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Op. Maintenance Manual 3-4 of 4
CITY OF SANDY ELECTRONUC DOCUME~IT ~&RCHIV~G COVER SHEET FOLDER STRUCTURE LC. ~O~d~' .(Departmemt) DOCUMENT NAME: D~.TE RANGE: ~x_ 199S~2000 I9/~-1980 1990-1995 1970-I975 1985-1990 Bef'ore I970 __ 1980-I985 RtSTENTION: None 10 years __ I year 20 years __ 2 years ~ Permanent __ 5 years DISPOSITION OE DOCUMENT AFTER SCANNING: Retm-n to Deparanent Store at Recycle City of Sandy Water Treatment Facility Expansion OPERATIONS & MAINTENANCE MANUAL Volumes 3 & 4 of 4 Engineer: Curran-McLeod, Inc. 6655 SW Hampton, Suite 210 Portlm~d, OR 97223 Slayden Construction, Inc. PO Box 625 Stayton, OR 97383 City of Sandy Water Treatment Facility Expansion Engineer: Curran-rVlcLeod, Tnc. 6655 SW Hampton, Suite 210 Portland, OR 97223 Contractor: Slayden Construction, Inc. PO Box 625 Stayton, OR 97383 OPERATtONS& MAINTENANCE MANUAL TABLE OF CONTENTS Section 1 Section 2 Section 3 Section 4 Section 5 Section 6 Section 7 Book ~ of 4 Equipment & Electrical Vertical Split Case Pump Water Treatment Equipment Chemical Feed System Mixer Flap and Misc Valves Plumbing Fixtures Finishes Electrical Book 2 of 4 Tnstrumentation & Control System Equipment Section 1 Section 2 Section 3 Section 4 Section 5 Section 6 Section 7 Section 8 Section 9 Drawings Enclosures Annunciator & Panel Tndicators Electrical Devices Level Gauges & Pressure Transmitters Propeller Flow Meter Streaming Current Controller Chlorine Residual Analyzer PLC Hardware & Modems Section I Book 3 of 4 PLC Programs PLC Programs Panel 800 Panel 803 Panel 804 Panel 805 Panel 806 Section 1 Section 2 Section 3 Section 4 Section 5 Book 4 of 4 Tnstrumentation & Control System O&M Manual HM! General Description HMT Licenses HM! Screens HM! Cross References HM! TAG Databases VARIABLES USED IN BLOCK Name Type ANNUNCIATOR TEST UIT RW BSTR PurvTP 1 ON BIT FLITSR_EFF_PUMP 4_0 BIT N TERRA FERN PUMP.7 BIT ON BROWNELL_SPRINGS_H B~T I_TRUB ALW OFF BIT Lan Address Description Stored Val Scope %100063 **No Description** Global %Q00001 ALARM LIGHT Global %Q00017 ALARM LIGHT Global %Q00129 **No Description** Global %Q00145 **No Descdptfon'* Global 1 %S00008 Always OFF System HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Analog Input (%Al) None Used Analog Oui~ut (%AQ) None Used Input (%1) %100063 Output (%Q) %Q00160 Internal Memory (%M) None Used Register (%R) None Used Genius Global (%G) None Used Genius Global (%GA) None Used Genius Global (%GB) None Used Genius Global (%GC) None Used Genius Global (%GD) None Used Genius Global (%GE) None Used Temporary {%T) None Used System (%S) %S00008 System (%SA) None Used System (%S~) None Used System (%SC) None Used Local (%L) None Used Program (%P) None Used Ret Orr Ext R R R R R R VARIABLES USED IN BLOCK Name Type Lan Address Description Stored Val Scope FIN WATER TURB WORD 1 %AI0161 '*No Description** Global MA~H STORAGE1 WORD 2 %R00007 **No Description** Global WTP_~INISHED_WATER WORD 1 %R02000 WTP FINISHED WATER HI Global TURBIDITY TURBIDITY (0-100) ~LTR UNT 1 TRUBIDITY WORD 1 %AI0162 **No Description** Global WTp FLTR_UNIT_I_TL~R WORD 1 %R02002 WTP FILTER UNiT 1 Global BIDII~Y TURBIDITY VALUE (0-100) FLTR UNT 2 TURB WORD I %AI0163 **No Description** Global WTP FLTR_UNIT_2_TUR WORD 1 %R02004 WTP FILTER UNIT 2 Global BiDITY TURBIDITY VALUE (0-100) FLTR UNT 3 BAY I TR WORD 1 %AI0164 "NoDescbptlon** 3224 Global UBID~-TY - WTP FLTR_UNIT_3_BAY WORD 1 %R02006 WTP FILTER UNIT 3 BAY1 10 Global 1 TUREIDITY TUBIDITYVALUE (C~100) F~TR_UNT_I_INFL_FLO WORD 1 %AI0165 **No Description** 0 Global W WTP_FLTR_UNIT_I_INF_ WORD I %R02008 WTP FILTER UNIT1 INFL Global FLOW FLOW VAL (GPM 1.0) (0- 400) FLTR_UNT_2_INFL_FLO WORD I %AI0160 **No Description** Global W WTE_FLTR_UNIT_2_INF_ WORD I %R02010 WTP FILTER UNIT2 INFL Global FLOW FLOW VAL (GPM 1.0) (0- 400) FLTR UNT_3_INLF_FLO WORD 1 %AI0167 **No Description** Global W MATH STORAGE2 WORD 2 %R00009 **No Description** Global ~TP_FLTR_UNIT_3_IN F_ WORD 1 %R02012 WTF' FILTER UNIT3 INFL Global ELOW FLOW VAL (GPM 1.0) (0- 1000) FLTR_UNT_3_BAY_2_TR WORD 1 %AI0168 **No Description** 3152 Global UBIDITY WTP_FLTR_UNIT_3_BAY WORD 1 %R02014 WTP FILTER UNIT 3 BAY2 10 Global 2 TURBIDITY TURBIDITY VALUE (0-100) F~-NISHED_WATER CL2 WORD I %AI0169 **No Description** 0 Global RESIDUAL WTP FINISHED WATER WORD I %R02016 WTP FINISHED WATER Global _CL_~ES CHLORINE RESrDUAL VAL(0-1.00) FINISHED_WATER_FLO WORD I %AI0170 **No Description** Global w WTP FINISHED_WATER WORD I %R02018 WTP FINISHED WATER Global FLOW FLOW VALUE (GPM 1.0) (0-2000) RAW WATER TURB WORD 1 %Ai0171 **No Descrlotlon** Global WTP RAW_WATER_TUR WORD 1 %R02020 WTP RAW WATER Global SIDITY TURBIDITY VALUE (0-100) BCKWSH FLOW WORD 1 %A10172 **No D~scd~fion*' 16 Global WTP FLTR UNIT 3_BAC WORD I %R02022 WTP BACKWASH FLOW I Global KWA~H_FLOW VALUE (GPM 1.0) (0- 2500)gpm WTP_BROWNELL_FLOW WORD 1 %R01602 B-SPRINGS FLOW VALUE Global (GPM 1.0) BROWNELL_SPRINGS_F WORD 1 %AQ0173 **No Description** Global LOW WTP TERRA FERN RESWORD 1 %R01300 WTP TERRA FERN Global _LEV-EL - - RESERVOIR LEVEL VALUE TERRA_FERN_RSERVR_ WORD 1 %AQ0174 0-32 feet Global WTP SANDERCOCK_RE WORD I %R01400 WTP SANDERCOCK Globa~ S_LEVEL RESERVOIR LEVEL SANDERCOCK_RSERVR WORD 1 %AQ0175 0-15 feet Grobal _LVL Ret Orr Ext R R R R R R R R R R R R R R R R R R R R R R R R