Model EXAxt AV550G Fieldbus Communication Type
Contents
1. 138 2138 CH6_SPAN_CAL_COEFF Denotes the span point correction factor of the channel 6 detector 139 2139 CH6 CELL ROBUSTNES Denotes the cell service life of the channel 6 detector S 140 2140 CH6 HEATER ON TIME Denotes the power on rate of the channel 6 detector s heater 141 2141 CH6 RESPONSE TIME Denotes the response time of the channel 6 detector measured during calibration 142 2142 CH6 MIN VALUE Denotes the minimum oxygen concentration of channel 6 143 2143 CH6 MAX VALUE Denotes the maximum oxygen concentration of channel 6 144 2144 CH6 AVE VALUE Denotes the average oxygen concentration of channel 6 145 2145 CH6 MIN DATE Denotes the date and time when the minimum oxygen concentration of channel 6 was calculated 146 2146 CH6 MAX DATE Denotes the date and time when the maximum oxygen concentration of channel 6 was calculated 147 2147 CH7 CELL VOLT Denotes the cell electromotive force of the channel 7 detector 148 2148 CH7 HEATER TEMP Denotes the heater temperature of the channel 7 detector 149 2149 CH7 CJ TEMP Denotes the cold junction temperature of the channel 7 detector 150 2150 CH7 TC VOLT Denotes the thermocouple electromotive force of the channel 7 detector 151 2151 CH7 CJ VOLT Denotes the cold junction voltage of the channel 7 detector 152 2152 CH7 CELL RESISTANC Denotes the cell resistance2. 13 1 5 MAI FUNCTION BIoCK 14 1 6 MAO Function BIoCk 15 APPENDIX 2 APPLICATION SETTING AND CHANGE OF BASIC PARAMETERS 16 A2 1 Applications and Selection of Basic Parameters A 16 A2 2 Setting and Change of Basic Parameters 17 2 3 Setting the Function 17 2 4 Setting the DI Function Blocks cecinere 19 APPENDIX 3 SETTING AV550GSPECIFIC COMMANDS A 20 A3 1 AN550G specific A 20 A3 2 Setting of AV550G specific Commands eese A 20 APPENDIX 4 FUNCTION DIAGRAMS OF FUNCTION BLOCKS A 22 A4 1 Al Function BIOCK 5 22 4 2 DI Function A E T 22 4 3 MAI FUNCTION BIoCK is sena aaa a aa an
3. Index Parameter Mnemonic VIEW1 VIEW2 VIEW3 VIEW3 VIEW3 VIEWS VIEWS VIEW3 VIEW3 VIEW3 VIEW3 VIEW3 VIEW4 ist 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 216 AV550G STATUS 2 217 CH1 STATUS 2 218 2 STATUS 2 219 CH3_STATUS 2 220 CH4 STATUS 2 221 5 STATUS 2 222 CH6 STATUS 2 223 7 STATUS 2 224 CH8 STATUS 2 225 IPL SOFT REV 4 226 CONTROL SOFT REV 4 227 CH1 SOFT REV 4 228 2 SOFT REV 4 229 SOFT REV 4 230 4 SOFT REV 4 231 5 SOFT REV 4 232 6 SOFT REV 4 233 7 SOFT REV 4 234 8 SOFT REV 4 235 ALARM CH 1 236 ALARM SUM 8 237 TEST 1 1 238 TEST 2 2 239 TEST 3 32 240 TEST 4 2 241 TEST 5 32 242 TEST 6 2 243 TEST 7 244 TEST 8 245 TEST 9 246 TEST 10 247 TEST 11 2 248 TEST 12 2 249 TEST 13 250 TEST 14 1 Total bytes 10 88 85 89 89 89 89 89 89 89 89 85 IM 11M12D01 61E lt 5 CONFIGURATION gt 5 17 Table 5 13 View Objects for Each Al Function Block Table 5 14 View Objects for Each DI Function Block 1 011 012 Relative Parameter Mnemonic VIEW1 VIEW2 VIEW3 VIEW4 pag Parameter Mnemonic VIEW1 VIEW2 VIEW3 VIEW4 1 sr REV 212 2 2 1 ST_REV 27 2 2
4. Details of Method are provided separately lt APPENDIX 7 DD Menu Structere gt A 51 Operational Precaution This document supplements information regarding Operational Precaution Operate the product carefully based on the following note Display on the FieldMate When the AV550G is in communication with FieldMate the DTM will run normally but the information displayed in the FieldMate window will differ somewhat from that indicated on pages A 46 and A 47 of the IM 11M12D01 61E manual FieldMate is a communication tool for HART and Fieldbus IM 11M12D01 61E Revision Information Title Model AV550G Fieldbus Communication Type Manual No IM 11M12D01 61E Oct 2005 1st Edition Newly published Jan 2011 2nd Edition Page A 49 Operational Precaution with FieldMate added Revised and Corrected over all E f you want more information about Yokogawa products you visit Yokogawa s home page at the following web site Home page http www yokogawa com E Written by Environmental amp Analytical Products PMK Group IA Div Product Business Center Yokogawa Electric Corporation Published by Yokogawa Electric Corporation 2 9 32 Nakacho Musashino shi Tokyo 180 8750 JAPAN W Printed by KOHOKU PUBLISHING amp PRINTING INC IM 11M12D01 61E
5. ay Parameter Name Name d 55 Remarks 370 PLME_BASIC_ 0 R CHARACTERISTICS 1 ChannelStatisticsSupported 0x00 2 MediumAndDataRatesSupported 0x4900000000000000 3 lecVersion 1 0x1 4 NumOfChannels 1 0 1 5 0 0 0 371 CHANNEL STATES 0 R 1 channel 1 0 0x0 2 channel 2 128 0x80 3 channel 3 128 0x80 4 channel 4 128 0x80 5 channel 5 128 0x80 6 channel 6 128 0x80 7 channel 7 128 0x80 8 channel 8 128 0x80 372 PLME BASIC INFO 0 R 1 InterfaceMode 0 0x0 2 LoopBackMode 0 0x0 3 XmitEnabled 1 0x1 4 RcvEnabled 1 0x1 5 PreferredReceiveChannel 1 0x1 6 MediaTypeSelected 73 0x49 7 ReceiveSelect 1 0x1 373 LINK SCHEDULE ACTIVATION VARIABLE RW 374 LINK SCHEDULE LIST 0 R CHARACTERISTICS NumotSchedules 0 RECORD 2 NumOfSubSchedulesPerSchedule 1 3 ActiveScheduleVersion 0 4 ActiveSheduleOdIndex 0 5 ActiveScheduleStartingTime 0 375 DLME_SCHEDULE_ 0 R DESCRIPTOR 1 1 Version 0 2 MacrocycleDuration 0 3 TimeResolution 376 DLME SCHEDULE _ 0 R DESCRIPTOR 2 1 Version 2 MacrocycleDuration 3 TimeResolution 377 DOMAIN 1 Read write impossible Get OD possible 378 DOMAIN 2 Read write impossible Get OD possible IM 11M12D01 61E TA0605 2 ai lt APPENDIX 5 LINK MASTER FUNCTIONS gt A 29 A5 5 2 Descriptions for LM Parameters The following describes LM parameters of a AV550G transmitter NOTE Do not turn off the power to the AV550G for 60 se
6. cessent 41 IM 11M12D01 61E lt CONTENTS gt APPENDIX 7 DD MENU STRUCTURE eene A 42 Revision Information IM 11M12D01 61E 1 INTRODUCTION 1 1 INTRODUCTION This manual covers only items that are specific to the FOUNDATION Fieldbus type of the AV550G Averaging Converter and that are not contained in the User s Manual of the AV550G For details of the operation and performance of the AV550G refer to IM 11M12D01 01E B Regarding This Manual This manual should be passed on to the end user The contents of this manual are subject to change without prior notice All rights reserved No part of this manual be reproduced in any form without Yokogawa s written permission Yokogawa makes no warranty of any kind with regard to this manual including but not limited to implied warranty of merchantability and fitness for a particular purpose If any question arises or errors are found or if any information is missing from this manual please inform the nearest Yokogawa sales office The specifications covered by this manual are limited to those for the standard type under the specified model number break down and do not cover custom made instrument Please note that changes in the specifications construction or component parts of the instrument may not immediately be reflected in this manual at the time of change provided that postponement of revisions will not
7. Relative index Parameter Name Factory Default Write Explanation Index Mode 0 1000 Block Header TAG RS Block Tag Information on this block such as Block Tag DD Revision O S Execution Time etc 1 1001 ST_REV The revision level of the static data associated with the resource block The revision value is incremented each time a static parameter value in this block is changed 2 1002 TAG DESC Spaces AUTO The user description of the intended application of the block 3 1003 STRATEGY 1 AUTO The strategy field can be used to identify grouping of blocks This data is not checked or processed by the 4 1004 ALERT KEY 1 AUTO The identification number of the plant unit This information may be used in the host for sorting alarms etc 5 1005 MODE BLK AUTO The actual target permitted and normal modes of the block 6 1006 BLOCK ERR 0 This parameter reflects the error status associated with the hardware or software components associated with a block It is a bit string so that multiple errors may be shown 7 1007 HS STATE State of the resource block state machine 8 1008 TEST_RW 0 AUTO Read write test parameter used only for conformance testing and simulation 9 1009 DD RESOURCE _ Spaces String identifying the tag of the resource which contains the Device Description for this resource 10 1010 MANUFAC_ID 0x594543 Manufacturer identification number used by an interface device to locate
8. Block Header Factory Default TAG AH AI2 or Al3 Write Mode Block Tag O S Explanation Information on this block such as Block Tag DD Revision Execution Time etc 1 4001 4101 4201 ST_REV 0 The revision level of the static data associated with the function block The revision value will be incremented each time a static parameter value in the block is changed 2 4002 4102 4202 TAG_DESC spaces AUTO The user description of the intended application of the block 3 4003 4103 4203 5 AUTO The strategy field can be used to identify grouping of blocks This data is not checked or processed by the block 4 4004 4104 4204 ALERT_KEY AUTO The identification number of the plant unit This information may be used in the host for sorting alarms etc 5 4005 4105 4205 MODE BLK AUTO AUTO The actual target permitted and normal modes of the block 6 4006 4106 4206 BLOCK ERR This parameter reflects the error status associated with the hardware or software components associated with a block It is a bit string so that multiple errors may be shown 7 4007 4107 4207 PV Either the primary analog value for use in executing the function or a process value associated with it May also be calculated from the READBACK value of an AO block 8 4008 4108 4208 OUT Value
9. SW Appendixi 3 6 ai IM 11M12D01 61E 12 APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK OF AV550G gt 208 2208 CH1_DETC Denotes the type of the channel 1 detector 209 2209 CH2 DETC Denotes the type of the channel 2 detector 210 2210 CH3 DETC Denotes the type of the channel 3 detector 211 2211 CH4 DETC Denotes the type of the channel 4 detector 212 2212 CH5 DETC Denotes the type of the channel 5 detector 213 2213 CH6 DETC Denotes the type of the channel 6 detector 214 2214 CH7_DETC Denotes the type of the channel 7 detector 215 2215 CH8 DETC Denotes the type of the channel 8 detector 216 2216 AV550G STATUS Denotes the alarm failure status of the control card 217 2217 CH1 STATUS Denotes the alarm failure status of channel 1 218 2218 CH2 STATUS Denotes the alarm failure status of channel 2 219 2219 CH3 STATUS Denotes the alarm failure status of channel 3 220 2220 CH4 STATUS Denotes the alarm failure status of channel 4 221 2221 CH5 STATUS Denotes the alarm failure status of channel 5 222 2222 CH6 STATUS Denotes the alarm failure status of channel 6 223 2223 7 STATUS Denotes
10. Table 7 3 Contents of DEVICE STATUS 3 Index 1047 Hexadecimal 1 I Representation Reading when DD Is Downloaded Description 0x01000000 Transducer Block in O S mode Shows that the transducer block is in the O S mode 0x00800000 Al Function Block 1 not scheduled Shows that Al function block 1 is not yet scheduled 0x00400000 Shows that Al function block 1 is in a SIMULATE state 0x00200000 Al Function Block 1 in Manual mode Shows that Al function block 1 is in the Manual mode 0x00100000 Al Function Block 1 in O S mode Shows that Al function block 1 is in the O S mode 0x00040000 Al Function Block 2 not scheduled Shows that Al function block 2 is not yet scheduled 0x00020000 Simulation is enabled Al Function Shows that Al function block 2 is in a SIMULATE state 0x00010000 Al Function Block 2 in Manual mode Shows that Al function block 2 is in the Manual mode 0x00008000 Al Function Block 2 in O S mode Shows that Al function block 2 is in the O S mode 0x00002000 Al Function Block 3 not scheduled Shows that Al function block 3 is not yet scheduled 0x00001000 Simulation is enabled In Al Function Shows that AI function block 3 is in a SIMULATE state 0x00000800 Al Function Block 3 in Manual mode Shows that function block 3 is in the Manual mode 0x00000400 Al Function Block 3 O S mode Shows that Al function block 3 is in the O S mode 0x00000100
11. 32 lt APPENDIX 5 LINK MASTER FUNCTIONS gt 13 LinkScheduleListCharacteristicsRecord 1 Element oe Description 1 NumOf Schedules 1 Indicates the total number of LAS schedules that have been downloaded to the domain 2 NumOfSub SchedulesPer 1 Indicates the maximum number of sub schedules an LAS Schedule schedule can contain This is fixed to 1 in the Yokogawa communication stacks 3 ActiveSchedule Version 2 Indicates the version number of the schedule currently executed 4 ActiveSchedule Odlndex 2 Indicates the index number of the domain that stores the schedule currently executed 5 ActiveSchedule StaringTime 6 Indicates the time when the current schedule began being executed 14 DiImeScheduleDescriptor This parameter exists for the same number as the total number of domains and each describes the LAS schedule downloaded to the corresponding domain For the domain to which a schedule has not TA0613 ai yet been downloaded the values in this parameter are all zeros Sub Size bes index Element bytes Description 1 Version 2 Indicates the version number of the LAS schedule downloaded to the corresponding domain 2 Macrocycle Duration 4 Indicates the macro cycle of the LAS schedule downloaded to the corresponding domain 3 TimeResolution 2 Indicates the time resolution that is required to execute the LAS schedule downloaded to the corre
12. TA0109 ai IM 11M12D01 61E 42 lt APPENDIX 6 SOFTWARE DOWNLOAD gt 2 DOMAIN_DESCRIPTOR Sub Size Element Description Index Bytes 1 1 Reads writes software download commands 1 PREPARE FOR DWNLD instruction of download preparation 2 ACTIVATE activation instruction 3 CANCEL_DWNLD instruction of download cancellation 2 State 1 Indicates the current download status 1 DWNLD_NOT_READY download not ready 2 DWNLD_PREPARING download under preparation 3 DWNLD_READY ready for download 4 DWNLD_OK download complete 5 DOWNLOADING download underway 6 CHECKSUM_FAIL not used in this product 7 FMS DOWNLOAD FAIL failure during download 8 DWNLD INCOMPLETE download error detected at restart 9 VCR FAIL not used in this product 10 OTHER download error other than 6 and 7 detected 3 Error Code 2 Indicates the error during a download and activation 0 success configuration retained download successfully completed 32768 65535 Download error See Table 4 for error codes 4 Download Domain Index 4 Indicates the index number of the domain for software downloading 5 Download Domain Header 4 Indicates the index number of the domain header to which the download Index is performing 6 Activated Domain Header 4 Indicates the index numbers of the domain header currently running Index 7 Domain Name 8 Indicates the do
13. Value Descriptions 0 Alert output suppressed and alarm parameters not updated 1 Alert output suppressed 3 to 7 Advisory alarm 8 to 15 Critical alarm T0518 1 ai DISC_LIM Sets the value of the Discrete Alarm corresponding to block output OUT_D When the value of OUT_D is the same as this value an alarm is output 5 6 7 MAI Function Block Parameters The MAI function block parameters can be read from the host and set Here we explain the more important parameters MODE_BLK Three block modes O S Auto and Manual are supported In O S Out of Service mode the MAI function block does not operate In Manual mode the value is not updated In Auto mode the measured value is periodically updated The factory default mode setting for all MAI blocks is O S CHANNEL This is a value from the transducer block that is connected to the MAI block input For the AV550G it s set to 6 5 6 8 MAO Function Block Parameters MODE_BLK Four block modes O S Auto Manual and Local Override are supported In O S Out of Service mode the MAO function block does not operate In Manual mode the value is not updated In Auto mode the measured value is periodically updated In Local Override mode can be set in actual The factory default mode setting for MAO blocks is O S CHANNEL This is a value from the transducer block that is connected to the MAI block input For the AV550G it s set to 7 MO OPTS Specifies whe
14. Write Explanation Index Mode 37 1037 ALARM_SUM m The current alert status unacknowledged states unreported states and disabled states of the alarms associated with the function block 38 1038 ACK OPTION 39 1039 WRITE_PRI 0 AUTO Priority of the alarm generated by clearing the write lock 0 1 3 to 15 40 1040 WRITE_ALM This alert is generated if the write lock parameter is cleared 41 1041 ITK VER 4 Version number of interoperability test by Fieldbus Foundation applied to AV550G 42 1042 SOFT_REV AV550G software revision number 43 1043 SOFT_DESC Yokogawa internal use 44 1044 SIM_ENABLE_MSG 5 AUTO Software switch for simulation function 45 1045 DEVICE_STATUS_1 Device status VCR setting etc 46 1046 DEVICE STATUS 2 Device status failure or setting error etc 47 1047 DEVICE STATUS 3 Device status function block setting 48 1048 DEVICE STATUS 4 m Device status function block setting 49 1049 STATUS 5 Not used for AV550G 50 1050 DEVICE STATUS 6 m Not used for AV550G 51 1051 DEVICE STATUS 7 Not used for AV550G 52 1052 DEVICE_STATUS_8 Not used for AV550G TA0101 3 ai IM 11M12D01 61E 4 APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK OF AV550G gt A1 2 Al Function Block Relative Index Index 4000 Al2 4100 4200 Parameter
15. procedures for more complex devices such as Link Masters are described in Appendix 5 5 1 Initial network design Select the devices to be connected to the Fieldbus network The following are essential for the operation of Fieldbus Power supply Fieldbus requires a special power supply you cannot use an ordinary DC power supply The power supply should be capable of supplying more current that the sum of the maximum currents drawn by individual devices including hosts Terminator Fieldbus requires two terminators Sometimes these are supplied with the host so please check Fieldbus devices Connect the field devices that will be used in the Fieldbus system The AV550G has passed interoperability tests conducted by the Fieldbus Foundation If you are starting up a new Fieldbus system we recommend that you use only devices that have passed the interoperability tests in order to ensure a smooth startup Host Hosts can access and control Fieldbus devices You need at least one Link Master host in a Fieldbus system IM 11M12D01 61E 5 2 lt 5 CONFIGURATION gt Fieldbus Cable Cable is used for interconnecting Fieldbus devices Refer to Fieldbus Technical Information 38K3A01 01E for details You need enough cable to interconnect all Fieldbus devices You can use terminal boards or terminal boxes for running side spurs off the main trunk however you should ensure that the length of such spur ru
16. 1 Start Calibration Command Access the CHx SEMIAUTO CAL START x 1 to 8 parameter Setting the parameter to 2 START allows manual calibration to be performed For example set CH1 SEMIAUTO CAL START 189 to 2 to perform manual calibration on the channel 1 card 189 is a relative index A NOTE This function does not operate unless the calibration mode of the AV550G is set to Semi Auto or Auto For details refer to the AV550G s user s manual 2 Start Indication Checking Command Access the CHx_INDICATION_ START x 1 to 8 parameter Setting the parameter to 2 START allows indication checking to be performed For example set CH1_INDICATION_START 197 to 2 to perform indication checking on the channel 1 card 197 is a relative index A NOTE This function does not operate unless the indication check mode of the AV550G is set to Semi Auto or Auto For details refer to the AV550G s user s manual IM 11M12D01 61E APPENDIX 3 SETTING OF AV550G SPECIFIC COMMANDS gt A 21 3 Start Blow Back Command Access the BLOWBACK START parameter Setting the parameter to 2 START allows a blowback to be performed For example set BLOWBACK START 205 to 2 to perform a blow back on the AV550G 205 is a relative index A NOTE This function does not operate unless the blowback mode of the AV550G is set to Semi Auto or Auto For details refer to the AB550G s user s manual 4 Calibration
17. 13 9013 OUT 6 MAN Denotes the output value and status 14 9014 OUT 7 MAN Denotes the output value and status 15 9015 OUT 8 MAN Denotes the output value and status 16 9016 UPDATE EVT Shows details update event that has occurred 17 9017 BLOCK_ALM Shows details of an error that has occurred within the block IM 11M12D01 61E Appe A1 5 ai APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK OF AV550G gt A 15 A1 6 MAO Function Block Relative Index Parameter Name Factory Default Write Mode Explanation Index 0 10000 Block Header TAG MAO1 Block Tag Information on this block such as Block Tag DD Revision O S and Execution 1 10001 ST REV Represents the revision level of setting parameters associated with the MAO block Changing the setpoint updates this revision Used for example to check for parameter changes 2 10002 TAG_DESC Spaces AUTO A universal parameter used to store comments on tag contents 32 characters maximum 3 10003 STRATEGY 1 AUTO A universal parameter used specifically when the host system distinguishes one function block from another 4 10004 ALERT_KEY 1 AUTO Key information used to identify the place where the alert in question has been issued Under normal conditions this parameter is used so that the host s
