check coil amp EX cables f Countermeasure message Upon issuance of a warning a description appears in the 3rd line only when a warning is occurred 1 2345 12345678 Description of warning FA020
21. esponse by the slave Highest Station HSA Address Sets the highest station address in the network G Gap update factor Sets the number of token cycles after which the master will search for a new master max retry limit Max Retry Limit Sets the number of retries that are performed after a receiver does not respond to a message IM 01E20A01 02EN adh uopesjunwwo9 Yd SNAIHONd lt 2 PROFIBUS PA Communication Type gt 1 0 2 3 Integration of GSD APROFIBUS PA system requires a GSD file containing device parameters such as the supported transmission rate input data output data data format and data length The following GSD files are available for the AXF Table 2 3 GSD files Profile Ident Number 0x9740 Profile GSD file PA139740 GSD Alx1 TOTx1 Device Specific Ident Number 0x4590 Device Specific GSD file YEC_4590 GSD Download GSD for AXF from the following website http Avww yokogawa com fld doc profibus A IMPORTANT Do not change contents in the GSD file from the factory default The AXF may be given a serious problem in its operation if do so 2 4 Bus and AXF Power ON Address setting Switch Asetup of bus address is possible by the change with a parameter or the hardware slide switch The set address which is done by hardware is higher priority than by software Following description is how to set the bus address using by ha
22. g class 1 and class 2 Masters may cause communication data scrambling resulting in a functional disorder or a system failure 2 2 Master Settings To activate PROFIBUS PA the following bus parameters must be set for the master A IMPORTANT Do not turn off the power immediately after setting When the parameters are saved to the EEPROM the redundant processing is executed for an improvement of reliability If the power is turned off within 60 seconds after setting is made the modified parameters are not saved and the settings may return to the original values Table 2 2 Bus Parameters Symbol Parameter Transmission Transmission Rate rate Description and Settings The transmission rate of PROFIBUS PA matches that of the segment coupler e g P F 93 75 kbps Siemens 45 45 kbps TSL Slot Time Min Station Delay min TSDR Timer The maximum time a master station must wait for the complete reception of the first octet of a response 11 bits e g 4095 Sets the minimum time at which a slave can send the first bit of a response back Max Station Delay max TSDR 2 Time TQUI Quiet Time Sets the maximum time at which a slave can send the first bit of a response back Controls the time at which the bus electronics or software of the sender is set to receive mode after a message is sent TSET Setup Time Sets the maximum allowable time for parameter setting and r
23. ing action is the same as is taken when the above switch is on Note that this parameter value is lost when the power is turned OFF In simulation enabled status an alarm is generated from the resource block and other device alarms will be masked for this reason the simulation must be disabled immediately after using this function The SIMULATE parameter of Al and DI block consists of the elements listed in Table 1 6 below Table 1 6 Simulate Parameter SIMULATE SIMULATE_D Parameters Sub index Description Sets the data status to be simulated Sets the value of the data to be simulated 1 Simulate Status 2 Simulate Value 3 Transducer Status Displays the data status from the transducer block It cannot be changed 4 Transducer Value Displays the data value from the transducer block It cannot be changed 5 Enable Disable Controls the simulation function of this block 1 Disable standard 2 Active When Simulate Enable Disable in Table 1 6 above is set to 2 the applicable function block uses the simulation value set in this parameter instead of the data from the transducer block This setting can be used for propagation of the status to the trailing blocks generation of a process alarm and as an operation test for trailing blocks IM 01E20A01 02EN lt 1 FOUNDATION Fieldbus Communication Type gt o Normal Operation Simulate Enable