R R R R R R R R _LEVEL 'ISTA_LOOP_RSERVR_L WORD 1 gL WTP_BROW N ELL_TURBI WORD 1 DITY URB ES EROWNELL_SPRINGS_C WORD 1 WTP_CHLORINATOR_PA WORD 1 GING CHLORINATOR_PAGING WORD 1 MEMORY AREA Analog Input (%Al) Analog Output (%AQ) Input {%1) Output (%Q) Internal Memow (%M) Register (%R) Genius Global (%G) Genius Global (%GA) Genius Global (%GB) Genius Global (%GC) Genius Global (%GD) Genius Global (%GE) Temporary (%T) System (%S) System (%SA) System (%SB) System (%SC) Local (%L) Program (%P) VARIABLES USED IN BLOCK Address Description %R01500 WTP VISTA LOOP RESERVOIR LEVEL VALUE %AQ0176 0-30 Feet %R01600 B-SPRINGS TURBIDITY VALUE %AQ0177 0-10 NTU %R01604 B-SPRINGS CHLORINE RESIDUAL VALUE %AQ0178 0-1.0 PPM %R02024 WTP CHLQRINATOR PAGING VALUE %AQ0179 *'No Description** HIGHEST USED REFERENCE ADDRESS ADDRESS %AI0172 %AQ017g None Used Stored Va[ Scope Ret Ovr Ext Global R Global R Global R Global R Global R Global R VARIABLES USED JN BLOCK Name Type Lan Address Description StoredVal Scope Ret Ovr Ext WTP FLTR UNIT 1 PW WORD 1 %R02190 WTP FILTER UNIT 1 1 Global R R_P_STEP POWER UP SEO STEP %M03510 BIT 1 %M03510 **No Dosed priori** I Global R %M05511 BIT I %M03511 **No Description*' Grobal R %M03512 BIT 1 %M03512 "No Description** Global R WTP_F LTR_U NIT_2_PW WORD 1 %R02191 WTP FILTER UNIT 2 2 Global R R_P_STEP POWER UP SEQ STEP %M03513 BIT 1 %M03513 **No Description*' Global R %M03514 BIT I %M03514 **No Description** I Global R %M03515 BIT I %M03515 **No Description** Global R WTP FLTR UNIT 3 PW WORD 1 %R02192 WTP FILTER UNIT 3 3 Global R R P ~TEP POWER UP SEQ STEP %M03516 BIT 1 %M03§16 *'No Descrfpfion** Global R %M03517 BIT I %M03517 '*No Description** Global R %M03518 BIT 1 %M03518 **No Description** I Global R POWER FAIL BIT 1 %100079 ON WHEN UTILITY 1 Global R POWER IS ON START SEQ STEP I WORD 3 %R05000 **No Description~* 32767, 1800, Global R 58104 WTP_FLTR_U NIT_I_PW WORD 1 %R02181 WTP FILTER UNIT1 1800 Global R R_P_DELAY POWER UP SEQ.DELAY(SEC) START UP STEP 1 BIT 1 %M03500 "*No Description*~ 1 Global R START_SEG STEP 2 WORD 3 %R05003 **No Description** 32767, 1800, Global R 58104 WTP_FLTR_UNIT_2 PW WORD 1 %R02182 WTP FILTER UNIT2 1800 Global R R_P_DELAY POWER UP SEQ.DELAY(SEC) START UP STEP 2 BIT 1 %M03001 **No Description** I Global R START-SE~ STE~_3 WORD 3 %R05006 **No DescripUon** 32767, 1800, Global R 58104 WTP FLTR UNIT_3_PW WORD I %R02183 WTP FILTER UNIT3 1800 Global R R P DELAY POWERUP SEQ.DELAY(SEC) START UP STEP 3 BIT 1 %M03502 **No Description** 1 Global R %M03519 BIT 1 %M03519 **No Description** 1 Global R %M03520 BIT 1 %M03520 **No Description** 1 Global R %M0352t BIT 1 %M03521 **No Description** 1 Global R START_SEQ_STEP_4 WORD 3 %R05009 **No Description** 32767, 1800, Global R 58104 WTP RAW_WTR_BPS_P WORD 1 %R02203 WTP FILTER UNIT1 1800 Global R 1 VFD P DLY POWER UP SEQ.DELAY(SEC) START UP STEP 4 BIT I %M03503 **NO Description** 1 Global R START SEG STE~_5 WORD 3 %R05012 **No DescdpSon** 32767, 1800, Global R 58104 WTP_RAW WTR_BPS_P WORD 1 %R02204 WTP FILTER UNIT1 1800 Global R 2 VFD_P DLY POWER UP SEQ.DELAY(SEC) START UP STEP 5 BIT 1 %M03§04 **No Description" I Global R START-SE~_STE~_8 WORD 3 %R05015 **No Description** 32767, 1800, Global R 58104 WTP FLTR EFF PUMP1 WORD I %R02205 WTP FILTER UNIT1 1800 Global R _P_DELAY POWER UP SEQ.DELAY(SEC) START UP STEP 6 BIT 1 %M83505 **No Description** I Global R START-SE~_STE~_7 WORD 3 %R05018 **No DescbptJon** 32767, 1800, Global R 58104 WTP_FLTR_EFF_PUMP4 WORD 1 %R02206 WTP FILTER UNIT1 1800 Global R P_DELAY POWER UP SEQ,DELAY(SEC) START UP STEP 7 BIT 1 %M03506 **No Description** 1 Global R START_SEG_STEP_8 WORD 3 %R05021 "No Description*' 32767, 1800, Global R 58104 Progr~am S~ndyS00 C:/,VL sm~f\PLC~SandyS00 STRTSEQ blk ~/TPFLTR_EFF_PUMP6 WORD P DELAY START_U P_STEP_9 BIT 1 VARIABLES USED IN BLOCK Address Description %M03507 *"No Description** %R05024 **No Description~* %R02208 WTP FILTER UNIT1 POWER UP SEQ,DELAY(SEC) %M03508 ~*No Description** HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Analog Input (%Al) None Used Analog Output (%AQ) None Used Input (%1) %100079 Output (%Q) None Used Internal Memory (%M) %M03521 Register (%R) %R05026 Genius Global (%G) None Used Genius Global (%GA) None Used Genius Global (%GB) None Used Genius Global (%GC) None Used Genius Global (%GD) None Used Genius Global (%GE) None Used Temporary (%T) None Used System (%S) None Used System (%SA) None Used System (%SB) None Used System (%SC) None Used Local (%L) None Used Program (%P) None Used Stored Val Scope Global 32767,1800, Global 58104 1800 Global Global Ret Orr IExt R R R R VARIABLES USED IN BLOCK Name Type FLTR UNT_I_AUTO BIT WTP FLTR UNIT_I_AUT BIT O FLTR EFF PMP 1 ON BIT FILTER_EF-FLUENT_PU M BIT RAW_WATER_BSTR_PU BIT MP 1 AUTO WTP_RAW WATER_BPS BIT P1 AUTO ~W_-BBTR_PUMP I RU SIT N CALL WTP RAW_WATER_DPS BIT PI P LOOK ~T~_TERP, A_FERN PU BIT MP7 ON TER~A_F ERN_PUMP_7_ BIT ON Lan Address Description Stored Va[ Scope Ret 1 %100033 '"Ne Description** Global R t %M01701 WTP FILTER UNIT 1 HI IN Global R AUTQ 1 %i00058 **No Description** Grabal R 1 %M01726 **No Description*~ Global R 1 %100081 **No Description** Global R 1 %M01749 WTP RW BPS PUMP1 IN Global R AUTO 1 %Q00097 *'No Description** Global R 1 %M01831 WTP RW BPS PUMP1 RUN Global R CALL 1 %M01849 WTP TERRA FERN PUMP Global R 7ON I %Q00129 '*No Description** Global R HIGHEST USED REFERENCE.ADDRESS MEMORY AREA ADDRESS Analog Input (%Al) None Used Analog Output (%AQ} None Used Input (%1) %100096 Output (%Q) %Q00t52 Internal Memory (%M) %M01872 Register (%R) None Used Genius GlobaJ (%G) None Used Genius Global (%GA) None Used Genius Global (%GB) None Used Genius Global (%GC) None Used Genius Global (%GD) None Used Genius Global (%GE) None Used Tempora~, (%T) None Used System (%S) None Used System {%SA) None Used System (%SS) None Used System (%SC) None Used Local (%L) None Used Program (%P) None Used Orr Ext Name Type Len WTP RAW_WTR_BPS_S BIT WTF RAW WATER BPS BIT 1 SMOKE ANNUNCIATOR_RESET BIT 1 T SEC BI, 1 WTP_RAW_WTR_BPS_S BIT 1 MOKE_ALM_ACK RW_BSTR_PUMP_STA_S BIT 1 MOKE_ALARM WTP_RAW_WTR_BPS_I BIT 1 NTRSN ALM WTP F~W WATER_BPS BIT 1 INTRUSION ~VTP_RAW_WTR_BP S_J BIT 1 NTRSN_ALM_ACK RW_BSTR_PU MP_STA_I BIT NTRUSION WTP_RAW_WTR_BPS_F BIT 1 LOOO ALM WTP_-RAW_WATER_BPS BIT 1 FED ALARM WTP RAW_WTR_BPS_F BIT 1 LOOD ALM ACK RW BSTR_PUMP_STA_F BIT 1 OED ¢VTp_RAW_WTR_BPS_L SiT 1 OW_SUC_ALM WTP_RAW_WATER_BES BIT 1 LOSUC ALM ~/TP_RAW_WTR_BPS_L BIT 1 OW_SUC_ALM_ACK RW_BSTR PUMP STA L BIT 1 OW SUCTION RW BPUMP 1 PAIL BI, 1 WTP_RAW_WATER_BPS BiT PI FAIL ~W_-BSTR_PU MP_I_VFD SIT t FAIL RW_BPUMP 1 FAIL AC BIT 1 K RW_BSTR PUMP I FAILBIT 1 RW BPUMP 2 FAIL BIT 1 WTP RAW WATER_BFS BIT 1 RW BSTR PUMP 2 VFD BIT 1 FATE RW_BPUMP_2_FAIL AC BIT 1 K RW BSTR PUMP 2 FAILBIT 1 WTP PAW WATER H T BIT 1 _F_DA ONE_OR_MORE_FiLTER BiT S ARE ON W-TP_F~&W_WATER_TU R WORD 1 1W HiGh Ti)RS ALARM WORD 3 /VTP RAW_WATER_H_T WORD 1 Program: SandyRfl(I VARIABLES USED IN BLOCK Address Description Stored Val Scope Ret Orr Ext %M03022 **No Description** Global R %M0~ 805 WTP RAW WATER BPS Global R SMOKE ALARM DISABLE WLEDGE AC-K RE WTP_FLTR UNIT 1 H T BIT 1 URBIDITY CK B WTP FLTR UNIT_2 H_T BIT 1 URBIDITY FLTR_2_TU RB_ALARM_A BIT 1 CK FLTR_UNT_2_HIGH_TUR BIT 1 B FLTR 3 TURE ALARM I BIT 1 FLTR_UNT_3_SAY_I_HI BIT GH_TURB WTP_FLTR_U NIT_3_BAY BIT 1 2_H_TRBDTY FLTP._3_TU RB_ALARM_A [:]IT 1 CK 2 M WTP FLTR EFF_PUMP1 BIT 1 FAIL ~FF PMP I FAIL ALAR BIT M ACK FLTR BFF PUMP t FAILBIT 1 EFF_PMP_4_FAIL_ALAR B~T 1 ~FF PMP 4 FAIL ALAR BIT 1 M ACK FLTR EFF PUMP 4 FAILBIT 1 EFF_PMP_5_FAIL_ALAR BIT 1 WTP_FLTR_EFF_PUMP5 BIT 1 FAIL ~FF_PMP 5_FAIL_ALAR BIT M_ACK EFF_PMP_6_FAIL_ALAR BIT 1 M WTP_FLTR_EFF_PU MP6 BIT 1 FAIL ~FF_PMP_6_FAIL_ALAR BiT 1 VTP_TERRA_FERN_RES WORD 1 LEVEL _LEVEL_MAX VARIABLES USED IN BLOCK Address Description %M03031 **No Description** %M01874 WTP RAW WATER HIGH TURBIDITY %Q00153 ANNUNCIATOR ALARM OUTPUT %M03014 **No Description** %M01811 WTP FILTER UNIT 1 HI TURBIDITYB ALARM %M03015 **NO Description** %Q00011 ALARM LIGHT Stored Val Scope Ret Orr Ext Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Global R Name Type Len TERRA_FERN_HI_LVL T WORD 3 MR ¢VTP_TE RRA_FERN_RES WORD 1 .H_LEV_F_D LY OERRA_FERN_HI_LVL A BIT 1 LARM TERRA FERN_HI_LVL_A BIT 1 LARM_~,CK WTP_TERRA_FERN_RES BIT 1 _H_LEVEL TERRA FERN RSERVR BIT 1 HI LVL w'rP_TERRA_FERN RES BIT 1 _L_LEVEL_F_DA WTR_TERRA_F ERN_RES WORD 1 _LEVEL_MIN WTP_TERP, A_FERN_RES WORD 1 _L_LEV_F_DLY TERRA_FERN_LO_LVL_A BIT 1 LARM TERRA_FERN_LO_LVL_A BIT 1 LARM ACK WTP ~ERRA FERN RES BIT 1 L L~VEL TERRA_FERN_RSERVR BIT 1 LOW LVL VARIABLES USED IN BLOCK Address Description Stored Val Scope Ret Orr Ext %R05554 **No De$cd ption** Global R %R02159 WTP TERRA FERN HIGH 1800 Global R LEVEL ALARM DELAY %M03040 "No Description** Global R %M03041 **No Description" Global R %M01859 WTP TERRA FERN HIGH G~obal R LEVEL ALARM %Q00139 **No Description** Global R %M01960 WTP TERRA FERN LOW Global R LEVEL ALARM DISABLE %R01302 WTP TERRA FERN Global R RESERVOIR LEVEL MIN %R02160 WTP TERRA FERN LOW 1880 Global R LEVEL ALARM DELAY %M03042 **No Description** Global R %M03043 *"Ne Description** Global R %M01860 WTP TERRA FERN LOW Global R LEVEL ALARM %Q00140 **No Description** Global R HIGHEST USED REFERENCE ADDRESS MEMORY AREA Analog Input (%Al) Analog Output (%AQ) Input (%1) Output (%Q) Internal Memory (%M) Register (%R) Genius Global (%G) Genius Global (%GA) Genius Global (%GB) Genius Global (%GC) Genius Global (%GD) Genius Global (%GE) Temporary (%T) System (%S) System (%SA) System (%SB) System (%SC) Local (%L) Program (%P) ADDRESS None Used None Used %100064 %Q00153 %M04005 %R05556 None Used None Used None Used None Used None Used None Used None Used %S00005 None Used None Used None Used None Used None Used VARIABLES USED IN BLOCK Name Type Lan Address mn_time_minutes BIT 1 %T00005 T MIN BIT 1 %S00006 RW_BSTR PUMP I_VFD BIT '1 %100049 _ON rw booster_l_run_time 1 WORD 3 %R01900 WTP RAW_WATER_BPS BIT 1 %M02032 P1 RT RESET rw_boocter_l_run_time_2 WORD 3 %R01903 %T00006 BIT I %T00006 ALW ON BIT I %S00007 WTP RAW WATER_BPS WORD I %R02032 Description Stored Vst Scope Rat Orr Ext **No Description** Global 1.0 minute timer contact System R **No Description** Global R **No Description'* Global R WTP RW BPS PUMP1 Globst R RUNTIMER RESET *'No Description** Global R **No Description** Global Always ON System R WTP RW EPS PUMP1 Global R RUNTIME HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Analog Input (%Al) None Used Analog Output (%AQ) None Used Input (%1) %100049 Output (%Q) None Used Interest Memory (%M) %M02032 Register (%R) %R02032 Genius Global (%G) None Used Genius Global (%GA) None Used Genius Global (%GB) None Used Genius Global {%GC) None Used Genius Global (%GD) None Used Genius Global (%GE) None Used Temporary (%T) %TO00ti6 System (%S) %s00007 System (%SA) None Used System (%SB) None Used System (%SC) None Used Local (%L) None Used Program (%P) None Used Name Type WTP_TERRA_FERN_RE$ WORD LEVEL WTP_LVL_RESERVE_BW WORD BCKWSH_RESERVE_FLT BIT WTP_LVL_RESERVE_BW WORD _FILTER_3 BCKWSH_RESE RVE_FLT BIT R$_3 WTP_LVL_STRT FLTR 1 WORD FLTR_I_CALL BIT WTP_LVL_STOP_FLTR_I WORD FLTR_I_ON BIT FLTR_2_ON BIT FLTR UNT 3 ON BrT ONE_OR_MORE_FILTER BIT S_ARE_ON WTP_RAW_WATER_BPS BIT FLD ALARM WTP RAW WATER BPS BIT L OS-U C AiM WTP_RAW_WATER BPS BIT P1 FAIL i-~/T~.