18. 95 2095 MAX DATE Denotes the date and time when the maximum oxygen concentration of channel 3 was calculated 96 2096 CH4 CELL VOLT Denotes the cell electromotive force of the channel 4 detector 97 2097 CH4 HEATER TEMP Denotes the heater temperature of the channel 4 detector 98 2098 CH4 CJ TEMP Denotes the cold junction temperature of the channel 4 detector 99 2099 CH4 TC VOLT Denotes the thermocouple electromotive force of the channel 4 detector 100 2100 CH4 CJ VOLT Denotes the cold junction voltage of the channel 4 detector IM 11M12D01 61E AppendixA1 3 3 ai APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK AV550G gt A 9 101 2101 CH4_CELL_RESISTANC Denotes the cell resistance of the channel 4 detector E measured during calibration 102 2102 CH4 CJ RESISTANCE Denotes the cold junction resistance of the channel 4 detector 103 2103 CH4_ZERO_CAL_COEFF Denotes the zero point correction factor of the channel 4 detector 104 2104 CH4_SPAN_CAL_COEFF Denotes the span point correction factor of the channel 4 detector 105 2105 CH4_CELL_ROBUSTNES Denotes the cell service life of the channel 4 detector 5 106 2106 CH4 HEATER TIME Denotes the power on rate of the channel 4 detector s heater 107 2107 CH4 RESPONSE TIME Denotes the response time of the channel 4 detector measured du
19. BLOCK_ALM ALARM_STATE MODE_BLK ACTUAL BLOCK ALM TIME STAMP MODE BLK PERMITTED BLOCK ALM SUB CODE MODE BLK NORMAL BLOCK ALM VALUE Dynamic variables UPDATE EVT OUT 1 UPDATE EVT UNACKNOWLEDGED OUT 1 STATUS UPDATE EVT UPDATE STATE OUT 1 VALUE UPDATE EVT TIME STAMP OUT 2 UPDATE EVT STATIC REVISION OUT 2 STATUS UPDATE EVT RELATIVE INDEX OUT 2 VALUE Query Device OUT 3 Standard parameters OUT 3 STATUS OUT 3 VALUE OUT 4 Parameters not covered by category OUT 4 STATUS Block Header OUT 4 VALUE ST REV OUT 5 OUT 5 STATUS OUT 5 VALUE OUT 6 OUT 6 STATUS OUT 6 VALUE OUT 7 OUT 7 STATUS OUT 7 VALUE OUT 8 OUT 8 STATUS OUT 8 VALUE Configuration Mode Block MODE BLK TARGET MODE BLK ACTUAL MODE BLK PERMITTED MODE BLK NORMAL CHANNEL MAO DD Menu structure MAO FB Top menu Block Info TAG_DESC STRATEGY ALERT KEY Mode Block MODE BLK TARGET MODE BLK ACTUAL MODE BLK PERMITTED MODE BLK NORMAL Dynamic variables 1 IN 1 STATUS IN 1 VALUE IN 2 2 STATUS IN 2 VALUE IN 3 IN 3 STATUS IN 3 VALUE IN 4 IN 4 STATUS IN 4 VALUE IN 5 IN 5 STATUS IN 5 VALUE IN 6 IN 6 STATUS IN 6 VALUE IN 7 IN 7 STATUS IN 7 VALUE IN 8 IN 8 STATUS IN 8 VALUE Configuration Mode Block MODE BLK TARGET MODE BLK ACTUAL MODE BLK PERMITTED MODE BLK NORMAL CHANNEL Options MO OPTS Failsafe FSTATE TIME FSTATE VAL1 FSTATE VAL2 FSTATE VAL3 FSTATE VAL4 FSTATE VAL5 FSTATE VAL6
20. CH2 CH2 HEATER TEMP CH2 CJ TEMP TC VOLT CH2 CH2 CH2 CJ VOLT CH2 CELL RESISTANCE CH2 CJ_RESISTANCE CH2 ZERO CAL COEFF CH2 SPAN CAL COEFF CH2 CH2 CELL ROBUSTNESS HEATER ON TIME CH2 RESPONSE TIME CH2 MIN VALUE MAX VALUE AVE VALE CH2 CH2 CH2 MIN DATE MAX DATE CH2 Ch3 other value CH3 CELL VOLT HEATER TEMP CH3 CH3 CJ TEMP CH3 TC_VOLT CJ VOLT CH3 CH3 CELL RESISTANCE CH3 CH3 CJ RESISTANCE ZERO CAL COEFF CH3 SPAN_CAL_COEFF CH3 CELL ROBUSTNESS CH3 HEATER TIME RESPONSE TIME MIN VALUE CH3 CH3 CH3 MAX_VALUE AVE VALE CH3 CH3 MIN DATE MAX DATE CH3 Ch4 other value CH4 CELL VOLT CH4 CH4 HEATER_TEMP CH4 CJ TEMP TC VOLT CH4 CH4 CJ VOLT CELL RESISTANCE CH4 CH4 CJ RESISTANCE CHA ZERO CAL COEFF CHA CHA SPAN CAL COEFF CELL ROBUSTNESS CHA HEATER ON TIME CH4 RESPONSE TIME CH4 MIN_VALUE VALUE CH4 CH4 AVE VALE MIN_DATE CH4 MAX DATE CHA continued IM 11M12D01 61E 50 Ch5 APPENDIX 7 DD Menu Structere gt other value CH5 CELL VOLT 5 HEATER TEMP CH5 CJ TEMP CH5 TC VOLT CH5 CJ VOLT CH5 CELL RESISTANCE CH5 CJ RESISTANCE CH5 ZERO CAL COEFF CH5 SPAN CAL COEFF CH5 CELL ROBUSTNESS CH5 HEATER ON TIME CH5
21. addresses Unpolled Nodes 0501 Any devices that assigned addresses within the Unused address range Figure 5 1 cannot participate in the Fieldbus The basic device address range is periodically scanned to find any devices that have newly joined the Fieldbus If there are many unused addresses in this range then Fieldbus performance may be severely degraded LM devices waiting for nonexistent devices to respond IM 11M12D01 61E V FUN V FUN V NUN 0x00 lt 5 CONFIGURATION gt 5 3 Unused 946 Bridge device 0x13 0x14 LM devices Unused V NUN Basic devices Default addresses Portable device addresses F0501 ai Figure 5 1 Available Range of Node Addresses For all Link Master LM devices the parameters listed in Table 5 2 are set to ensure stable operation These parameters determine the time each LM device waits for a response and are set so as to allow sufficient for the slowest device on the Fieldbus to respond The values of these parameters for each connected Fieldbus device is defined in its capability file CFF A LM host may check CFF files of connected Fieldbus devices and set these parameters automatically Table 5 2 Operation Parameter Values of AV550G to be Set to LM Device Symbol Parameter name Description and value V ST Slot Time Time interval required to send a message expressed as a multip
22. failure Ay NOTE Draws attention to information essential for understanding the operation and features After sales Warranty Do not modify the product During the warranty period for repair under warranty carry or send the product to the local sales representative or service office Yokogawa will replace or repair any damaged parts and return the product to you Before returning a product for repair under warranty provide us with the model name and serial number and a description of the problem Any diagrams or data explaining the problem would also be appreciated f we replace the product with a new one we won t provide you with a repair report Yokogawa warrants the product for the period stated in the pre purchase quotation Yokogawa shall conduct defined warranty service based on its standard When the customer site is located outside of the service area a fee for dispatching the maintenance engineer will be charged to the customer e Inthe following cases customer will be charged repair fee regardless of warranty period Failure of components which are out of scope of warranty stated in instruction manual Failure caused by usage of software hardware or auxiliary equipment which Yokogawa did not supply Failure due to improper or insufficient maintenance by user Failure due to modification misuse or outside of specifications operation which Yokogawa does not authorize Failure due to p
23. naaa 5 10 5 6 4 Al Function Block Parameters 2 5 19 5 6 5 Transducer Block Parameters sss 5 19 5 6 6 DI Function Block 5 20 5 6 7 MAI Function Block Parameters 5 21 5 6 8 MAO Function Block Parameters 5 21 6 IN PROCESS OPERATION secca uta guxka nas a peu cu cx nnn cx pap qUu cua asy au nannan 6 1 6 1 TRANSITION eee 6 1 6 2 Generation of Alarm or Error 6 1 6 2 1 EELE E p 6 1 6 2 2 Alarms and Events 6 1 6 3 Simulation Function 6 2 T ome 7 1 8 22222 8 1 8 1 Standard 2 1 8 1 8 2 5 2 0220 8 1 APPENDIX 1 LIST OF PARAMETERS FOR EACH OF AV550G A 1 1 1 Resource Blok 1 1 2 Al Function BIock 5 o cornu tn ocean oer 4 1 3 Hg cm 6 1 4 DI Function
24. 15 6015 6115 CHANNEL 4 011 5 The channel number of the transducer block s logical 5 DI2 hardware channel connected to this block This parameter is always fixed for the DI block of the AV550G 16 6016 6116 PV FTIME 0s AUTO Sets the time constant of damping for D 17 6017 6117 FIELD VAL D The status of the limit switch signal transferred from the transducer block 18 6018 6118 UPDATE EVT Shows the contents of an update event a change to the setpoint upon occurrence 19 6019161191 BLOCK_ALM Shows the contents of a block alarm upon occurrence 20 6020 6120 ALARM SUM 0 AUTO Indicates the current alarm statuses 21 6021 6121 ACK OPTION Oxffff Unack AUTO Selects whether alarms associated with the block will be automatically acknowledged 22 6022 6122 DISC PRI 0 AUTO Sets the alarm priority level 23 6023 6123 DISC 0 AUTO Indicates the status of the input for the discrete alarm 24 6024 6124 pisC ALM Indicates the status related to the discrete alarm TAO0104 1 ai IM 11M12D01 61E 14 APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK OF AV550G gt A1 5 MAI Function Block Relative Index Parameter Name Factory Default Write Mode Explanation Index 0 9000 Block Header TAG MAH Block Tag Information on this block such as Block Tag DD Revision 0 5 and Execution 1 9001 ST_
25. 2 2 TAG_DESC 2 TAG DESC 3 STRATEGY 2 STRATEGY 2 4 ALERT_KEY 1 4 ALERT_KEY 1 5 MODE 4 4 5 4 4 6 BLOCK_ERR 2 2 6 BLOCK_ERR 2 2 7 5 5 7 2 2 8 5 5 2 2 9 SIMULATE 9 SIMULATE D 10 SCALE T 10 STATE 2 11 OUT_SCALE 11 11 OUT_STATE 2 12 GRANT_DENY 2 12 GRANT DENY 2 13 10 OPTS 2 13 10 OPTS 2 14 STATUS_OPTS 2 14 STATUS OPTS 2 15 CHANNEL 2 15 CHANNEL 2 16 1 TYPE 1 16 4 17 LOW CUT 4 17 FIELD VAL D 2 2 18 18 UPDATE EVT 19 FIELD_VAL 5 5 19 BLOCK ALM 20 UPDATE_EVT 20 ALARM SUM 8 8 21 BLOCK 21 OPTION 2 22 ALARM SUM 8 8 22 DISC PRI 1 23 OPTION 23 DISC LIM 1 24 ALARM HYS 24 DISC 25 HI PRI 1 26 HI HI LIM 4 Total bytes 22 8 22 19 27 PRI 1 28 4 29 LO PRI 1 30 LO 4 31 LO LO PRI 1 32 LO LO LIM 4 33 HIHI 34 HLAM 35 LO ALM 36 LO LO ALM Total bytes 31 26 31 46 T0513 ai IM 11M12D01 61E 5 18 lt 5 CONFIGURATION gt Table 5 15 View Objects for MAI Function Block Table 5 16 View Objects for MAO Function Block Relative Parameter VIEW1 VIEW2 VIEWS VIEW4 Relative Parameter VIEW1 VIEW2 VIEWS VIEW4 Index Mnemonic Index Mnemonic 1 ST_REV 2 1
26. Abnormal device revision 32773 Abnormal vendor specification version 32774 Abnormal number of modules 32775 Abnormal number of bytes in module 1 32776 Abnormal number of bytes in module 2 32777 Device error in module 1 32778 Checksum error in module 1 32779 Checksum error in file 32780 Unused 32781 Write prohibited area in FlashROM 32782 Verification error during FlashROM writing 32783 Polling error during FlashROM erasing 32784 Polling time out during FlashROM erasing 32785 Polling error during FlashROM writing 32786 Polling time out during FlashROM writing 32787 FlashROM driver undefined number error 32788 File endcode error 32789 File type error UPDATE ORIGINAL 32790 FlashROM driver undefined number error 32791 On start state error other than DWNLD NOT READY 32792 Start segment error in module 1 32793 Binary file error 32794 Binary file error 32795 Device error in module 2 32796 Detection of EEPROM state other than backup after activation 32797 Checksum error in module 2 32798 Not in DWNLD READY state when receiving GenericDomainlnitiate 32799 Not in DWNLD OK state when receiving GenericDomainTerminate 32800 Not in DOWNLOADING state when receiving GenericDomainSegment 32801 Firmware error 32802 Abnormal number of change in EEPROM 32803 Abnormal change address in EEPROM 32804 Control number error 32805 Abnormal length of change data for EEPROM 36863 Unused IM 11M12D01 61E TA0104 ai 0103
27. CH3_TC_VOLT 83 CH3_CJ_VOLT 84 CH3_CELL_RESISTANCE 85 CH3_CJ_RESISTANCE 86 CH3_ZERO_CAL_COEFF A A Continued on next page IM 11M12D01 61E lt 5 CONFIGURATION gt 5 13 Continued next page Index Parameter Mnemonic VIEW1 VIEW2 VIEW3 VIEW3 VIEWS3 VIEW3 VIEW3 VIEW3 VIEW3 VIEW3 VIEW3 VIEW3 VIEW4 ist 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 87 SPAN CAL COEFF 88 CELL ROBUSTNESS 89 HEATER ON TIME 90 CH3 RESPONSE TIME 91 MIN VALUE 92 MAX VALUE 93 AVE VALUE 94 MIN DATE 95 CH3 MAX DATE 96 CH4 CELL VOLT 4 97 CH4 HEATER TEMP 4 98 CH4 CJ TEMP 4 99 CH4 TC VOLT 4 100 CH4 CJ VOLT 4 101 CELL RESISTANCE 4 102 CH4 CJ RESISTANCE 4 103 CH4 ZERO CAL COEFF 4 104 SPAN CAL COEFF 4 105 CH4 CELL ROBUSTNESS 1 106 HEATER ON TIME 107 RESPONSE TIME 108 4 MIN VALUE 109 MAX VALUE 110 AVE VALUE 111 CH4 MIN DATE 112 4 MAX DATE 118 CH5 CELL VOLT 4 114 CH5 HEATER TEMP 4 115 CH5 CJ TEMP 4 116 5 TC VOLT 4 117 5 CJ VOLT 4 118 CH5 CELL RESISTANCE 4 119 CH5 CJ RESISTANCE 4 120 CH5 ZERO CAL COEFF 4 121 5 SPAN CAL COEFF
28. DI Function Block 1 not scheduled Shows that DI function block 1 is not yet scheduled 0x00000080 DI Funcion Shows that DI function block 1 is SIMULATE state 0x00000040 DI Function Block 1 in Manual mode Shows that DI function block 1 is in the Manual mode 0x00000020 DI Function Block 1 in O S mode Shows that DI function block 1 is in the O S mode 0x00000008 DI Function Block 2 not scheduled Shows that DI function block 2 is not yet scheduled 0 00000004 Shows that DI function block 2 is a SIMULATE state 0x00000002 DI Function Block 2 in Manual mode Shows that DI function block 2 is in the Manual mode 0x00000001 DI Function Block 2 in O S mode Shows that DI function block 2 is in the O S mode IM 11M12D01 61E 7 2 lt 7 DEVICE STATUS gt Table 7 4 Contents of DEVICE STATUS 4 Index 1048 Hexadecimal Representation Reading when DD Is Downloaded Description 0x00000020 MAO Function Block 1 not scheduled Shows that MAO function block 1 is not yet scheduled 0x00000010 MAO Function Block 1 in O S mode Shows that MAO function block 1 is in the O S mode 0x00000004 MAI Function Block 1 not scheduled Shows that MAI function block 1 is not yet scheduled 0x00000002 MAI Function Block 1 in Manual mode Shows that MAI function block 1 is in the Manual mode 0x00000001 IM 11M12D01 61E MAI Function Block 1 in O S mode Shows that MAI func
29. FSTATE VAL7 FSTATE VAL8 APPENDIX 7 DD Menu Structere gt 47 Diagnostics Alerts BLOCK_ERR FSTATE STATUS Alert Parameters BLOCK ALM BLOCK ALM UNACKNOWLEDGED BLOCK ALM ALARM STATE BLOCK ALM TIME STAMP BLOCK ALM SUB CODE BLOCK ALM VALUE UPDATE EVT UPDATE EVT UNACKNOWLEDGED UPDATE EVT UPDATE STATE UPDATE EVT TIME STAMP UPDATE EVT STATIC REVISION UPDATE EVT RELATIVE INDEX Query Device Standard parameters Parameters not covered by category Block Header ST REV IM 11M12D01 61E 48 AV550G structure Block Info TAG DESC STRATEGY ALERT_KEY TRANSDUCER_DIRECTORY TRANSDUCER_TYPE Mode Block MODE BLK TARGET MODE BLK ACTUAL MODE BLK PERMITTED MODE BLK NORMAL Dynamic Variables PRIMARY VALUE 1 PRIMARY VALUE 1 STATUS PRIMARY VALUE 1 VALUE PRIMARY VALUE 2 PRIMARY VALUE 2 STATUS PRIMARY VALUE 2 VALUE PRIMARY VALUE 3 PRIMARY VALUE 3 STATUS PRIMARY VALUE 3 VALUE ALARM SW VALUE D ALARM SW VALUE D STATUS ALARM SW VALUE D VALUE ERROR SW VALUE D ERROR SW VALUE D STATUS ERROR SW VALUE D VALUE Primary Value 1 info PV1 MIN VALUE PV1 MAX VALUE PV1 AVE VALUE PV1 MIN DATE PV1 MAX DATE Primary Value 2 info PV2 MIN VALUE PV2 MAX VALUE PV2 AVE VALUE PV2 MIN DATE PV2 MAX DATE Primary Value 3 info PV3 MIN VALUE PV3 MAX VALUE PV3 AVE VALUE PV3 MIN DATE PV3 MAX DATE Configuration Calibration Mode Block
30. MODE BLK TARGET MODE BLK ACTUAL MODE BLK PERMITTED MODE BLK NORMAL General PRIMARY VALUE 1 TYPE PRIMARY VALUE 2 TYPE PRIMARY VALUE 3 TYPE PRIMARY VALUE 1 RANGE PRIMARY VALUE 1 RANGE EU100 PRIMARY VALUE 1 RANGE EUO PRIMARY VALUE 1 RANGE UNITS INDEX PRIMARY VALUE 1 RANGE DECIMAL POINT APPENDIX 7 DD Menu Structere gt IM 11M12D01 61E PRIMARY VALUE 2 RANGE PRIMARY VALUE 2 RANGE EU100 PRIMARY VALUE 2 RANGE EUO PRIMARY VALUE 2 RANGE UNITS INDEX PRIMARY VALUE 2 RANGE DECIMAL POINT PRIMARY VALUE 3 RANGE PRIMARY VALUE 3 RANGE EU 100 PRIMARY VALUE 3 RANGE EUO PRIMARY VALUE 3 RANGE UNITS INDEX PRIMARY VALUE 3 RANGE DECIMAL POINT PRIMARY VALUE 1 USE CH PRIMARY VALUE 2 USE CH PRIMARY VALUE 3 USE CH Display Setup USE NO IN UNIT IN DISPLAY FORMAT Command Semiauto Calib CH1 SEMIAUTO CAL START CH2 SEMIAUTO CAL START SEMIAUTO CAL START CH4 SEMIAUTO CAL START CH5 SEMIAUTO CAL START CH6 SEMIAUTO CAL START 7 SEMIAUTO CAL START CH8 SEMIAUTO CAL START Indication CH1 INDICATION START CH2 INDICATION START CH3 INDICATION START CH4 INDICATION START CH5 INDICATION START CH6 INDICATION START CH7 INDICATION START CH8 INDICATION START BLOWBACK START CAL GAS PRESS DROP SW PROCESS GAS ALARM SW Sensor info REMOVE ALARM CH Detctor CH1_DETC CH2 DETC CH3 DETC CH4 DETC CH5 DETC CH6 DETC
31. ST_REV 2 2 2 2 2 TAG_DESC 2 TAG_DESC 3 STRATEGY 3 STRATEGY 2 4 ALERT_KEY 4 ALERT_KEY 1 5 MODE_BLK 4 5 MODE_BLK 4 4 6 BLOCK_ERR 2 6 BLOCK_ERR 7 CHANNEL 7 CHANNEL 2 8 OUT_1 5 8 1 9 OUT_2 5 9 2 10 OUT_3 5 10 3 11 OUT_4 5 11 4 12 OUT_5 5 12 5 13 OUT_6 5 13 IN 6 14 OUT 7 5 14 IN 7 5 5 15 OUT 8 5 15 IN 8 5 5 16 UPDATE EVT 16 MO OPTS 2 17 BLOCK ALM 17 FSTATE TIME 4 Total bytes 48 2 48 7 18 FSTATE VAL1 4 19 FSTATE VAL2 4 20 FSTATE VAL3 4 21 FSTATE_VAL4 4 22 FSTATE_VAL5 4 23 FSTATE_VAL6 4 24 FSTATE_VAL7 4 25 FSTATE_VAL8 4 26 FSTATE STATUS 2 2 27 UPDATE EVT 28 BLOCK ALM Total bytes 50 2 50 45 Table 5 17 View Indexes for Each Resource Block VIEW1 VIEW2 VIEW3 VIEW4 Resource block 40100 40101 40102 40103 Transducer block 40200 40201 40202 40203 function block 40400 40401 40402 40403 Al2 function bloc 40410 40411 40412 40413 function block 40420 40421 40422 40423 DI1 function block 40600 40601 40602 40603 DI2 function block 40610 40611 40612 40613 MAI function block 40900 40901 40902 40903 MAO function block 41000 41001 41002 41003 IM 11M12D01 61E lt 5 CONFIGURATION gt 5 19 5 6 4 Al Function Block Parameters Parameters of the three Al function blocks can be read and written from the host For a list of block parameters in each AV550G refer to Appendix 1 List of Parameters for Each Block of AV550G The following describes imp
32. The number of devices that can be connected to a single bus and the cable length vary depending on system design When constructing systems both the basic and overall design must be carefully considered to achieve optimal performance IM 11M12D01 61E lt 4 GETTING STARTED gt 4 1 4 GETTING STARTED Fieldbus is a wholly digital communications protocol and so differs from the conventional 4 to 20 mA analog loop It is recommended that new users try the Fieldbus familiarization exercises described in this section It is expected that these can be done in a laboratory or the like 4 1 Connection of Devices The following equipment is required for a Fieldbus laboratory setup Power supply Fieldbus requires a special power supply You cannot use ordinary unmodified DC power supplies It is recommended that you choose one with sufficient capacity to supply the maximum current demand of all devices to be connected including the host Terminator Fieldbus requires two terminators Sometimes these are supplied with the host so please check with the supplier of the host Fieldbus devices CAUTION Be sure to read Section 5 1 1 Wiring Precautions in the User s Manual of the AV550G Zirconia Oxygen Analyzer Averaging Converter Connect the Fieldbus version of the 5500 You can connect several devices e g multiple 550 converters and other Fieldbus devices The Fieldbus function of the AV550G is powered by th
33. VIEW4 ist 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 178 CH8 CELL ROBUSTNESS 1 174 8 HEATER ON TIME 4 175 CH8 RESPONSE TIME 4 176 8 MIN VALUE 4 177 CH8 MAX VALUE 4 178 8 AVE VALUE 4 179 8 MIN DATE 7 180 8 MAX DATE 7 181 SMART CALIB DATE 7 182 CH2 SMART CALIB DATE 7 183 CH3 SMART CALIB DATE 7 184 SMART CALIB DATE 7 185 5 SMART CALIB DATE 7 186 6 SMART CALIB DATE 7 187 CH7 SMART CALIB DATE 7 188 8 SMART CALIB DATE 7 189 SEMIAUTO CAL START 1 190 2 SEMIAUTO CAL START 1 191 SEMIAUTO CAL START 1 192 SEMIAUTO CAL START 1 193 5 SEMIAUTO CAL START 1 194 CH6 SEMIAUTO CAL START 1 195 CH7 SEMIAUTO CAL START 1 196 8 SEMIAUTO CAL START 1 197 CH1 INDICATION START 1 198 2 INDICATION START 1 199 CH3 INDICATION START 1 200 INDICATION START 1 201 5 INDICATION START 1 202 CH6 INDICATION START 1 203 INDICATION START 1 204 CH8_INDICATION_START 1 205 BLOWBACK START 1 206 CAL GAS PRESS DROP SW 1 207 PROCESS GAS ALARM SW 1 208 CH1 DETC 1 209 CH2 DETC 1 210 CH3 DETC 1 211 CH4 DETC 1 212 CH5 DETC 1 213 CH6 DETC 1 214 CH7 DETC 1 215 CH8 DETC 1 Continued on next page IM 11M12D01 61E 5 16 lt 5 CONFIGURATION gt
34. and this will temporarily halt fieldbus communication and function block executions A6 3 Preparations for Software Downloading For software downloading you need to prepare the following Software download tool Software binary file for each of the target field devices For the software download tool use only the specific program For details see the User s Manual of download tool For information about updates of software binary files for field devices and how to obtain them visit the following web site http www yokogawa com an download an dlfieldbus 001en htm AN CAUTION Avoid linking the software download tool to a fieldbus segment as this may adversely affect the plant operation IM 11M12D01 61E lt APPENDIX 6 SOFTWARE DOWNLOAD gt A 35 A NOTE The download tool can not execute downloading during other system connects to the system network management VFD of the device 6 4 Flow of Software Download The flowchart below outlines the software download procedure Although the time taken for the entire procedure varies depending on the size of the field bus device s software it will take about 20 minutes for a one to one connection between a fieldbus device and download tool and longer when multiple field devices are connected to the fieldbus Start download tool y Select file s Select the software file s you want to download v Select device s Select the device s to which you want to do
35. are in Fault State IM 11M12D01 61E 6 IN PROCESS OPERATION gt 6 1 6 IN PROCESS OPERATION This section describes AV550G function block mode transitions and status changes during operation 6 1 Mode Transition If the function block mode is changed from Auto to O S Out Of Service the function block is stopped and a block alarm is generated If the function block mode is changed from Auto to Manual the function block stops updating output values In this case it is possible to write desired output values to the OUT parameter However the status of parameters cannot be changed 6 2 Generation of Alarm or Error Status 6 2 1 AV550G Alarms If the AV550G self diagnostic functions detect an abnormality in the AV550G a device alarm is generated by the resource block If an abnormality block error or process value abnormal alarm is detected the corresponding block generates an alarm 6 2 2 Alarms and Events An AV550G can report the following alarms or events as alerts Analog Alerts Generated when a process value exceeds threshold By AI 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 AI Block Block Alarm By DI Block Block Alarm By MAI Block Block Alarm By MAO Block Block Alarm Update Alerts Generated when a important restorable parameter is updated B
