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Serial Interface FTA for XYR 5000 User Manual

1. LOC Array 10 LOC Array 10 54 Trans 31 Flag 4 101 Trans 36 Flag 1 55 Trans 31 Flag 5 102 Trans 36 Flag 2 56 Trans 31 Flag 6 103 Trans 36 Flag 3 57 Trans 31 Flag 7 104 Trans 36 Flag 4 58 Trans 31 Flag 8 105 Trans 36 Flag 5 59 Trans 31 Flag 9 106 Trans 36 Flag 6 60 Trans 31 Flag 10 107 Trans 36 Flag 7 61 Trans 32 Flag 1 108 Trans 36 Flag 8 62 Trans 32 Flag 2 109 Trans 36 Flag 9 63 Trans 32 Flag 3 110 Trans 36 Flag 10 64 Trans 32 Flag 4 111 Trans 37 Flag 1 65 Trans 32 Flag 5 112 Trans 37 Flag 2 66 Trans 32 Flag 6 113 Trans 37 Flag 3 67 Trans 32 Flag 7 114 Trans 37 Flag 4 68 Trans 32 Flag 8 115 Trans 37 Flag 5 69 Trans 32 Flag 9 116 Trans 37 Flag 6 70 Trans 32 Flag 10 117 Trans 37 Flag 7 71 Trans 33 Flag 1 118 Trans 37 Flag 8 72 Trans 33 Flag 2 119 Trans 37 Flag 9 73 Trans 33 Flag 3 120 Trans 37 Flag 10 74 Trans 33 Flag 4 121 Trans 38 Flag 1 75 Trans 33 Flag 5 122 Trans 38 Flag 2 76 Trans 33 Flag 6 123 Trans 38 Flag 3 77 Trans 33 Flag 7 124 Trans 38 Flag 4 78 Trans 33 Flag 8 125 Trans 38 Flag 5 79 Trans 33 Flag 9 126 Trans 38 Flag 6 80 Trans 33 Flag 10 127 Trans 38 Flag 7 81 Trans 34 Flag 1 128 Trans 38 Flag 8 82 Trans 34 Flag 2 129 Trans 38 Flag 9 83 Trans 34 Flag 3 130 Trans 38 Flag 10 84 Trans 34 Flag
2. LOC Array 3 LOC Array 3 148 Trans 15 Flag 8 195 Trans 20 Flag 5 149 Trans 15 Flag 9 196 Trans 20 Flag 6 150 Trans 15 Flag 10 197 Trans 20 Flag 7 151 Trans 16 Flag 1 198 Trans 20 Flag 8 152 Trans 16 Flag 2 199 Trans 20 Flag 9 153 Trans 16 Flag 3 200 Trans 20 Flag 10 154 Trans 16 Flag 4 201 Trans 21 Flag 1 155 Trans 16 Flag 5 202 Trans 21 Flag 2 156 Trans 16 Flag 6 203 Trans 21 Flag 3 157 Trans 16 Flag 7 204 Trans 21 Flag 4 158 Trans 16 Flag 8 205 Trans 21 Flag 5 159 Trans 16 Flag 9 206 Trans 21 Flag 6 160 Trans 16 Flag 10 207 Trans 21 Flag 7 161 Trans 17 Flag 1 208 Trans 21 Flag 8 162 Trans 17 Flag 2 209 Trans 21 Flag 9 163 Trans 17 Flag 3 210 Trans 21 Flag 10 164 Trans 17 Flag 4 211 Trans 22 Flag 1 165 Trans 17 Flag 5 212 Trans 22 Flag 2 166 Trans 17 Flag 6 213 Trans 22 Flag 3 167 Trans 17 Flag 7 214 Trans 22 Flag 4 168 Trans 17 Flag 8 215 Trans 22 Flag 5 169 Trans 17 Flag 9 216 Trans 22 Flag 6 170 Trans 17 Flag 10 217 Trans 22 Flag 7 171 Trans 18 Flag 1 218 Trans 22 Flag 8 172 Trans 18 Flag 2 219 Trans 22 Flag 9 173 Trans 18 Flag 3 220 Trans 22 Flag 10 174 Trans 18 Flag 4 221 Trans 23 Flag 1 175 Trans 18 Flag 5 222 Trans 23 Flag 2 176 Trans 18 Flag 6 223 Trans 23 Flag 3 177 Trans 18 Flag 7 224 Trans 23 Flag 4 178 Trans 18 Flag 8 225
3. File Name Contains XYRLDARR EC Master EC file used for Array database load XYRDBARR EC EC file used by XYRLDARR EC for building and loading the Array database XYRLDOTH EC Master EC file used for non Array database load and CL compile XYRDBOTH EC EC file used by XYRLDOTH EC for compiling and loading the Non Array database XYRBase EB EB file for the Array points XYR011 CL up to XYR017 CL CL for the ProcMod point if indicated XYRFlag EB EB file with the Flag points XYRLoad ini This is the default Save file for the current last session XYRPrcM EB EB file with the ProcMod point XYRPV EB EB file with the RegPV and Numeric points Table 9 Files built by XYR Configurator Examine at the EB files created The user will need to verify that these files contain the locations settings point names etc that are expected and make any changes that might be necessary Any alarm limits must be manually entered While the XYR Database Configurator is not an absolute foolproof process it will do most if not all of the work in preparing the files you will need The files are ready to be copied to the LCN History Module There are a number of methods for doing this We recommend that the files be moved by plant engineering personnel with an understanding of the TPS HM structure and how to move files from a PC format to the LCN format A typical method for moving the file would be to use the F
4. FLSTIX 0 NFLAG 0 NNSTIX 1186 NNUMERIC 15 STRSTIX 0 STRLEN 8 NSTRING 0 TIMESTIX 0 NTIME 0 SPLOCK OPERATOR FLDESC i NNDESC STRDESC TIMEDESC SADD ON Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 74 of 91 SAMPLE xPM ALARMABLE FLAG POINT Sample xPM Alarm Flag Point SYSTEM ENTITY XYR T01 amp T FLAGNIM amp N XYR T01 Onln NODETYP APM PNTFORM FULL PTDESC Transmitter Online EUDESC KEYWORD ASSOCDSP 7 CDETAIL UNIT NTWKNUM gt NODENUM 9 SLOTNUM 81 PRIMMOD STATETXT 1 OFF STATETXT 0 ON PV OFF BOXCLR 1 YELLOW BOXCLR 0 GREEN AUXUNIT OFFNRMPR LOW ALENBST ENABLE EIPPCODE Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 75 of 91 SAMPLE xPM NON ALARMABLE FLAG POINT Sample xPM Non Alarmable Flag Point SYSTEM ENTITY XYR T01 amp T FLAGNIM amp N XYR T01 Onln NODETYP APM PNTFORM FULL PTDESC Transmitter Online EUDESC KEYWORD ASSOCDSP 7 CDETAIL UNIT NTWKNUM gt
5. SET XYR T02 LBatPVFL XYR ARR13 FL 52 WHEN ERROR call err set 14 SET XYR T02 Alrm PVFL XYR ARRI3 FL 102 WHEN ERROR call err set 15 SET XYR T02 SysE PVFL XYR ARRI3 FL 152 WHEN ERROR call err set 16 SET XYR 102 ORng PVFL XYR ARR13 FL 202 WHEN ERROR call err set 17 SET XYR T02 SenE PVFL XYR ARR14 FL 2 WHEN ERROR call err set 18 SET XYR T02 S2Lo PVFL XYR ARR14 FL 52 WHEN ERROR call err set 19 Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 82 of 91 Sample xPM CL SET XYR T02 S2Hi PVFL XYR ARR14 FL 102 WHEN ERROR call err set 20 SET XYR 102 SROn PVFL XYR ARRIA FL 152 WHEN ERROR call err set 21 SET XYR 102 RSts PVFL XYR ARR14 FL 202 WHEN ERROR call err set 22 SET XYR PV2 T03 PV XYR ARR04 nn 5 WHEN ERROR call err set 23 SET 103 Onln PVFL ARRI3 FL 3 WHEN ERROR call err set 24 SET XYR 103 LBat PVFL XYR ARRI3 FL 53 WHEN ERROR call err set 25 SET XYR 103 Alrm PVFL XYR ARR13 FL 103 WHEN ERROR call err set 26 SET XYR T03 SysE PVFL XYR ARRI3 FL 153 WHEN ERROR call err set 27 SET XYR 103 ORng PVFL XYR ARR13 FL 203 WHEN ERROR call err set 28
6. O IN Trans 13 PV 2 Trans 13 PV 3 Trans 14PV 1 Trans 14 PV 2 Trans 14 PV 3 Trans 15 PV 1 Trans 15 PV 2 Trans 15 PV 3 Revision 1 02 LOC ID 4 16 20 Transmitters PVs Trans 16 20 15 FP Values 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 LOC ID 5 21 25 Transmitters PVs Trans 21 25 15 FP Values 1 Trans 21 PV 1 2 Trans 21 PV2 3 Trans 21 PV 3 4 Trans 22 PV 1 5 Trans 22 PV 2 6 Trans 22 PV 3 7 Trans 23 PV 1 8 Trans 23 PV2 9 Trans 23 PV 3 10 Trans 24 PV 1 11 Trans 24 PV 2 12 Trans 24 PV 3 13 Trans 25 PV 1 14 Trans 25 PV2 15 Trans 25 PV 3 Page 35 of 91 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 ADDITIONAL ARRAYS REQUIRED FOR UP TO LOC Array 10 30 TRANSMITTERS 7 Trans 26 Flag 7 8 Trans 26 Flag 8 LOC Array 9 9 Trans 26 Flag 9 10 Trans 26 Flag 10 26 30 Transmitters 11 Trans pss 12 Trans 27 Flag 2 mans 13 Trans 27 Flag 3 25 Values 14 Trans 27 Flag 4 1 Trans 26 15 Trans 27 Flag 5 2 Le
7. TIMEDESC ADD ON Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 60 of 91 ISYSTEM ENTITY X ARR02 amp T ARRAY PNTFORM FULL KEYWORD ASSOCDSP CDETAIL MODNUM 0 PRIMMOD USERID SCANPRI LOW AB DATA AUXDATA2 AB DATA2 AUXDATA3 AB DATA3 AUXDATAA AB DATAA FLSTIX 0 NFLAG 0 NNSTIX 999 STRSTIX 0 STRLEN 8 NSTRING 0 TIMESTIX 0 NTIME 0 SPLOCK OPERATOR FLDESC NNDESC STRDESC TIMEDESC ADD ON Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 61 of 91 SYSTEM ENTITY X ARR03 amp T ARRAY PNTFORM FULL KEYWORD ASSOCDSP CDETAIL MODNUM 0 PRIMMOD USERID SCANPRI LOW AB DATA AUXDATA2 AB DATA2 AUXDATAS3 AB DATA3 AUXDATA4 DATA4 FLSTIX 484 NNSTIX 0 NNUMERIC
8. Trans 16 Conversion Flag 1 Trans 16 Conversion Flag 2 Trans 16 Conversion Flag 3 Trans 17 Conversion Flag 1 Trans 17 Conversion Flag 2 Trans 17 Conversion Flag 3 Trans 18 Conversion Flag 1 Trans 18 Conversion Flag 2 Trans 18 Conversion Flag 3 Trans 19 Conversion Flag 1 Trans 19 Conversion Flag 2 Trans 19 Conversion Flag 3 Trans 20 Conversion Flag 1 Trans 20 Conversion Flag 2 Trans 20 Conversion Flag 3 Trans 21 Conversion Flag 1 Trans 21 Conversion Flag 2 Trans 21 Conversion Flag 3 Trans 22 Conversion Flag 1 Trans 22 Conversion Flag 2 Trans 22 Conversion Flag 3 Trans 23 Conversion Flag 1 Trans 23 Conversion Flag 2 Trans 23 Conversion Flag 3 Trans 24 Conversion Flag 1 Trans 24 Conversion Flag 2 Trans 24 Conversion Flag 3 Trans 25 Conversion Flag 1 ARRAYS REQUIRED FOR UP TO 5 EOS TRANSMITTERS 34 35 LOC Array 1 36 ID 15 37 1 5 Transmitters 38 Conversion Flags 39 Trans 1 50 40 151 Flags 41 1 Trans 1 Conversion Flag 1 42 2 Trans 1 Conversion Flag 2 43 3 Trans 1 Conversion Flag 3 44 4 Trans 2 Conversion Flag 1 45 5 Trans 2 Conversion Flag 2 46 6 Trans 2 Conversion Flag 3 47 7 Trans 3 Conversion Flag 1 48 8 Trans 3 Conversion Flag 2 49 9 Trans 3 Conversion Flag 3 50 10 Trans 4 Conversion Flag 1 51 11 Trans 4 C
9. ASSOCDSP CDETAIL UNIT al NTWKNUM gt NODENUM 1 MODNUM 0 SLOTNUM 14 PRIMMOD USERID EXTDATA IO NN IOPNUM 1 FTANUM 1 DEVADDR 0 SCANPRI LOW AUXDATAI 9 AB DATA AUXDATA2 AB DATA2 AUXDATA3 AB DATA3 AUXDATAA AB DATAA FLSTIX 0 NFLAG 0 NNSTIX 1171 NNUMERIC 15 STRSTIX 0 STRLEN 8 NSTRING 0 TIMESTIX 0 NTIME 0 SPLOCK OPERATOR FLDESC NNDESC STRDESC TIMEDESC SADD ON Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 73 of 91 SYSTEM ENTITY X 5 amp T ARRAY X 15 NODETYP HPM PNTFORM FULL PTDESC ARRAY PVVal KEYWORD ASSOCDSP CDETAIL UNIT al NTWKNUM gt NODENUM 1 MODNUM 0 SLOTNUM 15 PRIMMOD USERID EXTDATA IO NN IOPNUM 1 FTANUM 1 DEVADDR 0 SCANPRI LOW AUXDATAI 10 AB DATA AUXDATA2 AB DATA AUXDATAB AB DATA3 AUXDATA4 DATA4
10. SET XYR T03 SenE PVFL XYR ARRIA FL 3 WHEN ERROR call err set 29 SET XYR 103 S2Lo PVFL XYR ARR14 FL 53 WHEN ERROR call err set 30 SET XYR 103 S2Hi PVFL XYR ARR14 FL 103 WHEN ERROR call err set 31 SET XYR T03 SROn PVFL XYR ARR14 FL 153 WHEN ERROR call err set 32 SET XYR 103 RSts PVFL XYR ARR14 FL 203 WHEN ERROR call err set 33 SET XYR PV2 04 XYR ARRO04 nn 6 WHEN ERROR call err set 34 SET 104 Onln PVFL not XYR ARRI3 FL 4 WHEN ERROR call err set 35 SET XYR 104 LBat PVFL XYR ARRI3 FL 54 WHEN ERROR call err set 36 SET XYR T04 Alrm PVFL XYR ARRI3 FL 104 WHEN ERROR call err set 37 SET XYR T04 SysE PVFL XYR ARR13 FL 154 WHEN ERROR call err set 38 SET XYR 104 ORng PVFL ARRI3 FL 204 WHEN ERROR call err set 39 SET XYR 704 SenE PVFL XYR ARRIA FL 4 WHEN ERROR call err set 40 SET XYR 104 S2Lo PVFL XYR ARR14 FL 54 WHEN ERROR call err set 41 SET XYR T04 S2Hi PVFL XYR ARRIA FL 104 WHEN ERROR call err set 42 SET XYR T04 SROn PVFL XYR ARR14 FL 154 WHEN ERROR call err set 43 SET XYR 104 RSts PVFL XYR ARR14 FL 204 WHEN ERROR call err set 44 SET XYR PV2 T05 PV XYR ARR04 nn 7 WHEN ERROR call err set 45
11. SET XYR T05 Onln PVFL not XYR ARR13 FL 5 WHEN ERROR call err set 46 SET XYR 105 LBat PVFL XYR ARRI3 FL 55 WHEN ERROR call err set 47 SET XYR 705 Alrm PVFL ARR13 FL 105 WHEN ERROR call err set 48 SET XYR T05 SysE PVFL XYR ARR13 FL 155 WHEN ERROR call err set 49 SET XYR 105 ORng PVFL XYR ARR13 FL 205 WHEN ERROR call err set 50 SET XYR 105 SenE PVFL XYR ARR14 FL 5 WHEN ERROR call err set 51 SET XYR 105 S2Lo PVFL XYR ARR14 FL 55 WHEN ERROR call err set 52 SET XYR T05 S2Hi PVFL XYR ARR14 FL 105 WHEN ERROR call err set 53 SET XYR 105 SROn PVFL XYR ARR14 FL 155 WHEN ERROR call err set 54 SET XYR 105 RSts PVFL XYR ARR14 FL 205 WHEN ERROR call err set 55 SET XYR PV2 T06 PV ARR04 nn 8 WHEN ERROR call err set 56 SET XYR T06 Onln PVFL not XYR ARR13 FL 6 WHEN ERROR call err set 57 SET XYR 706 LBat PVFL XYR ARR13 FL 56 WHEN ERROR call err set 58 SET XYR 706 Alrm PVFL ARR13 FL 106 WHEN ERROR call err set 59 SET XYR 106 SysE PVFL XYR ARR13 FL 156 WHEN ERROR call err set 60 SET XYR T06 ORng PVFL XYR ARR13 FL 206 WHEN ERROR call err set 61 SET XYR T06 SenE PVFL XYR ARR14 FL 6 WHEN ERROR
12. Unit al PM Network t 1 Base Tag name XYRO1 Number of Transmitters This data must be obtained from the plant personnel to accurately reflect the specific configuration of your plant e Node Type The Node Type may be selected using the drop down menu as either HPM or APM The selection will affect data entry validation for certain types of data e Unit Unit is an entry for the LCN Unit ID and must meet LCN standards for Unit Identification e Base Tag Name All default tagnames will have this entry as a prefix Note that tagnames may be manually changed before the final database is generated e xPM Node This entry represents the LCN Node number of the xPM where the database for the XYR5000 SI FTA will be loaded xPM Network xPM Network is an entry that indicates the UCN Network number where the xPM resides e Number of Transmitters This entry will size the array database to house this number of transmitters This entry also affects the transmitters that may be selected for inclusion This number should match or exceed the number of transmitters configured in the XYR 5000 Base Radio Note that the larger this number becomes the more array points are defined for addition to the system If the space is available we recommend configuring now for 50 transmitters to remove the trouble of having to add database at a later date However also recognize that there is a range of transmitters associated with each Serial I
13. NODENUM 9 SLOTNUM 601 PRIMMOD STATETXT 1 OFF STATETXT 0 ON PV OFF BOXCLR 1 YELLOW BOXCLR 0 GREEN Revision 1 02 Page 76 of 91 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 SAMPLE xPM NUMERIC POINT Sample xPM Numeric Point SYSTEM ENTITY XYR PV2 126 amp T NUMERNIM amp N XYR PV2 T26 NODETYP APM PNTFORM FULL PTDESC Numeric XYR PV2 T26 EUDESC i KEYWORD ASSOCDSP CDETAIL UNIT NTWKNUM gt NODENUM 9 SLOTNUM 26 PRIMMOD PV 0 0 PVFORMAT DI Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 77 of 91 SAMPLE xPM REGPV POINT Sample xPM RegPV Point SYSTEM ENTITY XYR PV1 T01 amp T REGPVNIM KN XYR PVI 10 NODETYP APM PNTFORM FULL PTDESC RegPV XYR PV1 T01 EUDESC i KEYWORD a ASSOCDSP 7 CDETAIL UNIT 1 NTWKNUM gt NODENUM 9 MODNUM 0 SLOTNUM 1 PRIMMOD USERID PVALGID DATAACQ PVEUHI 100 0000 PVEULO 0 000000 PVFORMAT DI PVEXEUHI 102 90000 PVEXEULO 2 90000 PVCLAMP NOCLAMP PVSRCOPT O