-RAW-WAT E R_B PS BIT WTP_RAW_WATER_H_T BIT URBIDITY OK TO RUN_FILTERS BIT FLTR_UNT 1 AUTO BIT %M03519 BIT FLTR_I_TURB ALARM BIT FLTR UNT 1_RUN_CALL BIT FLTR_UNT 1_ON BIT WTP FLTR UNIT_I ON BlT FLTR- 1 BA-CIONASH BIT FLTR UNT_I_IN_BCKWS BIT H WTP_FLTR_UNI~I IN B BIT ACKWASH WTP FLTR_UNIT_I_TUR WORD BIDITY FLTR 1 TURB BIT WTP_FLTR_UNIT_I _H_T BIT _F_DA FLTR 1 HIGH TURB BIT FILTER 1 TURB ALARM WORD WTP_FLTR_UNIT_I H T WORD F DELAY AN NU NCIATOR_ACKNO BIT WLEDGE FLTR_I_TURB_ALARM_A BIT CK ANNUNCIATOR_RESET BIT WTP LVL_STRT_FLTR 2 WORD ,:LTR_2_CALL BIT WTP_LVL STOP_FLTR_2 WORD FLTR UNT 2 AUTO BIT %M03520 BIT Program: SandySO0 FLTR 2 TURB ALARM BIT FLTR_UNT 2 RUN CALL BIT ,- LTR_U NT_2_ON BIT H WTP_FLTR_U NIT_2_TUR WORD 1 BIDITY FLTR 2 TURE BIT FLTR 2 HIGH TURB BIT FILTE-R-2 TUI~B ALARM WORD F DELAY FLTR 2 TURB_ALARM A BIT 1 CK FLTR 3 TURB ALARM 2 BIT 1 FLTR_UNT 3_~:UN_CALL BIT 1 FLTR UNT 3 ON BIT 1 WTP-FLTR UNIT 3 ON BIT 1 FLTR_UNT_3_IN_BCKWS BIT 1 :LTR 3 BACNWASH BIT 1 I H~'FDA F~T~_UN-T BAY_I..HIGH BIT 1 _TURE FLTR 3 TURB TMR 1 WORD 3 CK 1 WT-P FLTR~UNIT_3 BAY WORD 2 TURBIDITY FLTR 3 TURB BAY 2 BIT 1 WTP_F LTR_UNIT_3_BAY BIT 1 FLTR UN-T~BAY_2_HIGH BIT 1 _TURB FLTR 3 TURB TMR 2 WORD 3 WTP FLTR UNIT 3 BAY WORD 1 2 H T DEL~Y FLTR 3 TURB_ALARM A BIT 1 CK_2 Lgn VARIABLES USED IN BLOCK Address Description Stored Val Scope Ret Ovr Ext %M03016 **No Description** Global R %Q00100 **No Description** Global R %Q00013 ALARM LIGHT 1 Global R %M01813 WTP FILTER UNIT 2 ON I Global R %100041 *'No Description** Global R %Q00014 ALARM LIGHT Global R %M01814 WTP FILTER UNIT 2 IN Global R BACKWASH %R02004 WTP FILTER UNIT 2 Global R TURBIDITY VALUE (0-100) %T00002 **No Description** Global %M01915 WTP FILTER UNIT 2 HI Global R TURBIDITYB ALARM DI %100042 *'No Description** Global R %R05512 **No DescdplJon** 0, 1800, 0 Global R %R02115 WTP FILTER UNIT 2 HI 1800 Global R TURBIDITYE ALARM DE %M03017 **No Description~' Global R %R02304 TERA TERN lEVEL = Global R START FILTER3 %M04003 **No Description** 1 Global R %R02305 TERA TERN lEVEL = STOP 330 Global R FILTER3 %100043 **No Description** 1 Global R %M03521 **No Description** 1 Global R %M03018 **No Description*' Global R %M03020 '*No Description** Global R %Q00101 **No Description*' 1 Globe[ R %Q00025 ALARM LIGHT Global R %M01825 WTP FILTER UNIT 3 ON Global R %100046 **No Description** Global R HIGHEST USED REFERENCE ADDRESS MEMORY AREA Analog Input (%Al) Analog Output (%AQ) Input (%1) Output (%Q) Internal Memory (%M) ADDRESS None Used None Used %100064 %Q00103 %M04005 HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Register (%R) %R05565 Genius Global (%G) None Used Genius Global (%GA) None Used Genius Global (%GB) None Used Genius Global (%GC) None Used Genius Global (%GD) None Used Genius Global (%GE) None Used Temporary (%T) %T000C4 System (%S) None Used System (%SA) None Used System (%SB) None Used System (%SC) None Used Local (%L) None Used Program (%P) None Used VARIABLES USED IN BLOCK Name Type Lan Address Description Stored Val Scope Ret Ovr Ext FLTR_I_ON BIT 1 %100035 **No Description** I Globa~ R FLTR_2_ON BIT I %100040 **No Descdp0on** 1 Global R FLTR UNT 3 ON BIT 1 %100045 **No Description** G~obal R RUN 1 RW PUMP BIT 1 %M03001 **No Description** I Global R CHLORINATION_SV- BIT 1 %Q00107 "No Description** 1 Global R 316_OPEN FIN_WTR_SMPLE_VLV_S BIT 1 %(200108 **No Description" 1 Global R V-317 OPEN RUN ~ RW PUMPS BIT 1 %M03002 **No Description** Global R RW PUMP I LEAD BIT 1 %M03004 *"No Description** 1 Global R RAW WATER_BSTR_PU BIT 1 %100081 '-"No Description" Global R MP_I_AUTO RW PUMP 2 LEAD BIT I %M03005 **No Description*' 0 Global R RAW_WATER_SSTR PU BrT 1 %D0083 '*No Descbption*~ Global R MP_2_AUTO RW PUMP CHANGE_LE BIT 1 %M03003 **No Description** Global R AD WTP_P. AW_WATER_BPS BIT 1 %M01004 WTP RW BPS PUMP2 Global R _P2_FAIL MALFUNCTION ALARM WTP_RAW_WATER_BPS BIT 1 %M01802 WTP RW BPS PUMP1 Global R P1 FAIL MALFUNCTION ALARM ~AL~ RW PMP 1 BIT 1 %M03006 '"No Description** 1 Global R CALL-RW-PMP-2 BIT 1 %M03007 **No Description** 1 Global R WTP RAW WATER BPS BIT 1 %M01905 WTP RAW WATER BPS Global R SM(~KE ~DA SMOKE ALARM DELAY F'~AW_W~T[R_BPS_SMO BiT 1 %100053 **No Description"* Global R KE ALARM ~A-W WTR BPS SMOKE WORD 3 %R05830 RAW WTR TMR Global R TMR- - ~VTP RAW WATER_BPS WORD 1 %R02105 WTP PAW WATER BPS 1800 Global R SMOKE F DELAY SMOKE ALARM ~/TP RA-W_-WTR_BPS_S BIT 1 %M03022 *'No Description** Global R MOKE ALM ANNUNCIATOR ACKNO BIT 1 %100064 **No Descflption*~ Global R WLEDGE WTP_RAW_WTR_BPS_B BIT I %M03023 **No Description'" Global R MOKE_ALM_ACK ANNUNCIATOR RESET BIT I %100062 **No Descbotion*' Global R WTP_RAW_WATER_BPS BIT I %M01906 WTP RAW WATER BPS Global R INTRU_F_DA INTRUDE ALARM DISABLE ~,AW WATER BPS INTR BIT I %100054 '*No Description** GIobal R us~o~ RAW_WTR_BPS [NTRUS WORD 3 %R05533 **No Description** 0, 1800, 0 Global R ION_TMR WTP_RAW_WATER_BPS WORD 1 %R02~ 06 WTP RAW WATER BPS 1800 Global R INTRU F DELAY INTRUSION ALARM DELAY ~VTP_RAW_WTR_BPS_I BIT 1 %M03024 **No Description** Global R NTRBN_ALM WTP_RAW_WTR BPS I BIT 1 %M03025 **No Descdprion** Global R NTRSN_ALM_ACK WTP_RAW_WATER_BPS BIT I %M01907 WTP RAW WATER BPS Global R FLD F DA FLD ALARM DISABLE ~,AW_-W-ATER_BPS_FLO BIT I %100055 "No Description** Global R OD RAW_WTR_BPS_FLOOD WORD 3 %R05536 **No Description** Global R TMR ~/TP_RAW_WATER_BPS WORD 1 %R02107 WTP RAW WATER BPS 1800 Global R FLD_F DELAY FLD ALARM DELAY ~-VTP_RAW WTR BPS_F BIT 1 %M03026 *'No Description** Global R _OOD ALM WTP RAW_WTR BPS F BIT 1 %M03027 **No Descbption*' Global R LOOD ALM ACK WTP ~AW-WATER_BPS BIT 1 %M01908 WTP RAW WATERBPS Global R _LOS-UC_F-DA LOW SUCTION AL Name Type RAW_WATER_BPS_LOW BIT SUCTION ~AW_WTR_BPS_LOW_S WORD dC TMR WT-P_RAW_WATER_BPS WORD LOSUC F DELAY WTI~ RA~/ WTR BPS L BIT OW_~UO_~LM_A-OK - WTP RAW WATER_BPS BIT _FLD_ALARM WTP RAW WATER_BPS BIT LOSUC ALM ~W_BST-R_PUMP_1_RU BIT N CALL RW_BSTR_PUMP 1 VFD BIT ON ~W BSTR PUMP 1 ON BIT WTP RAW WATER BPS BIT WTP RAW WATER_EPS BIT P1 F DA RW BP I FAIL TMR WORD WTP RAW WATER_BPS WORD RW BPUMP 1 FAIL OIT RW_BPUMP 1 FAIL AC BIT K RW ABSTR PUMP_2_RU BIT N CALL R~/ BSTR PUMP 2 VFD BIT og RW BSTR PUMP 2 ON BIT WTP_RAW_WATER_BPS BIT P2 ON ~/T~_RAW_WATER BPS BIT RW BP 2 FAIL TMR WORD WTP_RAW WATER_BPS WORD _P2_F DELAY RW BPUMP 2 FAEL BIT RW_BPUMP 2 FAIL_AC BIT K VARIABLES USED IN BLOCK Lan Address Description Stored Vel Scope Ret Ovr Ext DISABLE 1 %100056 **No Description** Global R 3 %R05539 **No Descdptio n** Global R 1 %R02108 WTP RAW WATER BPS 1800 Global R LOW SUCTION AL DELAY 1 %M03ti28 "No Description*' Global R I %M03029 **No Description** Global R 1 %M01807 WTP RAW WATER BPS G~obai R FLD ALARM 1 %M01808 WTP RAW WATER BPS Global R LOW SUCTION ALARM I %Q00097 **No Descfipb0n** Global R I %100049 "No Description** Global R 1 %Q00001 ALARM LIGHT Global R I %M01801 WTP RW BPS PUMP1 ON Global R 1 %M01902 WTP RW BPS PUMP1 Global R MALFUNCTION AL DISABLE 3 %R05500 *'*No Description** Global R 1 %R02102 WTP RW BPS PUMP1 1800 Globat R MALFUNCTION AL DELAY %M03010 '*No Description~ Global R %M03011 **No Description** Global R %Q0ti098 **No Description** Global R 1 %100051 **No Descdpfien** 1 Global R I %Q00003 ALARM LIGHT 1 Global R 1 %M01803 WTP RW BPS PUMP2 ON 1 Global R 1 %M01904 WTP RW BPS PUMP2 Global R MALFUNCTION AL DISABLE HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Analog Input (%Al) None Used Analog Output (%AQ) None Used Input (%0 %100083 Output (%Q) %Q00108 Internal Memory (%M) %M03029 Register (%R) %R05541 Genius Global (%G) N(~lle Used Genius Global (%GA) None Used Genius Global (%GB) None Used Genius Global (%GC) None Used Genius Global (%GD) None Used Genius Global (%GE} None Used Temporary (%T) None Used System (%S) None Used System (%SA) None Used System (%SD) None Used System (%SC) None Used Local (%L) None Used Program (%p) None Used Progrm~: SandySO0 RW PUMP blk CALLPNS03WR CALLPNS04WR CALL_PNS05WR CALL_PNS06WR CALL_PN900WR CLR_PLS_803 PNS03 CommCommand WORD PNS03SlaveStart WORD PNS03_Write BIT PNS03WR BIT PNS03Status WORD PNS03 Wdte OK BIT FNS03_MASTERNBRE WORD LE ~N803_MASTER_STRT_A WORD DDR PNS03_W R2. BIT PNS03_STRT2_WR BIT PNS03 WP.2. Ok BIT PNS03-SNP ~D VER WORD PNS03_SLAVE ADDR_~Y WORD PE PNSO3_MASTER_MEM_T WORD YPE PN803_WR3 BIT PNS03_STRT3 WR BIT PNS03 W R3_(~K BIT PNS03WR4 BIT PNS03 STRT4 WR BIT PNS03 WR4_(~K BIT PNS03 WR5 BIT PNS03_STRTS_WR BIT PNS03_WR5_OK BIT PNS03_WR6 BIT PNS03STRT6_WR ~31T PNS03_WR6 QK BIT PNS03_WR6A BIT PN803_STRTOA WR BIT '=NS03_W R6A_OK BIT PNS03_WR7 BIT PN803 STRT7 WR BIT PN$03_-WR7_(~K BIT Name Type Lan PN003_RD1 BIT 1 PNOO3_STRT1 RD BIT 1 PNS03 RD10-K BIT 1 PNSO3_RD2 BIT 1 PNS03 STRT2 RD BIT PNS03_RD2_OK BIT PNS03RD3 BIT PNS03 STRT3 RD BIT PNS03~RD30-K BIT PNS03 RD4 BiT PNS03 S/ET4 RD BIT 1 PNS03-RD40-K BIT 1 WTP_TERRA_FERN_PLC BIT 1 _COMMS_F_DA PNS03 FAiL TIMER WORD 3 WTP_TERRA_FERN_P LC WORD 1 C©MMS F DLY ~/TP_TE ~R~_F ERN_PLC BIT 1 _COMMS_FAIL ANNUNCIATORRESET BIT 1 ALW ON BIT 1 MEMORY AREA Analog Input (%Al) Analog Output (%AQ) Input (%1) Output (%Q) Internal Memory (%M) Register (%R} Genius Global (%G) Genius Global (%GA) Genius Global (%OB) Genius Global (%GC) Genius Global (%GD) Genius Global Temporary (%T) System (%S) System (%SA) System (%SB) System (%SC) Local (%L) Program (%P) VARIABLES USED IN BLOCK %M01016 First Set setup to Read PNS03 PNS03 %M01046 Fourth Set setup to Read PNS03 FAIL DISABLE FAIL DELAY TIME %M01885 PLC IN PN803 STATUS %[00062 **No Description** %S00007 Always ON ADDRESS None Used None Used %100062 %M01985 None Used None Used None Used None Used None Used None Used %S00007 None Used None Used Stored 0,1800,0 1800 Scope Global Global Global Global System Ret Orr Ext R R R R R R R R R R R R R R R R R R VARIABLES USED IN BLOCK Name Type Lan Address Description Stored Val Scope Ret Orr Ext FLTR_EFF_PMP I ON BIT 1 %100056 '*No Description" Global R FLTR EFF_PUMP 1 ON BIT I %Q00029 ALARM LIGHT Global R WTP_FLTR_EFF_PUMPI BIT 1 %M01829 WTP FrLTER EFFLUENT Global R ON PUMP1 ON ~LTR