36. change to the static data 21 4021 4121 4221 BLOCK ALM The block alarm is used for all configuration hardware connection failure or system problems in the block The cause of the alert is entered in the subcode field The first alert to become active will set the Active status in the Status attribute As soon as the Unreported status is cleared by the alert reporting task another block alert may be reported without clearing the Active status if the subcode has changed 22 4022 4122 4222 ALARM SUM The current alert status unacknowledged states unreported states and disabled states of the alarms associated with the function block 23 4023 4123 4223 OPTION Oxffff AUTO Selection of whether alarms associated with the block will be automatically acknowledged 24 4024 4124 4224 ALARM HYS 0 5 AUTO Amount the PV must return within the alarm limits before the alarm condition clears Alarm Hysteresis is expressed as a percent of the PV span 0 to 50 25 4025 4125 4225 HI PRI 0 AUTO Priority of the high high alarm 0 1 3 to 15 26 4026 4126 4226 HI 1 INF AUTO The setting for high high alarm in engineering units Note 1 27 4027 4127 4227 PRI 0 Priority of the high alarm 0 1 3 to 15 28 4028 4128 4228 HI 1 INF AUTO The setting for high alarm in engineering units Note 1 29 4029 4129 4229 LO PRI 0 AUTO Priority of the low alarm 0 1 to 15 30 4030 41
37. identification number of the plant unit This information may be used in the host for sorting alarms 5 6005 6105 MODE 0 5 actual target permitted and normal modes of the block 6 6006 6106 BLOCK_ERR Indicates the error statuses related to the block itself 7 6007 6107 PV D primary discrete value or process value for execution of the block s functions 8 6008 6108 OUT D MAN Indicates the value and status of block s output 9 1 6009 6109 SIMULATE D Disabled AUTO Allows use of values manually set instead of the limit switch input from the transducer block When Disable is set for this value the block reflects the actual input value and status 1 Disabled 2 Active 10 6010 6110 STATE 0 Not used in a AV550G 11 6011 6111 OUT STATE 0 Not used in a AV550G 12 6012 16112 GRANT DENY 0 AUTO Option to control access from the host computer and local control panel to tuning and alarm parameters Before write access to a parameter set the GRANT bit in this parameter to have the operation right to be granted Then after write access check the DENY bit in this parameter If the write access is complete successfully it is not ON 13 6013 6113 OPTS 0 O S Sets the block input output options 14 6014 6114 STATUS OPTS 0 O S Defines block actions depending on block status conditions For DI blocks of a AV550G only bit O Invert on off state inversion is effective
38. mode consists of the following four modes that are controlled by the universal parameter that displays the running condition of each block Target Sets the operating condition of the block Actual Indicates the current operating condition Permit Indicates the operating condition that the block is allowed to take Normal Indicates the operating condition that the block will usually take Note 2 The followings are the operating conditions which the individual blocks will take Al Function Block Transducer Block Resource Block DI Function Block Automatic Auto Manual Man Out of Service O S TA0202 ai Note Refer to Appendix 1 List of parameters for each block of the AV550G for details of the Write Mode for each block A2 3 Setting the Al Function Blocks Each AV550G contains three Al function blocks having independent parameters Set up the parameters of each Al block you use individually as necessary The Al block performs the averaging oxygen concentration output calculation 1 1 Setting the calibration range Access the XD_SCALE parameter Set the required unit in Unit Index of XD SCALE Set the upper range limit in EU at 10096 of XD SCALE Set the lower range limit in EU at 096 of XD SCALE Set the decimal point position in Decimal Point of XD SCALE FA0202 ai IM 11M12D01 61E 18 lt APPENDIX 2 APPLICATION SETTING AND CHANGE OF BASIC PARAMETERS gt Example To measure 0 to 1
39. off Use the M4 screw terminal Control Card 1 2 3 4 5 2 Conductors 6 7 8 9 Common Mode Filter 5 cm max Shield Wiring Hole Fig 2 Host This is a PC used to access the Fieldbus devices In a control system the host would normally be a DCS or the like but in a test setup we can use a Fieldbus communications software tool running on a PC for the host We won t describe the operation of the host software in detail here refer to its Instruction Manual IM 11M12D01 61E lt 4 GETTING STARTED gt 4 3 Cable This is used to interconnect the Fieldbus devices Refer to the Fieldbus Overview TI 38K03A01 01E for a description In a test setup a total length of 2 3m is sufficient and we can use simple cabling wire with crosssectional area of at least 0 9mm run as twisted pair with twist interval of not more than 5 cm 2 inches The termination will need to match the connected devices For the AV550G use wire lugs for M3 5 3 5 mm screw terminals Some devices may require special connectors Yokogawa can provide information as to recommended suppliers Connect the devices as illustrated in Fig 4 1 Terminators should be used on both ends of the trunk and any spur runs off the trunk should be as short as possible Observe correct terminal polarity Fieldbus power supply AV550G HOST Z Terminator F0402 ai Fig 4 1 Connecting the devices Before using a Fieldbus configuratio
40. perform their FSAFE actions 29 1029 SET FSTATE 1 OFF AUTO Allows the fail safe condition to be manually initiated by selecting Set 30 1030 CLR FSTATE 1 OFF AUTO Writing a Clear to this parameter will clear the device fail safe state if the field condition if any has cleared 31 1031 MAX NOTIFY 3 Maximum number of unconfirmed notify messages possible 32 1032 LIM_NOTIFY 3 AUTO Maximum number of unconfirmed alert notify messages allowed 33 1033 CONFIRM TIME 640000 20 s AUTO The minimum time between retries of alert reports 34 1034 WRITE_LOCK Not locked AUTO If set no writes from anywhere are allowed except to clear WRITE_LOCK Block inputs will continue to be updated 1 Not locked 2 Locked 35 1035 UPDATE_EVT This alert is generated by any change to the static data 36 1036 BLOCK_ALM The block alarm is used for all configuration hardware connection failure or system problems in the block The cause of the alert is entered in the subcode field The first alert to become active will set the Active status in the Status attribute As soon as the Unreported status is cleared by the alert reporting task another block alert may be reported without clearing the Active status if the subcode has changed IM 11M12D01 61E TA0101 2 ai APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK OF AV550G gt Relative index Parameter Name Factory Defaut
41. range setup XD_SCALE of Al block Sets the range of input from the transducer block corresponding to the 0 and 100 points in operation within the Al function block The maximum oxygen concentration scale value shown on an order sheet WS 1F6A0 01E is the factory default setting Set four data the unit of the range the input value at the 0 point the input value at the 100 point and the decimal point position Output scale setup OUT_SCALE of Al block Set the scale of output corresponding to the 0 and 100 points in operation within the Al function block It is possible to set a unit and scale that differ from the measurement range Set four data the unit of the scale the output value at the 0 point i e the lower output scale limit the output value at the 100 point i e the upper output scale limit and the decimal point position Output mode setup L_TYPE of Al block Select the calculation function of each Al function block from the following Direct The output of the transducer block is directly output only via filtering without scaling and square root extraction in the range set in XD_SCALE Indirect Proportional scaling is applied to the input to the Al function block and the result is output in the range set in OUT_SCALE IndirectSQRT Square root extraction is applied to the input to the Al function block and the result is output in the range set in OUT_SCALE This setting is not use
42. scheduler There must be at least one LM on a segment When the LAS on a segment has failed another LM on the same segment starts working as the LAS There are 3 LMs on this segment Node address 0x14 SlotTime 5 LM LM Basic device Basic device Basic device Basic device Node address Node address Node address Node address Node address Node address 0x15 0x16 OxF1 OxF2 OxF3 OxF4 SlotTime 5 SlotTime 5 FA0601 ai Figure A5 1 Example of Fieldbus configuration 3 LMs on Same Segment IM 11M12D01 61E lt APPENDIX 5 LINK MASTER FUNCTIONS gt A 25 A5 3 Transfer of LAS There are two procedures for an LM to become the LAS If the LM whose value of V ST 3V TN is the smallest on a segment with the exception of the current LAS judges that there is no LAS on the segment in such a case as when the segment has started up or when the current LAS has failed the LM declares itself as the LAS then becomes the LAS With this procedure an LM backs up the LAS as shown in the following figure TheLM whose value of V ST 3V TN is the smallest on a segment with the exception of the current LAS requests the LAS on the same segment to transfer the right of being the LAS then becomes the LAS In the event that the current LAS in this segment node address 0x14 fails the LM with the address of 0x15 takes its place to become the LAS Node address 0x14 SlotTime 5 LM LM Basic
43. to select resource block options 18 1018 FEATURE SEL lock supported Fault state supported Report supported 19 1019 0x0001 Scheduled Identifies the block execution methods available for this resource 20 1020 CYCLE SEL 0x0001 Scheduled AUTO Used to select the block execution method for this resource Scheduled bit1 Event driven bit2 Manufacturer specified 21 1021 MIN CYCLE T 3200 Time duration of the shortest cycle interval of which the resource is capable 22 1022 MEMORY SIZE 0 Available configuration memory in the empty resource To be checked before attempting a download 23 1023 NV CYCLE T 0 Interval between writing copies of NV parameters to non volatile memory Zero means never 24 1024 FREE SPACE 0 Percent of memory available for further configuration AV550G has zero which means a preconfigured resource 25 1025 FREE TIME 0 Percent of the block processing time that is free to process additional blocks 26 1026 SHED_RCAS 640000 20 s AUTO Time duration at which to give up on computer writes to function block RCas locations 27 1027 SHED_ROUT 640000 20 s AUTO Time duration at which to give up on computer writes to function block ROut locations 28 1028 FAULT_STATE 1 Condition set by loss of communication to an output block failure promoted to an output block or a physical contact When fail safe condition is set Then output function blocks will
44. 00 Set 1342 1 in Units Index of XD_SCALE Set 100 in EU at 100 of XD_SCALE and Set 0 in EU at 0 of XD SCALE 1 2 Setting the output scale Access the OUT SCALE parameter Set the required unit in Unit Index of OUT SCALE Set the output value corresponding to the upper range limit in EU at 10096 of OUT SCALE Set the output value corresponding to the lower range limit in EU at 0 of OUT SCALE Set the decimal point position in Decimal Point of OUT SCALE FA0203 ai Example To set the output range to 0 00 to 100 00 Set 1342 1 in Units Index of OUT_SCALE Set 100 in EU at 100 of OUT_SCALE Set 0 in EU at 0 of OUT SCALE and Set 2 in Decimal Point of OUT SCALE 1 Each unit is expressed using a 4 digit numeric code Refer to Section 5 6 4 Al Function Block Parameters 2 Setting the output mode Access the L TYPE parameter Set the output mode 1 Direct Sensor output value 2 Indirect Linear output value 3 IndirectSQRT Square root extraction output value 1 IndirectSQRT is not used for the AV550G FA0206 ai 3 Simulation Perform simulation of each AI function block by setting the desired value and status of the input to the block REMOTE LOOP TEST SWITCH is written to SIM ENABLE MSG index 1044 parameter of the resource block Access the En Disable element of the SIMULATE parameter to enable simulation 1 Disabled 2 Active Access the SIMULATE Status element of SIMUL
45. 2 ai lt APPENDIX 6 SOFTWARE DOWNLOAD gt A 39 A6 9 View Objects Altered by Software Download 1 Resource Block 0511 Relative parameter Mnemonic VIEW VIEW VIEW VIEW Relative parameter Mnemonic VIEW VIEW VIEW VIEW Index 1 2 3 4 Index 1 2 3 4 1 ST_REV 2 2 2 2 53 SOFTDWN_PROTECT 1 2 TAG_DESC 54 SOFTDWN_FORMAT 1 3 STRATEGY 2 55 SOFTDWN_COUNT 2 4 ALERT_KEY 1 56 SOFTDWN_ACT_AREA 1 5 MODE_BLK 4 57 SOFTDWN_MOD_REV 16 6 BLOCK_ERR 58 SOFTDWN_PROTECT 2 7 RS_STATE 1 1 8 TEST_RW Total bytes 22 30 73 35 9 DD_RESOURCE E 10 MANUFAC D 4 11 DEV TYPE 2 12 DEV REV 1 13 DD REV 1 14 GRANT DENY 2 15 HARD TYPES 2 16 RESTART 17 FEATURES 2 18 FEATURE SEL 2 19 CYCLE TYPE 1 20 CYCLE SEL 1 21 MIN CYCLE T 4 22 MEMORY SIZE 2 23 NV CYCLE T 4 24 FREE SPACE 4 25 FREE TIME 4 4 26 SHED RCAS 4 27 SHED ROUT 4 28 FAIL SAFE 1 1 29 SET FSAFE 30 CLR FSAFE 31 MAX NOTIFY 4 32 LIM NOTIFY 4 33 CONFIRM TIME 4 34 WRITE LOCK 1 35 UPDATE EVT 36 BLOCK ALM 37 ALARM SUM 8 8 38 ACK OPTION 2 39 WRITE PRI 1 40 WRITE ALM 41 ITK VER 42 SOFT REV 43 SOFT DESC 44 SIM ENABLE MSG 45 DEVICE STATUS 1 4 46 DE
46. 2 was calculated 79 2079 CH3 CELL VOLT Denotes the cell electromotive force of the channel 3 detector 80 2080 CH3 HEATER TEMP Denotes the heater temperature of the channel 3 detector 81 2081 CJ TEMP Denotes the cold junction temperature of the channel 3 detector 82 2082 CH3 TC VOLT Denotes the thermocouple electromotive force of the channel 3 detector 83 2083 CH3 CJ VOLT Denotes the cold junction voltage of the channel 3 detector 84 2084 CH3 CELL RESISTANC Denotes the cell resistance of the channel 3 detector E measured during calibration 85 2085 CJ RESISTANCE Denotes the cold junction resistance of the channel 3 detector 86 2086 CH3 ZERO CAL COEFF Denotes the zero point correction factor of the channel 3 detector 87 2087 SPAN CAL COEFF Denotes the span point correction factor of the channel 3 detector 88 2088 CELL ROBUSTNES Denotes the cell service life of the channel 3 detector S 89 2089 CH3 HEATER ON TIME Denotes the power on rate of the channel 3 detector s heater 90 2090 CH3_RESPONSE_TIME Denotes the response time of the channel 3 detector measured during calibration 91 2091 CH3_MIN_VALUE Denotes the minimum oxygen concentration of channel 3 92 2092 CH3_MAX_VALUE Denotes the maximum oxygen concentration of channel 3 93 2093 CH3_AVE_VALUE Denotes the average oxygen concentration of channel 3 94 2094 CH3 MIN DATE Denotes the date and time when the minimum oxygen concentration of channel 3 was calculated
47. 22 PRIMARY VALUE 3 5 5 23 VALUE 3 RANGE 11 25 ALARM SW VALUE D 2 27 IN UNIT 2 A E OE 29 USE IN NO 1 oe S a 81 PV1 VALUE 4 3 i HiESESES 33 PV1 MIN DATE 7 34 PV1 MAX DATE 7 85 PV2 MIN VALUE 4 36 PV2 MAX VALUE 4 See EE DE o 38 PV2 MIN DATE 7 a 1 5 EE 40 MIN VALUE 4 DN een a T S D E 42 PV3 AVE VALUE 4 Pt IM 11M12D01 61E 5 12 lt 5 CONFIGURATION gt Parameter Mnemonic VIEW1 VIEW2 VIEW3 1st VIEW3 2nd VIEWS3 3 rd VIEW3 4th VIEW3 VIEWS3 VIEW3 VIEW3 VIEWS3 VIEW3 VIEW4 5th 6th 7th 8th 9th 10th PV3_MAX_DATE CH1_CELL_VOLT CH1_HEATER_TEMP 1_CJ_TEMP 1_TC_VOLT 1_CJ_VOLT 1 CJ RESISTANCE 1 SPAN CAL COEFF 1 HEATER ON TIME 1 RESPONSE TIME 1 MIN VALUE 1 VALUE 1 AVE VALUE 1 MIN DATE 1 DATE 2 CELL VOLT 2 HEATER TEMP 2 CJ TEMP 2 TC VOLT 2 CJ VOLT 2 CJ RESISTANCE 2 SPAN CAL COEFF 2 HEATER ON TIME 2 RESPONSE TIME 74 2 MIN VALUE 75 2 MAX VALUE 76 2 AVE VALUE 77 CH2 MIN DATE 1 CELL RESISTANCE 1 ZERO CAL COEFF 1 CELL ROBUSTNESS 2 CELL RESISTANCE 2 ZERO CAL COEFF 2 CELL ROBUSTNESS RPP Pe PPP PP PP PP 4 4 4 4 4 4 4 4 4 1 4 4 4 4 4 7 78 2 DATE 7 79 CH3_CELL_VOLT 80 CH3_HEATER_TEMP 81 CH3_CJ_TEMP 82
48. 3 2243 TEST_7 A parameter for internal use only No access allowed 244 2244 TEST 8 A parameter for internal use only No access allowed 245 2245 TEST 9 A parameter for internal use only No access allowed 246 2246 TEST_10 A parameter for internal use only No access allowed 247 2247 TEST_11 A parameter for internal use only No access allowed 248 2248 5 12 A parameter for internal use only No access allowed 249 2249 TEST_13 A parameter for internal use only No access allowed 250 2250 TEST_14 A parameter for internal use only No access allowed IM 11M12D01 61E Appendix1 3 7 ai APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK OF AV550G gt A 13 A1 4 DI Function Block ELM Parameter Name Factory Default iia Explanation 0 1 6000 6100 Block Header Block Tag Information on this block such as the block tag DD O S revision and execution time 1 6001 6101 ST REV 0 The revision level of the static data of the DI block The value of this parameter is incremented each time a static parameter value is changed 2 6002 6102 TAG DESC spaces AUTO The user description of the intended application of the block 3 6003 6103 1 Used by an upper level system to identify grouping of the block Not checked or processed by the block 4 1 6004 6104 ALERT KEY 1 AUTO The
49. 30 4230 LO 1 INF AUTO The setting for the low alarm in engineering units Note 2 31 4031 4131 4231 LO LO PRI 0 AUTO Priority of the low low alarm 0 1 to 15 32 4032 4132 4232 LO LO 1 AUTO The setting of the low low alarm in engineering units Note 2 33 4033 4133 4233 HI HI The status for high high alarm and its associated time stamp 34 4034 4134 4234 The status for high alarm and its associated time stamp 35 4035 4135 4235 LO ALM The status of the low alarm and its associated time stamp 36 4036 4136 4236 LO LO ALM The status of the low low alarm and its associated time stamp Note 1 An intended set value can be written only if Min OUT SCALE EUO OUT_SCALE EU100 lt the intended value lt INF TA0102 2 ai Note 2 An intended set value cannot be written if INF lt the intended value lt Min OUT SCALE EUO OUT_SCALE EU100 IM 11M12D01 61E 6 APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK OF AV550G gt A1 3 Transducer Block Relative Index Parameter Name Factory Write Mode Explanation Index Default 0 2000 Block Header TAG TB Block Tag Information on this block such as Block Tag DD Revision and 0 5 Execution Time 1 2001 ST_REV Represents the revision level of setting p
50. 4 122 CH5 CELL ROBUSTNESS 1 123 CH5 HEATER ON TIME 124 CH5 RESPONSE TIME 125 5 MIN VALUE 126 CH5 MAX VALUE 127 5 AVE VALUE 128 5 MIN DATE 129 CH5 MAX DATE IM 11M12D01 61E 5 14 lt 5 CONFIGURATION gt Parameter Mnemonic VIEW1 VIEW2 VIEW3 VIEWS VIEWS VIEWS VIEWS VIEW3 VIEW3 VIEW3 VIEW3 VIEW4 1st 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 6 CELL VOLT 6 HEATER TEMP 6 CJ TEMP 6 TC VOLT 6 CJ VOLT 6 CELL RESISTANCE 6 CJ RESISTANCE 6 ZERO CAL COEFF 6 SPAN CAL COEFF 6 CELL ROBUSTNESS 6 HEATER ON TIME 6 RESPONSE TIME 6 MIN VALUE 6 MAX VALUE 6 AVE VALUE 6 MIN DATE 6 MAX DATE 7 CELL VOLT 7 HEATER TEMP 7 CJ TEMP 7 TC VOLT 7 CJ VOLT 7 CELL RESISTANCE 7 CJ RESISTANCE 7 ZERO CAL COEFF 7 SPAN CAL COEFF 7 CELL ROBUSTNESS 7 HEATER ON TIME 7 RESPONSE TIME 7 MIN VALUE 7 MAX VALUE 7 AVE VALUE 7 MIN DATE 7 MAX DATE 8 CELL VOLT 8 HEATER TEMP 8 CJ TEMP 8 TC VOLT 8 CJ VOLT 8 CELL RESISTANCE 8 CJ RESISTANCE 8 ZERO CAL COEFF 172 CH8 SPAN CAL COEFF 4 Continued on next page BEE IM 11M12D01 61E lt 5 CONFIGURATION gt 5 15 Index Parameter Mnemonic VIEW1 VIEW2 VIEWS VIEW3 VIEW3 VIEWS VIEW3 VIEW3 VIEW3 VIEW3 VIEW3 VIEW3
51. 6 58 SOFTDWN_PROTECT Relative parameter Mnemonic VIEW VIEW VIEW VIEW Index 1 2 1 ST_REV 2 2 2 TAG_DESC 3 STRATEGY 4 ALERT_KEY 5 MODE_BLK 6 BLOCK_ERR 7 RS_STATE 1 8 TEST_RW 9 DD_RESOURCE 10 MANUFAC_ID 11 DEV_TYPE 12 DEV_REV 13 DD_REV 14 GRANT_DENY 2 15 HARD_TYPES 16 RESTART 17 FEATURES 18 FEATURE_SEL 2 19 CYCLE_TYPE 20 CYCLE_SEL 1 21 22 MEMORY_SIZE 23 NV_CYCLE_T 24 FREE_SPACE 25 FREE_TIME 4 26 SHED_RCAS 27 SHED_ROUT 28 FAIL_SAFE 1 1 29 SET_FSAFE 30 CLR_FSAFE Total bytes 22 30 73 35 IM 11M12D01 61E T0511 ai lt 5 CONFIGURATION gt Table 5 12 View Objects for Transducer Block 5 11 Continued on next page Index Parameter Mnemonic VIEW1 VIEW2 VIEW3 VIEWS VIEWS VIEW3 VIEW3 VIEW3 VIEW3 VIEW3 VIEW VIEWS VIEW4 ist 2nd 4th 5th 6th 7th 8th 9th 10th 2 TAG DESC Euer rS 4 ALERT KEY 1 ee OG E 6 BLOCK_ERR 2 2 0 8 BLOCK_ALM SELECT SEN d E EE E E 10 TRANSDUCER TYPE 2 2 2 2 A E E 12 COLLECTION DIRECTORY 14 PRIMARY VALUE 1 5 5 16 PRIMARY VALUE 1 USE CH 17 PRIMARY VALUE 2 TYPE 18 PRIMARY VALUE 2 19 PRIMARY VALUE 2 RANGE 11 __ _ 21 PRIMARY VALUE 3 TYPE 2
52. ACH BLOCK AV550G gt 65 2065 CH2_TC_VOLT Denotes the thermocouple electromotive force of the channel 2 detector 66 2066 CH2_CJ_VOLT Denotes the cold junction voltage of the channel 2 detector 67 2067 CH2_CELL_RESISTANC Denotes the cell resistance of the channel 2 detector E measured during calibration 68 2068 CH2 CJ RESISTANCE Denotes the cold junction resistance of the channel 2 detector 69 2069 CH2 ZERO CAL COEFF Denotes the zero point correction factor of the channel 2 detector 70 2070 CH2 SPAN CAL COEFF Denotes the span point correction factor of the channel 2 detector 71 2071 CH2 CELL ROBUSTNES Denotes the cell service life of the channel 2 detector S 72 2072 CH2 HEATER ON TIME Denotes the power on rate of the channel 2 detector s heater 78 2073 CH2_RESPONSE_TIME Denotes the response time of the channel 2 detector measured during calibration 74 2074 CH2 MIN VALUE Denotes the minimum oxygen concentration of channel 2 75 2075 CH2 MAX VALUE Denotes the maximum oxygen concentration of channel 2 76 2076 CH2 AVE VALUE Denotes the average oxygen concentration of channel 2 77 2077 CH2 MIN DATE Denotes the date and time when the minimum oxygen concentration of channel 2 was calculated 78 2078 CH2 MAX DATE Denotes the date and time when the maximum oxygen concentration of channel