14. 16 Trans 27 Flag 6 3 17 Trans 27 Flag 7 4 _ 18 Trans 27 Flag 8 3 19 Trans 27 Flag 9 6 20 Trans 27 Flag 10 Lm ae 21 Trans 28 Flag 1 Trans 34 Type 22 Trans 28 Flag 2 gt Trans 35 Type 23 Trans 28 Flag 3 11 Trans 36 Type 24 Trans 28 Flag 4 25 Trans 28 Flag 5 12 I x 26 Trans 28 Flag 6 14 Pus 27 Trans 28 Flag 7 28 Trans 28 Flag 8 12 E 29 Trans 28 Flag 9 17 42 DES 30 Trans 28 Flag 10 18 Trans 43 Type 31 Trans 29 Flag 1 19 Trans 44 Type 32 Trans 29 Flag 2 20 Trans 45 Type 33 Trans 29 Flag 3 21 Trans 46 Type 34 Trans 29 Flag 4 22 Trans 47 Type 35 Trans 29 Flag 5 23 Trans 48 Type 36 Trans 29 Flag 6 24 Trans 49 Type 37 Trans 29 Flag 7 38 Trans 29 Flag 8 29 Bana 39 Trans 29 Flag 9 40 Trans 29 Flag 10 41 Trans 30 Flag 1 LOC Array 10 42 Trans 30 Flag 2 ID 14 43 Trans 30 Flag 3 26 30 Transmitters 44 Trans 30 Flag 4 Trans Flags 45 Trans 30 Flag 5 Trans 26 50 46 Trans 30 Flag 6 250 Flags 47 Trans 30 Flag 7 1 Trans 26 Flag 1 48 Trans 30 Flag 8 2 Trans 26 Flag 2 49 Trans 30 Flag 9 3 Trans 26 Flag 3 50 Trans 30 Flag 10 4 Trans 26 Flag 4 51 Trans 31 Flag 1 5 Trans 26 Flag 5 52 Trans 31 Flag 2 6 Trans 26 Flag 6 53 Trans 31 Flag 3 Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 36 of 91
15. Tag settings PV Tlag Points EL BegewoMmertSe Lu ss ru h s pores fi Berring hey skt Bane Rado Onine Default settings Set al PVT Be Hane None Sat PV2 None Sat at a Nong Set al lags ax Norsalsmatie No flag Flag mnemonics Pagi Grin 54 Pez T Paga pe Bm F4 M 3 Flog 5 Pang Flog 19 Ca Generate Database Transmitters PV Flag Points Transmitters PV7Flag Points Select the transmitters connected to Radio Check all Transmitter 05 Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 47 of 91 The number of transmitters presented in this section is a direct result of the prior selection of Number of Transmitters The array database will be built to handle 6 transmitters With this selection the user will be allowed to define extended storage of PV and Flag data Transmitters not selected here will not have the option of using the extended database Select the transmitters as appropriate Note that with each selection a Transmitter xx will appear on the left pane of the Configurator Tag Settings PV Flag Points Tag settings PY Flag Points Beginning alarmable flag 1 Beginning Numeric Slot 1 slot Ee m Beginning Process Beginning 1025 Module Slot 1 Non alar
16. _ ___ __ ______ __ _ _ __ __ 2 Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 4 of 91 REVISION HISTORY FOR DOCUMENT 34 XY 25 14 REVISION DATE REASON BY 1 0 19 May 2006 First Release Mike Stapley 1 01 22 May 2006 Revise verbiage to make clear Mike Stapley 1 02 30 April 2007 Add notes about data flags Mike Stapley Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 5 of 91 INTRODUCTION The purpose of this document is to provide a detailed user manual for the Honeywell Serial Interface Field Termination Assembly SI FTA to Honeywell s XYR 5000 XYR5000 This document addresses all topics that affect the functionality of the interface including the the communications protocol parameter availability data formats system configuration and user interface As well the document provides instructions for configuration and implementation of the device into the Honeywell TPS system This document is not intended to replace the manuals supplied with the TDC system that give proper instruction on the installation and configuration of the required hardware Neither does it supplant the information provided in the Wireless Base Radio User Manual With the SI FTA for the XYR 5000 Honeywell provides access to all the data remotely available from the XYR 5000 and stores the data into arrays associated with the SI FTA as described later within this document
17. ti XYR Database Configurator General Information Node Type nrw PM Node 8 Une Base Tag name Number 50 m Anay Conligurabon Baz Bate Xo gt ModsaiD E nz lt 1 Message fi In secondi History Module telerence path path eT TEMP Fomat NET pah Database Genesabon Generate Anay databace alone Geneste extended database Genesim Database Ep The Menu Bar provides two main choices Session and About The Session selection will provide the option to save the current session to read in a saved session or to exit the current session At any time the user may either load a previously saved session or save the current session for future use The About selection provides the user the Version number for the running configurator Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 43 of 91 8 Database Configurator GES Session Confxpan Radio Version St Anays Tran 5000 CTI UKIT TO 15 4 gt zin s Hestory Module relesence path Wideenge path NETS TEMP Fama NET path Databare Generation Generate Anay dalabare alone Generate extended databare Dalabere Ea Some general notes about the left side of the configurator window e The left si
18. Array Configuration Baud Rate 9600 gt Modbus ID Parity None IOPNUM 1 Signaling protocol 865495 gt FTANUM 1 Message Timeout 1 Gray in seconds 3 The array database must reflect certain information about the system and about the communication setup e Baud Rate The Baud Rate or rate of communication must be determined and selected Selections may be made from the drop down menu e Parity Using the drop down menu select Odd Even or None for the parity used in communication e Signaling Protocol Using the drop down menu select RS485 or RS232 The default and standard for the XYR 5000 Base radio is RS485 e Message Timeout Enter here the communication timeout value for the Modbus communications This represents the time in seconds before a failure is determined and retry will occur The range is between 0 25 sec and 5 0 sec e Modbus ID This is the Modbus address of the XYR 5000 Base Radio e IOPNUM This is the slot number the SI IOP is mounted in The range is 1 40 e FTANUM The FTANUM defines whether the FTA is connected as the first or the second FTA Note that FTA 1 is connected on the left side of the FTA s power supply FTA 2 is connected on the right side of the FTA s power supply e Beginning Array Slot The first slot for the array database must be defined Note that the program presumes all slots are consecutive and are built as such Manual changes to t
19. EXTERNAL XYR 104 SysE EXTERNAL XYR T04 ORng EXTERNAL XYR 104 SenE EXTERNAL XYR 104 S2Lo EXTERNAL XYR T04 S2Hi EXTERNAL XYR T04 SROn EXTERNAL XYR T04 RSts EXTERNAL XYR PV2 T05 EXTERNAL XYR 105 Onln EXTERNAL XYR T05 LBat EXTERNAL XYR 103 Alrm EXTERNAL XYR 105 SysE EXTERNAL XYR T05 ORng EXTERNAL XYR 105 SenE EXTERNAL XYR T05 S2Lo EXTERNAL XYR 105 S2Hi EXTERNAL XYR 105 SROn EXTERNAL XYR 105 RSts EXTERNAL XYR PV2 T06 EXTERNAL XYR T06 Onln EXTERNAL XYR 106 LBat EXTERNAL XYR 106 Alrm EXTERNAL XYR 106 SysE EXTERNAL XYR T06 ORng EXTERNAL XYR T06 SenE EXTERNAL XYR T06 S2Lo EXTERNAL XYR T06 S2Hi EXTERNAL XYR 106 SROn EXTERNAL XYR 106 RSts EXTERNAL XYR PV2 107 Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 81 of 91 Sample xPM CL EXTERNAL XYR T07 Onln EXTERNAL XYR 107 LBat EXTERNAL XYR 107 Alrm EXTERNAL XYR 107 SysE EXTERNAL XYR T07 ORng EXTERNAL XYR 107 SenE EXTERNAL XYR T07 S2Lo EXTERNAL XYR T07 S2Hi EXTERNAL XYR T07 SROn EXTERNAL XYR 107 RSts EXTERNAL XYR PV2 T08 EXTERNAL XYR T08 Onl
20. EXTERNAL XYR ARRII EXTERNAL XYR ARRI2 EXTERNAL XYR ARR13 EXTERNAL XYR ARR14 EXTERNAL ARRIS5 EXTERNAL XYR PV2 10 EXTERNAL T01 Onln EXTERNAL XYR T01 LBat EXTERNAL XYR 701 Alrm EXTERNAL XYR 10 SysE EXTERNAL XYR T01 ORng EXTERNAL XYR 10 SenE EXTERNAL XYR T01 S2Lo EXTERNAL XYR T01 S2Hi EXTERNAL XYR 10 SROn EXTERNAL XYR 701 RSts EXTERNAL XYR PV2 T02 EXTERNAL XYR T02 Onln EXTERNAL XYR T02 LBat EXTERNAL XYR T02 Alrm EXTERNAL XYR T02 SysE EXTERNAL XYR T02 ORng EXTERNAL XYR T02 SenE EXTERNAL XYR T02 S2Lo EXTERNAL XYR T02 S2Hi EXTERNAL XYR T02 SROn EXTERNAL XYR T02 RSts EXTERNAL XYR PV2 T03 EXTERNAL XYR T03 Onln Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 Page 80 of 91 30 April 2007 Sample xPM CL EXTERNAL XYR T03 LBat EXTERNAL XYR T03 Alrm EXTERNAL XYR T03_SysE EXTERNAL XYR T03 ORng EXTERNAL XYR T03 SenE EXTERNAL XYR T03 S2Lo EXTERNAL XYR T03 S2Hi EXTERNAL XYR 103 SROn EXTERNAL XYR 103 RSts EXTERNAL XYR PV2 104 EXTERNAL XYR T04 Onln EXTERNAL XYR 104 LBat EXTERNAL XYR T04 Alrm
21. Flag mnemonics Flag 1 Flag 2 Flag 3 Flag 4 Flag 5 ORng Onin LBat Alm SenE Flag B Flag 7 Flag 8 Flag 3 Flag 10 yE 0 wi n s Up to 10 flags may be created to provide a PVFL for the status data on each transmitter As a default the Base Tagname is combined with the a Txx for the transmitter number and the mnemonics defined here as a tagname for the flags The flags are as follows Onln Online Offline Status of the transmitter LBat Low Battery Alrm In Alarm SenE Sensor Error ORng Overrange condition in effect SysE System Error SIHi Switch 1 is High S2Hi Switch 2 is High SROn Square Root Function in effect RSts Future use The final set of selections is based on the configuration the individual transmitters Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 49 of 91 oi XVII Database Configurator pui Alam Stolus Transm ter 3 1 Alamable None Paan Tos Check ait g he 06 Ju Flag _ Flagg Lat agham Fool Ser Flag ORrg Flg Sy Fig 52H With this page the user may select individual PVs and or Flags for transfer to optional Flag Numeric or RegPV points PVs selected as RegPV provides alarming and limit checking will have their array value moved
22. NNUMERIC 15 STRSTIX 0 STRLEN 8 NSTRING 0 TIMESTIX 0 NTIME 0 SPLOCK OPERATOR FLDESC NNDESC STRDESC TIMEDESC SADD ON Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 71 of 91 SYSTEM ENTITY X ARR13 amp T ARRAY amp N X ARR13 NODETYP HPM PNTFORM FULL PTDESC ARRAY PVVal KEYWORD ASSOCDSP CDETAIL UNIT al NTWKNUM gt NODENUM 1 MODNUM 0 SLOTNUM 13 PRIMMOD USERID EXTDATA IO NN IOPNUM 1 FTANUM 1 DEVADDR 0 SCANPRI LOW AUXDATAI 8 AB DATA AUXDATA2 AB DATA2 AUXDATA3 AB DATA3 AUXDATAA AB DATAA FLSTIX 0 NFLAG 0 NNSTIX 1156 NNUMERIC 15 STRSTIX 0 STRLEN 8 NSTRING 0 TIMESTIX 0 NTIME 0 SPLOCK OPERATOR FLDESC NNDESC STRDESC TIMEDESC SADD ON Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 72 of 91 ISYSTEM ENTITY X ARR14 amp T ARRAY amp N X ARR14 NODETYP HPM PNTFORM FULL PTDESC ARRAY PVVal KEYWORD
23. NTWKNUM gt NODENUM 1 MODNUM 0 SLOTNUM 11 PRIMMOD USERID EXTDATA IO NN IOPNUM 1 FTANUM 1 DEVADDR 0 SCANPRI LOW AUXDATAI AB DATA AUXDATA2 AB DATA2 AUXDATA3 AB DATA3 AUXDATAA AB DATAA FLSTIX 0 NFLAG 0 NNSTIX 1126 NNUMERIC 15 STRSTIX 0 STRLEN 8 NSTRING 0 TIMESTIX 0 NTIME 0 SPLOCK OPERATOR FLDESC NNDESC STRDESC TIMEDESC SADD ON Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 70 of 91 ISYSTEM ENTITY X ARR12 amp T ARRAY amp N X ARR12 NODETYP HPM PNTFORM FULL PTDESC ARRAY PVVal KEYWORD ASSOCDSP CDETAIL UNIT al NTWKNUM gt NODENUM 1 MODNUM 0 SLOTNUM 12 PRIMMOD USERID EXTDATA IO NN IOPNUM 1 FTANUM 1 DEVADDR 0 SCANPRI LOW AUXDATAI 7 AB DATA AUXDATA2 AB DATA2 AUXDATA3 AB DATA3 AUXDATAA AB DATAA FLSTIX 0 NFLAG 0 NNSTIX gt 1141
24. and PV3 of each of transmitters one 1 through five 5 Array five 5 Array six 6 Array seven 7 and Array eight 8 represent the next sets of transmitters with each array allowing five 5 more transmitters Array nine 9 is a twenty five 25 element array that reflects the Device Type of the second twenty five 25 transmitters connected to the Base Radio Array ten 10 is a two hundred fifty 250 element flag array that contains the status flags that are maintained by the Base Radio for the second twenty five 25 transmitters There are ten 10 flags per transmitter with each successive ten 10 flags representing the next transmitter Array eleven 11 is a 15 element array representing PV1 PV2 and PV3 of each of transmitters twenty six 26 through thirty 30 Array twelve 12 Array thirteen 13 Array fourteen 14 and Array fifteen 15 represent the next sets of transmitters with each array allowing five 5 more transmitters EXTENDED DATABASE STRUCTURE All transmitter data obtained from the XYR 5000 is nominally placed into arrays associated with the XYR 5000 SI FTA These values can be used in custom schematics and logs but where there is a need or a desire to alarm scale or simply to represent values as a P V rather than as an array element additional points must be built that will receive the array data There are four basic point types that can be used in such a configuration The following t
25. 15 See Table 2 Transmitter vs Array Requirements on page 2 6 UCN Network This is required for database building 7 xPM Node Number This is required for database building 8 Unit ID This is required for database building 9 Transmitters to be This is required for database building You may wish configured into Base to refer to the table Table 2 Transmitter vs Array Radio Requirements on page 2 to determine if you want to implement the maximum for the number of arrays you will build For example if you have 6 transmitters it may be as well to build for 10 transmitters since the number of arrays required will handle up to 10 transmitters 10 Communication BAUD This is required for database building Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 86 of 91 Ite Description Check Additional Information m and Entries rate 11 Communication Parity This is required for database building 12 Signaling Protocol RS485 or RS232 13 Modbus Message This is a value between 0 5 and 5 0 seconds This is Timeout the time after which the XYR SI FTA acting as a Modbus Master will declare a no response to commands made from it to the Base Radio 14 Base Radio Modbus This is required for database building This is the Device ID actual Modbus device number for the Base Radio 15 IOP number where SI This is required for d