EFF PMP I FAIL BIT 1 %100059 **No Description'* 0 Global R WTP_FLTR_EFF_PUMP1 BIT I %M01930 WTP FILTER EFFLUENT Global R _F_DA PUMP1 FAIL DISABLE EFF_PUMP_I_FAIL TMR WORD 3 %R05542 "*No Description*' 0, 1800, Global R 32890 WTP_FLTR_EFF_PUMP1 WORD I %R02130 WTP FILTER EFFLUENT t800 Global R _F_DELAY PUMP1 FAiL DELAY EFF_PMP_I_FAIL_ALAR BIT 1 %M03032 **No Description** Global R M ANNUNCrATOR_ACKNO SIT 1 %100064 **No Description** Global R WLEDGE EFF PMP 1 FAIL ALAR BIT 1 %M03033 **No Description** Global R M_ACK ANNUNCIATOR RESET BIT I %100062 **No Description** Global R FLTR EFF Purv~P 4 ON BIT 1 %100060 **No Description** Global R FLITER_EFF_PUMP_4_O BIT 1 %Q00017 ALARM LIGHT Global R N WTP FLTR EFF PUMP4 BIT I %M01817 WTP F]LTEREFFLUENT Global R ON PUMP4 ON ~LTR_EFF_PMP_4_MALF BiT I %100061 **No Description** t Global R UNCTION WTP_FLTR_EFF_PUMP4 BIT 1 %M01918 WTP FILTER EFFLUENT Global R F DA PUMP4 FAIL DISABLE 'NTP_FLTR_EFF_PDMP4 WORD 1 %R02118 WTP FILTER EFFLUENT 1800 Global R _F_DELAY PUMP4 FAIL DE[AY EFF_PMP_4_FAIL_ALAR BIT 1 %M03034 *'No Description** Global R M EFF_PMP_4_FAIL_ALAR BIT I %M03035 **No Descrip~on'* Global R M_ACK FLTR_EFF PUMP 5 ON_ BIT 1 %100065 **No Descdp6on'* 1 Global R INPUT FLTR EFF PUMP 5 ON BIT I %Q00019 ALARM LIGHT I Global R WTP_FLTR_EFF PUMP5 BIT I %M01819 WTP FILTER EFFLUENT I Global R ON PUMP5 ON ~LTR_EFF PMP 5 MALF SIT 1 %100066 **No Description** Global R UNCTION WTP_FLTR_EFF_PUMP5 BIT 1 %M01920 WTP FILTER EFFLUENT Global R F_DA PUMP5 FAIL DISABLE EFF PUMP 5 FAIL TMR WORD 3 %R05546 **No DescriD6on** Global R WTP_FLTR_EFF_PUMP5 WORD I %R02120 WTP FILTER EFFLUENT 1800 Global R F DELAY PUMP5 FAIL DELAY EFF_PMP 5 FAIL ALAR BIT I %M03036 *'No Description** Global R M EFF PMP 5 FAIL ALAR SIT 1 %M03637 *'No Description** Global R M_A-CK FLTR_EFF PUMP 6 ON BIT 1 %100067 **No Description'* 1 Global R FLTR EFF PUMP 6 QN BIT 1 %O00021 ALARM LIGHT 1 Global R WTP_FLTR_EFF_PUMP6 BIT 1 %M01821 WTP FILTER EFFLUENT 1 Globat R ON PUMP6 ON ~LTR_EFF_PMP 6 MALF BIT 1 %100068 **No Description'* Global R UNCTION WTP FLTR EFF PUMP6 BIT 1 %M01922 WTP FILTER EFFLUENT Global R _F_DA PUMP6 FAIL DISABLE EFF PUMP 6 FAIL TMR WORD 3 %R65551 **No Description** Global R EFF_PMP_6_FAIL_ALAR BIT 1 %M03038 **No Description** Global R EFF_PMR_6_FAIL_ALAR BiT I %M03039 **No Description'* Global R M ACK HIGHEST USED REFERENCE ADDRESS HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Analog Input (%Al) None Used Analog Output (%AQ) None Used input (%1) %]00068 Output (%Q) %Q00029 internal Memory (%M) %M03039 Register (%R) %R05553 Ger~ius Global (%G) None Used Genius Global (%GA) None Used Genius GlebaJ {%GB) None Used Genius Global (%GC) None Used Genius Global (%GD) None Used Genius Global (%GE) None Used Temporary (%T) None Used System (%S) None Used System (%SA) None Used System (%SB) None Used System (%SC) None Used LocaJ (%L) None Used Program (%P) None Used Nam9 Description: ..................................................................................... .~ ............. Type Lan Address Description Stored Val Scope Ret Ovr Exd HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Analog Input (%Al) None Used Analog Output (%AQ) Nene Used Input (%1} None Used Output (%0) None Used Internal Memory (%M) None Used Register (%R) None Used Genius Global (%G) None Used Genius Global (%GA) None Used Genius Global (%GB) None Used Genius Global (%GC) None Used Genius Global (%GD) None Used Genius Global (%GE) None Used Temporary (%T) None Used System (%S) None Used System (%SA) None Used System (%SB) None Used System (%SC) None Used Local (%L) None Used Program (%P) None Used Name CALL_PNa04WR CALLPNa03WR BIT 1 CALL_PNa05WR BIT 1 CALLPNa08WR BIT 1 CALL_PNg00WR BIT 1 CLR PLS 804 BIT 1 PNa~4_P~I BIT 1 PNa04_DataBIock WORD 7 PNa04_CommCommand WORD 7 PNa04_SlaveStar~ WORD · ,Scope Ret Orr Ext Global R Routine - Sandercock %M00898 Calls PNa03 COMMS Global R Routine - Term Ferrn %M00900 Calls PNa05 COMMS Global R Routine - Vista Loop %M00901 Calls PNa06 COMMS Grebar R Routine * Brownell Spdngs %M00902 Calls PNg00 COMMS Global R Routine - WWTP %M00877 Pulse for CIr Data Global R %M81103 Star~ Co mmunicafions with Global R PN§04 PLC %R06280 Communications Data Block 14, 0, 8, Global R PN804 6202, 0, 0, 7102 %R06286 PN804 SNP Command 7102, 13312, Global R %R06293 Slave memory start address 200, 1, 76, Global R PN804 1730, 8, 6202, 10000 %M01113 Process Wdte Commmand I Global R PNa04 %M01114 Start Wdte command Global R PNa04 %R06203 PNa04 Comms Status Word O Global R %M01115 PNa04 Wrffe OK Global R %R06292 Slave memory address ~/pe 76 Global R for PNa04 comreq %R06294 Master number of elements 1 Global R to wtito PNa04 %R06295 Master Memory type PNa04 76 Global R %R06296 Master address from which 1730 Global R to write PNa04 %M01123 Second set setup to write Global R PNa04 %M01124 Star[ second wdte PNa04 Global R %M01125 Second Wdta to PNa04 OK Global R %M01133 Third Set setup to Write Global R PNa04 %M01134 Star[ Third Wdte PNa04 Global R %M01135 Thirri Wdte to PNa04 OK Global R %M01116 First Set setup to Read Global R PNa04 %M01117 Star~ first read PNa04 Global R %MO1118 First Read to PNa04 OK Global R %M01126 Second Set setup to Read Global R PNa04 %M01127 Start Second read PN804 Global R %M01128 Second Read to PNa04 OK Global R %M01986 PLC IN PNa04 