53. ARGET MODE_BLK ACTUAL MODE_BLK PERMITTED MODE_BLK NORMAL CHANNEL PV_FTIME 5 STATUS OPTS Diagnostics Alerts BLOCK ERR Alert Parameters BLOCK ALM BLOCK ALM UNACKNOWLEDGED BLOCK ALM ALARM STATE BLOCK ALM TIME STAMP BLOCK ALM SUB CODE BLOCK ALM VALUE ALARM SUM ALARM SUM CURRENT ALARM SUM UNACKNOWLEDGED ALARM SUM UNREPORTED ALARM SUM DISABLED ACK OPTION DISC PRI DISC DISC UNACKNOWLEDGED ALARM STATE BLOCK ALM TIME STAMP SUB CODE VALUE UPDATE EVT UPDATE EVT UNACKNOWLEDGED APPENDIX 7 DD Menu Structere gt UPDATE EVT UPDATE STATE UPDATE EVT TIME STAMP UPDATE EVT STATIC REVISION UPDATE EVT RELATIVE INDEX Others SIMULATE D GRANT DENY GRANT DENY GRANT GRANT_DENY DENY Query Device Standard parameters Parameters not covered by category Block Header ST_REV XD_STATE OUT_STATE A 45 IM 11M12D01 61E 46 MAI DD Menu structure lt APPENDIX 7 DD Menu Structere gt IM 11M12D01 61E MAI FB Top menu Block Info Diagnostics Alerts TAG_DESC BLOCK_ERR STRATEGY Alert Parameters ALERT_KEY BLOCK_ALM Mode Block BLOCK_ALM UNACKNOWLEDGED MODE_BLK TARGET
54. ATE and set the desired status code Access the SIMULATE Value element of SIMULATE and set the desired input value FA0207 ai IM 11M12D01 61E APPENDIX 2 APPLICATION SETTING AND CHANGE OF BASIC PARAMETERS A 19 If simulation is enabled Al block uses SIMULATE Status and SIMULATE Value as the input and if disabled the Al block uses Transducer Status and Transducer Value as input Refer to Section 6 3 Simulation Function A2 4 Setting the DI Function Blocks DI function blocks output switch signals received from the transducer block Two DI blocks DI1 and DI2 in each AV550G have independent parameters Set up the parameters of each Al block you use individually as necessary The following shows the DI setting procedure as an example 1 Setting the channel The CHANNEL parameter of the DI block which specifies the switch number of the transducer s switch to be input to DI DI1 4 DI2 5 for a AV550G 2 Setting the damping time constant Access the PV FTIME parameter and set the damping time constant in units of seconds 3 Simulation Perform simulation of each AI function block by setting the desired value and status of the input to the block Access the SIMULATE D parameter and change the values of its elements as follows REMOTE LOOP TEST SWITCH is written to SIM ENABLE MSG index 1044 parameter of the resource block Change value of the En Disable element of SIMULATE D 1 Disabled 2 Active Access the SIM
55. AV550G is Others 11 2011 XD_ERROR 0 Denotes the highest priority subcode for an error that occurs to the transducer block among the following subcodes 0 Normal 20 Electronics failure 21 Mechanical failure 22 I O failure 12 2012 COLLECTION DIRECT 3 2013 Stores the item IDs of DD corresponding to the indexes of ORY 0x30002 important parameters within the transducer block 2017 0x30006 2021 0x3000a 13 2013 PRIMARY_VALUE_1_T 119 O S Denotes the type of primary 1 quantity The following setting is YPE allowed for the AV550G 119 Oxygen 14 2014 PRIMARY VALUE 1 Denotes the oxygen concentration of averaging A 15 2015 PRIMARY_VALUE_1_R 1342 100 0 Denotes the range of averaging A ANGE 0 0 2 16 2016 PRIMARY_VALUE_1_U Denotes the channel used to calculate averaging SE_CH 17 2017 PRIMARY VALUE 2 T 119 O S Denotes the type of primary 2 quantity The following setting is YPE allowed for the AV550G 119 Oxygen 18 2018 PRIMARY VALUE 2 Denotes the oxygen concentration of averaging 19 2019 PRIMARY VALUE 2 R 1342 100 0 Denotes the range of averaging B ANGE 0 0 2 20 2020 PRIMARY VALUE 2 U Denotes the channel used to calculate averaging SE_CH 21 2021 PRIMARY_VALUE_3 119 O S Denotes the type of primary 3 quantity The following setting is TYPE allowed for the AV550G m 119 Oxygen 22 2022 PRIMARY VALUE 3 Denotes the oxygen concentration of averaging 23 2023 PRIMAR
56. CH7 DETC CH8 DETC Calib Date 1 SMART CALIB DATE CH2 SMART CALIB DATE CH3 SMART CALIB DATE CH4 SMART CALIB DATE 5 SMART CALIB DATE CH6 SMART CALIB DATE CH7 SMART CALIB DATE CH8 SMART CALIB DATE continued Soft Revision IPL_SOFT_REV CONTROL_SOFT_REV CH1 SOFT REV CH2 SOFT REV SOFT REV 4 SOFT REV CH5 SOFT REV CH6 SOFT REV 7 SOFT REV CH8 SOFT REV Diagnostics Alerts BLOCK ERR XD ERROR Block Alm BLOCK ALM UNACKNOWLEDGED BLOCK ALM ALARM STATE BLOCK ALM TIME STAMP BLOCK ALM SUB CODE BLOCK ALM VALUE Alarm Sum ALARM SUM CURRENT ALARM SUM UNACKNOWLEDGED ALARM SUM UNREPORTED ALARM SUM DISABLED Update Evt UPDATE EVT UNACKNOWLEDGED UPDATE EVT UPDATE STATE UPDATE EVT TIME STAMP UPDATE EVT STATIC REVISION UPDATE EVT RELATIVE INDEX Sensor Status AV550G STAUS CH1 STAUS CH2 STAUS CH3 STAUS CH4 STAUS CH5 STAUS CH6 STAUS CH7 STAUS CH8 STAUS Measurd Values Ch1 other value CH1 CELL VOLT CH1 HEATER TEMP CH1 CJ TEMP CH1 TC VOLT CH1 CJ VOLT CH1 CELL RESISTANCE CH1 CJ RESISTANCE CH1 ZERO CAL COEFF CH1 SPAN CAL COEFF CH1 CELL ROBUSTNESS CH1 HEATER ON TIME CH1 RESPONSE TIME CH1 MIN VALUE CH1 MAX VALUE CH1 AVE VALE CH1 MIN DATE CH1 MAX DATE APPENDIX 7 DD Menu Structere gt A 49 Ch2 other value CH2 CELL VOLT
57. D SCALE in order to generate an alarm Since the flow is zero a low limit alarm is generated We can confirm if the host receives this alarm If we Confirm Acknowledge this alarm the alarm stops IM 11M12D01 61E 5 lt 5 CONFIGURATION gt 5 1 CONFIGURATION This section describes how to customize the functions and tailor the performance of the AV550G to suit specific applications Because multiple devices are connected to the Fieldbus it is important to take care to consider the network as a whole to eliminate any design defects that might adversely affect the network as a whole The design procedure is as follows 1 Initial network design Determine the devices to be connected to the Fieldbus determine maximum power requirements and ensure that power supply capacity will be sufficient 2 Define network constants Determine Define unique PD tag and node addresses for all devices 3 Define connections communications between function blocks 4 Set any device PD tag and node addresses that need to be changed 5 Set communication settings for connections between function blocks Set links between function blocks and communication parameters 6 Set function block parameters that should be changed from default values These steps are explained below Special purpose configuration tools can greatly simplify and facilitate setup This section covers procedures for setting up basic functions e g for basic Fieldbus devices
58. Function BKCAL_OUT Block Communications need not be scheduled Schedule Scheduled Communication F0503 ai Commu Figure 5 3 Function Block and Communications Scheduling Example When the control period macrocycle is set to more than 4 seconds set the following interval to be more than 196 of the control period Interval between end of block execution and start of sending CD from LAS refer to Sec A6 1 Interval between end of block execution and start of next block execution 5 4 Setting of Tags and Addresses This section explains the procedure for setting AV550G PD tags and node addresses As shown in Fig 5 4 Fieldbus devices may be in any of three states but only in SM OPERATIONAL state at the bottom can the function block be executed If you are changing the PD tags and or node address of an AV550G be sure to revert it to this state UNINITIALIZED Neither tag nor address is set Tag clear Tag setting INITIALIZED Only tag is set Address clear Address setting SM OPERATIONAL Tag and address are defined so the function block can be executed F0504 ai Fig 5 4 PD tag and Node Address related State Transition diagram figure reference Unless specified otherwise at order time factory default settings for the AV550G are for PD tag setting of AV550G and node address of F7 hex 247 To change just the node address setting you can clear the existing nod
59. Gas Pressure Drop Alarm Access the CAL_GAS_PRESS_DROP_SW parameter 1 No alarm issued OFF 2 Alarm in effect ON For example set CAL GAS PRESS DROP SW 206 to 2 to inform the AV550G of a drop in the calibration gas pressure 5 Process Gas Alarm Access the PROCESS GAS ALARM SW parameter 1 No alarm issued OFF 2 Alarm in effect ON For example set PROCESS GAS ALARM SW 207 to 2 to inform the AV550G of a process gas alarm IM 11M12D01 61E 22 APPENDIX 4 FUNCTION DIAGRAMS OF FUNCTION BLOCKS gt APPENDIX 4 FUNCTION DIAGRAMS OF FUNCTION BLOCKS A4 1 Al Function Block Transducer Al OUT FA0401 ai Figure A4 1 Input Output of Al Block Ind Sqr Root Filter CHANNEL PV PV FTIME Indirect i Direct r OUT MODE Alarms HI LO a Figure A4 2 Function Diagram of Al Block A4 2 DI Function Block Transducer o OUT_D FA0403 ai Figure A4 3 Input Output of DI Block Simulate Optional Filter CHANNEL PV D SIMULATE D invert Pv i FIELD VAL D OUT D FA0404 ai Figure A4 4 Function Diagram of DI Block IM 11M12D01 61E lt APPENDIX 4 FUNCTION DIAGRAMS OF FUNCTION BLOCKS gt A4 3 MAI Function Block Fig405 ai Figure A4 5 Input Output of MAI Block OUT INPUT SNAP CHANNEL OF BLOCK TRANSDUCER AL GORITHM BLOCK OUTPUTS Fig406 a
60. IB_DA Denotes the recommended date of channel 175 next TE calibration 182 2182 CH2_SMART_CALIB_DA Denotes the recommended date of channel 275 next TE calibration 183 2183 CH3_SMART_CALIB_DA Denotes the recommended date of channel 375 next TE calibration 184 2184 CH4 SMART CALIB DA Denotes the recommended date of channel 475 next TE calibration 185 2185 CH5 SMART CALIB DA Denotes the recommended date of channel 575 next TE calibration 186 2186 CH6 SMART CALIB DA Denotes the recommended date of channel 675 next TE calibration 187 2187 CH7 SMART CALIB DA Denotes the recommended date of channel 7 s next TE calibration 188 2188 CH8 SMART CALIB DA Denotes the recommended date of channel 8 s next TE calibration 189 2189 CH1 SEMIAUTO CAL S Op AUTO Determines whether to start or stop semi auto calibrating TART channel 1 190 2190 CH2 SEMIAUTO CAL S Op AUTO Determines whether to start or stop semi auto calibrating TART channel 2 191 2191 SEMIAUTO CAL S Op AUTO Determines whether to start or stop semi auto calibrating TART channel 3 192 2192 CH4 SEMIAUTO CAL S Op AUTO Determines whether to start or stop semi auto calibrating TART channel 4 193 2193 CH5 SEMIAUTO CAL S Op AUTO Determines whether to start or stop semi auto calibrating TART channel 5 194 2194 CH6 SEMIAUTO CAL S Op AUTO Determines whether to start or stop semi auto calibrating TART channel 6 195 2195 CH7 SEMIAUTO CAL S op AUTO Determines w
61. ION Fieldbus communication is selected used exclusively for communication 5 Input 01 to 30 in 00 Setting When Shipped Item Oxygen concentration AI Tag number TAG Set to 5500 by default unless otherwise specified when ordered Output mode L TYPE Direct Upper and lower calculation range limits E and unit XD SCALE Upper Limit 100 Lower Limit 0 Upper and lower output range limits and Unit 96 unit OUT SCALE Node address Set to OxF7 unless otherwise specified when ordered T02 ai tag number if specified will be written to the amplifier memory and inscribed on the stainless steeltag plate Atag number of up to 32 characters of alphanumerics hyphens and bullets be written to the amplifier memory Atag number of up to 16 characters of alphanumerics hyphens and bullets can be inscribed on the stainless steel tag plate only for models with option code SCT specified see GS 11M12D01 01 IM 11M12D01 61E APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK OF AV550G gt A 1 APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK OF AV550G Note The Write Mode column contains the modes in which each parameter is write enabled O S Write enabled in O S mode MAN Write enabled in Man mode and O S mode AUTO Write enabled in Auto mode Man mode and O S mode A1 1 Resource Block
62. M HYS Hi Hi Alarm HI HI PRI HI HI LIM HI HI ALM HI ALM UJLNACKNOWLEDGED HI HI ALM ALARM STATE HI HI ALM TIME STAMP HI HI ALM SUB CODE HI HI ALM VALUE Hi Alarm HI PRI HI LIM HI ALM ALM JNACKNOWLEDGED HI ALM ALARM STATE HI ALM TIME STAMP HI ALM SUB CODE ALM VALUE Lo Alarm LO LO LIM LO ALM LO ALM UNACKNOWLEDGED LO ALM ALARM STATE LO ALM TIME STAMP LO ALM SUB CODE LO ALM VALUE Lo Lo Alarm LO LO PRI LO LO LIM LO LO ALM LO LO ALM UNACKNOWLEDGED LO LO ALM ALARM STATE LO LO ALM TIME STAMP LO LO ALM SUB CODE LO LO ALM VALUE UPDATE EVT UPDATE EVT UNACKNOWLEDGED UPDATE EVT UPDATE STATE UPDATE EVT TIME STAMP UPDATE EVT STATIC REVISION UPDATE EVT RELATIVE INDEX Others SIMULATE GRANT DENY GRANT DENY GRANT GRANT DENY DENY Query Device Standard parameters Parameters not covered by category Block Header ST REV DI FB DD Menu structure DI FB Top menu Block Info TAG DESC STRATEGY ALERT KEY Mode Block MODE BLK TARGET MODE BLK ACTUAL MODE BLK PERMITTED MODE BLK NORMAL Dynamic Variables FIELD VAL D Status Value PV D Status Value OUT_D Status Value Configuration Mode Block MODE_BLK T
63. MAN The primary analog value calculated as a result of executing the function 9 4009 4109 4209 SIMULATE Disabled AUTO Allows the transducer analog input or output to the block to be manually supplied when simulate is enabled When simulation is disabled the simulate value and status track the actual value and status 1 Disabled 2 Active 4010 4110 4210 XD_SCALE O S The high and low scale values engineering units code and number of digits to the right of the decimal point used with the value obtained from the transducer for a specified channel 11 4011 4111 4211 OUT SCALE O S The high and low scale values engineering units code and number of digits to the right of the decimal point to be used in displaying the OUT parameter and parameters which have the same scaling as OUT 12 14012 4112 4212 GRANT DENY 0x00 AUTO Options for controlling access of host computers and local control panels to operating tuning and alarm parameters of the block 4013 4113 4213 IO OPTS 0x0000 O S Options which the user may select to alter input and output block processing bit 6 Low cutoff 4014 4114 4214 STATUS OPTS O S Options which the user may select in the block processing of status bit 3 Propagate Failure Forward bit 8 Uncertain if Man mode 4015 4115 4215 CHANNEL 1 2 12 3 AI3 O S Used to se
64. RESPONSE TIME CH5 MIN VALUE CH5 MAX VALUE Ch6 CH5 AVE VALE CH5 MIN DATE CH5 MAX DATE other value CH6 CELL VOLT CH6 HEATER TEMP CH6 CJ TEMP CH6 TC VOLT CH6 CJ VOLT CH6 CELL RESISTANCE CH6 CJ RESISTANCE CH6 ZERO CAL COEFF CH6 SPAN CAL COEFF CH6 CELL ROBUSTNESS CH6 HEATER ON TIME CH6 RESPONSE TIME CH6 MIN VALUE CH6 MAX VALUE CH6 AVE VALE CH6 MIN DATE CH6 MAX DATE Ch7 other value CH7 CELL VOLT CH7 HEATER TEMP CH7 CJ TEMP CH7 VOLT CH7 CJ VOLT CH7 CELL RESISTANCE CH7 RESISTANCE CH7_ZERO_CAL_COEFF CH7_SPAN_CAL_COEFF CH7_CELL_ROBUSTNESS CH7_HEATER_ON_TIME CH7_RESPONSE_TIME CH7 MIN VALUE CH7 MAX VALUE CH7 AVE VALE CH7 MIN DATE IM 11M12D CH7 MAX DATE 01 61E Ch8 other value CH8 CELL VOLT CH8 HEATER TEMP CH8 CJ TEMP CH8 TC VOLT CH8 CJ VOLT CH8 CELL RESISTANCE CH8 CJ RESISTANCE CH8 ZERO CAL COEFF CH8 SPAN CAL COEFF CH8 CELL ROBUSTNESS CH8 HEATER ON TIME CH8 RESPONSE TIME CH8 MIN VALUE CH8 MAX VALUE CH8 AVE VALE CH8 MIN DATE CH8 MAX DATE Query Device TB Profile Parameters TB Original Parameters part1 TB Original Parameters part2 TB Original Parameters part3 TB Original Parameters part4 Parameters not covered by category Block Header ST REV COLLECTION DIRECTORY Factory Parameters Mote that the others except Block Header and Factory Parameters are supported by Query Device
65. REV Represents the revision level of setting parameters associated with the MAI block Changing the setpoint updates this revision Used for example to check for parameter changes 2 9002 TAG_DESC Spaces AUTO A universal parameter used to store comments on tag contents 32 characters maximum 3 9003 STRATEGY 1 universal parameter used specifically when the host system distinguishes one function block from another 4 9004 ALERT_KEY 1 AUTO Key information used to identify the place where the alert in question has been issued Under normal conditions this parameter is used so that the host system localizes the place to a specific area within the plant targeted by a specific operator and selects only necessary alerts One of the universal parameters 5 9005 MODE_BLK AUTO AUTO A universal parameter used to represent the block s operating status This parameter consists of Actual Target Permit and Normal modes 6 9006 BLOCK_ERR 0 Denotes the error status related to the local block 7 9007 CHANNEL 6 0 5 Used to set the channel number of the hardware to be coupled with the transducer block This parameter is fixed to 6 for the AV550G 8 9008 OUT_1 Denotes the output value and status 9 9009 OUT 2 Denotes the output value and status 10 9010 OUT 3 MAN Denotes the output value and status 11 9011 OUT 4 MAN Denotes the output value and status 12 9012 OUT 5 MAN Denotes the output value and status
66. RMAL Configuration Mode Block MODE BLK TARGET MODE BLK ACTUAL MODE BLK PERMITTED MODE BLK NORMAL CONFIRM TIME WRITE LOCK Feature Info FEATURES FEATURE SEL Cycle Info CYCLE TYPE CYCLE SEL MIN CYCLE T Notify Info MAX NOTIFY LIM NOTIFY Shedding SHED RCAS SHED ROUT Diagnostics Alerts BLOCK ERR RS STATE FAULT STATE SET FSTATE CLR FSTATE Device Status DEVICE STATUS 1 DEVICE STATUS 2 DEVICE STATUS 3 DEVICE STATUS 4 DEVICE STATUS 5 DEVICE STATUS 6 DEVICE STATUS 7 DEVICE STATUS 8 Alert Parameters BLOCK ALM BLOCK ALM UNACKNOWLEDGED BLOCK ALM ALARM STATE BLOCK ALM TIME STAMP BLOCK_ALM SUB_CODE BLOCK_ALM VALUE ALARM_SUM ALARM_SUM CURRENT ALARM_SUM UNACKNOWLEDGED ALARM_SUM UNREPORTED ALARM_SUM DISABLED ACK_OPTION WRITE_PRI WRITE_ALE WRITE_ALM UNACKNOWLEDGED WRITE_ALM ALARM_STATE WRITE_ALM TIME_STAMP WRITE ALM SUB CODE WRITE ALM VALUE UPDATE EVT UPDATE EVT UNACKNOWLEDGED UPDATE EVT UPDATE STATE UPDATE EVT TIME STAMP UPDATE EVT STATIC REVISION UPDATE EVT RELATIVE INDEX Others RESTART GRANT DENY GRANT DENY GRANT GRANT DENY DENY SIM ENABLE MSG Hardware Info HARD TYPES MEMORY SIZE NV CYCLE T FREE SPACE FREE TIME Identific
67. The PD tag node address and transducer block calibration parameters that are retained in the nonvolatile memory inside the target device will remain unchanged after a software download However after a software update which causes an addition to the block parameters or blocks or to the system network management VFD parameters some parameters may be reset to the defaults thus requiring parameter setup and engineering again For details see the table below Also note that a change in the number of parameters or blocks requires the DD and capabilities files corresponding to the new software revision Table 6 1 Actions after Software Update Contents of Software Update Action Does not change the number of parameters Re setup of parameters not needed Adds a block parameter Setup of the added parameter needed Adds a block Reengineering and setup of the added block s parameters needed Changes the number of system network Reengineering needed management VFD parameters 101 11M12D01 61E lt APPENDIX 6 SOFTWARE DOWNLOAD gt A6 7 Troubleshooting For error messages appearing in the download tool see also the User s Manual of download tool Table 6 2 Actions after Software Update Symptom An error occurs before starting a download disabling the download Cause The selected download file is not for the selected field device Remedy Check SOFTDWN_ERROR in the r
68. Trend Objects Sub Nr index Parameters Description 1 Block Index Specifies index of head of function block that is creating the trend 2 Parameter Relative Specifies index of parameter used for trend relative to head of function Index block In the AV550G the following three types of trends are possible 7 PV 8 OUT 19 FIELD_VAL 3 Sample Type Specifies how trends are taken Choose one of the following 2 types 1 Sampled upon execution of a function block 2 The average value is sampled 4 Sample Interval Specifies sampling intervals in units of 1 32 ms Set the integer multiple of the function block execution cycle 5 Last Update The last sampling time 6 to 21 List of Status Status part of a sampled parameter 21 to 37 List of Samples Data part of a sampled parameter Ten trend objects are not factory set Table 5 9 Trend Objects Index Parameter Factory Setting 32000 to TREND FLT 1to Not set 32007 TREND_FLT 8 32008 TREND DIS 1 Not set these parameters are used with a DI block 32009 TREND_DIS 2 0509 System Management Information Base SMIB Network Management Information Base NMIB CINCH AV550G 4 par oxF3 AeA _ _ ae Fieldbus Cable F0505 ai Figure 5 5 Example of Configuration 0508 IM 11M12D01 61E 5 10 lt 5 CONFIGURATION gt 5 6 3 View Objects View obje
69. ULATE D Status element and set the desired status code Access the SIMULATE D Value element and set the desired input value FA0212 ai The DI block uses SIMULATE_D Status and SIMULATE_D Value in the SIMULATE_D parameter as its input status and value when simulation is active or uses Transducer Status and Transducer Value in SIMULATE_D as its input status and value when simulation is disabled Refer to Section 6 3 Simulation IM 11M12D01 61E 20 lt APPENDIX 3 SETTING AV550G SPECIFIC COMMANDS gt APPENDIX 3 SETTING OF AV550G SPECIFIC COMMANDS Byaccessing the parameters of the transducer block it is possible to execute commands specificto the AV550G A3 1 AV550G specific Commands Command Summary Start Calibration CHx_SEMIAUTO_CAL_START where x is the channel number Instructs the AV550G to perform manual calibration on its individual channel cards Start Indication Checking CHx_INDICATION_START where x is the channel number Instructs the AV550G to perform indication checking on its individual channel cards Start Blow Back BLOWBACK_START Instructs the AV550G to perform a blow back Calibration Gas Pressure Drop CAL GAS PRESS DROP SW Informs the AV550G of a drop in the calibration gas pressure Process Gas Alarm PROCESS GAS ALARM SW Informs the AV550G that a process gas alarm has been generated A3 2 Setting of AV550G specific Commands
70. User s Manual Model EXAxt AV550G idcm Fieldbus Communication Type IM 11M12D01 61E vigilantplant YOKOGAWA IM 11 12001 61 ond Editi Yokogawa Electric Corporation nd Edition lt CONTENTS gt i Model EXAxt AV550G Fieldbus Communication Type IM 11M12D01 61E 2nd Edition CONTENTS 1 DOIN mM 1 1 Regarding This 2 1 1 NE 1 1 lt 1 2 Warranty ceca ca irte n a reda cubos 1 3 CONTROL CARD FOR FIELDBUS COMMUNICATION 2 1 ABOUT FIELDBUS C 3 1 3 1 Idizb e ixeu sp 3 1 3 2 Fieldbus Representation of AV550G cese 3 1 3 2 1 System Network Management 3 1 3 2 2 Function Block 3 1 3 3 Relationship between Blocks reete 3 2 3 4 Wiring System Configuration eese ese esee nennen 3 2 GETTING STARTED Do EH acad rrt cv tuv 4 1 4 1 Connection of 4 1 4 2 Host Setting uoo eu d ce eee De ie nene 4 3 4 3 Turnin