26. 44 Trans 5 Flag 4 45 Trans 5 Flag 5 46 Trans 5 Flag 6 47 Trans 5 Flag 7 48 Trans 5 Flag 8 49 Trans 5 Flag 9 50 Trans 5 Flag 10 51 Trans 6 Flag 1 52 Trans 6 Flag 2 53 Trans 6 Flag 3 Page 31 of 91 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 LOC Array 3 54 Trans 6 Flag 4 55 Trans 6 Flag 5 56 Trans 6 Flag 6 57 Trans 6 Flag 7 58 Trans 6 Flag 8 59 Trans 6 Flag 9 60 Trans 6 Flag 10 61 Trans 7 Flag 1 62 Trans 7 Flag 2 63 Trans 7 Flag 3 64 Trans 7 Flag 4 65 Trans 7 Flag 5 66 Trans 7 Flag 6 67 Trans 7 Flag 7 68 Trans 7 Flag 8 69 Trans 7 Flag 9 70 Trans 7 Flag 10 71 Trans 8 Flag 1 72 Trans 8 Flag 2 73 Trans 8 Flag 3 74 Trans 8 Flag 4 75 Trans 8 Flag 5 76 Trans 8 Flag 6 77 Trans 8 Flag 7 78 Trans 8 Flag 8 79 Trans 8 Flag 9 80 Trans 8 Flag 10 81 Trans 9 Flag 1 82 Trans 9 Flag 2 83 Trans 9 Flag 3 84 Trans 9 Flag 4 85 Trans 9 Flag 5 86 Trans 9 Flag 6 87 Trans 9 Flag 7 88 Trans 9 Flag 8 89 Trans 9 Flag 9 90 Trans 9 Flag 10 91 Trans 10 Flag 1 92 Trans 10 Flag 2 93 Trans 10 Flag 3 94 Trans 10 Flag 4 95 Trans 10 Flag 5 96 Trans 10 Flag 6 97 Trans 10 Flag 7 98 Trans 10 Flag 8 99 Trans 10 Flag 9 100 Trans 10 Fl
27. As a part of the XYR SI FTA package a database builder executable is provided that will build the necessary TPS System database on the Advanced Process Manager APM or HighPerformance Process Manager HPM hereinafter referred to collectively as xPM EB files for the array data and within the specified limits of the xPM also builds the EB files and Control Language CL files requisite to move the data into Flags Numerics and Regulatory PVs NOTE An important facet of preparing for installation is to run through the PRE INSTALLATION CHECKLIST that is included within this document While it is common to ignore such checklists this checklist will help you prepare the answers that will be required by the XYR Database Configurator Even more importantly it may help you determine if your system has the capacity you will need to implement to your expectations PRIOR to actually beginning the exercise of building the database Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 6 of 91 SUPPORTING DOCUMENTATION Supporting documentation used in the preparation of this document includes Wireless Base Radio Installation and User s Manual XYR5000 Line 34 25 05 Rev 1 02 04 Control Language High Performance Process Manager Reference Manual HP27 510 9 99 APM HPM Serial Interface Options OP01 501 2 96 Process Manager I O Installation PM20 620 08 05 Control Language High Performa
28. Flag 10 237 Trans 49 Flag 7 191 Trans 45 Flag 1 238 Trans 49 Flag 8 192 Trans 45 Flag 2 239 Trans 49 Flag 9 193 Trans 45 Flag 3 240 Trans 49 Flag 10 194 Trans 45 Flag 4 241 Trans 50 Flag 1 Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 38 of 91 LOC Array 10 242 Trans 50 Flag 2 243 Trans 50 Flag 3 244 Trans 50 Flag 4 245 Trans 50 Flag 5 246 Trans 50 Flag 6 247 Trans 50 Flag 7 248 Trans 50 Flag 8 249 Trans 50 Flag 9 250 Trans 50 Flag 10 LOC Array 11 ID 6 26 30 Transmitters PVs Trans 26 30 15 FP Values 1 Trans 26 PV 1 2 Trans 26 PV 2 3 Trans 26 PV 3 4 Trans 27 PV 1 5 Trans 27 PV 2 6 Trans 27 PV 3 7 Trans 28 PV 1 8 Trans 28 PV 2 9 Trans 28 PV 3 10 Trans 29 PV 1 11 Trans 29 PV 2 12 Trans 29 PV 3 13 Trans 30 PV 1 14 Trans 30 PV 2 15 Trans 30 PV 3 Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 Page 39 of 91 30 April 2007 ADDITIONAL ARRAYS REQUIRED FOR UP TO 50 TRANSMITTERS LOC ID 7 31 35 Transmitters PVs Trans 31 35 15 FP Values LOC Array 13 ID 8 36 40 Transmitters PVs Trans 36 40 15 FP Values Trans 36 PV 1 Trans 36PV 2 Trans 36 PV 3 Trans 37 PV 1 Trans 37 PV 2 Trans 37 PV 3 Tra
29. NN IOPNUM 1 FTANUM 1 DEVADDR 0 SCANPRI LOW AUXDATAI 2 AB DATA AUXDATA2 AB DATA AUXDATAB AB DATA3 AUXDATA4 DATA4 FLSTIX 0 NFLAG 0 NNSTIX 1041 NNUMERIC 15 STRSTIX 0 STRLEN 8 NSTRING 0 TIMESTIX 0 NTIME 0 SPLOCK OPERATOR FLDESC i NNDESC STRDESC TIMEDESC SADD ON Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 64 of 91 ISYSTEM ENTITY X ARR06 amp T ARRAY amp N X ARR06 NODETYP HPM PNTFORM FULL PTDESC ARRAY PVVal KEYWORD ASSOCDSP CDETAIL UNIT al NTWKNUM gt NODENUM 1 MODNUM 0 SLOTNUM 6 PRIMMOD USERID EXTDATA IO NN IOPNUM 1 FTANUM 1 DEVADDR 0 SCANPRI LOW AUXDATAI 3 AB DATA AUXDATA2 AB DATA AUXDATAB AB DATA3 AUXDATA4 DATA4 FLSTIX 0 NFLAG 0 NNSTIX 1056 NNUMERIC 15 STRSTIX 0 STRLEN 8 NSTRING 0 TIMESTIX 0 NTIME 0 SPLOCK OPERATOR FLDESC
30. STEPS 4 ora teet rete ARIANA RENA 2 GENERAL LAYOUT DIAGRAM 5 2 AVAILABLE BASE RADIO PARAMETERS eee enne n ennemis 2 BASE RADIO HOLDING REGISTERS 2 TRANSMITTER DATA TABLE 2 DATA BASE STRUCTURE rte naam DR ee utet e i au tee a dee 2 ARRAY DATABASE STRUCTURE 2 EXTENDED DATABASE STRUCTURE 2 GRAPHICAL REPRESENTATION OF DATABASE STRUCTURE 2 DATA BASE UPDA TE d aerei RE e ee ree uuu E 2 REQUIRED DATABASE CONFIGURATION isses een en een nre enemies 2 EXTENDED DATABASE CONFIGURATION terepi iiri 2 CONTROL CAPABILITIES sier ee teo nee 2 ERROR HANDELN tnr o __ _ eR e e TRE TE ARTT RIS 2 SYSTEM PERFORMANGE rote ORTHO e ondes re S ras 2 DATABASE ORGANIZATION 2 ARRAYS REQUIRED FOR UP TO 5 TRANSMITTERS 2 ADDITIONAL ARRAYS REQUIRED FOR UP TO 25 TRANSMITTERS 2 TPS XYR DATABASECONEIGURATOR ul n PLS usa nen eene 2 PURPOSE 2 OPERATION 2 INSTALLATION 2 EXECUTION 2 1057 XYR 5000 DIAGNOSTIC SCHEMATIC uneni enin ener RE 2 SAMPLE DATABASES AND CL icc tite itr er 2 SAMPLE xPM ARRAY DATABASE SAMPLE xPM ALARMABLE FLAG POINT SAMPLE xPM NON ALARMABLE FLAG POINT SAMPLE xPM NUMERIC POINT SAMPLE xPM REGPV POINT SAMPLE xPM PROCMOD POINT SAMPLE xPM CL DISPLAY DATABASE FILE PRE INSTALLATION CHECKLIST ua titt tt trece 2 SETUP AND TROUBL
31. Trans 23 Flag 5 179 Trans 18 Flag 9 226 Trans 23 Flag 6 180 Trans 18 Flag 10 227 Trans 23 Flag 7 181 Trans 19 Flag 1 228 Trans 23 Flag 8 182 Trans 19 Flag 2 229 Trans 23 Flag 9 183 Trans 19 Flag 3 230 Trans 23 Flag 10 184 Trans 19 Flag 4 231 Trans 24 Flag 1 185 Trans 19 Flag 5 232 Trans 24 Flag 2 186 Trans 19 Flag 6 233 Trans 24 Flag 3 187 Trans 19 Flag 7 234 Trans 24 Flag 4 188 Trans 19 Flag 8 235 Trans 24 Flag 5 189 Trans 19 Flag 9 236 Trans 24 Flag 6 190 Trans 19 Flag 10 237 Trans 24 Flag 7 191 Trans 20 Flag 1 238 Trans 24 Flag 8 192 Trans 20 Flag 2 239 Trans 24 Flag 9 193 Trans 20 Flag 3 240 Trans 24 Flag 10 194 Trans 20 Flag 4 241 Trans 25 Flag 1 Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 33 of 91 ID 1 1 5 Transmitters PVs Trans 1 5 15 FP Values 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 34 of 91 ADDITIONAL ARRAYS REQUIRED FOR UP TO 25 TRANSMITTERS LOC ID 2 6 10 Transmitterse PVs Trans 6 10 15 FP Values 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ID 3 11 15 Transmitters PVs Trans 11 15 15 FP Values Trans 11 PV 1 Trans 11 PV 2 Trans 11 PV 3 Trans 12 PV 1 Trans 12 PV 2 Trans 12 PV 3 Trans 13 PV 1 CON
32. XYR 5000 DIAGNOSTIC SCHEMATIC A simple native window TPS Schematic is provided with the package to allow the plant personnel the ability to see which transmitters are connected and what the current PV values PV1 PV2 and PV3 are There are two files on the CD which must be loaded onto the TPS History Module Using the same method as used in transferring the database and CL files built by the XYR Database Configurator copy the following files to the History Module XYR DIAG DS XYRDDB DF The TPS graphic must be compiled on the target system to be useable This can only be accomplished once the Array database has been successfully loaded sicne the graphic will access that database To modify and compile the TPS schematic the following steps are provided From an station loaded with ether the Engineering Personality or the Universal Personality enter the Picture Editor Set the pathname to the volume where the DS and DF files were placed on the History Module SP NET gt xxx gt Enter the command LOAD XYRDDB load xyrddb Enter the command READ XYR DIAG to read in the schematic in preparation for possible modification Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 54 of 91 Enter the command DEFINE INIT RRRRRRRR RF RRRRRRRRR Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 55 of 91 At this point the user will see
33. a number of point names here shown as XYR01 01 through XYROI 15 e The point names must match those array point names that were loaded onto the system If point names other than the default set were used these must be modified to match the actual point names e Select the point names and modify them to match e fan array has not been loaded that line must be deleted or the schematic will not compile For example if 5 or fewer transmitters are configured into the system only the first four lines would be retained see Table 2 Transmitter vs Array Requirements PEF INIT Compile the schematic COM ensuring it is available in a volume searched by the schematic request The completed schematic will show online transmitters the 3 PV values the type of the transmitter how many transmitters the base radio is configured for and how many are responding Note that the values and types represented within this document are simulated for display purposes only and do not reflect the actual types of numbers one may expect to see There are two messages that may appear on the graphic Database Incomplete One of two things is happening here One the Base Radio may be configured to handle more transmitters than is the database on the TDC 3000 Two the additional array database has been added but the DEFINE INIT task in modifying the schematic has not been modified to include the new array Revision 1 02 Serial In
34. a subset of those requiring storage will require alarming See Table 5 XYR Solution Point Types to identify the number of available alarming and non alarming flag points per hardware type 25 Is the Base Radio Yes No Any time the extended database is created a point is Online point to be created for this value as well If the tag is to be alarmed or not alarmed an additional alarmable tag will be created Otherwise the tag will be a simple non alarmable flag point If YES always add one 1 to the number of alarmable flags required If NO always add one 1 to the number of non alarmable flags required 26 Number of flags How many of the flags that will be moved to a point requiring alarming with a PVFL will require alarming 27 Are there adequate Yes No Go to the xPM Slot Summary to physically verify the alarmable flags numbers available Do you have enough for those available required per the prior checklist item 28 Number of non Subtract from to get the number of non alarmable alarming flag points flag points required Go to the xPM Slot Summary to available physically verify the numbers available How many non alarmable flag points are available 29 Are there adequate non Yes No Subtract the of alarmable Flag points Item 26 alarmable flags available from the total number of Flag points required Item 24 to get the number of non alarmable Flag points required Go to the xPM Slot Summar
35. configured correctly on both ends SI FTA and XYR Carefully check the construction and connection of the cable between the SI FTA and the XYR 5000 Base Radio Ensure that the XYR 5000 Base Radio is in the REG Mode Make sure that the SI FTA array points have been loaded properly Ensure that the first array contains the proper configuration data The Array points MUST be loaded in order That is from the first to the last as described herin Check the individual arrays for the odd or unexpected status conditions Validate that data from each transmitter is being transferred from the XYR 5000 Base Radio to the SI FTA Array database The XYR DIAG schematic can be used to verify this If data is getting to the arrays but not to the extended database check to see if the RegPV points are active or if the ProcMod points have the CL loaded and are running properly If no data is being transferred to the SI FTA Array database a data analyzer can be placed on the communications link between the SI FTA and the XYR 5000 Base Radio The link activity can then be examined and analyzed It would be best to have someone familiar with data links and Modbus data structures perform this task If data is arriving at the array locations but is not being updated on the RegPV point ensure that the PTEXECST ACTIVE and that the general input to the PV is properly configured to retrieve data from the correct array location If data is arriving at the ar
36. scaling locations only but do provide a PV For alarming scaling and other functions one must utilize RegPV points This should be the number of RegPV points required Note that there are a limited number of RegPV slots per xPM see Table 5 XYR Solution Point Types 2 Number of available Yes No Go to the xPM Slot Summary to physically verify the Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 87 of 91 Ite Description Check Additional Information m and Entries RegPV points available numbers available Do you have enough for those required per the prior checklist item 22 Number of Numeric Go to the xPM Slot Summary to physically verify the points available number of Numeric points available How many Numeric type points are currently available See Table 5 XYR Solution Point Types for the maximum number available per hardware type 23 re there adequate Yes No Subtract the of RegPV points Item 20 required Numeric points from the total number of tags requiring a PV Item available 19 to get the number of Numeric points required Do you have enough for those required per the prior checklist item 24 How many flags from There are a number of flags that are available from the transmitters require the transmitters It is likely that only a subset of a point PVFL these will require storage as a PVFL As well only