24. ion Type gt 15 2 6 Simulation Function The AXF has a simulation function and it is possible to conduct testing for the downstream function blocks or alarm processes Following description is how to use and how to set parameters in this function ASIMULATE_ENABLE switch is mounted in the AXF amplifier See Figure 2 6 This is to prevent the accidental operation of this function When the No 2 switch is ON simulation function is enabled The Target Mode in each function block must be also changed from AUTO to O S before setting the simulation parameters The simulation parameters in each function block including alarm set as diagnosis in the Al block are described below The SIMULATE_ENABLE switch No 2 switch and the Target Mode in each function block must be returned OFF AUTO when the simulation operation was finished Simulate Disable Simulate Enable z lt oz n a lt oz n Qa 93 om BS gt Om gt 4 A 1m 4 Sec T SwW101 SW101 FA020601 ai Figure 2 6 SIMULATE_ENABLE Switch Position A WARNING When opening the cover wait for more than 10 minutes after turning off the power Furthermore opening of the cover must also be carried out by the trained personnel having knowledge of safety standard A IMPORTANT
25. lot time set the value so that V MRD xV ST is the maximum value of the specification for all devices For AXF the setting must be a value of 12 or greater V FUN First Unpolled Node Indicate the address next to the address range used by the host Set 0x15 or greater Unused address range V NUN Number of consecutive Unpolled Node IM 01E20A01 02EN lt 1 FOUNDATION Fieldbus Communication Type gt 3 0x00 Not used 0x0F 0x10 Bridge device 0x13 0x14 LM device V FUN Unused V NUN V FUN V NUN BASIC device 0xF7 OxF8 Default address OxFB OxFC Portable device address OxFF Note 1 Bridge device A linking device which brings data from one or more H1 networks Note 2 LM device with bus control function Link Master function Note 3 BASIC device without bus control function FA010201 ai Figure 1 2 Available Address Range 1 3 Bus Power ON Turn on the power of the host and the bus and also the power for the AXF Where the AXF is equipped with an LCD indicator first all segments are lit then the display begins to operate Using the host device display function check that the AMF is in operation on the bus The device information including PD tag Node address and Device ID is described on the sheet attached to the AXF The device information is given in duplicate on this sheet Refer to Figure 1 3 DEVICE INFORMATION Device ID 5945
26. rdware slide switch Refer to Section 5 3 of IM 01E20F12 01E when the bus address is set by software The AXF must turn off the power supply when the bus address is changed by hardware slide switch The device information including Tag Desc Bus address and Ident Number is described on the sheet attached to the AXF The device information is given in duplicate on this sheet Confirm the bus address written in the device information The default bus address is set as 126 hexadecimal 7E at the factory unless otherwise specified when ordered PROFIBUS DEVICE INFORMATION Ident Number 0x070D 1805 Device Serial Number Tag Desc Bus Address Serial Number Physical Location Note DTM EDD and GSD files are available on the following YOKOGAWA website http www yokogawa com fid doc profibus PROFIBUS DEVICE INFORMATION Ident Number 0x070D 1805 Device Serial Number SC Bus Address Serial Number Physical Location Note DTM EDD and GSD files are available on the following YOKOGAWA website http Avww yokogawa com fid doc profibus FA020401 ai Figure 2 4 1 Device Information Sheet Attached to AXF Confirm that the AXF is turned off before opening the front cover The bus address switch is located as shown in Figure 2 4 1 The No 8 switch of SW102 is turned ON first Other seven switches of No 1 to No 7 on the SW102 are for setting address No 1 switch of SW102 i
27. re Non Specific ok Last Usable Non Specific ok Substitude Last Usage Device Failure PONT Errol Value ok Value ok ok Value Const Value ok Value ok ok 107 DL Incomplete 108 Download Fail Process 30 Sig Overflow Uncertain Uncertain Bad Uncertain Uncertain Uncertain Uncertain Uncertain Bad Alarms 31 Empty Pi Substitude Last Usage Sensor Failure Non Specific ok Last Usable Non Specific ok Substitude Last Usage Sensor Failure Emply Pipe Value ok Value ok Const Value Const Value ok Value ok Const 32 HH LLAIm 33 Adhesion Alm Uncertain Uncertain Bad Uncertain Uncertain Uncertain Uncertain Uncertain Bad 34 Insulation Al Substitude Last Usage Sensor Failure Non Specific ok Last Usable Non Specific ok Substitude Last Usage Sensor Failure ene en Value ok Value ok Const Value Const Value ok Value ok Const 110 Al Lo LoAlm Good Good Good Active Critical Active Critical Active Critical Alarm Low limt Alarm Low limt Alarm Low limt 111 Al Hi Hi Alm Good Good Good Active Critical Active Critical Active Critical Alarm High limt Alarm High limt Alarm High limt Al Lo Alm Good Good Good Active Advisory Active Advisory Active Advisory Alarm Low limt Alarm Low limt Alarm Low limt Al Hi Alm Good Good Good Active Advisory Active Advisory Active Advisory Alarm High limt Alarm High limt Ala