71. VICE STATUS 2 4 47 DEVICE STATUS 3 4 48 DEVICE STATUS 4 4 49 DEVICE STATUS 5 4 50 DEVICE STATUS 6 4 51 DEVICE STATUS 7 4 52 DEVICE STATUS 8 4 IM 11M12D01 61E 40 lt APPENDIX 6 SOFTWARE DOWNLOAD gt A6 10 System Network Management VFD Parameters Relating to Software Download Table 6 5 System Network Management VFD Parameters Write Mode R W read write R read only Index Parameter Name Sub parameter Name Default Witte Remarks SM Index Factory Set Mode 400 DWNLD PROPERTY 0 R 1 Download Class 1 2 Write Rsp Returned For ACTIVATE 1 3 Write Rsp Returned For PREPARE 1 4 Reserved 0 5 ReadyForDwnld Delay Secs 200 6 Activation Delay Secs 60 410 DOMAIN DESCRIPTOR 0 R W Read write permitted only for sub index 1 Command 3 State 1 Error Code 0 Download Domain Index 440 Download Domain Header Index 420 Activated Domain Header Index 430 Domain Name Device name 420 DOMAIN HEADER 1 Header Version Number 0 Header Size 0 Manufacturer ID Device Family Device Type Device Revision 0 DD Revision 0 Software Revision Software Name 0 Domain Name 430 DOMAIN HEADER 2 Header Version Number 1 Header Size 44 Manufacturer ID 0x594543 Device Family DEV TYPE of RB o oj o oc 5 o mij o 2 dvc oj ojo2jo m j o x o o n2 jo im Device Type TYPE of RB De
72. Y_VALUE_3 1342 100 0 Denotes the range of averaging C RANGE 0 0 2 24 2024 PRIMARY_VALUE_3 Denotes the channel used to calculate averaging USE_CH 25 2025 ALARM SW VALUE D Shows that an alarm has been generated in the AV550G IM 11M12D01 61E Appendix1 3_1 ai APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK OF AV550G gt A 7 26 2026 ERROR_SW_VALUE_D Shows that an error has occurred in the AV550G 27 2027 IN_UNIT 1342 O S Denotes the unit of MAO data to be indicated on the AV550G s display 28 2028 IN DISPLAY FORMAT 0 O S Denotes the decimal places of MAO data to be indicated on the AV550G s display 29 2029 USE IN NO 1 O S Denotes the IN number of MAO data to be indicated on the AV550G s display 30 2030 PV1 MIN VALUE Denotes the minimum oxygen concentration of averaging 31 2031 PV1_MAX_VALUE Denotes the maximum oxygen concentration of averaging A 32 2032 PV1_AVE_VALUE Denotes the average oxygen concentration of averaging A 33 2033 PV1_MIN_DATE Denotes the date and time when the minimum oxygen concentration of averaging A was calculated 34 2034 PV1_MAX_DATE Denotes the date and time when the maximum oxygen concentration of averaging A was calculated 35 2035 PV2_MIN_VALUE Denotes the minimum oxygen concentratio
73. aana aaa aa aana A 23 IM 11M12D01 61E lt 5 gt 4 4 MAO Function Block 1 aa aaea eaaa aaa aaaea aeaea aana A 23 APPENDIX 5 LINK MASTER FUNCTIONS A 24 A5 1 Link Active SCM CUO is aaaeeeaa aneen aena aae aaant A 24 5 2 Link 24 A5 3 Transter OF LAS co EE 25 5 4 LM FUncllons 26 5 5 LM 2222 22 1c 27 A5 5 1 EM Parameter List 2 12 ii in erit aves acte pe cx IR ex ken a A 27 A5 5 2 Descriptions for LM A 29 1 29 2 DImeLinkMasterlnfoRecord 29 3 PrimaryLinkMasterFlagVariable ees A 29 4 LiveListStatusArray Variable senes A 29 5 MaxTokenHoldTimeArray eene A 30 6 BootOperatFunctionalClass esses A 30 7 CurrentLinkSettingRecord and ConfiguredLinkSettingsRecord A 30 8 DlmieBasiclnfo usc ine A 30 9 PlmeBasicCharacteristics esee A 30 10 ChannelStates sci ecce rtr terree ein A 31 cu JPlmeBasiclnto e
74. address that can be used by host Set a value of 15 or greater hex V NUN Number of This sets the number of consecutive consecutive unpolled Unpolled Node nodes Factory default setting is F7 hex This address determines the number of addresses Reserved for BASIC devices as shown in Fig 4 2 0401 0 00 OxOF 0x10 Bridge devices 0x13 0x14 LM devices V FUN Unused V NUN V FUN V NUN AV550G 0x7 BASIC devices OxE7 OxF8 Default addresss 0 OxFC Portable device address OxFF Note 1 LM device with bus control function Link Master function Note 2 BASIC device without bus control function F0403 ai Figure 4 2 Available Address Range 4 3 Turning on Power to AV550G and Fieldbus Turn on power to the host bus AV550G If the display of the AV550G does not light up or if an abnormal current flows from the power supply check the power supply voltage Use the host s display to confirm that the AV550G is operating normally on the bus Unless advised otherwise you can assume that the AV550G factory default Fieldbus device settings are as follows PD tag AV550G Node address 247 hexadecimal F7 Device ID 5945430401 xxxxxxxx six alphanumeric characters IM 11M12D01 61E lt 4 GETTING STARTED gt 4 5 See explanation of numbers in Sec 4 4 below The is like a serial no that is unique to each unit manufactured If the AV550G is not d
75. arameters associated with the transducer block Changing the setpoint updates this revision Used for example to check for parameter changes 2 2002 TAG_DESC Spaces AUTO A universal parameter used to store comments on tag contents 32 characters maximum 3 2003 STRATEGY 1 AUTO A universal parameter used specifically when the host system distinguishes one function block from another 4 2004 ALERT_KEY 1 AUTO Key information used to identify the place where the alert in question has been issued Under normal conditions this parameter is used so that the host system localizes the place to a specific area within the plant targeted by a specific operator and selects only necessary alerts One of the universal parameters 5 2005 MODE BLK AUTO AUTO A universal parameter used to represent the block s operating condition This parameter consists of Actual Target Permit and Normal modes 6 2006 BLOCK ERR 0 Denotes the error status related to the local block transducer block of the AV550G deals with the following error factors p Faulty results of auto tuning p Amplifier failure p Transducer block in O S mode 7 2007 UPDATE_EVT Shows details on update event that has occurred 8 2008 BLOCK_ALM Shows details of error that has occurred within the block 9 2009 TRANSDUCER_DIREC 1 2010 Stores the indexes of transducers included in the device TORY 10 2010 TRANSDUCER_TYPE 65535 Denotes the device type type of
76. ation MANUFAC 10 DEV TYPE DEV REV DD REV Other Info ITK VER SOFT REV SOFT DESC Query Device Standard parameters Enhanced parameters Parameters not covered by category Block Header ST REV DD RESOURCE TEST RW IM 11M12D01 61E 44 lt APPENDIX 7 DD Menu Structere gt Al FB DD Menu structure Al FB Top menu Block Info TAG_DESC STRATEGY ALERT KEY Mode Block MODE BLK TARGET MODE BLK ACTUAL MODE BLK PERMITTED MODE BLK NORMAL Dynamic Variables FIELD VAL FIELD VAL Status FIELD VAL Value Process Value PV Status PV Value OUT OUT Status OUT Value TOTAL Configuration Mode Block MODE BLK TARGET MODE BLK ACTUAL MODE BLK PERMITTED MODE BLK NORMAL CHANNEL XD SCALE XD SCALE EU100 XD SCALE EUO XD SCALE UNITS INDEX XD SCALE DECIMAL POINT OUT SCALE OUT SCALE EU100 OUT SCALE EUO OUT SCALE UNITS INDEX OUT SCALE DECIMAL POINT PV FTIME Options L TYPE LOW CUT lO OPTS STATUS OPTS Total Setup TOTAL START TOTAL RATE VAL TOTAL RESET Diagnostics Alerts BLOCK ERR Alert Parameters BLOCK ALM BLOCK ALM UNACKNOWLEDGED BLOCK ALM ALARM STATE BLOCK ALM TIME STAMP BLOCK ALM SUB CODE BLOCK ALM VALUE IM 11M12D01 61E ALARM SUM ALARM SUM CURRENT ALARM SUM UNACKNOWLEDGED ALARM SUM UNREPORTED ALARM SUM DISABLED ACK OPTION ALAR
77. ave numerous field devices and is regarded as a worthy successor to the conventional 4 20mA analog loop The AV550G Fieldbus functions are designed to satisfy the Foundation Fieldbus standard in order to ensure compatibility with other makers Fieldbus products The Fieldbus implementation for the AV550G supports three Al two DI MAI and MAO blocks For an overview of Fieldbus engineering design installation startup and maintenance refer to Foundation Fieldbus TI 38K03A01 01E 3 2 Fieldbus Representation of AV550G The Fieldbus Representation of the AV550G is two Virtual Field Devices VFD as follows 3 2 1 System Network Management VFD Sets node addresses and Physical Device tags PD Tag necessary for communication Controls the execution of function blocks Manages operation parameters and communication resources Virtual Communication Relationship VCR 3 2 2 Function Block VFD 1 Resource RS block Manages the status of AV550G hardware Automatically informs the host of any detected faults or other problems 2 Transducer TR block This conditions each oxygen concentration sensor output signal and connects it to an Al function block It also transmits abnormality and alarm signals to DI function blocks 3 AI function blocks three There are three Al blocks Al1 thru AI3 which can condition perform scaling and first order lag damping for three sensor signals Al1 is averaging value a out
78. ble 6 3 1 Additional Parameters of Resource Block Relative index Parameter Name Default Wilts Description Index Factory Set Mode 53 1053 SOFTDWN_PROTECT 0x01 Defines whether to accept software downloads AUTO 0x01 Unprotected 0x02 Protected 54 1054 SOFTDWN_FORMAT 0x01 Selects the software download method AUTO 0x01 FF Standard 55 1055 SOFTDWN_COUNT 0 Indicates the number of times the internal FlashROM was erased 56 1056 SOFTDWN ACT AREA 0 Indicates the ROM number of the currently working FlashROM 0 FlashROM 0 working 1 FlashROM 1 working 57 1057 SOFTDWN_MOD_REV 1 0 0 0 0 0 Indicates the software module revision 0 0 0 58 1058 SOFTDWN ERROR 0 Indicates the error during software download See Table 4 0103 5 IM 11M12D01 61E A 37 38 lt APPENDIX 6 SOFTWARE DOWNLOAD gt Table 6 3 2 Additional Contents of DEVICE STATUS 1 Index 1045 Hexadecimal Display through DD Description 0x02000000 DOWNLOAD FAIL Software download is failed 0x01000000 DOWNLOAD INCOMPLET Software download is failed Table 6 4 Error Codes of Errors during Download Error Code Detail 0 No error 32768 Unsupported header version 32769 Abnormal header size 32770 Abnormal manufacturer ID 32771 Abnormal device family 32772
79. cause difficulty to the user from a functional or performance standpoint FOUNDATION is a registered trademark of Fieldbus FOUNDATION FOUNDATION Warranty The warranty shall cover the period noted on the quotation presented to the purchaser at the time of purchase Problems occurred during the warranty period shall basically be repaired free of charge In case of problems the customer should contact the Yokogawa representative from which the instrument was purchased or the nearest Yokogawa office If a problem arises with this instrument please inform us of the nature of the problem and the circumstances under which it developed including the model specification and serial number Any diagrams data and other information you can include in your communication will also be helpful Responsible party for repair cost for the problems shall be determined by Yokogawa based on our investigation The Purchaser shall bear the responsibility for repair costs even during the warranty period if the malfunction is due to Improper and or inadequate maintenance by the purchaser Failure or damage due to improper handling use or storage which is out of design conditions Media No IM 11M12D01 51E CD 2nd Edition Dec 2010 YK IM 11M12D01 61E Rights Reserved Copyright 2005 Yokogawa Electric Corporation 1 2 1 INTRODUCTION Use of the product in question in a location not conforming to the standards specifi
80. conds after making a change to its parameter settings 1 DImeLinkMasterCapabilitiesVariable Bit Position 0x04 LAS Schedule in Whether the LAS schedule can 1 or cannot 0 1 Non volatile Memory be saved to the non volatile memory Meaning Description Value Supported LastValuesRecord B1 0x01 Link Master Statistics Whether to support 1 or not to support 0 0 Record Supported DImeLinkMasterStatistics Record 0606 2 DImeLinkMasterlnfoRecord Element eel Description 1 MaxSchedulingOverhead 1 V MSO 2 DefMinTokenDelegTime 2 V DMDT 3 DefTokenHoldTime 2 V DTHT 4 TargetTokenRotTime 2 V TTRT 5 LinkMaintTokHoldTime 2 V LTHT 6 TimeDistributionPeriod 4 V TDP 7 Maximumlnactivity ToClaimLasDelay 2 V MICD 8 LasDatabaseStatusSpduDistributionPeriod 2 V LDDP TA0607 ai 3 PrimaryLinkMasterFlagVariable Explicitly declares the LAS Writing true OxFF to this parameter in a device causes that device to attempt to become the LAS However a request of writing true to this parameter in a device is rejected if the value of the same parameter in any other device that has a smaller node address within the same segment is true 4 LiveListStatusArrayVariable A 32 byte variable in which each bit represents the status of whether a device on the same segment is live or not The leading bit corresponds to the device addres
81. cts are used to group parameters This reduces the load of data transactions Each AV550G supports four view objects for each resource block transducer block each of the three Al blocks two DI blocks MAI and MAO blocks Each view object contains a group of the parameters listed in Tables 5 11 to 5 14 Table 5 10 Purpose of Each View Object Description VIEW 1 Set of dynamic parameters required by operator for plant operation PV SV OUT Mode etc VIEW 2 Set of static parameters which need to be shown to plant operator at once Range etc VIEW 3 Set of all the dynamic parameters VIEW 4 Set of static parameters for configuration or maintenance T0510 ai Table 5 11 View Objects for Resource Block Relative Parameter Mnemonic VIEW VIEW VIEW VIEW Index 1 2 3 4 31 MAX NOTIFY 4 32 LIM NOTIFY 33 CONFIRM TIME 34 WRITE LOCK 1 35 UPDATE EVT 36 BLOCK ALM 37 ALARM SUM 8 8 38 ACK OPTION 2 39 WRITE PRI 1 40 WRITE ALM 41 VER 42 SOFT REV 43 SOFT DESC 44 SIM ENABLE MSG 45 DEVICE STATUS 1 4 46 DEVICE STATUS 2 4 47 DEVICE STATUS 3 4 48 DEVICE STATUS 4 4 49 DEVICE STATUS 5 4 50 DEVICE STATUS 6 4 51 DEVICE STATUS 7 4 52 DEVICE STATUS 8 4 53 SOFTDWN_PROTECT 1 54 SOFTDWN_FORMAT 1 55 SOFTDWN_COUNT 2 56 SOFTDWN_ACT_AREA 1 57 SOFTDWN_MOD_REV 1
82. d ConfiguredLinkSettingsRecord have the same values zs Element 8 1 SlotTime 2 V ST 2 PerDipduPhlOverhead 1 V PhLO 3 MaxhResponseDelay 1 V MRD 4 FirstUnpolledNodeld 1 V FUN 5 ThisLink 2 W TL 6 MinInterPduDelay 1 V MID 7 NumConsecUnpolledNodeld 1 V NUN 8 PreambleExtension 1 V PhPE 9 PostTransGapExtension 1 V PhGE 10 MaxInterChanSignalSkew 1 V PhlS 11 TimeSyncClass 1 V TSC TAO0608 ai 8 DImeBasiclnfo ip Element ires Description 1 SlotTime 2 Indicates the capability value for V ST of the device 2 PerDipduPhlOverhead 1 V PhLO 3 MaxResponseDelay 1 Indicates the capability value for V MRD of the device 4 ThisNode 1 V TN node address 5 ThisLink 2 V TL link id 6 MinInterPduDelay 1 Indicates the capability value for V MID of the device 7 TimeSyncClass 1 Indicates the capability value for V TSC of the device 8 PreambleExtension 1 V PhPE 9 PostTransGapExtension 1 V PhGE 10 MaxinterChanSignalSkew 1 V PhIS 0609 IM 11M12D01 61E lt APPENDIX 5 LINK MASTER FUNCTIONS gt A 31 9 PlmeBasicCharacteristics Sub Size index Element bytes Value Description 1 Channel Statistics Supported 1 0 Statistics data are not supported 2 Medium AndData Rates 8 0 4900000000000000 Wire medium voltage mode and Supported 31 25 kbp
83. d for a AV550G Simulation setup SIMULATE of AI DI block Simulation of each Al DI block can be performed in such a way that the value and status of the input to the block can be set arbitrarily Use this function for loop checks or the like Refer to Section 6 3 Simulation Function IM 11M12D01 61E 0201 5 APPENDIX 2 APPLICATION SETTING AND CHANGE OF BASIC PARAMETERS A 17 A2 2 Setting and Change of Basic Parameters This section describes the procedure taken to set and change the parameters for each block Obtaining access to each parameter differs depending on the configuration system used For details refer to the instruction manual for each configuration system Access the block mode MODE BLK of each block Set the Target Note 1 of block mode MODE BLK to Auto Man or O S Note 2 according to the Write Mode of the parameter to be set or changed Access the parameter to be set or changed Make setting or change in accordance with each parameter Set the Target of block mode MODE back to Auto Note 2 FA0201 ai A IMPORTANT Do not turn the power OFF immediately after parameter setting When the parameters are saved to the EEPROM the redundant processing is executed for the improvement of reliability If the power is turned OFF within 60 seconds after setting of parameters changed parameters are not saved and may return to their original values Note 1 Block
84. d junction voltage of the channel 8 detector 169 2169 CH8 CELL RESISTANC Denotes the cell resistance of the channel 8 detector E measured during calibration 170 2170 CH8 CJ RESISTANCE Denotes the cold junction resistance of the channel 8 detector 171 2171 CH8 ZERO CAL COEFF Denotes the zero point correction factor of the channel 8 detector 172 2172 CH8 SPAN CAL COEFF Denotes the span point correction factor of the channel 8 detector 173 2173 CH8 CELL ROBUSTNES Denotes the cell service life of the channel 8 detector S 174 2174 CH8 HEATER ON TIME Denotes the power on rate of the channel 8 detectors heater 175 2175 CH8 RESPONSE TIME Denotes the response time of the channel 8 detector measured during calibration IM 11M12D01 61E Appendix1 3 5 ai APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK OF AV550G gt 11 176 2176 CH8 MIN VALUE Denotes the minimum oxygen concentration of channel 8 177 2177 CH8 MAX VALUE Denotes the maximum oxygen concentration of channel 8 178 2178 CH8 AVE VALUE Denotes the average oxygen concentration of channel 8 179 2179 CH8 MIN DATE Denotes the date and time when the minimum oxygen concentration of channel 8 was calculated 180 2180 CH8_MAX_DATE Denotes the date and time when the maximum oxygen concentration of channel 8 was calculated 181 2181 CH1_SMART_CAL
85. device Basic device Basic device Basic device Node address Node address Node address Node address Node address Node address 0x15 0x16 OxF1 OxF2 OxF3 OxF4 SlotTime 5 SlotTime 5 0602 Figure A5 2 Backup of LAS To set up a AV550G as a device that is capable of backing up the LAS follow the procedure below NOTE When changing the settings in a AV550G add the AV550G to the segment in which an LAS is running After making changes to the settings do not turn off the power to the AV550G for at least 60 seconds 1 Set the node address of the AV550G In general use an address from 0x14 to V FUN 1 0x00 OxOF Not used 0x10 0x13 Bridge device 0x14 V FUN Not used V FUN V NUN OxF7 Basic device Default address OxFC Portable device address OxFF FA0603 ai Figure A5 3 Node Address Ranges 2 In the LAS settings of the AV550V set the values of V ST V MRD and V MID to the same as the respective lowest capability values in all the devices within the segment An example is shown bellow IM 11M12D01 61E 26 lt APPENDIX 5 LINK MASTER FUNCTIONS gt DImeBasiclnfo AV550G Index 361 SM Sub Element 5500 Device Device Device Description index 1 2 3 gt Capability value 1 SlotTime 4 8 10 20 for V ST 3 MaxResponse 3 3 5 Capability value Delay for V MRD MinInterPdu Capabili
86. e address then set a new one but to change the PD tag then you need to clear the node address and PD tag the set the new PD tag and the node address A device whose node address has been cleared will select an arbitrary address in the range F8 to FB 248 to 251 To address such a device you should specify the device ID For the 5500 this is 5945430401 six alphanumeric digits after the 5945430401 IM 11M12D01 61E 5 6 lt 5 CONFIGURATION gt 5 5 Communication Setting To set the communication function it is necessary to change the database residing in SM System Management VFD 5 5 1 VCR Setting The VCR Virtual Communication Relationship specifies the device and item communicated with and the type of resources used Each AV550G supports 33 VCRs the first is used for management the other 32 are user customizable The AV550G supports the following four types of VCR Server QUB VCR A server responds to requests from and is used for exchanging data with a host This is called a QUB Queued User triggered Bidirectional VCR Source QUU VCR A source multicasts alarms or trends to other devices This is called a QUU Queued Usertriggered Unidirectional VCR Publisher BNU VCR A publisher multicasts outputs of Al blocks DI blocks and MAI blocks to other function blocks This is called a BNU Buffered Networktriggered Unidirectional VCR Subscriber BNU VCR A subscriber connects outputs from oth
87. e bus power supply The AV550G itself requires AC power supply The AV550G s hardware that supports the Fieldbus function is powered by the bus power supply For connection of the AV550G connect the cable on the positive side of the Fieldbus power supply to terminal 5 on the control card and connect the cable on the negative side to terminal 6 Connect the shield to the cable shield ground terminal on the AV550G Procedure AN WARNING To avoid electrical shock turn off power before connecting cables Strip off approximately 40 cm of the cable sheath and separate the conductors and the shield IM 11M12D01 61E 4 2 lt 4 GETTING STARTED gt Shield Conductors Approx 40 cm Fig 1 ai Run the cable through the wiring hole on the AV550G Fix the cable with a cable gland if necessary Open the common mode filter supplied and wind one turn of the two conductors on it The cable length between the common mode filter and the wiring hole should not exceed 5 cm Close the common mode filter taking care not to catch the cable in it and then lock it Connect the cable on the positive side of the Fieldbus power supply to terminal 5 on the control card and connect the cable on the negative side to terminal 6 Use the M3 5 screw terminals Connect the shield to the cable shield ground terminal on the AV550G The shield length to the terminal should be as short as possible and the excess length should be cut