37. those implemented on the TDC system Compile the schematic for diagnostic use Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 13 of 91 GENERAL LAYOUT DIAGRAM 51201420 005 50018506 51304465 100 50018509 Power Supply and SI IOP AND FTA OVERVIEW System Diagram SI IOP MU PSIM11 51304362 300 50018503 Standard FTA 5 meters Cable up to 50 meters f 51201420 005 POWER 50018506 kat ADAPTER Vendor x Subsystem s Field Devices or Subsystems Base Radio I optional I I I L Shielded Pair I 30 cm Cable Serial Link Cables To Remote RF m 232 Up to 15 Sensor Transmitters EIA 485 Up t 50018509 85 Up Connection to the field devices can be made as either RS 232 or RS 485 2 wire Wiring Diagram for TDC connection of SI FTA Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 14 of 91 AVAILABLE BASE RADIO PARAMETERS The Model XYR 5000 Base Radio provides parameters both for the base radio and for each transmitter The specific values can be found in the Wireless Base Radio Installation and User s Manual The Base Radio has a set of values available that show information regarding the transmitters in operation see Table 3 Base Transmitter Register Data The values for each individual transmitter consist of five 5 Floating Point values for each tr
38. to RegPV points PVs selected as Numeric will have their array value moved to Numeric points Flags selected as Alarmable will have their array value moved to Flag points with alarming capability Flags selected as Non Alarmable will have their array value moved to Flag points without alarming capability as per the index entered by the user PV Configuration Radio 1 Transmitter xx PV Configuration Radio 1 Transmitter 03 Check all Check all Check all RegPV Numeric None Pv2 C RegPy C Numeric None BegP C Numeric None There are potentially 3 PVs which may be configured to be transferred to RegPV or Numeric points It should be noted that not all transmitters utilize all PVs To minimize the effective database created unused PVx values should be selected as none Alarm Status Radio 1 Transmitter xx Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 50 of 91 Alarm Status Radio 1 Transmitter 03 Alarmable Non Alarmable None Check all Check all Check all Flag1 Onin L Flag2 LBat ie Flag3 Alrm e Flag4 SenE L Flag5 ORng Flag6 SysE Ic Flag S1Hi Flaq8 S2Hi Flag9 5ROn Flag10 RSts Icy Up to 10 flags for each transmitter may have a value transferred from data received from the XYR 5000 Base Radio That definition is made here An exte
39. 0 STRSTIX 0 STRLEN 8 NSTRING 0 TIMESTIX 0 NTIME 0 SPLOCK OPERATOR FLDESC NNDESC STRDESC TIMEDESC ADD ON Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 62 of 91 ISYSTEM ENTITY X ARR04 amp T ARRAY PNTFORM FULL KEYWORD ASSOCDSP CDETAIL MODNUM 0 PRIMMOD USERID SCANPRI LOW AB DATA AUXDATA2 AB DATA2 AUXDATAS3 AB DATA3 AUXDATA4 DATA4 FLSTIX 0 NFLAG 0 NNSTIX 1026 STRSTIX 0 STRLEN 8 NSTRING 0 TIMESTIX 0 NTIME 0 SPLOCK OPERATOR FLDESC ii NNDESC STRDESC i TIMEDESC i SADD ON Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 63 of 91 SYSTEM ENTITY X_ARR05 amp T ARRAY amp N X 5 NODETYP HPM PNTFORM FULL PTDESC ARRAY PVVal KEYWORD ASSOCDSP CDETAIL UNIT al NTWKNUM gt NODENUM 1 MODNUM 0 SLOTNUM 5 PRIMMOD USERID EXTDATA IO
40. 4 131 Trans 39 Flag 1 85 Trans 34 Flag 5 132 Trans 39 Flag 2 86 Trans 34 Flag 6 133 Trans 39 Flag 3 87 Trans 34 Flag 7 134 Trans 39 Flag 4 88 Trans 34 Flag 8 135 Trans 39 Flag 5 89 Trans 34 Flag 9 136 Trans 39 Flag 6 90 Trans 34 Flag 10 137 Trans 39 Flag 7 91 Trans 35 Flag 1 138 Trans 39 Flag 8 92 Trans 35 Flag 2 139 Trans 39 Flag 9 93 Trans 35 Flag 3 140 Trans 39 Flag 10 94 Trans 35 Flag 4 141 Trans 40 Flag 1 95 Trans 35 Flag 5 142 Trans 40 Flag 2 96 Trans 35 Flag 6 143 Trans 40 Flag 3 97 Trans 35 Flag 7 144 Trans 40 Flag 4 98 Trans 35 Flag 8 145 Trans 40 Flag 5 99 Trans 35 Flag 9 146 Trans 40 Flag 6 100 Trans 35 Flag 10 147 Trans 40 Flag 7 Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 37 of 91 LOC Array 10 LOC Array 10 148 Trans 40 Flag 8 195 Trans 45 Flag 5 149 Trans 40 Flag 9 196 Trans 45 Flag 6 150 Trans 40 Flag 10 197 Trans 45 Flag 7 151 Trans 41 Flag 1 198 Trans 45 Flag 8 152 Trans 41 Flag 2 199 Trans 45 Flag 9 153 Trans 41 Flag 3 200 Trans 45 Flag 10 154 Trans 41 Flag 4 201 Trans 46 Flag 1 155 Trans 41 Flag 5 202 Trans 46 Flag 2 15
41. 6 Trans 41 Flag 6 203 Trans 46 Flag 3 157 Trans 41 Flag 7 204 Trans 46 Flag 4 158 Trans 41 Flag 8 205 Trans 46 Flag 5 159 Trans 41 Flag 9 206 Trans 46 Flag 6 160 Trans 41 Flag 10 207 Trans 46 Flag 7 161 Trans 42 Flag 1 208 Trans 46 Flag 8 162 Trans 42 Flag 2 209 Trans 46 Flag 9 163 Trans 42 Flag 3 210 Trans 46 Flag 10 164 Trans 42 Flag 4 211 Trans 47 Flag 1 165 Trans 42 Flag 5 212 Trans 47 Flag 2 166 Trans 42 Flag 6 213 Trans 47 Flag 3 167 Trans 42 Flag 7 214 Trans 47 Flag 4 168 Trans 42 Flag 8 215 Trans 47 Flag 5 169 Trans 42 Flag 9 216 Trans 47 Flag 6 170 Trans 42 Flag 10 217 Trans 47 Flag 7 171 Trans 43 Flag 1 218 Trans 47 Flag 8 172 Trans 43 Flag 2 219 Trans 47 Flag 9 173 Trans 43 Flag 3 220 Trans 47 Flag 10 174 Trans 43 Flag 4 221 Trans 48 Flag 1 175 Trans 43 Flag 5 222 Trans 48 Flag 2 176 Trans 43 Flag 6 223 Trans 48 Flag 3 177 Trans 43 Flag 7 224 Trans 48 Flag 4 178 Trans 43 Flag 8 225 Trans 48 Flag 5 179 Trans 43 Flag 9 226 Trans 48 Flag 6 180 Trans 43 Flag 10 227 Trans 48 Flag 7 181 Trans 44 Flag 1 228 Trans 48 Flag 8 182 Trans 44 Flag 2 229 Trans 48 Flag 9 183 Trans 44 Flag 3 230 Trans 48 Flag 10 184 Trans 44 Flag 4 231 Trans 49 Flag 1 185 Trans 44 Flag 5 232 Trans 49 Flag 2 186 Trans 44 Flag 6 233 Trans 49 Flag 3 187 Trans 44 Flag 7 234 Trans 49 Flag 4 188 Trans 44 Flag 8 235 Trans 49 Flag 5 189 Trans 44 Flag 9 236 Trans 49 Flag 6 190 Trans 44
42. 8 PRIMMOD USERID EXTDATA IO NN IOPNUM 1 FTANUM 1 DEVADDR 0 SCANPRI LOW AUXDATAI 5 AB DATA AUXDATA2 AB DATA2 AUXDATA3 AB DATA3 AUXDATAA AB DATAA FLSTIX 0 NFLAG 0 NNSTIX gt 1086 NNUMERIC 15 STRSTIX 0 STRLEN 8 NSTRING 0 TIMESTIX 0 NTIME 0 SPLOCK OPERATOR FLDESC NNDESC STRDESC TIMEDESC SADD ON Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 67 of 91 SYSTEM ENTITY X ARR09 amp T ARRAY amp N X ARR09 NODETYP HPM PNTFORM FULL PTDESC ARRAY DeviceType KEYWORD i ASSOCDSP CDETAIL UNIT al NTWKNUM gt NODENUM 1 MODNUM 0 SLOTNUM 9 PRIMMOD USERID EXTDATA IO NN IOPNUM 1 FTANUM 1 DEVADDR 0 SCANPRI LOW AUXDATAI 12 AB DATA AUXDATA2 AB DATA AUXDATAB AB DATA3 AUXDATA4 DATA4 FLSTIX 0 NFLAG 0 NNSTIX 1101 NNUMERIC 25 STRSTIX 0 STRLEN 8 NST
43. 9 Conversion Flag 3 88 Trans 30 Conversion Flag 1 89 Trans 30 Conversion Flag 2 90 Trans 30 Conversion Flag 3 91 Trans 31 Conversion Flag 1 92 Trans 31 Conversion Flag 2 93 Trans 31 Conversion Flag 3 94 Trans 32 Conversion Flag 1 95 Trans 32 Conversion Flag 2 96 Trans 32 Conversion Flag 3 97 Trans 33 Conversion Flag 1 98 Trans 33 Conversion Flag 2 99 Trans 33 Conversion Flag 3 100 Trans 34 Conversion Flag 1 101 Trans 34 Conversion Flag 2 102 Trans 34 Conversion Flag 3 103 Trans 35 Conversion Flag 1 104 Trans 35 Conversion Flag 2 105 Trans 35 Conversion Flag 3 106 Trans 36 Conversion Flag 1 107 Trans 36 Conversion Flag 2 108 Trans 36 Conversion Flag 3 109 Trans 37 Conversion Flag 1 110 Trans 37 Conversion Flag 2 111 Trans 37 Conversion Flag 3 112 Trans 38 Conversion Flag 1 113 Trans 38 Conversion Flag 2 114 Trans 38 Conversion Flag 3 115 Trans 39 Conversion Flag 1 116 Trans 39 Conversion Flag 2 117 Trans 39 Conversion Flag 3 118 Trans 40 Conversion Flag 1 119 Trans 40 Conversion Flag 2 120 Trans 40 Conversion Flag 3 121 Trans 41 Conversion Flag 1 Revision 1 02 LOC Array 1 122 Trans 41 Conversion Flag 2 123 Trans 41 Conversion Flag 3 124 Trans 42 Conversion Flag 1 125 Trans 42 Conversion Flag 2 126 Trans 42 Conversion Flag 3 127 Trans 43 Conversion Flag 1 128 Trans 43 Conversion Flag 2 129 Trans 43
44. Conversion Flag 3 130 Trans 44 Conversion Flag 1 131 Trans 44 Conversion Flag 2 132 Trans 44 Conversion Flag 3 133 Trans 45 Conversion Flag 1 134 Trans 45 Conversion Flag 2 135 Trans 45 Conversion Flag 3 136 Trans 46 Conversion Flag 1 137 Trans 46 Conversion Flag 2 138 Trans 46 Conversion Flag 3 139 Trans 47 Conversion Flag 1 140 Trans 47 Conversion Flag 2 141 Trans 47 Conversion Flag 3 142 Trans 48 Conversion Flag 1 143 Trans 48 Conversion Flag 2 144 Trans 48 Conversion Flag 3 145 Trans 49 Conversion Flag 1 146 Trans 49 Conversion Flag 2 147 Trans 49 Conversion Flag 3 148 Trans 50 Conversion Flag 1 149 Trans 50 Conversion Flag 2 150 Trans 50 Conversion Flag 3 151 Base Online Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 Page 30 of 91 30 April 2007 LOC Array 2 ID 11 1 5 Transmitters Trans Types Trans 1 25 27 Values 1 Trans 1 Type 2 Trans 2 Type 3 Trans 3 Type 4 Trans 4 Type 5 Trans 5 Type 6 Trans 6 Type 7 Trans 7 Type 8 Trans 8 Type 9 Trans 9 Type 10 Trans 10 Type 11 Trans 11 Type 12 Trans 12 Type 13 Trans 13 Type 14 Trans 14 Type 15 Trans 15 Type 16 Trans 16 T
45. D 10 Device Status 32 bit IEEE Floating Point 0005 and 0006 RF ID 10 Primary Sensor Value 32 bit IEEE Floating Point 0007 and 0008 RF ID 10 Secondary Sensor Value 32 bit IEEE Floating Point 0009 and 0010 RF ID 10 Tertiary Sensor Value 32 bit IEEE Floating Point Table 4 Transmitter Modbus Addresses and Data The Device Types for the transmitters are stored into Array values associated with the XYR SI FTA see Array 2 Table and Array 9 Table The individual PV1 PV2 and PV3 Sensor Values are stored into Floating Point arrays 15 values per array see Array 4 Table etc The Device Status is broken down into flags or discrete data for each individual sensor per the breakout given in the XYR 5000 Wireless Base Radio User Manual see Array 3 Table and Array 10 Table The individual flags and the mnemonics used by default in the configuration are as follows Onln Online Offline Status of the transmitter e LBat Low Battery Alrm In Alarm SenE Sensor Error ORng Overrange condition in effect SysE System Error e SIHi Switch 1 is High S2Hi Switch 2 is High SROn Square Root Function in effect RSts Future use Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 16 of 91 DATA BASE STRUCTURE There are two main database portions involved with the XYR 5000 SI FTA solution First there is a ba
46. E SHOOTING GUIDE en nene nne 2 aaa 2 N NIN NN N Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 3 of 91 INDEX OF TABLES Table 1 Required Components D ian nG ni nia 2 Table 2 Transmitter vs Array Requirements 2 Table 3 Base Transmitter Register Data 2 2 Table 4 Transmitter Modbus Addresses and Data sse nennen nennen enne nennen 2 Tables XY R Sol tionPomt Types k a l BANG ALALA NON RN a Ie Ra i tei de dies 2 Table 6 Parameter Entries for Array Points esses eene 2 Table 7 Size and Configuration Table ree teste tiere niet dedere de eie es 2 Table Error Indicat AL Led 2 Table 9 Files built by XYR Configurator 2 nnne rennen entren 2 Table 10 Checks for Manual Point Name Changes enne 2 INDEX OF FIGURES igure Connector x oerte retenta atte anam l S 2 Figure 2 Base Radio Connections
47. Honeywell Serial Interface FT for XYR 5000 User Manual 3 4 34 25 14 A Copyright Notices and Trademarks Printed in U S A O Copyright 2006 by Honeywell International Inc Revision 1 02 30 April 2007 While this information is presented im good faith and believed to be accurate Honeywell disclaims the implied warranties of merchantability and fitness for a particular purpose and makes no express warranties except as may be stated in its written agreement with and for its customer In no event is Honeywell liable to anyone for any indirect special or consequential damages The information and specifications in this manual are subject to change without notice Honeywell International Inc Honeywell Process Solutions 2500 W Union Hills Dr Phoenix Arizona 85027 602 313 5000 TABLE OF CONTENTS INDEX OF TABLES a uyu 2 2 REVISION HISTORY FOR DOCUMENT 34 XY 25 14 2 INTRODUCTION TEE 2 SUPPORTING DOCUMENTATION rare eto p tee rote e Pr trt bete ie a 2 eS 2 EEEGCTRICAFEINTEREAGCES 0 n ette m ee re ete eee ees 2 REQUIRED HARDWARE eee errem hate n rr ete here rie ees 2 REQUIRED SOFTWARE AND LCN enne enne ener 2 INSTALLATION OVERVIEW
48. NLYAUTO TF 0 000000 PvP ew OVERVAL 25 PISRC 1 XYR ARROLNN I AUXUNIT SALDLOPT NONE DLYTIME 0 PVALDB ONE PVLOTP PVROCPTP PVROCNTP BADPVPR LOW ALENBST ENABLE Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 78 of 91 SAMPLE xPM PROCMOD POINT Sample xPM ProcMod Point SYSTEM ENTITY XYR_DataXFR1 amp T PRMODNIM amp N XYR DataXFRI NODETYP APM PNTFORM FULL PTDESC Process Modulel ASSOCDSP CDETAIL T UNIT NTWKNUM gt NODENUM 9 SLOTNUM 2 PRIMMOD USERID STRLEN 8 SEQSLTSZ 100 CNTLLOCK OPERATOR SPLOCK OPERATOR RSTROPT OFF CLBACK 0 SEQPR LOW Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 79 of 91 SAMPLE xPM CL Sample xPM CL SEQUENCE XYRI APM POINT XYR DataXFR1 EXTERNAL XYR DataXFR2 EXTERNAL XYR ARR01 EXTERNAL XYR ARR02 EXTERNAL XYR ARR03 EXTERNAL XYR ARR04 EXTERNAL XYR ARR05 EXTERNAL XYR ARR06 EXTERNAL XYR ARR07 EXTERNAL XYR ARR08 EXTERNAL XYR ARR09 EXTERNAL XYR ARRIO
49. RING 0 TIMESTIX 0 NTIME 0 SPLOCK OPERATOR FLDESC i NNDESC STRDESC TIMEDESC SADD ON Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 68 of 91 ISYSTEM ENTITY X ARR10 amp T ARRAY amp N X ARR10 NODETYP HPM PNTFORM FULL PTDESC ARRAY StatusFlags KEYWORD ASSOCDSP CDETAIL UNIT al NTWKNUM gt NODENUM 1 MODNUM 0 SLOTNUM 10 PRIMMOD USERID EXTDATA IO FL IOPNUM 1 FTANUM 1 DEVADDR 0 SCANPRI LOW AUXDATAI 14 AB DATA AUXDATA2 AB DATA AUXDATAB AB DATA3 AUXDATA4 DATA4 FLSTIX 734 NFLAG 250 NNSTIX 0 NNUMERIC 0 STRSTIX 0 STRLEN 8 NSTRING 0 TIMESTIX 0 NTIME 0 SPLOCK OPERATOR FLDESC NNDESC STRDESC TIMEDESC ADD ON Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 69 of 91 ISYSTEM ENTITY X ARR11 amp T ARRAY amp N X ARRII NODETYP HPM PNTFORM FULL PTDESC ARRAY PVVal KEYWORD ASSOCDSP CDETAIL UNIT al