COMMS Global R FAIL DISABLE %R05518 **No DescriPtion'* 0, 1800, 0 Global R %R(~2186 PLC IN PNa04 COMMS 1800 Global R FAIL DELAY TIME %M01886 PLC IN PNa04 1 Global R COMMUNICATIONS STATUS %100062 **No Description** Global R %S00007 Always ON System R PN804 Write BIT 1 PNa04WR BIT 1 PNaO4_Statas WORD 1 PN8O4 Write OK BIT 1 oNa04_SLAVE_ABB RTY WORB 1 PNa04_MASTER_N BR_E WORD 1 LE PNa04_MASTER_MEM_T WORD 1 YPE PN804 MASTER STRT AWORD 1 DDR PNa04_WR2 BIT 1 PN804_STRT2_WR SIT 1 PNa04wR2 OK BIT 1 PNa04_WR3 SIT 1 PNa04_STRT3 WR BIT 1 PNa04_WR3_(~K BIT PNa04_RD1 BIT 1 PNa04_STRT1 RD BIT 1 PNa04 RD10-K BIT 1 PN804-RD2- BIT 1 PNS04 STRT2 RD BIT 1 PN804-RD20-K BIT 1 WTP_SANDERCOCK_PL BIT 1 C COMMS_F_DA PNa04 FAIL TIMER WORD 3 WTP_SANDERCOCK_PL WORD 1 C COMMS F DLY W-TP_SAN~E~,COCK_PL BIT 1 C_COMMS_FAiL ~NNUNCIATORRESET BIT 1 ALW_ON BIT 1 HIGHEST USED REFERENCE ADDRESS HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Analog rnput (%Al) None Used Analog Output (%AQ) None Used Input (%1) %100062 Output (%Q) None Used Internal Memo~/ (%M) %M01986 Register (%R) %R06299 Genius Global (%G) None Used Genius Global (%GA) None Used Genius Global (%GB) None Used Genius Global (%GC) None Used Genius Global (%GD) None Used Genius Global (%GE) None Used Temporar~ (%T) None Used System (%S) %S00007 System (%SA) None Used System (%SB) None Used System (%SC) None Used Local (%L) None Used Program (%P) None Used VARIABLES USED IN BLOCK Name Type Lan Address Description Stored Val Scope Ret Orr Ext CALL_PNa05WR BIT I %M00900 Calls PNa05 COMMS Global R Routine - Vista Loop CALL_PN§03WR BIT I %M00898 Calls PNa03 COMMS Global R Routine - Terra Ferrn CALL_PN804WR BIT 1 %M00899 Calls PNa04 COMMS Global R Routine - Sanderc~ck CALL_PNa06WF~ BIT I %M009(}1 Calls PNa06 COMMS Global R Routine - Brownell Spdngs CALL_PN900WR BIT 1 %M00902 Calls PNg00 COMMS Global R Routine - WWTP CLR_PLS_§05 BIT I %M00878 Pulse for CIr Data Global R PNa05_Poll BIT 1 %M01203 Start CommunlcatJons with G~obal R PNa05 PLC PNa05_DataBIocl~ WORD 7 %R06380 Communications Date Block Global R PNa05 PNa05_CommCommand WORD 7 %R06386 PNa05_SNP Command Global R Register PNa05 SlaveBteri WORD 7 %R06393 Slave memory stari address Global R PNa05 PN805Wbta BIT 1 %M01213 Process Write Commmand Global R PN805 PNa05_WR BIT 1 %M01214 Start Wdta c~mmand Global R PNa05 PNa05_Stetos WORD I %R06303 PNa05 Comms Status Word Globai R PNa05 Wdte OK BIT I %M01215 PNa05 Write OK Global R PNO05_SLAVE_ADDR_TY WORD I %R06392 Slave memory address type Global R PE for PN§05 comreq PNa05MASTERNBRE WORD 1 %R06394 Master number of elements Global R -E to wdte PNa05 PNa05_MASTER_MEM_T WORD 1 %R00395 Master Memory type PN8(}5 Global R YPE PN805MASTERSTRT A WORD 1 %R06396 Master address from which Global R DDR to wdfo PNa05 PNa05_W P,2 BIT 1 %M01223 Second set setup to write Global R PNa05 PNa05_STRT2 WR EIT I %M01224 Steri second write PNa05 Global R PNaO5_WR2_(~K BlT 1 %M01225 Second Write to PNa05 OK Global R PNaO5_WR3 BIT 1 %M01233 Third Set setup to Write Global R PNa05 PNaO5_STRT3_WR BIT 1 %M01234 Start Third Wdte PNa05 Global R PNaO5_WR3_OK BIT I %M01235 Third Wdte to PNa05 OK Global R PN805RD1 SIT I %M01216 First Set setup to Read Global R PNa05 PNa05_STRTt_RD BIT I %M01217 Star[first read PN805 Global R PNa05 RD1 OK BIT 1 %M01218 First Read to PNa05 OK Global R PNa05 RD2 BIT t %M01226 Second Set setup to Read Global R PNa05 PNa05_STRT2_RD BIT I %M01227 Star[ Second read PNa05 Global R PNa05 RD2 OK BIT I %M0t228 Second Read to PNa05 OK Global R WTP_VISTA_LOOP_PLC_ BIT 1 %M01988 PLC IN PNa05 COMMS Global R COMMS_F_DA FAIL DISABLE PNa05 FAIL TIMER WORD 3 %R05521 **No Descdofion** Global R WTP VISTA_LOOPPLGwoRD 1 %R02t88 PLC PNa05COMMS FAIL ~800 Global R COMMS_F_DLY DELAY TIME WTP_VISTA_LOOP_PLC_ BIT 1 %M01888 PLC IN PNa05 Global R COMMS_FAIL COMMUNICATIONS STATUS ANNUNCIATOR_RESET BIT 1 %100062 "~No Description** Global R ~LW_ON BIT 1 %S00007 Always ON System R HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Analog Input (%Al) None Used HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Analog Output (%AQ) None Used input (%1) %100062 Output (%Q) None Used Internal Memor? (%M) %M01988 Register (%R) %R06399 Genius Global (%G) None Used Genius Global (%GA) None Used Genius Global (%GB) None Used Genius Global (%GC) None Used Genius Global (%GD) None Used Genius Global (%GE) None Used Temporary (%T) None Used System (%S) %S00007 System (%SA) None Used System (%SB) None Used System (%SC) None Used Local (%L) None Used Program (%P) None Used VARIABLES USED IN BLOCK Name Type Len Address Description Stored Val Scope Ret Ovr Ext CALL PNa0gwR BIT I %M00901 Calls PN006 COMMS Global R Routine - Brownell Springs CALL_PNa03WR BIT 1 %M00898 Calls PNa03 COMMS Global R Routine - Terra Ferrn CALLPN804WR BIT 1 %M00899 Calls PN804 COMMS Grobai R Routine - Sander~ock CALL_PNa05WR BIT I %M00900 Calls PNa05 COMMS Global R Routine - Vista Loop CALLPNg00WR BIT 1 %M00902 Calls PN900 COMMS Global R Routine - WWTP CLRPLS 806 BIT 1 %M00879 Pulse for CIr Data Global R PNa0g_Poll BIT I %M00903 Sled Communications with Global R PNa05 PLC PN006_DetaBIock WORD 7 %R06400 Communications Date Block Global R PNa06 PNa06_CommCommand WORD 7 %R06486 PNa06 SNP Command Global R Register PNa06_SlaveStad WORD 7 %R06493 Slave memory etar[ address Global R PN§06 