88. e is 60 seconds 60000 0504 1 IM 11M12D01 61E lt 5 CONFIGURATION gt 5 7 Parameter Description index 6 FasDIIMaxConfirm For request of data a maximum wait time for the called party s DelayOnData response is set in ms Typical value is 60 seconds 60000 7 FasDIIMaxDlsduSize Specifies maximum DL Service Data unit Size DLSDU Set 256 for Server and Trend VCR and 64 for other VCRs 8 FasDllResidual Specifies whether connection is monitored Set TRUE Oxff for ActivitySupported Server This parameter is not used for other communication FasDllTimelinessClass Not used for the AV550G 10 FasDlIlPublisherTime Not used for the AV550G WindowSize 11 FasDllPublisher Not used for the AV550G SynchronizaingDlcep 12 FasDllSubscriberTime Not used for the AV550G WindowSize 13 FasDllSubscriber Not used for the AV550G SynchronizationDicep 14 FmsVfdld Sets VFD for the AV550G to be used 0x1 System network management VFD 0x1234 Function block VFD 15 FmsMaxOutstanding Set 0 to Server It is not used for other applications ServiceCalling 16 FmsMaxOutstanding Set 1 to Server It is not used for other applications ServiceCalled 17 FmsFeatures Indicates the type of services in the application layer In the AV550G Supported itis automatically set according to specific applications T0504 2 ai These 33 VCRs are factory set as shown i
89. ed by Yokogawa or due to improper maintenance of the installation location Failure or damage due to modification or repair by any party except Yokogawa or an approved representative of Yokogawa Malfunction or damage from improper relocation of the product in question after delivery Reason of force majeure such as fires earthquakes storms floods thunder lightening or other natural disasters or disturbances riots warfare or radioactive contamination AN WARNING In wiring please confirm voltages between the power supply and the instrument before connecting the power cables And also please confirm that the cables are not powered before connecting Safe Use of This Product For the safety of the operator and to protect the instrument and the system please be sure to follow this manual s safety instructions when handling this instrument If these instructions are not heeded the protection provided by this instrument may be impaired In this case Yokogawa cannot guarantee that the instrument can be safely operated Please pay special attention to the following points a Installation This instrument may only be installed by an engineer or technician who has an expert knowledge of this device Operators are not allowed to carry out installation unless they meet this condition When removing the instrument from a hazardous process avoid contact with the fluid and the interior of the meter Allinstallation w
90. enDelegTime 100 3 DefTokenHoldTime 300 4 TargetTokenRotTime 4096 5 LinkMaintTokHoldTime 400 6 TimebDistributionPeriod 5000 7 MaximumlnactivityToClaimLasDelay 8 8 LasDatabaseStatusSpduDistributionPeriod 6000 364 PRIMARY_LINK_MASTER_FLAG_VARIABLE RW _ LAS True OxFF non LAS False 0x00 365 LIVE LIST STATUS ARRAY VARIABLE R 366 TOKEN HOLD 0 0 0000 16 0 012 16 RW NIME AY 1 Elementi 0 012 5 0 0000 27 2 Element2 0x0000x32 3 Element3 0x0000x32 4 Element4 0x0000x32 5 Element5 0x0000x32 6 Elemente 0x0000x31 0x012c 7 Element7 0x012cx32 8 Element8 0x02 367 BOOT OPERAT FUNCTIONAL CLASS 0x01 RW _ 0x01 basic device 0x02 LM 368 CURRENT LINK 0 R Settings for LAS SETTING_RECORD 1 SlotTime 2 PerDlpduPhlOverhead 3 MaxResponseDelay 4 FirstUnpolledNodeld 5 ThisLink 6 MinlnterPduDelay 7 NumConseeUnpolledNodeld 8 PreambleExtension 9 PostTransGapExtension 10 MaxlnterChanSignalSkew 11 TimeSyncClass 4095 369 CONFIGURED LINK 0 4 RW SETTING RECORD 1 SlotTime 5 2 PerDlpduPhlOverhead 37 3 MaxResponseDelay 0 4 FirstUnpolledNodeld 12 5 ThisLink 186 6 MinlnterPduDelay 2 7 NumConseeUnpolledNodeld 1 8 PreambleExtension 0 9 PostTransGapExtension 4 10 MaxlnterChanSignalSkew 11 TimeSyncClass TA0605 1 ai IM 11M12D01 61E 28 lt APPENDIX 5 LINK MASTER FUNCTIONS gt
91. er function blocks to an MAO block Each VCR has the parameters listed in Table 5 4 Parameters must be changed together for each VCR because modification for each parameter may cause a contradiction Table 5 4 VCR Static Entry Sub Parameter Description index 1 FasArTypeAndRole Indicates the type and role of communication VCR The following 4 types are used for the AV550G 0x32 Server Responds to requests from host 0x44 Source Transmits alarm or trend 0x66 Publisher Sends DI MAI block output to other blocks 0x76 Subscriber Connects output of other blocks to MAO block 2 FasDllLocalAddr Sets the local DLSAP or DLCEP address to specify a VCR in the AV550G A range of 20 to F7 hexadecimal 3 FasDllConfigured Sets the node address of the called party for communication and RemoteAddr the address DLSAP or DLCEP used to specify VCR at that address For DLSAP a range of 20 to F7 in hexadecimal is used Addresses in Subindex 2 and 3 need to be set to the same contents of the VCR as the called party local and remote are reversed 4 FasDIISDAP Specifies the quality of communication Usually one of the following types is set 0 2 Server 0x01 Source Alert 0x03 Source Trend 0x91 Publisher Subscriber 5 FasDIIMaxConfirm To establish connection for communication a maximum wait time DelayOnConnect for the called party s response is set in ms Typical valu
92. esource block and obtain the correct file An error occurs after starting a download disabling the download You attempted to update the device revision by downloading a file which is not an original file Check SOFTDWN_ERROR in the resource block and obtain the original file The voltage on the fieldbus segment falls below the specified limit 9 volts Check the capacity of the field bus power supply used and the voltage at the terminal There was an error in a checksum or the number of transmission bytes Check SOFTDWN_ERROR in the resource block and obtain the correct file The download tool does not allow download with same software revision Check the setting of the download tool The download takes far longer than expected or fails frequently The fieldbus segment is noisy Check the noise on the fieldbus segment An error occurs after activation Transient error caused by the internal resetting of the field device Check whether communication with the field device has recovered after a while The new software does not take effect after the activation The file of the current revision was downloaded Obtain the correct file Failure of the memory in field device etc Check SOFTDWN_ERROR in the resource block and re try downloading If fails place a service call 0102 A6 8 Resource Block s Parameters Relating to Software Download Ta
93. etected on the Fieldbus check its address setting and also check the available free addresses on the Fieldbus Unless the PD tag and node address are specified at order time then the factory defaults above will apply If two or more AV550G with factory default settings are connected to the Fieldbus then since their address settings are the same only one will be detected Connect them one at a time and assign them different addresses 4 4 Installation of DD If the host supports DD Device Description then the DD file of the AV550G needs to be installed Check if the host has the following directory under its default DD directory 59454310401 594543 is the manufacturer ID of Yokogawa Electric Corp and 0401 is Yokogawa s device ID number for the AV550G If this directory does not yet exist then the AV550G DD file has not been installed Create the directory and copy the AV550G DD file which has a file name like OmOn ffo OmOn sym where m and n are numbers to the directory When the DD file is installed you will be able to display all the parameter names and attributes of the AV550G You can also use the capability file CFF to perform offline configuration Both the DD file and the capability file will be available for download from the Yokogawa web site You can confirm the URL with your Yokogawa rep http www yokogawa com an download an difieldbus 001en htm CAUTION Be sure to use the DD file that matche
94. falls into a fault state 20 10020 FSTATE VAL3 0 AUTO A value to be stored as the value of IN 1 when IN 3 falls into a fault state 21 10021 FSTATE VAL4 0 AUTO A value to be stored as the value of IN 1 when IN 4 falls into a fault state 22 10022 FSTATE VAL5 0 AUTO A value to be stored as the value of IN 1 when IN 5 falls into a fault state 23 10023 FSTATE VAL6 0 AUTO A value to be stored as the value of IN 1 when IN 6 falls into a fault state 24 10024 FSTATE VAL7 0 AUTO A value to be stored as the value of IN 1 when IN 7 falls into a fault state 25 10025 FSTATE VAL8 0 AUTO A value to be stored as the value of IN 1 when IN 8 falls into a fault state 26 10026 FSTATE STATUS 0 Shows whether any of IN 1 to IN 8 is in a fault state 27 10027 UPDATE EVT Shows details update event that has occurred 28 10028 BLOCK_ALM Shows details of an error that has occurred within the block Appe 1 6 ai IM 11M12D01 61E 16 lt APPENDIX 2 APPLICATION SETTING AND CHANGE BASIC PARAMETERS gt APPENDIX 2 APPLICATION SETTING AND CHANGE OF BASIC PARAMETERS A2 1 Applications and Selection of Basic Parameters Setting Item applicable parameters Tag numbers PD TAG Summary Set the physical device PD tag and block tags Up to 32 alphanumeric characters can be set for each of these tags Refer to Section 5 4 Setting of Tags and Addresses Calibration
95. field device or disconnect the download tool during a download or activation The device may fail as a result A NOTE Be careful about the noise on the fieldbus link If the fieldbus is noisy the downloading may take a very long time or fail A6 5 Download Files Download files have the following filenames with the filename extension of ffd Take care to choose the correct download file for the target field device 594543 device family _ device type _ domain name _ software name _ software revision ffd For example the name of the download file for a AV550G may have the following name 5945430401_0401_AV550G_ORIGINAL_R101 ffd Refer to A1 11 3 DOMAIN HEADER about each keyword of the file name The device type is 0401 for a AV550G with software download capability The software name is ORIGINAL or UPDATE The former indicates an original file and the latter an update file Whenever performing a download to update the device revision obtain the original file In general an addition to the parameters or blocks requires a device revision update A6 6 Steps after Activating a Field Device When the communication with a field device has recovered after activating the device check using the download tool that the software revision of the field device has been updated accordingly The value of SOFT REV of the resource block indicates the software revision
96. g on Power to AV550G and Fieldbus sss 4 4 4 4 INStallatiOn OF DD e 4 5 4 5 Reading Device Parameters esee nnns 4 5 4 6 Continuous Record of 4 5 4 7 Generating Alarms lt gt 4 6 CONFIGUHATION cac cina stato nad Gus uu iu 5 1 5 1 Initial network design 5 1 5 2 Define network constants eese nennen nnne 5 2 5 3 Function Block Link Definitions erect 5 4 5 4 Setting of Tags and Addresses eene 5 5 5 5 Communication Setting 2 5 6 5 5 1 VGOGR Setting 5 6 5 5 2 Function Block Execution 22 2 40 5 7 5 6 7 2 5 8 5 6 1 Iiic ODJeCIS 5 8 5 6 2 Trend M M Ea 5 8 IM 11M12D01 61E ii lt CONTENTS gt 5 6 3 View
97. hether to start or stop semi auto calibrating TART channel 7 196 2196 CH8 SEMIAUTO CAL S Determines whether to start or stop semi auto calibrating TART channel 8 197 2197 CH1_INDICATION_STAR op AUTO Determines whether to start or stop semi auto checking the indication of channel 1 198 2198 CH2_INDICATION_STAR Determines whether to start or stop semi auto checking the T indication of channel 2 199 2199 CH3_INDICATION_STAR op AUTO Determines whether to start or stop semi auto checking the T indication of channel 3 200 2200 CH4_INDICATION_STAR op AUTO Determines whether to start or stop semi auto checking the T indication of channel 4 201 2201 CH5_INDICATION_STAR op AUTO Determines whether to start or stop semi auto checking the T indication of channel 5 202 2202 CH6_INDICATION_STAR op AUTO Determines whether to start or stop semi auto checking the indication of channel 6 203 2203 CH7_INDICATION_STAR op AUTO Determines whether to start or stop semi auto checking the indication of channel 7 204 2204 CH8_INDICATION_STAR op AUTO Determines whether to start or stop semi auto checking the indication of channel 8 205 2205 BLOWBACK_START Determines whether to start or stop blowing back 206 2206 CAL_GAS_PRESS_DRO f AUTO Sets the on or off state for a drop in the calibration gas P_SW pressure 207 2207 PROCESS_GAS_ALARM f AUTO Sets the on or off state for process gas alarms
98. i Figure A4 6 Function Diagram of MAI Block A4 4 MAO Function Block MAO Transducer Fig407 ai Figure A4 7 Input Output of MAO Block INPUT SNAP BLOCK OF CHANNEL AL GORITHM TRANSDUCER BLOCK OUTPUTS Fig408 ai Figure A4 8 Function Diagram of MAO Block A 23 IM 11M12D01 61E 24 lt APPENDIX 5 LINK MASTER FUNCTIONS gt APPENDIX 5 LINK MASTER FUNCTIONS A5 1 Link Active Scheduler Alink active scheduler LAS is a deterministic centralized bus scheduler that can control communications on an H1 fieldbus segment There is only one LAS on an H1 fieldbus segment 5506 supports the following LAS functions PNtransmission Identifies a fieldbus device newly connected to the same fieldbus segment PN is short for Probe Node PTtransmission Passes a token governing the right to transmit to a fieldbus device on the same segment PT is short for Pass Token CDtransmission Carry out a scheduled transmission to a fieldbus device on the same segment CD is short for Compel Data Time synchronization Periodically transmits the time data to all fieldbus devices on the segment and returns the time data in response to a request from a device Live list equalization Sends the live list data to link masters on the same segment LAS transfer Transfers the right to be the LAS on the segment to another link master 5 2 Link Master A link master LM is any device containing a link active
99. ing calibration 51 2051 CH1_CJ_RESISTANCE Denotes the cold junction resistance of the channel 1 detector 52 2052 CH1 ZERO CAL COEFF Denotes the zero point correction factor of the channel 1 detector 53 2053 CH1 SPAN CAL COEFF Denotes the span point correction factor of the channel 1 detector 54 2054 CH1 CELL ROBUSTNES Denotes the cell service life of the channel 1 detector 5 55 2055 CH1 HEATER ON TIME Denotes the power on rate of the channel 1 detector s heater 56 2056 CH1_RESPONSE_TIME Denotes the response time of the channel 1 detector measured during calibration 57 2057 CH1 MIN VALUE Denotes the minimum oxygen concentration of channel 1 58 2058 CH1_MAX_VALUE Denotes the maximum oxygen concentration of channel 1 59 2059 CH1_AVE_VALUE Denotes the average oxygen concentration of channel 1 60 2060 CH1 MIN DATE Denotes the date and time when the minimum oxygen concentration of channel 1 was calculated 61 2061 CH1_MAX_DATE Denotes the date and time when the maximum oxygen concentration of channel 1 was calculated 62 2062 CH2 CELL VOLT Denotes the cell electromotive force of the channel 2 detector 63 2063 CH2 HEATER TEMP Denotes the heater temperature of the channel 2 detector 64 2064 CH2_CJ_TEMP Denotes the cold junction temperature of the channel 2 detector Appendix1 3_2 ai IM 11M12D01 61E APPENDIX 1 LIST OF PARAMETERS FOR E
100. le of V SlotTime the time 256uS required to send one octet For the AV550G the value is 4 Set this to the max value among connected devices V MID Minimum Inter PDU Min value of interval between messages expressed as a multiple of Delay V SlotTime the time 256uS required to send one octet For the AV550G the value is 4 Set this to the max value among connected devices V Represents the time a LM should wait for a device to respond x V ST Delay x Slot time For the AV550G the value is 12 Since V ST is predefined the value of this product determines V MRD Set this to the max value among connected devices T0502 ai IM 11M12D01 61E 5 4 lt 5 CONFIGURATION gt 5 3 Function Block Link Definitions The output of one function block may be linked to the input of another For the AV550G the three Al blocks each have OUT output parameters the two DI blocks have OUT_D output parameters these may be connected to the inputs of control blocks and there are also MAI and MAO blocks The procedure for writing values to the link object settings of the AV550G are described in Sec 5 6 Block Settings As an alternative to connecting the outputs of the AV550G block to other blocks you can have the host read them at suitable intervals For connections between blocks to work as expected you will have to schedule the starting of each block execution cycle and the
101. lect a transducer block to connect to In the case of the AV550G an averaging oxygen concentration a b and c signals are always set for the AI2 and blocks respectively 4016 4116 4216 L TYPE Direct 1 MAN Determines if the values passed by the transducer block to the AI block may be used directly Direct 1 or if the value is in different units and must be converted linearly Indirect 2 or with square root Ind Sqr Root 3 using the input range defined by the transducer and the associated output range Indirect Square Root is not used for the AV550G IM 11M12D01 61E TA0102 1 ai APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK OF AV550G gt A 5 1 AH E AI Parameter Name Factory Default 4 Explanation 17 4017 4117 4217 LOW CUT 0 0 AUTO Sets low cut point of output This low cut value become 0 0 Al2 available by setting Low cutoff to D OPTS 0 0 AI3 18 4018 4118 4218 PV FTIME Osec Al1 AUTO Time constant of a single exponential filter for the PV in Osec 12 seconds Osec 19 4019 4119 4219 FIELD VAL Raw value of the field device in percent of thePV range with a status reflecting the Transducer condition before signal characterization L TYPE filtering PV_FTIME or low cut LOW CUT 20 4020 4120 4220 UPDATE EVT This alert is generated by any
102. main name With this product Domain Name indicates the field device name 0110 3 DOMAIN HEADER Sub Size Tal Index Element Bytes Description 1 Header Version Number 2 Indicates the version number of the header Header Size 2 Indicates the header size 3 Manufacturer ID 6 Indicates the value of resource block s MANUFAC manufacturer ID as character string data 4 Device Family 4 Indicates the device family With this product Device Family indicates the value of resource block s DEV TYPE as character string data 5 Device Type 4 Indicates the value of resource block s DEV TYPE as character string 6 Device Revision 1 Indicates the value of resource block s DEV REV 7 DD Revision 1 Indicates the value of resource block s DD REV 8 Software Revision Indicates the value of resource blocks SOFT REV 9 Software Name Indicates the attribute of the binary file With this product Software Name indicates either of the following ORIGINAL followed by one space Original file UPDATE followed by two spaces Update file 10 Domain Name 8 Indicates the domain name With this product Domain Name indicates the field device name IM 11M12D01 61E TAO111 ai lt APPENDIX 7 DD Menu Structere gt A 43 APPENDIX 7 DD Menu Structure Resource Block DD Menu Structure Resource block Top menu Block Info TAG_DESC STRATEGY ALERT KEY Mode Block MODE BLK TARGET MODE BLK ACTUAL MODE BLK PERMITTED MODE BLK NO
103. n Table 5 5 Table 5 5 VCR List Index VCR 5 Number Factory Setting 293 1 For system management Fixed 294 Server LocalAddr OxF3 2 295 3 Server LocalAddr OxF4 296 4 Server LocalAddr OxF7 5 297 Trend Source LocalAddr 0x07 Remote Address 0x111 298 6 Publisher LocalAddr 0x20 299 7 Alert Source LocalAddr 0x07 Remote Address 0x1 10 300 8 Server LocalAddr OxF9 301 to 325 9 to 33 Not set T0505 ai 5 5 2 Function Block Execution Control According to the instructions given in Section 5 3 set the execution cycle of the function blocks and schedule of execution IM 11M12D01 61E 5 8 lt 5 CONFIGURATION gt 5 6 Block Setting Set the parameter for function block VFD 5 6 1 Link Objects A link object combines the data voluntarily sent by the function block with the VCR Each AV550G has 40 link objects A single link object specifies one combination Each link object has the parameters listed in Table 5 6 Parameters must be changed together for each VCR because the modifications made to each parameter may cause inconsistent operation Table 5 6 Link Object Parameters Parameters 1 Locallndex Description Sets the index of function block parameters to be combined set 0 for Trend and Alert 2 VcrNumber Sets the index of VCR to be combined If set to 0 this link object is not used 3 Remo
104. n of averaging 36 2036 PV2_MAX_VALUE Denotes the maximum oxygen concentration of averaging B 37 2037 PV2_AVE_VALUE Denotes the average oxygen concentration of averaging 38 2038 PV2_MIN_DATE Denotes the date and time when the minimum oxygen concentration of averaging B was calculated 39 2039 PV2_MAX_DATE Denotes the date and time when the maximum oxygen concentration of averaging B was calculated 40 2040 PV3_MIN_VALUE Denotes the minimum oxygen concentration of averaging C 41 2041 PV3_MAX_VALUE Denotes the maximum oxygen concentration of averaging 42 2042 PV3_AVE_VALUE Denotes the average oxygen concentration of averaging 43 2043 PV3 MIN DATE Denotes the date and time when the minimum oxygen concentration of averaging C was calculated 44 2044 PV3 MAX DATE Denotes the date and time when the maximum oxygen concentration of averaging C was calculated 45 2045 CH1_CELL_VOLT Denotes the cell electromotive force of the channel 1 detector 46 2046 CH1_HEATER_TEMP Denotes the heater temperature of the channel 1 detector 47 2047 CH1_CJ_TEMP Denotes the cold junction temperature of the channel 1 detector 48 2048 CH1_TC_VOLT Denotes the thermocouple electromotive force of the channel 1 detector 49 2049 CH1_CJ_VOLT Denotes the cold junction voltage of the channel 1 detector 50 2050 CH1_CELL_RESISTANC Denotes the cell resistance of the channel 1 detector E measured dur