50. V2 08 XYR ARR04 nn 10 WHEN ERROR call err set 78 SET XYR T08 Onln PVFL ARR13 FL 8 WHEN ERROR call err set 79 SET XYR T08 LBat PVFL XYR ARR13 FL 58 WHEN ERROR call err set 80 SET XYR T08 Alrm PVFL XYR ARR13 FL 108 WHEN ERROR call err set 81 SET XYR T08 SysE PVFL XYR ARR13 FL 158 WHEN ERROR call err set 82 SET XYR T08 ORng PVFL ARR13 FL 208 WHEN ERROR call err set 83 SET XYR T08 SenE PVFL XYR ARR14 FL 8 WHEN ERROR call err set 84 SET XYR T08 S2Lo PVFL XYR ARR14 FL 58 WHEN ERROR call err set 85 SET XYR T08 S2Hi PVFL XYR ARR14 FL 108 WHEN ERROR call err set 86 SET XYR T08 SROn PVFL XYR ARR14 FL 158 WHEN ERROR call err set 87 SET XYR 708 RSts PVFL XYR ARR14 FL 208 WHEN ERROR call err set 88 SET NN 3 0 SET XYR DataXFR2 NN 3 1 WAIT NN 3 1 GOTO PHASE START END XYRI SUBROUTINE err set errline in number SET NN 1 NN 1 1 SET NN 2 errline END err set Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 84 of 91 DISPLAY DATABASE FILE HONEYWELL DEVELOPER CONTROLLED DDB Note This is the XYR Platform specific DDB data tags used for all j schematic development perta
51. a request tables and begins to query the Base Radio for the required parameter data Once the Modbus data is read parsing of the data takes place through the data base starting with the first transmitter unit through the last transmitter unit All parameters for all transmitters are fetched before moving on If the number of transmitters configured not the number responding but the number configured is modified im the Base Radio the data requested with the SI FTA is automatically adjusted accordingly As a Base Radio s Modbus data table is requested the returned data is inserted into the appropriate locations in the SI FTA data base Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 21 of 91 REQUIRED DATABASE CONFIGURATION The specific layout for all arrays associated with the FTA can be found in the section on Database Organization Proper configuration of the FTA slots is paramount to the correct operation of the interface It is very important that the FTA slots be configured correctly The following sections of the User Manual describe how each Array point is to be built The Database Configurator will build the base points and fill in the required information To inform the FTA of the slot type and other information concerning the interface certain parameters are used on the array point PED parameter entry display Some of the parameters and their range of values are in the following tab
52. able describes the point types and their usage POINT TYPE USAGE FLAG There are a fixed number of alarmable Flag points Others are not alarmable The exact number depends on the PM type An APM can handle up to 128 alarmable flags An HPM handles up to 1024 alarmable flags All other flags are non alarmable The Flag point PV is loaded by xPM Control Language CL NUMERIC There are a fixed number of Numeric points The number is the same for both APM and HPM 2047 Numeric points are non alarmable and non scaleable They are simply repositories for values The Numeric point PV is loaded by xPM CL Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 18 of 91 POINT TYPE USAGE REGPV There are a fixed number of RegPV points These are alarmable and scaleable analog representations The maximum number of RegP V points for APM is 80 For HPM the maximum number of RegPV points is 125 The PV calculation may be selected by the user There are many RegPV algorithms that may be utilized and implemented to meet the plant requirements To keep things simple the Database Configurator builds only the Data Acquisition PV Algorithm The PV value for RegPV points will normally configured to be retrieved using General Input points PROCMOD ProcMod points may number as high as 160 on the APM and up to 250 on the HPM These points when combined with CL run per
53. ag 10 Revision 1 02 LOC Array 3 101 Trans 11 Flag 1 102 Trans 11 Flag 2 103 Trans 11 Flag 3 104 Trans 11 Flag 4 105 Trans 11 Flag 5 106 Trans 11 Flag 6 107 Trans 11 Flag 7 108 Trans 11 Flag 8 109 Trans 11 Flag 9 110 Trans 11 Flag 10 111 Trans 12 Flag 1 112 Trans 12 Flag 2 113 Trans 12 Flag 3 114 Trans 12 Flag 4 115 Trans 12 Flag 5 116 Trans 12 Flag 6 117 Trans 12 Flag 7 118 Trans 12 Flag 8 119 Trans 12 Flag 9 120 Trans 12 Flag 10 121 Trans 13 Flag 1 122 Trans 13 Flag 2 123 Trans 13 Flag 3 124 Trans 13 Flag 4 125 Trans 13 Flag 5 126 Trans 13 Flag 6 127 Trans 13 Flag 7 128 Trans 13 Flag 8 129 Trans 13 Flag 9 130 Trans 13 Flag 10 131 Trans 14 Flag 1 132 Trans 14 Flag 2 133 Trans 14 Flag 3 134 Trans 14 Flag 4 135 Trans 14 Flag 5 136 Trans 14 Flag 6 137 Trans 14 Flag 7 138 Trans 14 Flag 8 139 Trans 14 Flag 9 140 Trans 14 Flag 10 141 Trans 15 Flag 1 142 Trans 15 Flag 2 143 Trans 15 Flag 3 144 Trans 15 Flag 4 145 Trans 15 Flag 5 146 Trans 15 Flag 6 147 Trans 15 Flag 7 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 Page 32 of 91 30 April 2007
54. ansmitter see Table 4 Transmitter Modbus Addresses and Data All values are mapped into a simple format using data arrays for easy retrieval BASE RADIO HOLDING REGISTERS Register Address Description Register Data Type 0001 Device Type 16 bit Unsigned Integer 0002 Device Status 16 bit Unsigned Integer 0003 Number of Transmitters 16 bit Unsigned Integer Expected 0004 Number of Transmitters 16 bit Unsigned Integer Communicating 0005 Online Offline Status of Field 16 bit Unsigned Integer Units 1 16 0006 Online Offline Status of Field 16 bit Unsigned Integer Units 17 32 0007 Online Offline Status of Field 16 bit Unsigned Integer Units 33 48 0008 Online Offline Status of Field 16 bit Unsigned Integer Units 49 50 0009 Future Use 16 bit Unsigned Integer 0010 Future Use 16 bit Unsigned Integer Table 3 Base Transmitter Register Data The specific layouts and details of the data may be found in the XYR 5000 Wireless Base Radio User Manual Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 15 of 91 TRANSMITTER DATA TABLE The data for the individual transmitters is stored in the Base Radio s database using the formula as shown in the following table Register Address Description Register Type 0001 and 0002 RF ID 10 Device 32 bit IEEE Floating Point 0003 and 0004 RF I
55. are clearly marked on the body of the Field Termination Assembly The wiring for the RS 485 connection should be connected to be in the correct location Figure 1 FTA Connector Shown below is the connection at the Base Radio Note that a terminating resistor is shown for the Modbus connection If a terminating resistor is used it must be applied at the extreme ends only 2 ends of the RS 485 connection Terminating Resistor Terminating Resistor GND 24V RS 485 Wires to WMT RS 458 Wires to MODBUS Figure 2 Base Radio Connections Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 9 of 91 REQUIRED HARDWARE TPS System with UCN containing at least one APM or HPM Serial Interface IOP Power Adaptor board FTA FTA is provided with the XYR Gateway package DESCRIPTION IM amp C PART Serial Interface IOP and XYR Firmware 50018503 50018511 50018512 amp 50018413 50018504 50018505 50018506 50018507 50018508 50018509 Serial Interface FTA for XYR Power Adapter 5 1 Meter FTA Cable incl w SI FTA IOP to FTA shield Cable 30 cm Serial Cable incl w SI FTA A 2 SI FTA would also require another 51304465 100 cable If the SI FTA is installed on an EPKS sytem the parts list will differ Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 Pag
56. atabase building This is the IOP is installed IOPNUM in TDC3000 terms It is the physical hardware address where the IOP is installed 16 FTA Number This will be a 1 or a 2 17 Beginning free Array Go to the xPM Slot Summary to physically verify the slot numbers available This is required for database building The XYR Configurator program presumes there are consecutive arrays when it builds EB files The EB files may be manually adjusted later if the slots are not sequential 18 History Module path for This should be the pathname where the files resulting data file storage from running the XYR Configurator will be placed These include EB EC and CL files FROM THIS POINT With the information gathered to this point the SI ON YOU ARE Array points can be built The Base Radio and SI GATHERING DATA FTA can function with just the array points being FOR THE built If you have a requirement for alarming EXTENDED scaling or simply having PV or PVFL type values DATABASE the rest of the checklist must be populated 19 How many values There are up to 3 values per transmitter Most will require a PV have 1 or 2 values Of those determine which transmitter values will require being placed into a type point Do not include the flag or status type values at this point 20 Of those how many There are two types of points that transmitter values require alarming and or can be placed into Numeric points are storage
57. call err set 62 Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 83 of 91 Sample xPM CL SET XYR T06 S2Lo PVFL XYR ARRIA FL 56 WHEN ERROR call err set 63 SET XYR T06 S2Hi PVFL XYR ARR14 FL 106 WHEN ERROR call err set 64 SET XYR T06 SROn PVFL XYR ARRIA FL 156 WHEN ERROR call err set 65 SET XYR T06 RSts PVFL XYR ARR14 FL 206 WHEN ERROR call err set 66 SET XYR PV2 07 XYR ARR04 nn 9 WHEN ERROR call err set 67 SET XYR T07 Onln PVFL not XYR ARRI3 FL 7 WHEN ERROR call err set 68 SET XYR 107 LBat PVFL XYR ARR13 FL 57 WHEN ERROR call err set 69 SET XYR 107 Alrm PVFL XYR ARR13 FL 107 WHEN ERROR call err set 70 SET XVI T07 SysE PVFL XYR ARR13 FL 157 WHEN ERROR call err set 71 SET XYR T07 ORng PVFL XYR ARR13 FL 207 WHEN ERROR call err set 72 SET XYR T07 SenE PVFL XYR ARR14 FL 7 WHEN ERROR call err set 73 SET XYR T07 S2Lo PVFL XYR ARR14 FL 57 WHEN ERROR call err set 74 SET XYR T07 S2Hi PVFL XYR ARR14 FL 107 WHEN ERROR call err set 75 SET XYR T07 SROn PVFL XYR ARR14 FL 157 WHEN ERROR call err set 76 SET XYR T07 RSts PVFL XYR ARR14 FL 207 WHEN ERROR call err set 77 SET XYR P
58. d RX OVFLO Receive Buffer Overflow XMR EXCD Number of transmitters exceeded ARRORDER Arrays built out of order Arrays must be built in order OK No Problems Table 8 Error Indications Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 27 of 91 SYSTEM PERFORMANCE The performance of any serial communications system is based upon some key factors The first is the actual speed of the communications link being used the actual time on the wire This value is fixed based on the baud rate selected Another factor of importance is the time it takes for the connected device to decode and respond to a query It is also important to know how long it takes the host device to process the response it receives and then to generate the next query These factors together determine the performance of the link Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 28 of 91 XYR 5000 BASE RADIO SI FTA ARRAY DATA BASE ORGANIZATION Array 1 Trans 12 Conversion Flag 1 Trans 12 Conversion Flag 2 Trans 12 Conversion Flag 3 Trans 13 Conversion Flag 1 Trans 13 Conversion Flag 2 Trans 13 Conversion Flag 3 Trans 14 Conversion Flag 1 Trans 14 Conversion Flag 2 Trans 14 Conversion Flag 3 Trans 15 Conversion Flag 1 Trans 15 Conversion Flag 2 Trans 15 Conversion Flag 3
59. d the necessary database and xPM Control Language CL based upon the customer s input This document only addresses communication through the Honeywell XYR 5000 from the TPS xPM APM or HPM There are no writes effected to the XYR 5000 from this SI FTA The number of reads and the locations read are fixed based on the version of the radio and the number of transmitters implemented The XYR SI FTA acts as a Modbus master device and requests data from the base radio distributing the returned data in the arrays as described herein Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 8 of 91 ELECTRICAL INTERFACES The XYR SI FTA will connect to a single base radio via a communication link that may either be RS 232 or RS 485 The XYR 5000 has built in an RS 485 connection as its standard This may be converted to RS 232 via an external device if desired For the specific hardware wiring please refer to the Wireless Base Radio Installation and User s Manual The connection between the SI FTA and the XYR 5000 Base Radio is a two wire RS 485 connection The specific connection is indicated below Serial Interface FTA Base Radio MODBUS Conn Data B Data 5 A The connector for the SI FTA is shown below The Data and Data connections for the RS 485 wires
60. de of the configurator window represents configured elements of the system Immediately you will see XY Radio and Base Radio Online Process Module Points and Radio 1 e Clicking on the for each will open up configured data e When the default point name tag name is shown a right click of the mouse will allow the user to change the name to match system requirements e A point for Base Radio Online is shown but is only utilized if an extended database is generated e A Process Module Point Procmod is generated and shown but is only utilized if an extended database is generated e Until transmitters are selected there are no entries under Radio 1 The right side of the configurator window allows the user to input pertinent data for the building of a valid database Version The first block on the right side will eventually allow a version selection For now the only version available is Version 1 SI Arrays The number of arrays required for a given number of transmitters is shown to help determine the number of transmitters and arrays to plan for For example if you need 7 transmitters it may be as well to configure for 10 so that if there is expansion later there will be less work Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 44 of 91 General Information General Information Node Type HPM gt SPM Node 1