28. rm High limt Total1 Lo Lo Alm TOT1 Good TOT1 Good TOT1 Good Active Critical Active Critical Active Critical Alarm Low limt Alarm Low limt Alarm Low limt TOT2 TOT2 TOT2 TOTS TOTS TOTS Total1 Hi Hi Alm TOT1 Good TOT1 Good TOT1 Good Active Critical Active Critical Active Critical Alarm High limt Alarm High limt Alarm High limt TOT2 TOT2 TOT2 TOTS TOTS TOTS Total1 Lo Alm TOT1 Good TOT1 Good TOT1 Good Active Advisory Active Advisory Active Advisory Alarm Low limt Alarm Low limt Alarm Low limt TOT2 3 TOTS Total1 Hi Alm TOT1 Good TOT1 Good TOT1 Good Active Advisory Active Advisory Active Advisory Alarm High limt Alarm High limt Alarm High limt TOT2 TOT2 TOT2 TOTS TOTS TOTS Total2 Lo Lo Alm TOT1 TOT1 TOT1 TOT2 Good TOT2 Good TOT2 Good Active Critical Active Critical Active Critical Alarm Low limt Alarm Low limt Alarm Low limt TOTS TOTS TOTS Total2 Hi HiAlm TOT1 TOT1 TOT1 TOT2 Good TOT2 Good TOT2 Good Active Critical Active Critical Active Critical Alarm High limt Alarm High limt Alarm High limt TOTS TOT3 TOT3 Total2 Lo Alm TOT1 TOT1 TOT1 TOT2 Good TOT2 Good TOT2 Good Active Advisory Active A
29. s allocated for bitO of address and No 7 switch of SW102 is allocated for bit6 of address The setting condition of the SW102 as shown in Figure 2 4 2 is 3 as the set bus address number as an example IM 01E20A01 02EN lt 2 PROFIBUS PA Communication Type gt 11 If two or more AXFs are connected on the same bus each AXF must be set as different bus address The front cover must be closed after finish the work of the bus address setting SS enw SS 2 Z a f ADDRESS MSB LSB 8 7 6 5 4 3 2 1 ON OFF OFF OFF OFF OFF ON ON FA020402 ai Figure 2 4 2 Address Switch WARNING When opening the cover wait for more than 10 minutes after turning off the power Furthermore opening of the cover must also be carried out by the trained personnel having knowledge of safety standard A IMPORTANT To preserve the safety do not touch the electrical circuit and the cables except the Bus address switch Bus and AXF Power ON Firstly turn on the power of the host and then the bus and also the power for the AXF Where the AXF is equipped with the LCD indicator first all segments are lit then the display begins to operate Using the host device display function check that the AMF is in operation on the bus If no AXF is detected check the available address range If the Bus address and Tag Desc are not specified when ordering default valu
30. t is recommended that current capacity be well over the total value of the maximum current consumed by all devices Power is supplied by a DP PA coupler e Terminators PROFIBUS PA requires two terminators A terminator shall be located at each end of the trunk cable e Field devices Connect PROFIBUS PA communication type AXF Refer to Figure 2 1 2 Two or more AXF devices or other devices can be connected Integral Flowmeter AXF Terminal configuration PONER EEJ SUPPLY L N e a aae Bb CA CAUTION Ges epee ral ee al FA020102 ai Terminal wiring Terminal Symbols Description as Functional grounding N Power suppl L wer supply FB PROFIBUS PA FB communication signal D Protective grounding Outside of the terminal Remote Converter AXFA14 Terminal configuration E 4 EX1 S N EX2 E L C SA DE A B SB E FB o FB FA020103 ai Terminal wiring Terminal Paar Symbols Description EXI ar EX2 Excitation current Output Cc SA A Flow singal input B SB a Functional grounding N 7 L Power supply FB PROFIBUS PA FB _ communication signal Protective grounding Outside of the terminal
31. ued from each block If an LCD indicator is installed the error number is displayed If two or more alarms are issued multiple error numbers are displayed For details of ALARM refer to Table 1 5 1 Upon occurrence of an alarm example a System alarm System Alarm Alarm name 15 Coil Open Description Cut the power and Countermeasure check coil amp EX cables message Upon issuance of a warning a cat appears in the 3rd line only when a warning is occurred 1 2345 12345678 80 Adhesion Wng Description of warning FA010501 ai Figure 1 5 1 Error Identification on Indicator IM 01E20A01 02EN lt 1 FOUNDATION Fieldbus Communication Type gt 5 Following tables summarize the value of AXF parameters and LCD display indicates an Alarm Table 1 5 1 Alarm Summary XD i XD A A BLOCK_ Primary Primary Value z BLOCK_ Primary Primary Value Category Alarm ERROR ERROR Value Status Category Alarm ERROR ERROR Value Status Value Value 10 uP Fault 200 Other Hold BAD Device Failure 50 Span gt 160 ot H BAD 11 EEPROM 10m s er oa Con figuration Error Fault 199 Other Hold BAD Device Failure 51 Span lt BAD Ba 159 Other
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