105. n 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 Do not connect a second Fieldbus master such as a PC with software for remote setting of Fieldbus device parameters to an existing DCSattached Fieldbus system This may confuse the DCS and cause it to diagnose a communications failure Any test setup should be off line 4 2 Host Setting For Fieldbus to operate you need to set the following parameters in the AV550G host Take particular care to assign a valid bus address to the AV550G A IMPORTANT Do not turn off the AV550G power immediately after finishing parameter setting To enhance reliability two copies of the parameter settings are written to EEPROM If you do not allow at least 60 seconds for this data to be written before turning off the power then there is the possibility that the old parameter values will be retained unchanged IM 11M12D01 61E 4 4 lt 4 GETTING STARTED gt Table 4 2 Parameters required for operation Symbol Parameter name Description and Value V ST Slot Time Set a value of 4 or greater V MID Minimum Inter PDU Set a value of 4 or greater Delay V MRD Maximum Reply Set this such that V MRD Delay x V ST is 12 or greater V FUN First Unpolled Node Defines the first
106. ns is as short as possible Be sure to check that the capacity of the power supply is more than sufficient to supply the sum of the maximum currents drawn by individual devices including hosts The AV550G draws a maximum rated current of 15 mA over the power supply voltage range 9 to 32 V DC 5 2 Define network constants Before connecting devices to an existing Fieldbus determine unique PD tag and node addresses for all devices except for passive devices like terminators PD tags are like the instrument tag numbers used in measurement and control systems You can use up to 32 alphanumeric characters to define the PD tag of each device You can also use hyphen delimiters in PD tag names Node addresses are used for Fieldbus communications between devices but PD tag names may be used as mnemonic aliases for node addresses You can assign node addresses in the range hexadecimal 10 to F7 which is decimal 20 to 247 Link Master LM device addresses should be assigned in sequence starting from the smallest address 0x14 and basic device addresses should be assigned in sequence starting from the largest OxF7 You must set the address range in the Link Master device using the following parameters Table 5 1 Parameters for setting address range Symbol Parameters Description V FUN First Unpolled Node First unused address outside the range of LM host addresses V NUN Number of Range of unused consecutive
107. o ie i i ett itd A 31 12 LinkScheduleActivationVariable sse A 31 13 A 31 14 X DImeScheduleDescriptor eene A 31 SG MB Ur etree wastes eck 32 5 6 OS 33 APPENDIX 6 SOFTWARE 2 2 22 2 2 2 34 A6 1 Benefits of Software Download cessere A 34 A6 2 iege c A 34 A6 3 Preparations for Software Downloading esses A 34 A6 4 Flow of Software Download eese nnns A 35 A6 5 Download Files 36 A6 6 Steps after Activating a Field Device eere A 36 A6 7 Troubleshootifig 21er tetur outer ennt tune 37 A6 8 Resource Block s Parameters Relating to Software Download A 37 A6 9 View Objects Altered by Software Download A 39 A6 10 System Network Management VFD Parameters Relating to Software PUDE S A 40 A6 11 Comments System Network Management VFD Parameters Relating to Software Download
108. of the channel 7 detector E measured during calibration 153 2153 CH7 CJ RESISTANCE Denotes the cold junction resistance of the channel 7 detector 154 2154 CH7 ZERO CAL COEFF Denotes the zero point correction factor of the channel 7 detector 155 2155 CH7 SPAN CAL COEFF Denotes the span point correction factor of the channel 7 detector 155 2156 CH7 CELL ROBUSTNES Denotes the cell service life of the channel 7 detector S 157 2157 CH7 HEATER ON TIME Denotes the power on rate of the channel 7 detectors heater 158 2158 CH7 RESPONSE TIME Denotes the response time of the channel 7 detector measured during calibration 159 2159 CH7 MIN VALUE Denotes the minimum oxygen concentration of channel 7 160 2160 CH7 MAX VALUE Denotes the maximum oxygen concentration of channel 7 161 2161 CH7 AVE VALUE Denotes the average oxygen concentration of channel 7 162 2162 7 MIN DATE Denotes the date and time when the minimum oxygen concentration of channel 7 was calculated 163 2163 CH7 MAX DATE Denotes the date and time when the maximum oxygen concentration of channel 7 was calculated 164 2164 CH8 CELL VOLT Denotes the cell electromotive force of the channel 8 detector 165 2165 CH8 HEATER TEMP Denotes the heater temperature of the channel 8 detector 166 2166 CH8 CJ TEMP Denotes the cold junction temperature of the channel 8 detector 167 2167 CH8 TC VOLT Denotes the thermocouple electromotive force of the channel 8 detector 168 2168 CH8 CJ VOLT Denotes the col
109. ommon Isolation 4 Oxygen Channel Cards Common Isolation 5 Oxygen Channel Cards Common Isolation 6 Oxygen Channel Cards Common Isolation 7 Oxygen Channel Cards Common Isolation Number of Channel 8 Oxygen Channel Cards Common Isolation Card 2 1 Oxygen Channel Card Individual Isolation 2 Oxygen Channel Cards Individual Isolation 3 Oxygen Channel Cards Individual Isolation 4 Oxygen Channel Cards Individual Isolation 5 Oxygen Channel Cards Individual Isolation 6 Oxygen Channel Cards Individual Isolation 7 Oxygen Channel Cards Individual Isolation 8 Oxygen Channel Cards Individual Isolation Japanese English French German 100 115 V AC 230 V AC 3 Communication HART communication FOUNDATION Fieldbus communication 4 Display Power supply Stainless steel tag plate Options 24 Voltage output for Solenoid valve Cable gland Numbers in 5 TO03 ai 1 Select code B 8 Channel Base when future expansion exceeding 4 channels is expected By so doing the expansion can be made economically 2 Common isolation is recommended when the same instrument receives the analog outputs from each channel card Individual isolation is recommended to prevent the trouble by mutual interference when different instrument receives the analog outputs from each channel card 3 When suffix code 2 230 V AC is selected select code A 4 Channel Base 4 When suffix code F FOUNDAT
110. on of the status to the trailing blocks generation of a process alarm and as an operation test for trailing Set to OFF during normal operation 1 IM F0602 ai Figure 6 1 SIMULATE ENABLE Switch Position IM 11M12D01 61E 7 DEVICE STATUS Table 7 1 Contents of DEVICE STATUS 1 Index 1045 lt 7 DEVICE STATUS gt In an AV550G resource block parameters DEVICE STATUS 1 through DEVICE STATUS 4 with indexes 1045 through 1048 represent alarm and error statuses Hexadecimal a Representation Reading when DD Is Downloaded Description 0x02000000 Download fail Shows that the software downloading state is 0 0x01000000 Download incomplete Shows that the software downloading state is OIncomplete O 0x00800000 Simulate enable switch On Shows that the SIMULATE ENABLE switch is OON 0 0x00400000 RB in O S mode Shows that the resource block is in the O S mode 0x00080000 AMP module failure 1 Shows that the amplifieris EEPROM is faulty 0x00008000 Link Obj 1 17 33 not open Shows that the VCR specified in Link Object 1 is not open 0x00004000 Link Obj 2 18 34 not open Shows that the VCR specified in Link Object 2 is not open 0x00002000 Link Obj 3 19 35 not open Shows that the VCR specified in Link Object 3 is not open 0x00001000 Link Obj 4 20 36 not open Shows that the VCR specified in Link Object 4 is not open 0x00000800 Link Obj 5 21 37 not open Sh
111. onfiguredLinkSettingsRecord index 369 e V ST V MID and V MRD of problematic device DImeBasiclnfo Then confirm that the following conditions are met AV550G Problematic Device V ST gt V ST V MID gt V MID V MRD gt V MRD A3 2 Check that the node address of the problematic device does not lie within either 0x00 to 0x10 or the range of unused unpolled node addresses determined by the AV550G s LM parameter settings which is 0x00 to 0x10 or V FUN to V FUN V NUM Refer to Section 5 2 Network Definition IM 11M12D01 61E 34 lt APPENDIX 6 SOFTWARE DOWNLOAD gt APPENDIX 6 SOFTWARE DOWNLOAD A6 1 Benefits of Software Download This function enables you to download software to field devices via a FOUNDATION Fieldbus to update theirv software Typical uses are to add new features such as function blocks and diagnostics to existing devices and to optimize existing field devices for your plant Update Program New Diagnostics Fig0601 ai Figure 6 1 Concept of Software Downloading A6 2 Specifications Steady state current Max 15 mA Current during FlashROM blanking time Max 15 mA Fieldbus Foundation download class Class 1 A NOTE Class 1 devices can continue the specified measurement and or control actions even while software is being downloaded to them Upon completion of a download however the devices will be reset internally to make the new downloaded software take effect
112. ork shall comply with local installation requirements and the local electrical code b Wiring The instrument must be installed by an engineer or technician who has an expert knowledge of this instrument Operators are not permitted to carry out wiring unless they meet this condition Before connecting the power cables please confirm that there is no current flowing through the cables and that the power supply to the instrument is switched off c Maintenance Please carry out only the maintenance procedures described in this manual If you require further assistance please contact the nearest Yokogawa office Care should be taken to prevent the build up of dust or other materials on the display glass and the name plate To clean these surfaces use a soft dry cloth d Modification e Yokogawa will not be liable for malfunctions or damage resulting from any modification made to this instrument by the customer IM 11M12D01 61E lt 1 INTRODUCTION gt 1 3 e The following safety symbol marks are used in this Manual A WARNING Indicates a potentially hazardous situation which if not avoided could result in death or serious injury A CAUTION Indicates a potentially hazardous situation which if not avoided may result in minor or moderate injury It may also be used to alert against unsafe practices A IMPORTANT Indicates that operating the hardware or software in this manner may damage it or lead to system
113. ortant parameters and how to set them MODE_BLK Indicates the three types of function block modes Out_Of_Service Manual and Auto In Out_Of_Service mode the Al block does not operate The Manual mode does not allow values to be updated The Auto mode causes the measured value to be updated Under normal circumstances set the Auto mode to take effect The Auto mode is the factory default CHANNEL This is the parameter of the transducer block to be input to the Al block Averaging oxygen concentration Ave a is connected to Al1 Averaging oxygen concentration Ave b is connected to Al2 and Averaging oxygen concentration Ave c is connected to AI3 Do not change these settings XD SCALE Range of input from the transducer block Factory defaults are 0 096 100 0 10096 and 9e for the units The value of XD SCALE cannot be set up except the initial factory default value of the AV550G OUT SCALE Sets the output range default is 096 to 100 L TYPE Specifies Al1 block output scaling The factory default Direct means no scaling OUT is the same as the CHANNEL input If set to Indirect then XD SCALE is mapped to OUT SCALE Indirect SQRT is not valid for the AV550G PV FTIME Sets the damping 1St order lag time constant of the block in seconds Alarm Priority Indicates the priority of the process alarm If a value of 3 or greater is set an alarm is transmitted The factory default is 0 Four type
114. ower supply voltage frequency being outside specifications or abnormal IM 11M12D01 61E 1 4 1 INTRODUCTION Failure caused by any usage out of scope of recommended usage Any damage from fire earthquake storms and floods lightning disturbances riots warfare radiation and other natural changes Yokogawa does not warrant conformance with the specific application at the user site Yokogawa will not bear direct indirect responsibility for damage due to a specific application Yokogawa will not bear responsibility when the user configures the product into systems or resells the product Maintenance service and supplying repair parts will be covered for five years after the production ends For repair for this product please contact the nearest sales office described in this instruction manual IM 11M12D01 61E lt 2 FIELDBUS COMMUNICATION CONTROL CARD 2 1 2 CONTROL CARD FOR FIELDBUS COMMUNICATION Fieldbus simulation functions on the control card are enabled using the SIMULATE_ENABLE switch For details of the simulation functions see Sec 6 3 Simulation Functions SIMULATE_ENABLE Switch EN 5 amp meii Fig 2 1 Fieldbus Communications Control Card IM 11M12D01 61E lt 3 ABOUT FIELDBUS gt 3 1 3 ABOUT FIELDBUS 3 1 Fieldbus Overview The Fieldbus digital communications protocol supports the requirements of large scale process control systems that h
115. ows that the VCR specified in Link Object 5 is not open 0x00000400 Link Obj 6 22 38 not open Shows that the VCR specified in Link Object 6 is not open 0x00000200 Link Obj 7 23 39 not open Shows that the VCR specified in Link Object 7 is not open 0x00000100 Link Obj 8 24 40 not open Shows that the VCR specified in Link Object 8 is not open 0x00000080 Link Obj 9 25 not open Shows that the VCR specified in Link Object 9 is not open 0x00000040 Link Obj 10 26 not open Shows that the VCR specified in Link Object 10 is not open 0x00000020 Link Obj 11 27 not open Shows that the VCR specified in Link Object 11 is not open 0x00000010 Link Obj 12 28 not open Shows that the VCR specified in Link Object 12 is not open 0x00000008 Link Obj 13 29 not open Shows that the VCR specified in Link Object 13 is not open 0x00000004 Link Obj 14 30 not open Shows that the VCR specified in Link Object 14 is not open 0x00000002 Link Obj 15 31 not open Shows that the VCR specified in Link Object 15 is not open 0x00000001 Link Obj 16 32 not open Shows that the VCR specified in Link Object 16 is not open Table 7 2 Contents of DEVICE STATUS 2 Index 1046 Hexadecimal Reading when DD Is Downloaded Description Representation 0x00000002 COM Circuit failure 1 Shows that the amplifier s communication circuit block is faulty 1 0x00000001 COM Circuit failure 2 Shows that the amplifier s communication circuit block is faulty 2
116. put signal block 12 is averaging value b output signal block is averaging value c output signal block Simulation functions support scaling and first order lag damping 4 DI function blocks two is an alarm output switch and DI2 is an abnormality output switch IM 11M12D01 61E lt 3 ABOUT FIELDBUS gt 5 MAI function block Each of these corresponds to the oxygen concentration signal output 6 MAO function block This block can acquire field data a total of up to eight signals 3 3 Relationship between Blocks AV550G System network management VFD PD tag Node address Communication parameters Function block execution schedule Link master Function block VFD MAO function block MAI function K Dl2 function block Transducer DI1 function block Sensor _ block function input block Block tag function concentration block ignal function Parameters block Block tag Oxygen concentration sensor Parameters OUT Resource block Block tag Output Parameters F0301 ai Fig 3 1 Relationship between blocks Various parameters the node address and the PD tag shown in Figure 3 1 must be set before using the device Refer to Chapter 4 for the setting procedures 3 4 Wiring System Configuration
117. ring calibration 108 2108 CH4 MIN VALUE Denotes the minimum oxygen concentration of channel 4 109 2109 CH4 MAX VALUE Denotes the maximum oxygen concentration of channel 4 110 2110 CH4 AVE VALUE Denotes the average oxygen concentration of channel 4 111 2111 CH4 MIN DATE Denotes the date and time when the minimum oxygen concentration of channel 4 was calculated 112 2112 CH4 MAX DATE Denotes the date and time when the maximum oxygen concentration of channel 4 was calculated 113 2113 CH5 CELL VOLT Denotes the cell electromotive force of the channel 5 detector 114 2114 CH5 HEATER TEMP Denotes the heater temperature of the channel 5 detector 115 2115 CH5 CJ TEMP Denotes the cold junction temperature of the channel 5 detector 116 2116 CH5 TC VOLT Denotes the thermocouple electromotive force of the channel 5 detector 117 2117 CH5 CJ VOLT Denotes the cold junction voltage of the channel 5 detector 118 2118 CH5 CELL RESISTANC Denotes the cell resistance of the channel 5 detector E measured during calibration 119 2119 CH5 CJ RESISTANCE Denotes the cold junction resistance of the channel 5 detector 120 2120 CH5 ZERO CAL COEFF Denotes the zero point correction factor of the channel 5 detector 121 2121 CH5 SPAN CAL COEFF Denotes the span point correction factor of the channel 5 detector 122 2122 CH5 CELL ROBUSTNES Denotes the cell service life of the channel 5 detector S 123 2123 CH5 HEATER ON TIME Denotes the power on rate of the channel 5 detector
118. s 0x00 and final bit to OXFF The value of LiveListStatusArray Variable in the case where devices having the addresses 0x10 and 0x15 in the fieldbus segment is shown below 0x00 00 84 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 Bit correspondences 00000000000 0x00 0000010000100 0x10 0x15 F0600E ai IM 11M12D01 61E 30 lt APPENDIX 5 LINK MASTER FUNCTIONS gt 5 MaxTokenHoldTimeArray An 8 by 64 byte array variable in which each set of 2 bytes represents the delegation time set as an octet time assigned to a device The delegation time denotes a time period that is given to a device by means of a PT message sent from the LAS within each token circulation cycle The leading 2 bytes correspond to the device address 0x00 and the final 2 bytes to the device address OxFF Specify the subindex to access this parameter 6 BootOperatFunctionalClass Writing 1 to this parameter in a device and restarting the device causes the device to start as a basic device On the contrary writing 2 to this parameter and restarting the device causes the device to start as an LM 7 CurrentLinkSettingRecord and ConfiguredLinkSettingsRecord CurrentLinkSettingRecord indicates the bus parameter settings currently used ConfiguredLinkSettingsRecord indicates the bus parameter settings to be used when the device becomes the LAS Thus when a device is the LAS its CurrentLinkSettingRecord an
119. s are supported IceVersion 2 0 0403 IEC 4 3 is supported 4 NumOf Channels 1 1 5 Power Mode 1 0 0 Bus powered 1 Self powered TAO0610 ai 10 ChannelStates Sub Size P xs index Element bytes Value Description 1 Channel 1 1 0x00 In Use No Bad since last read No Silent since last read No Jabber since last read Tx Good Rx Good Channel 2 1 0x80 Unused Channel 3 1 0x80 Unused Channel 4 1 0x80 Unused Channel 5 1 0x80 Unused Channel 6 1 0x80 Unused Channel 7 1 0x80 Unused Channel 8 1 0x80 Unused a RR OJN TA0611 ai 11 aa Element m Value Description 1 nterfaceMode 1 0 0 Half duplex 1 Full duplex 2 LoopBackMode 1 0 0 Disabled 1 MAU 2 MDS 3 XmitEnabled 1 0x01 Channel 1 is enabled 4 RcvEnebled 1 0 01 Channel 1 is enabled 5 PreferredReceive Channel 1 0x01 Channel 1 is used for reception 6 MediaType Selected 1 0x49 Wire medium voltage mode and 31 25 kbps are selected 7 ReceiveSelect 1 0x01 Channel 1 is used for reception TA0612 ai 12 LinkScheduleActivationVariable Writing the version number of an LAS schedule which has already been downloaded to the domain to this parameter causes the corresponding schedule to be executed On the other hand writing 0 to this parameter stops execution of the active schedule IM 11M12D01 61E
120. s heater 124 2124 CH5 RESPONSE TIME Denotes the response time of the channel 5 detector measured during calibration 125 2125 CH5 MIN VALUE Denotes the minimum oxygen concentration of channel 5 126 2126 CH5 MAX VALUE Denotes the maximum oxygen concentration of channel 5 127 2127 CH5 AVE VALUE Denotes the average oxygen concentration of channel 5 128 2128 CH5 MIN DATE Denotes the date and time when the minimum oxygen concentration of channel 5 was calculated 129 2129 CH5 MAX DATE Denotes the date and time when the maximum oxygen concentration of channel 5 was calculated 130 2130 CH6 CELL VOLT Denotes the cell electromotive force of the channel 6 detector 131 2131 CH6 HEATER TEMP Denotes the heater temperature of the channel 6 detector 132 2132 CH6 CJ TEMP Denotes the cold junction temperature of the channel 6 detector 133 2133 CH6 TC VOLT Denotes the thermocouple electromotive force of the channel 6 detector 134 2134 CH6 CJ VOLT Denotes the cold junction voltage of the channel 6 detector 135 2135 CH6 CELL RESISTANC Denotes the cell resistance of the channel 6 detector E measured during calibration 136 2136 CH6_CJ_RESISTANCE Denotes the cold junction resistance of the channel 6 detector 137 2137 CH6_ZERO_CAL_COEFF Denotes the zero point correction factor of the channel 6 detector Appendix1 3 4 ai IM 11M12D01 61E 10 APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK OF AV550G gt