61. e 10 of 91 30 April 2007 REQUIRED SOFTWARE AND LCN RESOURCES A 24 SI FTA would also require another 51304465 100 cable NEED RESOURCE Numbers Required REQUIRED GUS with File Transfer One Without this the configurator will build files but there will be no method for transferring the resultant files to the History Module The configurator files can be used as a guide to manually building the database in this case REQUIRED SI IOP Board Power Adapter Cabling and available xPM slot One SI IOP and Power Adapter set can handle 2 SI FTA REQUIRED Serial Array Points Minimum of 4 Refer to Table 2 Transmitter vs Array Requirements DISCRETIONARY Regulator PV points for alarmable and scaleable values 1 per alarmable PV value There are 3 available PV values per transmitter most transmitters do not utilize 3 PV values DISCRETIONARY ProcMod point s for moving flags and numeric values non alarming numbers from array Maximum 7 depending on amount of flag numeric data required DISCRETIONARY Flag Points for Transmitter Status Up to 9 flags per transmitter Not all flags may be applicable on each transmitter For example a Square Root Function will not be applicable to a Temperature Transmitter DISCRETIONARY Numeric Points for PV values 1 per non alarming non scaling value requiring a PV There are 3 available PV values
62. e all data brought in by the SI FTA is placed The secondary optional database provides an opportunity to move the array data into alarmable data locations OPERATION There is data required by the XYR Database Configurator that must be obtained from the existing Control System Once entered a database is created very simply However because the data to be supplied is critical to the successful operation of the database and subsequently of the Gateway it is fully expected that this database will be created and loaded onto the TPS system by plant engineering personnel INSTALLATION The XYR Database Configurator is a simple tool provided to allow the user to easily create the required database for the XYRadio SI FTA as well as to create any optional database and PM CL for value storage on the HPM The XYR Database Configurator must be run on a Windows based PC This PC does not have to be a part of the TPS system To install the configurator from the provided CD execute the file Setup exe Once executing the program will begin its installation XYR Database Configurator InstallShield Wizard Welcome to the InstallShield Wizard for XYR Database Configurator The InstallShield Wizard will install Database Configurator on your computer To continue click Next Revision 1 02 Click Next to continue XYR Database Configurator InstallShield Wizard Choose Destination Location Select folder wher
63. e setup will install files A Install X YR Database Configurator to CS SHoneywellvXYR Database Configurator nstallShield If the installation path is incorrect first select Change and select the desired path for installation of the XYR Database Configurator Once the installation path is correct select Next to continue XYR Database Configurator InstallShield Wizard Ready to Install the Program The wizard is ready to begin installation Click Install to begin the installation If you want to review or change any of your installation settings click Back Click Cancel to exit the wizard ona To being the installation click on the Install button The XYR Database Configurator will install itself at the indicated path XYR Database Configurator InstallShield Wizard InstallShield Wizard Complete The InstallShield Wizard has successfully installed X YR Database Configurator Click Finish to exit the wizard Page 42 of 91 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 A successful installation will be indicated with the Complete screen Select Finish to close the window EXECUTION The XYRadio Configurator can be found using the following selection Start All Programs Honeywell XY Radio Configurator Using that path select the Launch XYR 5000 Config exe The following screen will be displayed
64. e starting point If this is not so the slots can be manually adjusted by editing the resulting EB file 34 What is the first Go to the xPM Slot Summary to physically verify the available Numeric slot first available Numeric slot The Configurator program presumes slots are consecutively available from the starting point If this is not so the slots can be manually adjusted by editing the resulting EB file 33 What is the first Go to the xPM Slot Summary to physically verify available Process first available Process Module slot The number of Module point slot ProcMod points required will vary with the number of flags and numerics whose data requires transfer The Configurator program presumes slots are consecutively available from the starting point If this is not so the slots can be manually adjusted by editing the resulting EB file We will need about 1 ProcMod point per 100 items being moved with CL Flags and Numerics not RegPV See Table 5 XYR Solution Point Types for the maximum number available per hardware type Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 89 of 91 SETUP AND TROUBLE SHOOTING GUIDE This section provides some general guidelines for setting up and trouble shooting the interface When establishing communications between the SI FTA and the XYR 5000 Base Radio check the following items 1 10 Make sure that the baud rate is
65. equential the slot locations can be easily modified using either PC editing tools or the LCN Editor NOTE Arrays must be built in the order shown below If built out of order the interface will not function correctly NOTE Arrays should be built with the full sizes shown below Where insufficient sizes are created inconsistent data behavior may result The first four 4 arrays are required with any implementation They contain flag and numeric data required for presentation of the transmitter data Array one 1 is a flag array of 151 elements that provides the user the ability to command the XYR SI FTA to convert the PV values 1 through 3 from DegC to DegF values 150 flags and shows the Online status of the Base Radio 1 flag Array two 2 is a twenty seven 27 numeric array that reflects the Device Type of the first twenty five 25 transmitters connected to the Base Radio plus the number of transmitters expected by the base radio and the number of transmitters currently responding Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 17 of 91 Array three 3 is a two hundred fifty 250 element flag array that contains the status flags that are maintained by the Base Radio for the first twenty five 25 transmitters There are ten 10 flags per transmitter with each successive ten 10 flags representing the next transmitter Array four 4 is a 15 element array representing PV1 PV2
66. g the TDC system While configuring realize the XYR 5000 SI FTA will require a number array points to work Ensure the defined configuration has sufficient spare array points corresponding to the number of transmitters being implemented The number of arrays required is as follows 1 5 6 O 2125 B po rd ca Table 2 Transmitter vs Array Requirements 7 As well if an extended database of Numerics Flags RegP Vs and ProcMod points are to be included so array data can be moved to type points the numbers configured in the xPM for these items must also be adequate for the planned increase in point types Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 12 of 91 8 Connect the XYR 5000 Base Radio to the SI FTA This will require as a minimum a connection using a twisted pair of wires A 120 ohm resistor at each end of the twisted pair may be required to allow proper communication using RS 485 9 Use the XYR Database Configurator provided in this package to create the required files for the points database It will be necessary to have some specific information regarding the TDC system to properly build the database Refer to the section in this document labeled XYR DATABASE CONFIGURATOR for specific information 10 If specific modifications are desired in the resultant EB files those changes should be made at this point These modifications may include ra
67. he EB files may be made as required Only the resultant file XYRBASE EB will require modification in such a case History Module reference path The History Module reference path 1s necessary to build the EC files that will automate your database and CL building Indicate here the pathname on the LCN where the EB CL and EC files will be placed and executed Note that the pathname must not end with a gt Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 46 of 91 Database Generation Database Generation Generate Array database alone Generate extended database gt This radio button selection will determine the extent of the database to be built If Generate Array database alone is selected only the array database and associated files are generated When Generate extended database is selected all files for the CL ProcMod points Numeric points Flag points and RegPV points as defined with the configurator will be built Generate Database The Generate Database button may be selected to build the database once all configuration is defined Note that a successful Array database can be built at this point For an Extended database the user will want to define transmitters and points for data storage prior to generating the database To continue select the PV Flag Points selection in the left pane ai XYR Database Configurator Sek 3
68. he values from the Base Radio into the SI array points Items 19 35 must be addressed for extended database installations where PV PVFL storage alarming and or scaling of values is required Ite Description Check Additional Information m and Entries 1 Isa GUS with File Yes No If not all files will have to be built manually on the Transfer installed TDC3000 The Configurator can still build the files available but there is no utility for transferring the files to the HM 2 APM or HPM on Yes No The SI FTA will only work on a TDC3000 system available that has an APM or an HPM 3 Available Serial Yes No FTA will connect via cable to the hardware Interface IOP SI IOP backplane where the SI IOP is connected or room for new SI IOP 4 Available plug in to Yes No The SI FTA for 5000 can be either FTA 1 or power supply for FTA 2 A power supply is required If one is additional FTA or a new available it must have an available plug for the new FTA available FTA 5 Adequate Serial Yes No Ensure there are enough spare SI Array points for the Interface SI Array transmitters being connected Go to the xPM Slot Points Summary to physically verify the numbers available To handle between one 1 and five 5 transmitters the minimum number of arrays required is four 4 The maximum number of arrays required handling a full complement of 50 wireless transmitters is fifteen
69. i NNDESC STRDESC TIMEDESC SADD ON Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 65 of 91 SYSTEM ENTITY X ARR07 amp T ARRAY amp N X ARR07 NODETYP HPM PNTFORM FULL PTDESC ARRAY PVVal KEYWORD ASSOCDSP CDETAIL UNIT al NTWKNUM gt NODENUM 1 MODNUM 0 SLOTNUM 7 PRIMMOD USERID EXTDATA IO NN IOPNUM 1 FTANUM 1 DEVADDR 0 SCANPRI LOW AUXDATAI 4 AB DATA AUXDATA2 AB DATA2 AUXDATA3 AB DATA3 AUXDATAA AB DATAA FLSTIX 0 NFLAG 0 NNSTIX 1071 NNUMERIC 15 STRSTIX 0 STRLEN 8 NSTRING 0 TIMESTIX 0 NTIME 0 SPLOCK OPERATOR FLDESC NNDESC STRDESC TIMEDESC SADD ON Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 66 of 91 SYSTEM ENTITY X_ARR08 amp T ARRAY KN X ARR08 NODETYP HPM PNTFORM FULL PTDESC ARRAY PVVal KEYWORD ASSOCDSP CDETAIL UNIT al NTWKNUM gt NODENUM 1 MODNUM 0 SLOTNUM
70. ile Transfer utility that is run on GUS stations From this point on any errors are standard LCN Command Processor errors and can be investigated using standard TDC3000 TPS documentation To create the database on the LCN several EC files are provided XYRLDARR EC for the required Array Database and XYRLDOTH EC for the optional data functions From the Command Processor having set the proper path SP gt gt type EC XYRLDARR EC lt Enter gt to build the array database Similarly for the extended database points and CL type XYRLDOTH EC Enter to build that portion of the database EB files built by the Configurator will then be run through the Exception Build and Load process If there are no errors the CL file will also be compiled for use with the ProcMod point Once built it copies itself into the proper path for the indicated UCN and xPM Node It will be up to the user to connect the CL to the ProcMod point See the TPS TDC documentation about Process Module ProcMod points and their use in the Advanced Process Manager Control Functions and Algorithms AP09 xxx It would be a good idea to do a save on the HPM data at this point to keep from having to reinitiate the database building effort Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 52 of 91 Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 53 of 91 TPS
71. ining to the XYR Platform Itis used to avoid conflicts with any user developed schematics f We have been assigned these specific indices and can not use others without approval 1 1 DDB HONEYWELL GLOBAL DDB VARIABLES ENTITIES XYR001 ENTITY 3751 GLOBAL CONVERSION ARRAY BASE ONLINE FLAG XYR002 ENTITY 3752 GLOBAL TYPES FOR TRANS 1 25 ZTRANS RESP XYR003 ENTITY 3753 GLOBAL STATUS FLAGS FOR TRANS 1 25 XYRO004 ENTITY 3754 GLOBAL PV1 2 3 FOR TRANS 1 5 XYR005 ENTITY 3755 GLOBAL PV1 2 3 FOR TRANS 6 10 XYR006 ENTITY 3756 GLOBAL PV1 2 3 FOR TRANS 11 15 XYR007 ENTITY 3757 GLOBAL PV1 2 3 FOR TRANS 16 20 XYR008 ENTITY 3758 GLOBAL PV1 2 3 FOR TRANS 21 25 XYR009 ENTITY 3759 GLOBAL TYPES FOR TRANS 26 50 XYR010 ENTITY 3760 GLOBAL STATUS FLAGS FOR TRANS 26 50 XYR011 ENTITY 3761 GLOBAL PV1 2 3 FOR TRANS 26 30 XYRO012 ENTITY 3762 GLOBAL PV1 2 3 FOR TRANS 31 35 XYRO013 ENTITY 3763 GLOBAL PV1 2 3 FOR TRANS 36 40 XYROIA4 ENTITY 3764 GLOBAL PV1 2 3 FOR TRANS 41 45 XYR015 ENTITY 3765 GLOBAL PV1 2 3 FOR TRANS 46 50 Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 85 of 91 PRE INSTALLATION CHECKLIST This checklist is intended to ensure that the user has the necessary information to fully install the XYR SI FTA solution Items 1 18 must be identified for all installations They are the minimum values required just to get t
72. iodically to move the array data into the Flag and Numeric points If no flag or numeric points are required on the system these types of points can be omitted Table 5 XYR Solution Point Types A PC executable XYR Database Configurator Tool is provided with this package to help prepare the TPS system arrays necessary for the SI FTA to work properly As well the package constructs EB files and CL as required for transferring data from arrays to non array points on the xPM The Database Configurator presumes that slots increment sequentially If this is neither the case nor possible the slot locations can be easily modified using either PC editing tools or the LCN Editor An example of each extended point type and the associated xPM CL is provided within this document Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 19 0f 91 GRAPHICAL REPRESENTATION OF DATABASE STRUCTURE SI IOP AND FTA OVERVIEW Database Flow SI FTA 1 data resides here Di agram Array Data ProcMod Point pulls PV data and then pushes the data to the Flag and Numeric Points RegPV Point pulls PV data How TDC points get their PV from the XYR 5000 SI FTA Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 20 of 91 DATA BASE UPDATE Once the firmware receives the necessary configuration from the xPM the XYR 5000 SI FTA builds its Modbus dat
73. lated e Beginning Process Module slot This should be the first available ProcMod slot on the xPM The slots are considered consecutive from this point If this is not the case the resultant EB file for the ProcMod points may be manually manipulated e Base Radio Online With this selection a determination is made if the Base Radio Online flag will be alarmable or not If an extended database is configured a flag for the base radio s online status will always be generated along with a ProcMod and CL to process it Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 48 of 91 Default Settings Default settings Set all PV1 as C BegPV Set all PV2 as RegP Set all PV3 as RegPV Set all flags as Alarmable C Numeric Numeric C Numeric Non alarmable None None None No flags Because up to 50 transmitters may be selected there may be a very large database to configure In order to help make this task simpler if all the values of a certain type are expected to be either alarmable or stored into numeric points this may be indicated at this time by selecting the appropriate indicator If no extended database will be built for a certain type then leave the selection as None or No flags That selection is the default The PV Flag settings for each transmitter may be later modified using the Configurator program Flag mnemonics
74. le TDC3000 Param EPKS Param Function Range DEVADDR DEVADDR XYR 5000 Modbus Std Modbus ranges Address for a Modbus Device AUXDATAI AUXDATA 0 Slot Number Index Number 1 15 based on Table 7 Size and Configuration Table AUXDATA2 AUXDATA 1 Message Time out 0 25 3 seconds Array 1 only AUXDATA3 AUXDATA 2 Link Type For the XYR 5000 485 Array 1 only see APM HPM Serial Interface Options or EPKS Serial Interface Module Implementation Guide for more details AUXDATA4 AUXDATA 3 BAUD Rate 1200 19200 with the decimal indicating parity 0 none 1 odd 2 even Array 1 only see APM HPM Serial Interface Options or EPKS Serial Interface Module Implementation Guide for more details AB Datal AUXDATA 4 Reserved NA AB Data2 AUXDATA 5 Reserved NA Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 22 of 91 TDC3000 Param EPKS Param Function Range AB Data3 AUXDATA 6 Master or Listener 0 Master 1 Listener future Array 1 only AB Data4 AUXDATA 7 Version 1 Version 1 2 Version 2 future Array 1 only SLOTNUM Slot Number in the This must be unique set of available xPM array points per SI Array point Table 6 Parameter Entries for Array Points Other than for the first Auxdata location any data entered into the Aux parameters for arrays 2 15 will be igno
75. mable flag slot z Beginning 60LV Slot 1 Base Radio Online Alarmable gt When an extended database is defined a number of parameters must be indicated to know how to define the database properly e Beginning alarmable flag slot While the first alarmable flag slot is 1 it may not be the first available flag slot Define the first available alarmable flag slot here The slots are considered consecutive from this point If this is not the case the resultant EB file for the flag points may be manually manipulated Beginning Non alarmable flag slot There is a first non alarmable slot for flags that will depend on the use of an APM or an HPM The program takes that into account However that slot may not be available Define the first available non alarmable flag slot here The slots are considered consecutive from this point If this is not the case the resultant EB file for the flag points may be manually manipulated e Beginning RegPV Slot This is the first available RegPV slot The maximum number of RegP Vs that will be required is seven 7 The actual number will depend upon your definition of how to treat data Flag tags and Numeric tags affect this count Beginning Numeric Slot This will be the first available Numeric slot on the xPM The slots are considered consecutive from this point If this is not the case the resultant EB file for the numeric PV points may be manually manipu
76. n EXTERNAL XYR T08 LBat EXTERNAL XYR T08 Alrm EXTERNAL XYR T08 SysE EXTERNAL XYR T08 ORng EXTERNAL XYR T08 SenE EXTERNAL XYR T08 S2Lo EXTERNAL XYR T08 S2Hi EXTERNAL XYR T08 SROn EXTERNAL XYR T08 RSts PHASE START SET NN 1 0 SET NN 2 0 SET XYR PV2 TOI PV XYR ARR04 nn 3 WHEN ERROR call err set 1 SET T01 Onln PVFL not XYR ARR13 FL 1 WHEN ERROR call err set 2 SET XYR 701 LBat PVFL XYR ARR13 FL 51 WHEN ERROR call err set 3 SET XYR 101 Alrm PVFL XYR ARR13 FL 101 WHEN ERROR call err set 4 SET XYR T01 SysE PVFL XYR ARRI3 FL 151 WHEN ERROR call err set 5 SET XYR 101 ORng PVFL ARRI3 FL 201 WHEN ERROR call err set 6 SET XYR TOI SenE PVFL XYR ARR14 FL 1 WHEN ERROR call err set 7 SET XYR T01 S2Lo PVFL XYR ARR14 FL 51 WHEN ERROR call err set 8 SET XYR 701 S2Hi PVFL XYR ARRIA FL 101 WHEN ERROR call err set 9 SET XYR T01 SROn PVFL XYR ARR14 FL 151 WHEN ERROR call err set 10 SET XYR T01 RSts PVFL XYR ARR14 FL 201 WHEN ERROR call set 11 SET XYR PV2 T02 PV XYR ARR04 nn 4 WHEN ERROR call err set 12 SET T02 Onln PVFL not XYR ARRI3 FL 2 WHEN ERROR call err set 13
77. nce Process Manager Data Entry HP11 500 5 97 Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 7 of 91 OVERVIEW The XYR5000 Serial Interface FTA SI FTA is designed to gather data from Honeywell s Wireless Base Radio XYR5000 and present it in a reasonable format in APM or HPM arrays While the XYR5000 is able to communicate as a Modbus Slave with the standard Modbus Master SI FTA the data is provided in 5 floating point numbers Using this format there is a maximum of 48 transmitters per SI FTA and obtaining the status flags from the floating point number representing the transmitter statuses requires intensive CL work The XYR5000 Serial Interface FTA takes into account the specified Modbus locations of the value data for all 50 possible transmitters associated with the base radio and manipulates that data into more reasonable format The values for PV I are all stored together The same is true for all of the PV2 and all of the PV3 values As well the status data is extracted from the floating point values and stored into individual flags for each transmitter As an added bonus the capability to convert the individual PV1 PV2 and PV3 value data from DegC to DegF is provided To ease the burden of getting the raw PV values and flags from the Array points into scaleable and alarmable points the XYR 5000 SI FTA package provides a database configurator that will create the necessary files to buil
78. nded database reflecting the choices made here will be made when the Generate Database button is selected Generate Database Once the configuration data is all entered the user will select the Generate Database button This will cause the XYR Database Configurator to calculate and build the EB files the CL files and the EC files for database and CL building When the files are being built if the files already exist the user will be asked to verify overstoring the existing files The user will first be allowed to choose the location for the new files being built Even if the selection on the first page was to generate only the Array database once the first required files are built the user will be asked XY Radio Configurator Array EB file generated Do you want to generate extended database The extended database refers to the optional database that will be built for storing the data as indicated by the selections made with the XYR Database Configurator This is the database that will provide Flag Numeric RegPV and ProcMod points on the TPS system as desired for storage of the array data into more normal PV type points Once the extended database is created notification will occur and the current session will be saved The files created are as follows showing the default point prefixes Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 51 of 91
79. nges limits conversions point names etc Point names changed using the XYR Configurator will be propogated throughout the resultant files 11 If point names are manually changed in the EB files created by the XYR Configurator the CL files should be examined also for the original point names and changed to match the new point names 12 Move the files created by the XYR Database Configurator to the TDC History Module using File Transfer or other appropriate means If the File Transfer facility is not available the EB files may be printed as templates for manual creation of files or for manual entry of the database using the TDC 3000 13 Run the EC file XYRLDARR EC This will use the XYRDBARR EC file and the Array EB file to build the required Array database 14 If desired run the EC file XYRLDOTH EC This will use the XYRDBOTH EC file the EB files and the CL files to create the extended databases RegPV Numeric Flag ProcMod to compile the CL required for the ProcMod points and to move the resultant CL object files to the appropriate location on the History Module 15 If ProcMod is used to move data from the Array database to other xPM points the CL for these points must be loaded and the CL started 16 RegPV points will need to be set ACTIVE 17 Using the TDC3000 Picture Editor read in the XYR DIAG schematic and the XYRDDB display database Use the DEFINE INIT command to change the database point names to
80. ns 38 PV 1 COIN O gt O N Trans 38 PV 2 o Trans 38 PV 3 e Trans 39 PV 1 Trans 39 PV 2 N Trans 39 PV 3 Trans 40 PV 1 AR Trans 40 PV 2 Trans 40 PV 3 Revision 1 02 LOC ID 9 41 45 Transmitters PVs Trans 41 45 15 FP Values 1 Trans 41 PV 1 2 Trans 41 PV 2 3 Trans 41 PV 3 4 Trans 42 PV 1 5 Trans 42 PV 2 6 Trans 42 PV 3 7 Trans 43 PV 1 8 Trans 43 PV 2 9 Trans 43 PV 3 10 Trans 44 PV 1 11 Trans 44 PV 2 12 Trans 44 PV 3 13 Trans 45 PV 1 14 Trans 45 PV 2 15 Trans 45 PV 3 LOC Array 15 ID 10 46 50 Transmitters PVs Trans 46 50 15 FP Values 1 Trans 46 PV 1 2 Trans 46 PV 2 3 Trans 46 PV 3 4 Trans 47 PV 1 5 Trans 47 PV 2 6 Trans 47 PV 3 7 Trans 48 PV 1 8 Trans 48 PV 2 9 Trans 48 PV 3 10 Trans 49 PV 1 11 Trans 49 PV 2 12 Trans 49 PV 3 13 Trans 50 PV 1 14 Trans 50 PV 2 15 Trans 50 PV 3 Page 40 of 91 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 TPS XYR DATABASE CONFIGURATOR PURPOSE The purpose of the XYR Database Configurator is to build the database required by the TPS system for bringing data from the XYR 5000 into the TPS system There are two portions to the database The array database wher
81. nterface array For example if you have 6 transmitters it may be well to configure for 10 at this time See the table Table 2 Transmitter vs Array Requirements on page 2 NOTE If the database is set to accommodate for example 20 transmitters and the actual number of transmitters are currently 10 an additional 10 may be added with no impact to the system NOTE If additional transmitters are added at a later date a new SI array may be required see Table 2 Transmitter vs Array Requirements plus all the Flag Points Numeric Points RegPV Points and or CL that would be required to accommodate the alarming and scaling for these new transmitters The Configurator Program can be used to build this database at later time by loading the last configuration nominally in a file named XYRLoad ini making the changes to add the new transmitters and generating a new set of database files The EB files are set to NOT overwrite existing database but the existing points will be included in the database and will produce an error at load time That error will Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 45 of 91 prevent the XYRLDOTH EC file from recompiling the CL and from moving the resultant CL object files However that can be done manually NOTE If transmitters are removed at a later date simply change the number of configured transmitters on the Base Radio Array Configuration