121. s of alarm can be set HI PRI HI HI PRI LO PRI and LO LO Alarm Threshold Sets the threshold at which a process alarm is generated The factory default setting is a value that does not generate an alarm Four types of alarm can be set HI HI LO LIM and LO LO LIM 5 6 5 Transducer Block Parameters The transducer block settings are specific to the AV550G functions Refer to the list of AV550G block parameters in Appendix 1 Here we explain the more important parameter settings 1 Explanation of Parameters 1 PRIMARY VALUE 1 Relative Index is 13 Type of measurement for the AV550G this is 119 oxygen IM 11M12D01 61E 5 20 lt 5 CONFIGURATION gt 2 PRIMARY VALUE 2 Relative Index is 17 Type of measurement for the AV550G this is 119 oxygen 3 PRIMARY VALUE 3 Relative Index is 21 Type of measurement for the AV550G this is 119 oxygen 4 IN UNIT Relative Index is 27 Specifies the units for MAO block channel input value USE IN NO below For the AV550G the following units are supported if you want to display data in other units then you can display the data without a units display 1001 degC 1002 degF 1130 Pa 1132 MPa 1133 kPa 1137 bar 1138 mbar 1141 psi 1144 g cm2 1145 g cm2 1149 mmH20O 1157 mmHg 1342 96 1423 ppm Factory default 1342 96 5 IN DISPLAY FORMAT Relative Index is 28 Specifies the decimal point position for MAO block channel inp
122. s the AV550G Device Revision no 4 5 Reading Device Parameters Try reading AV550G parameters Select the Al block of the AV550G on the screen of the host and read a parameter such as OUT representing the output current Confirm that the function block resource block MODE_BLOCK is AUTO 4 6 Continuous Record of Values If the host can continuously record parameter values use this function to record some values Depending on the Host software you may have to change the update interval of Publish which periodically sends the updated parameter value to the bus IM 11M12D01 61E 4 6 lt 4 GETTING STARTED gt 4 7 Generating Alarms If the host is able to receive alarms then enable alarm capture on the host and generate an alarm from the AV550G to test this At the time of shipping from the factory virtual communication relationship VCR 7 of AV550G is set up for this purpose Default setting is for all alarms to be disabled Try enabling one alarm as follows Set the value of link object 3 index 30002 to 0 299 0 6 0 Refer to Sec 5 6 1 Link Objects Set the Al block LO_PRI parameter index 4029 to 0 then try setting this value to 3 From the host select Write and specify the index or the variable name and write the value 3 to it The LO_LIM parameter index 4030 of the Al block sets the low limit alarm value Normally this is set to a very small value Here we set it to slightly under 100 of XD SCALE same units as X
123. sponding domain TA0614 ai 15 Domain Read write impossible get OD possible Carrying out the GenericDomainDownload command from a host writes an LAS schedule to the domain IM 11M12D01 61E lt APPENDIX 5 LINK MASTER FUNCTIONS gt A 33 A5 6 FAQs Q1 When the LAS stops a AV550G does not back it up by becoming the LAS Why A1 1 Is that AV550G running as LM Check that the value of BootOperatFunctionalClass index 367 is 2 indicating that it is an LM A1 2 Check the values of V ST and V TN in all LMs on the segment and confirm that the following condition is met AV550G Other LMs V ST 3 V TN V ST 3 V TN Q2 How can I make a AV550G become the LAS 2 1 Check that the version numbers of the active schedules in the current LAS and the AV550G are the same by reading LinkScheduleListCharacteristics Record index 374 for 5500 ActiveScheduleVersion subindex 3 A2 2 Make the AV550G declare itself as and become the LAS by writing 0x00 false to PrimaryLinkMasterFlagVariable in the current LAS and OxFF true to PrimaryLinkMasterFlagVariable index 364 in the AV550G Q3 On a segment where a AV550G works as the LAS another device cannot be connected Why 1 Check the following bus parameters that indicate the bus parameter as being the LAS for the AV550G and the capabilities of being the LAS for the device that cannot be connected V ST V MID and V MRD of AV550G C
124. telndex Not used in the AV550G Set to 0 4 ServiceOperation Set one of the following Set only one each for link object for Alert or Trend 0 Undefined 2 Publisher 3 Subscriber 6 Alert 7 Trend 5 StaleCountLimit Set the maximum number of consecutive stale input values which may be received before the input status is set to BAD To avoid the unnecessary mode transition caused when the data is not correctly received by subscriber set this parameter to 2 or more Link objects are not factory set Set link objects as shown in Table 5 7 Table 5 7 Settings of Link Objects example Index Link Object Settings example 30000 1 Al OUT VCR 6 30001 2 Trend VCRit5 30002 3 Alert VCR 7 30003 to 30039 4 to 40 Not used T0507 ai 5 6 2 Trend Objects 0506 It is possible to make settings so that a function block automatically transmits trends For this each AV550G has ten trend objects eight for trends of analog parameters and two for discrete parameters For each trend object specify a single parameter the trend of which is to be transmitted Each trend object has the parameters listed in Table 5 8 For the first four parameters setting is mandatory Before writing parameter settings to a trend object parameter WRITE_LOCK of the resource block must be modified to unlock the write lock IM 11M12D01 61E lt 5 CONFIGURATION gt Table 5 8 Parameters for
125. the DD file for the resource 11 1011 DEV TYPE 0x401 Manufacturer s model number associated with the resource used by interface devices to locate the DD file for the resource 12 1012 DEV REV 1 Manufacturer revision number associated with the resource used by an interface device to locate the DD file for the resource 13 1013 DD REV 1 m Revision of the DD associated with the resource used by an interface device to locate the DD file for the resource 14 1014 GRANT DENY AUTO Options for controlling access of host computer and local control panels to operating tuning and alarm parameters of the block 15 1015 HARD TYPES 0x0001 The types of hardware available as channel numbers Scalar input bit Scalar input bit1 Scalar output bit2 Discrete input bit3 Discrete output 0101 1 IM 11M12D01 61E 2 APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK OF AV550G gt Relative index Parameter Name Factory Default Write Explanation Index Mode 16 1016 RESTART md Allows a manual restart to be initiated Several degrees of restart are possible They are 1 Run 2 Restart resource 3 Restart with defaults and 4 Restart processor 17 1017 FEATURES 0x000e Soft write Used to show supported resource block options lock supported Fault state supported Report supported 0x000e Soft write AUTO Used
126. the alarm failure status of channel 7 224 2224 CH8 STATUS Denotes the alarm failure status of channel 8 225 2225 IPL SOFT REV Denotes the software revision of the IPL 226 2226 CONTROL SOFT REV Denotes the software revision of the control card 227 2227 CH1_SOFT_REV Denotes the software revision of channel 1 228 2228 CH2_SOFT_REV Denotes the software revision of channel 2 229 2229 CH3_SOFT_REV Denotes the software revision of channel 3 230 2230 CH4 SOFT REV Denotes the software revision of channel 4 231 2231 CH5 SOFT REV Denotes the software revision of channel 5 232 2232 CH6_SOFT_REV Denotes the software revision of channel 6 233 2233 CH7_SOFT_REV Denotes the software revision of channel 7 234 2234 CH8 SOFT REV Denotes the software revision of channel 8 235 2235 REMOVE_ALARM_CH Shows that channels in an oxygen concentration alarm status are excluded from averaging processing 236 2236 ALARM_SUM O S AUTO Denotes the block wide alarm status Can only be set to Disable 237 2237 TEST_1 A parameter for internal use only No access allowed 238 2238 TEST 2 A parameter for internal use only No access allowed 239 2239 TEST 3 A parameter for internal use only No access allowed 240 2240 TEST 4 A parameter for internal use only No access allowed 241 2241 TEST_5 A parameter for internal use only No access allowed 242 2242 TEST 6 A parameter for internal use only No access allowed 24
127. ther FSTATE VAL is used or not 2 byte bit array Bit Label Description 0 Fault state to value 1 In Fault State write FSTATE VAL1 to IN 1 Fault state to value 2 In Fault State write FSTATE_VAL2 to IN 2 Fault state to value 3 In Fault State write FSTATE VAL3 to IN 3 Fault state to value 4 In Fault State write FSTATE VALA4 to IN 4 Fault state to value 5 In Fault State write FSTATE VALS5 to IN 5 Fault state to value 6 In Fault State write FSTATE VAL6 to IN 6 Fault state to value 7 In Fault State write FSTATE VAL7 to IN 7 Fault state to value 8 In Fault State write FSTATE VAL8 to IN 8 Use fault state to value on restart1 On restart write FSTATE VAL1 to IN 1 Use fault state to value on restart2 On restart write FSTATE VAL2 to IN 2 Use fault state to value on restart3 On restart write FSTATE_VAL3 to IN Use fault state to value on restart4 On restart write FSTATE_VAL4 to IN 4 Use fault state to value on restart5 On restart write FSTATE_VAL5 to IN 5 Use fault state to value on restart6 On restart write FSTATE VAL6 to IN 6 Use fault state to value on restart7 On restart write FSTATE VAL7 to IN 7 Use fault state to value on restart8 On restart write FSTATE VAL8 to IN 8 T0518 2 IM 11M12D01 61E 5 22 lt 5 CONFIGURATION gt FSTATE_TIME Sets time seconds from MAO IN 1 to IN 8 communications fail and Fault State FSTATE VAL1 to FSTATE VAL8 Sets values to write to IN 1 to IN 8 of MAO block when these inputs
128. this function When this is switched on simulation is enabled See Figure 6 1 To initiate the same action from a remote terminal if REMOTE LOOP TEST SWITCH is written to SIM_ENABLE_MSG index 1044 parameter of the resource block the resulting 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 block consists of the elements listed in Table 6 2 below Table 6 2 SIMULATE Parameter Sub Index Parameters Description 1 Simulate Status Sets the data status to be simulated 2 Simulate Value Sets the value of the data to be simulated 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 Simulate En Disable Controls the simulation function of this block 1 Disabled standard 2 Active simulation T0603 ai IM 11M12D01 61E 6 IN PROCESS OPERATION gt 6 3 When Simulate En Disable in Table 6 3 above is set to Active 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 propagati
129. timing of communications allowing for execution time of each block Refer to Table 5 3 for the factory default execution start timings in brackets for the blocks in the AV550G Table 5 3 Function Block execution scheduling for AV550G Index Parameters Setting amp factory default 269 MACROCYCLE DURATION Macrocycle is control or measurement cycle repetition interval SM unit 1 32 ms default 32 000 1 sec 276 FB START ENTRY 1 Macrocycle relative start offset of Al1 block unit 1 32 ms SM default 0 0 ms 277 FB START ENTRY 2 Macrocycle relative start offset of AI2 unit 1 32 ms SM default 9600 300 ms 278 FB START ENTRY 3 Macrocycle relative start offset of AI3 unit 1 32 ms SM default 192002600 ms 279 SM FB START ENTRY to 14 Not set to 289 SM T0503 ai Each Al block takes a maximum of 29 ms to execute so you can schedule communication of the output value to the input of a connected function block to start after this time has elapsed Figure 5 2 illustrates the connection of typical function blocks and Figure 5 3 shows the corresponding scheduling of their execution AV550G 1100 mme FC100 F0502 ai Figure 5 2 Example of loop with two AV550G function blocks connected to other instruments IM 11M12D01 61E lt 5 CONFIGURATION gt 5 5 Macrocycle Control Period Enos Fiio0 CAS IN FC100 BKCAL_OUT 200 BKCAL_IN FIC200 FI200 FI200 H pila OUT
130. tion block 1 is in the O S mode lt 8 GENERAL SPECIFICATIONS gt 8 1 GENERAL SPECIFICATIONS 8 1 Standard Specifications For items other than those described below refer to GS 11M12D01 01E Applicable Models All the models of AV550G with Fieldbus communication functions Output code F These models conform to the following EMC standards EN61326 AS NZS2064 Output Signals Digital communication signal compliant with the FOUNDATION Fieldbus protocol Physical Layer Type 113 standard power signaling bus powered 1 5 Supply Voltage 9 to 32 V DC for general purpose flameproof types and Nonincendive Condition of Communication Line Supply voltage 9 to 32 V DC Supply current 15 mA maximum Functional Specifications The communication specifications conform to the H1 fieldbus specification of the Fieldbus FOUNDATION Function blocks Three Al function blocks Two DI function blocks One MAI block One MAO block Link master functionality BASIC of factory setting Software download function 8 2 Model and Suffix Codes 1 Detector Refer to GS 11M12A01 01E for a detailed explanation of the detector specifications and available accessories IM 11M12D01 61E lt 8 GENERAL SPECIFICATIONS gt 2 Averaging Converter AV550G Averaging Converter A 4 Channel Base B 8 Channel Base 1 Oxygen Channel Card Common Isolation 2 Oxygen Channel Cards Common Isolation 3 Oxygen Channel Cards C
131. ty value 6 Delay 4 18 12 10 TAO601 ai In this case set SlotTime MaxResponseTime and MinInterPduDelay as forrows ConfiguredLinkSettingsRecord AV550G Index 369 SM 3 In the LAS settings of the AV550G set the values of V FUN and V NUN so that they include the Subindex Element 1 SlotTime Setting MaxResponseDelay MinInterPduDelay Default Description 20 4095 V ST 6 5 V MRD 12 12 V MID 0602 node addresses of all nodes within the same segment See also Figure A5 3 5 4 L ConfiguredLinkSettingsRecord AV550G Index 369 SM Subindex 4 Element FirstUnpolledNodeld T NumConsecUnpolledNodeld Default Value Description 0x25 V FUN OxBA V NUN M Functions 0603 5 Function Description 1 LM initialization When a fieldbus segment starts the LM with the smallest V ST x V TN value within the segment becomes the LAS At all times each LM is checking whether or not a carrier is on the segment 2 Startup of other nodes Transmits a PN Probe Node message and Node Activation SPDU PN and Node Activation SPDU message to devices which return a new PR Probe Response message transmissions 3 PT transmission Passes a PT Pass Token message to devices included in the live list including final bit monitoring sequentially and monitors the RT Ret
132. urn Token and final bit returned in reply to the PT CD transmission Transmits a CD Compel Data message at the scheduled times Time synchronization Supports periodic TD Time Distribution transmissions and transmissions of a reply to a CT Compel Time 6 Domain download server Sets the schedule data The schedule data can be equalized only when the Domain Download command is carried out from outside the LM in question The version of the schedule is usually monitored but no action takes place even when it changes Live list equalization Transmits SPDU messages to LMs to equalize live lists LAS transfer Transfers the right of being the LAS to another LM Reading writing of NMIB for LM See Section A5 5 10 Round Trip Delay Reply RR Not yet supported in the current version Reply to DLPDU 11 Long address Not yet supported in the current version IM 11M12D01 61E 0604 lt APPENDIX 5 LINK MASTER FUNCTIONS gt A 27 A5 5 LM Parameters A5 5 1 LM Parameter List The tables below show LM parameters of a AV550G Meanings of Access column entries RW read write possible R read only aay Parameter Name TT ee Name Acess Remarks 362 DLME_LINK_MASTER_CAPABILITIES_VARIABLE 0x04 RW 363 DLME_LINK_MASTER_ 0 RW INFO_RECORD 1 MaxSchedulingOverhead 0 2 DefMinTok
133. ut value USE IN NO below This sets the format for all displays If input data overflows the maximum or underflows the minimum then the high or low limit settings will apply The four possible display format range settings are 0 Display range 9999 to 9999 1 Display range 999 9 to 999 9 2 Display range 99 99 to 99 99 3 Display range 9 999 to 9 999 Factory default range setting 0 6 USE IN NO Relative Index is 29 Selects which of the eight channels supported by MAO will be displayed on the AV550G Factory default channel setting 1 5 6 6 DI Function Block Parameters DI function block output 1 corresponds to Transducer block Alarm and output 2 corresponds to Transducer block Error switch signals MODE BLK Three block modes O S Auto and Manual are supported In O S Out of Service mode the DI function block does not operate In Manual mode the value is not updated In Auto mode the measured value is periodically updated The factory default mode setting for all DI blocks is O S CHANNEL This is a value from the transducer block that is connected to the DI block input For the AV550G it s set to 4 or 5 PV FTIME This sets the damping time constant of the DI block DISC PRI Sets the priority of the block output OUT D discrete alarm If the value is 3 or greater then alarm output is enabled The factory default setting is 1 IM 11M12D01 61E lt 5 CONFIGURATION gt 5 21 Table 5 18 Alarm Priority
134. vice Revision DEV REV of RB DD Revision DD REV of RB Software Revision SOFT REV of RB Software Name ORIGINAL 0 Domain Name Device name 440 DOMAIN Read write prohibited Get OD permitted 0108 IM 11M12D01 61E lt APPENDIX 6 SOFTWARE DOWNLOAD gt A 41 A6 11 Comments on System Network Management VFD Parameters Relating to Software Download A IMPORTANT Do not turn off the power to a field device immediately after changing parameter settings Data writing actions to the EEPROM are made redundant to ensure reliability If the power is turned off within 60 seconds after setup the parameters may revert to the previous settings 1 DWNLD PROPERTY Sub Element Size Description Index Bytes 1 Download Class 1 Indicates the download class 1 Class 1 2 Write Rsp Returned For 1 Indicates whether a write response is returned to the ACTIVATE ACTIVATE command 1 Write Response Returned 3 Write Rsp Returned For 1 Indicates whether a write response is returned to the PREPARE PREPARE command 1 Write Response Returned 4 Reserved 1 Reserved 5 ReadyForDwnld Delay Secs 2 Indicates the maximum delay after receipt of the PREPARE_FOR_DWNLD command to proceed to transition from DWNLD NOT READY to DWNLD READY 6 Activation Delay Secs 2 Indicates the maximum delay after receipt of the ACTIVATE command to proceed to transition from DWNLD OK to DWNLD NOT READY
135. wnload software v Carry out download Transmit the software to the field device s v Activate device s Activate the device s to start with new software FA0102 ai Figure 6 2 Flow of Software Download Procedure CAUTION Carrying out a software download leaves the PD tag node address and transducer block calibration parameters that are retained in the nonvolatile memory inside the target device but may reset other parameters to the defaults except a minor update that does not change the number of parameters Hence where necessary save the parameters using an engineering tool parameter setting utility or the like before carrying out a software download and then reconfigure the field device s after the download For details see Section A1 6 AN CAUTION The current dissipation of the target field device increases transitorily immediately after a download due to erasing of the FlashROM s contents Use a fieldbus power supply which has sufficient capacity to cover such increases in feed current CAUTION Upon completion of the activation the target fieldbus device performs resetting internally which temporarily halts fieldbus communication and function block executions Be especially careful about a valve positioner the output air pressure will fall to the minimum level i e zero IM 11M12D01 61E 36 lt APPENDIX 6 SOFTWARE DOWNLOAD gt CAUTION Do not turn off the power to a
136. y Resource Block Update Event By Transducer Block Update Event By AI Block Update Event By DI Block Update Event By MAI Block Update Event By MAO Block Update Event An alert has the following structure IM 11M12D01 61E 6 2 lt 6 IN PROCESS OPERATION gt Table 6 1 Alert Object Subindex o o o Parameter Explanation S P5 55 9 lt 2 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 4 4 4 Mft Type Alert Name identified by manufacturer specific DD 5 5 5 Message Reason for Alert 6 6 6 Priority Priority of the alarm 7 7 7 Time Stamp Time when this alert is first detected 8 8 Subcode Enumerated cause of this alert 9 9 Value Value of referenced data 10 10 Relative Index Relative Index of referenced data 8 Static Revision Value of static revision ST REV of the block 11 11 9 Unit Index Unit code of referenced data f T0602 ai 6 3 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 A SIMULATE_ENABLE jumper switch is mounted on the AV550G s CONTROL CARD This is to prevent the accidental operation of
137. ystem localizes the place to a specific area within the plant targeted by a specific operator and selects only necessary alerts One of the universal parameters 5 10005 MODE_BLK AUTO AUTO A universal parameter used to represent the block s operating status This parameter consists of Actual Target Permit and Normal modes 6 10006 BLOCK_ERR 0 Denotes the error status related to the local block 7 10007 CHANNEL 7 O S Used to set the channel number of the hardware to be coupled with the transducer block This parameter is fixed to 7 for the AV550G 8 10008 IN 1 MAN Denotes the input value and status 9 10009 IN 2 MAN Denotes the input value and status 10 10010 IN 3 Denotes the input value and status 11 10011 IN 4 MAN Denotes the input value and status 12 10012 IN 5 MAN Denotes the input value and status 13 10013 IN 6 Denotes the input value and status 14 10014 IN 7 Denotes the input value status 15 10015 IN 8 Denotes the input value and status 16 10016 MO OPTS 0 AUTO Sets the method for processing the values of IN 1 to IN 8 17 10017 FSTATE TIME 0 AUTO Denotes the time taken from when any of IN 1 to IN 8 fails to when the block falls into a fault state unit sec 18 10018 FSTATE VAL1 0 AUTO A value to be stored as the value of IN 1 when IN 1 falls into a fault state 19 10019 FSTATE VAL2 0 AUTO A value to be stored as the value of IN 1 when IN 2
Download Pdf Manuals
Related Search