82. onversion Flag 2 52 12 Trans 4 Conversion Flag 3 53 13 Trans 5 Conversion Flag 1 54 14 Trans 5 Conversion Flag 2 55 15 Trans 5 Conversion Flag 3 56 16 Trans 6 Conversion Flag 1 57 17 Trans 6 Conversion Flag 2 58 18 Trans 6 Conversion Flag 3 59 19 Trans 7 Conversion Flag 1 60 20 Trans 7 Conversion Flag 2 61 21 Trans 7 Conversion Flag 3 62 22 Trans 8 Conversion Flag 1 63 23 Trans 8 Conversion Flag 2 64 24 Trans 8 Conversion Flag 3 65 25 Trans 9 Conversion Flag 1 66 26 Trans 9 Conversion Flag 2 67 27 Trans 9 Conversion Flag 3 68 28 Trans 10 Conversion Flag 1 69 29 Trans 10 Conversion Flag 2 70 30 Trans 10 Conversion Flag 3 71 31 Trans 11 Conversion Flag 1 72 32 Trans 11 Conversion Flag 2 73 33 Trans 11 Conversion Flag 3 74 Trans 25 Conversion Flag 2 Revision 1 02 Page 29 of 91 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 LOC Array 1 75 Trans 25 Conversion Flag 3 76 Trans 26 Conversion Flag 1 77 Trans 26 Conversion Flag 2 78 Trans 26 Conversion Flag 3 79 Trans 27 Conversion Flag 1 80 Trans 27 Conversion Flag 2 81 Trans 27 Conversion Flag 3 82 Trans 28 Conversion Flag 1 83 Trans 28 Conversion Flag 2 84 Trans 28 Conversion Flag 3 85 Trans 29 Conversion Flag 1 86 Trans 29 Conversion Flag 2 87 Trans 2
83. ovides a nominal EB file for all fifteen 15 base array points The first four 4 arrays are required in any configuration These data in these files may be used for building the arrays manually Once the first four 4 arrays are built the XYR SI FTA should be able to communicate with the XYR 5000 Base Radio Other arrays may be built as required reference Table 2 Transmitter vs Array Requirements The f rst four 4 arrays have cells highlighted in yellow where the user would normally modify the contents to fit the specific requirements at the user s site While other data may be modified these are the most common Note that in the first four 4 arrays there are also cells highlighted in green These contents must not be modified Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 59 of 91 ISYSTEM ENTITY X ARR01 amp T ARRAY PNTFORM FULL KEYWORD ASSOCDSP CDETAIL MODNUM 0 PRIMMOD USERID SCANPRI LOW AB DATA AUXDATA2 1 AB DATA2 0 5 AUXDATA3 485 0 AB DATA3 0 AB 4144 1 FLSTIX 333 NNSTIX 0 NNUMERIC 0 STRSTIX 0 STRLEN 8 NSTRING 0 TIMESTIX 0 NTIME 0 SPLOCK OPERATOR FLDESC NNDESC STRDESC
84. per transmitter most transmitters do not utilize 3 PV values Revision 1 02 Table 1 Required Components Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 Page 11 of91 30 April 2007 INSTALLATION OVERVIEW STEPS These steps are not intended as a replacement for referring to the standard documentation for the xPM or for the Wireless Base Radio They are provided to guide the user in knowing which steps must be followed for successful installation It is presumed that the Wireless Base Radio is already configured properly NOTE For TAC support of the implementation of the Discretionary features the Implementor must be familiar with APM HPM Serial Interface configuration Process Point Building amp Process Module CL Implementation In addition the completed pre installation checklist must be available to assist the TAC Engineer IMPORTANT If you do not have a GUS station with File Transfer loaded you will be able to transfer neither the the supplied files DS and DF nor the Database Configuration files resulting from its execution to the History Module Complete the PRE INSTALLATION CHECKLIST found on page 2 Install Serial Interface IOP into the xPM Install Power Adapter and SI FTA typically in the xPM cabinet Install cable connecting the Power Adapter to the xPM backplane and Serial Interface IOP Install cable connecting SI FTA to the Power Adapter 6 Configure Serial Interface IOP usin
85. ray locations but is not being updated on the Flag or Numeric points ensure that the PROCMOD point is running without errors As well ensure that the proper CL to pull data from the Array Points and push the data to the downstream points Flag Numeric is loaded and is running on the ProcMod point During loading of the database if you get an error that seems to have to do with the tagname ensure that you have NOT exceeded the maximum number of characters for a tagname on your system Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 90 of 91 ORDERING INFORMATION To order the XYR SI FTA Serial Interface Field Termination Assembly for the XYR 5000 Base Radio contact your HPS account manager The following items are available 1 XYR 5000 FTA Assembly 1 Binder of User Documentation Database Configurator to help build the database required to implement the SI FTA properly 1 LCN Native Window Graphic for showing the data from each transmitter Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 91 of 91
86. red Continue with the parameter configuration per the following table before saving the points INTERNAL DATA TYPE AUXDATAI SIZE TO SLOT NUMBER INDEX CONFIGURE 1 Flag SIFLAGARRCH 15 151 2 Numeric SINUMARRCH 11 27 3 Flag SIFLAGARRCH 13 250 4 Numeric SINUMARRCH 1 15 5 Numeric SINUMARRCH 2 15 6 Numeric SINUMARRCH 3 15 7 Numeric SINUMARRCH 4 15 8 Numeric SINUMARRCH 5 15 9 Numeric SINUMARRCH 12 25 10 Flag SIFLAGARRCH 14 250 11 Numeric SINUMARRCH 6 15 12 Numeric SINUMARRCH 7 15 13 Numeric SINUMARRCH 8 15 14 Numeric SINUMARRCH 9 15 15 Numeric SINUMARRCH 10 15 Table 7 Size and Configuration Table Once all the required slot configurations are completed as described above the FTA should be scanning Note that Slot Array 1 will need configuration data that the other arrays will not have to communicate properly If utilizing the interface on an EPKS system when configuring the 2 9 FTA the 2 set of arrays require AUXDATA 0 to be as shown in Table 7 Size and Configuration Table A PC executable XYR Database Configurator Tool is provided with this package to help prepare the TPS system arrays necessary for the SI FTA to work properly As well the Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 Page 23 of 91 30 April 2007 package constructs EB files and CL as requi
87. red for transferring data from arrays to non array points on the xPM Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 24 of 91 EXTENDED DATABASE CONFIGURATION Nominally all data from the Base Radio is stored into xPM array elements If this is adequate for your installation then no other action is required However if alarming limit checking or PV parameter representation is desired or required a separate database must be built There are a limited number of Regulatory PVs that can be used for alarming Numeric values that can be used to store values Alarmable flags and non alarmable flags Consult the xPM manuals for details A PC executable XYR Database Configurator Tool is provided with this package to help prepare the TPS system arrays necessary for the SI FTA to work properly As well the package constructs EB files and CL as required for transferring data from arrays to non array points on the xPM Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 25 of 91 CONTROL CAPABILITIES There are no control capabilities associated with the XYR 5000 Base Radio It is treated as a read only device Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 26 of 91 ERROR HANDLING The mterface firmware makes every attempt to detect and recover from communication errors experienced on the se
88. rial link Among these are no response from the connected device message framing errors and parity errors The SI ERROR field will display error data The errors are enumerated in the following table The firmware will try a read message a total of 3 times waiting the configured message time out time for a response after each attempt If there is no response an error is posted by the SI FTA Below is a list of the error conditions detected and posted by the FTA All errors are listed some may not be applicable to this specific application SI ERROR AND COMMUNICATION ERROR ARRAY Indications TDC Notation Indication NO CONF No Configuration DEV ADDR Device Address has a configuration error DATATYPE Data Type has a configuration error STARTIDX Start Index has a configuration error ELEMNT Number of Elements Error The arrays must have the number of elements as described herein TMOT VAL Illegal Message Timeout Time AUXMATCH Signal Modem Mismatch error EX Exception or other Field generated error SIG MOD Illegal Signal Modem value BAUD PAR Illegal Baud Parity value CONFIG Generic Configuration Error CHECKSUM Checksum Error DEBUG ER Special debug error codes used in Factory Test MAX CONF Maximum Configuration Error INV RESP Invalid Response in the Receive Buffer PARITY Parity Error MSGTMOUT Message Time out Error no response UNIT CNF Unit Not Configure
89. se array database associated directly with the SI FTA that maintains in it the values read from the XYR 5000 Base Radio Second there is an extended database where values can be moved for scaling of PVs alarming logging and for other functions Without the array database there is no place to bring the values from the XYR 5000 into the TDC system The serial arrays as described herein are always required The extended database is always optional The TDC system will receive and be able to display XYR 5000 Base Radio data without the extended database This section describes the two databases ARRAY DATABASE STRUCTURE Data acquired from a connected device by the firmware residing on a SI FTA is mapped into Array points It is through this mapping that the data is communicated up through the SI card to the system database associated with the SI FTA In this version of the XYR SI FTA there are up to fifteen 15 array points of various types mapped into the FTA The XYR SI FTA utilizing fifteen 15 Serial Interface arrays is enough to store data for the full complement of transmitters available to an individual Base Radio The database configurator included with the XYR 5000 SI FTA package will build files including EB files EC files and other necessary for the required array database The configurator asks for a starting array slot and increments the arrays from that point If the system requires the 15 array point slots to be non s
90. terface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 56 of 91 Transmitter Not Configured The array database has been sized to handle this transmitter but the base radio is a number smaller than the number allowed by virtue of the database loaded When the Base Radio is sized to that point if a new transmitter is enabled the PV values will be shown Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 57 of 91 SAMPLE DATABASES AND CL These databases and CL examples are intended as a sample of the both the base required Array database and the Extended database Point names Unit names slot numbers scaling and other defineable parameters would need to be adjusted according to plant requirements It should be noted that changes to a point name must be reflected in the following databases as well TAG TYPE ALSO CHECK Array xPM CL code the DEF INIT page on the XYR_DIAG schematic Flag xPM CL Code Numeric xPM CL Code RegPV Changing the RegPV Tag name should have no impact on other databases or on the XYR DIAG schematic ProcMod Changing the ProcMod tag name will require a change in the non generic xPM CL that will be attached to that tag Table 10 Checks for Manual Point Name Changes Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 58 of 91 SAMPLE xPM ARRAY DATABASE The following table pr
91. y to physically verify the numbers available Do you have enough for those required per the prior checklist item Revision 1 02 Serial Interface FTA for XYR 5000 User Manual 34 XY 25 14 30 April 2007 Page 88 of 91 Ite Description Check Additional Information m and Entries 30 How many ProcMod Go to the xPM Slot Summary to physically verify the points are available numbers available If an extended database is to be defined anywhere from 1 to 7 ProcMod points will be required The XYR Configurator is set to store approximately 100 Numeric and or Flag transactions per ProcMod point 31 What is the first Go to the xPM Slot Summary to physically verify the alarmable flag slot to be first alarmable flag slot The Configurator program used presumes slots are consecutively available from the starting point If this is not so the slots can be manually adjusted by editing the resulting EB file 32 What is the first non Go to the xPM Slot Summary to physically verify the alarmable flag slot to be first non alarmable flag slot The Configurator used program presumes slots are consecutively available from the starting point If this is not so the slots can be manually adjusted by editing the resulting EB file 33 What is the first Go to the xPM Slot Summary to physically verify available RegPV slot first available RegPV slot The Configurator program presumes slots are consecutively available from th
92. ype 17 Trans 17 Type 18 Trans 18 Type 19 Trans 19 Type 20 Trans 20 Type 21 Trans 21 Type 22 Trans 22 Type 23 Trans 23 Type 24 Trans 24 Type 25 Trans 25 Type 26 Trans Configured 27 Trans Responding LOC Array 3 ID 13 1 5 Transmitters Trans Flags Trans 1 25 250 Flags 1 Trans 1 Flag 1 2 Trans 1 Flag 2 3 Trans 1 Flag 3 4 Trans 1 Flag 4 5 Trans 1 Flag 5 6 Trans 1 Flag 6 Revision 1 02 LOC Array 3 7 Trans 1 Flag 7 8 Trans 1 Flag 8 9 Trans 1 Flag 9 10 Trans 1 Flag 10 11 Trans 2 Flag 1 12 Trans 2 Flag 2 13 Trans 2 Flag 3 14 Trans 2 Flag 4 15 Trans 2 Flag 5 16 Trans 2 Flag 6 17 Trans 2 Flag 7 18 Trans 2 Flag 8 19 Trans 2 Flag 9 20 Trans 2 Flag 10 21 Trans 3 Flag 1 22 Trans 3 Flag 2 23 Trans 3 Flag 3 24 Trans 3 Flag 4 25 Trans 3 Flag 5 26 Trans 3 Flag 6 27 Trans 3 Flag 7 28 Trans 3 Flag 8 29 Trans 3 Flag 9 30 Trans 3 Flag 10 31 Trans 4 Flag 1 32 Trans 4 Flag 2 33 Trans 4 Flag 3 34 Trans 4 Flag 4 35 Trans 4 Flag 5 36 Trans 4 Flag 6 37 Trans 4 Flag 7 38 Trans 4 Flag 8 39 Trans 4 Flag 9 40 Trans 4 Flag 10 41 Trans 5 Flag 1 42 Trans 5 Flag 2 43 Trans 5 Flag 3

Serial Interface FTA for XYR 5000 User Manual

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