PNa06_Write BIT I %M00913 Process Wbta Commmand Global R PNa06 PNa06 WR BIT 1 %M00914 Start Wete command G~obal R PNa06 PNa06 Status WORD I %R06403 PNa06 Comms Status Word Global R PN806 Wfita OK BIT I %M00915 PNa06 Wdte OK Global R PNa06 BLAVE_ADDR TY WQRD I %R06492 Slave memo~, address type Global R PE for PNa06 comreq '~Na06_MASTER_NBR_E WORD 1 %R06494 Master number of etements Global R _E to wdte PNO0§ PNa06_MASTER_MEM_T WORD 1 %R06495 Master Memo~ type PNa06 Global R YPE PNa06_MASTERSTRT_A WORD I %R06496 Master address from which Grobal F~ DDR to write PNa06 PNa06_WR2 BIT 1 %M00923 Second set setup to write Global R PNa06 PNa06STRT2 WR BIT 1 %M00924 Start second wete PNa06 Global R PNa06_WR2 (~K BIT 1 %M00925 Second Write to PNa06 OK Global R PNa06_WR3 BIT 1 %M00933 Third Set setup to Wdta Global R PNa06 PNa06_STRT3_WR BIT 1 %M00934 Start Third Write PNa06 Global R PNa06_WR3_OK BIT 1 %M00935 Third Wdta to PNa06 OK Global R PNa06RD1 BIT 1 %M00910 First Set setup to Read Global R PNg06 PNa06_STR~rl_RD BIT 1 %M00917 Star[ fTrst read PNa06 Global R PNa06 RD1 OK BIT 1 %M00918 First Read to PNa06 OK Global R WTP BROWNELLPLC BIT 1 %M01987 PLC IN PNa06 COMMS Global R COM~IS_F_DA FAIL DISABLE PNa06 FAIL TIMER WORD 3 %R05524 UNo DescrlotJon- Global R WTP BROWNELL PLC WORD I %R02187 PLCIN PNa06 COMMS 1800 Global R COM~IS_F_DELAY- - FAIL DEL.AY TIME WTP BROWNELLPLC_ BIT t %M01887 PLCIN PNg06 Global R COM~S_FAIL COMMUNICATIONS STATUS ANNUNCIATOR_RESET BIT 1 %J00062 "'No Descdp§on'* Global R ALW_ON BIT 1 %S00007 Always ON System R HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Analog Input (%Al) None Used Analog Output (%AQ) None Used Input (%1) %100062 Output (%Q) None Used Internal Memory (%M) %M01987 HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Register (%R) %R06499 Genius Global (%G) None Used Genius Global (%GA) None Used Genius Global (%GB) None Used Genius Global (%GC) None Used Genius Global (%GD) None Used Genius Global (%GE) None Used Temporary (%T) None Used System (%S) %S00007 System (%SA) None Used System (%SB) None Used System (%SC) None Used Local (%L) None Used Program (%P) None Used VARIABLES USED IN BLOCK Name Type Len Address Description Stored Val Scope Ret CALL_PN900WR BIT 1 %/v100902 Calfs PN9(}0 COMMS Global R Routine - WWTP CALL_PNS03WR BIT 1 %M00898 Calls PNS03 COMMS Global R Routine - Terra Ferrn CALLPNS04WR BIT 1 %M00899 Calls PN804 COMMS Global R Routine - Sandercock CALLPNS05WR BIT ~ %M00900 Calls PNS05 COMMS Global R Routine - Vista Loop CALLPN806WR BIT 1 %M00901 Calls PN806 COMMS GIoba~ R HIGHEST USED REFERENCE ADDRESS Ovr Ext MEMORY AREA ADDRESS Analog Input (%Ar) None Used HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Analog Output (%AQ) None Used Input (%1) %100062 Output (%Q) None Used Internal Memory (%M) %M01984 Register (%R) %R06099 Genius Global (%G) None Used Genius Global (%OA) None Used Genius Global (%GB) None Used Genius Global (%GC) None Used Genius Global (%GD) None Used Genius GlobaJ (%GE) None Used Temporary (%T) None Used System {%S) %S00007 System (%SA) None Used System (%SB) None Used System (%SC} None Used Local (%L) None Used Program (%P) None Used Progr~n: Sandy800 C:\VL umff~PLC\Sm~dyS00 PN900WR.blk Name FST~SCN SIT COMM_TOKEN_ALL WORD COMMS_INIT WORD COMMS_TMR_CNTRL_BI BIT T DOMMSCONTROL_TIME WORD R CALL_PNgDOWR BIT CLR_PLS_803 BIT CALL_PNS03WR BIT CLR PLS §04 BIT CALL_PN§O4W R BIT CLR PLS 805 B~T CALL_PNS05WR BIT CLR PLS 806 BIT CAL~_PN§06WR SIT CLR_PLS900 BIT MEMORY AREA ADDRESS Analog Input (%Al) None Used Analog Output (%AQ) None Used Input (%1) None Used Output (%Q) None Used Internal Memory (%M) %M01240 Register (%R) %R06000 Genius Global (%G) None Used Genius Global (%GA) None Used Genius Global (%GE~) None Used Genius Global (%GC) None Used Genius Global (%GD) None Used Genius Global (%GE} None Used Temporary (%T) None Used System {%S) %S00001 System (%SA) None Used System (%SB) None Used System (%SC) None Used Local (%L) None Used Program (%P) None Used Ovr Ext 2 32O - I 51 2 %M03510 %M03510 %M03511 %M03511 %M03512 %M03512 5 WTP F[.TR %R02191 2 UNiT 2 P.. %R02191 WTPFLTR_ %R02192 %M03513 %M03513 %M03516 {) I %M03516 WTP FLTR UNIT 3 P. %R02192 2 WTP_FLTR_ UNIT %R02192 %M03517 %M03517 %M03518 %M03518 START UP STEP l %M03500 WTP FLTR %R02182 ~OMMENT2 %M03510 START UP STEP 1 %M03510 ~M03500 %M03511 START UP. STEP.2 %M03511 %M03501 %M03512 START UP STEP %M03512 %M03502 %M03519 %M03519 %M03513 START_UP_ STEP_I %M03513 %M03500 %M03514 START UP STEP ~ - II ~1 %M03514 %M03501 %M03515 START , %M03520 %M03~20 %M03521 20 %M0551(i START_UP 92 START UP_ ~ EFF ~UMPT, STEP 1 !I I %M03516 %M03500 %M03517 START UP STEP_2 %M03517 %M83501 %M03518 START UP STEP ~ - %M03518 %M03502 %M03521 START_UP_ -- STEP_4 STA,~r_uP_ STEP_5 %M03504 START_UP_ STEP_6 ~) I %M03505 26 27 EF~F ~UMP~. START UP STEP7 %M03506 START UP STEP 8 %M03507 START UP STEP 9 %M03508 FLTR UNT I WTP FLTR T~ - UNIT-1 AU~. A~00033 %M01701 RAW WATE/WTPRAW RBSTR P.. WATER_B. %100081 %M01749 RW BSTRP N"P RAW %Q00097 %M01831 WTP TERRA TERRA_FER FERN PU... N PUMP 7.. %M01849 %Q00129 %M03022 ! %180062 WAT~R_B.7 - II WATER T_SEC %M03025 WTP RAW () I %M01806 RW BSTR P () I WTP RAW_ ANNUNCIAT WTR~BPS_,., OR_RESET %M03026 %100062 ; WTP I T SEC WATER B,~ %M01807 %S00005 WTP P~.W %M03027 WTP RAW ANNUNCIAT WTRBPS OR_RESET , TSEC : I %S00005 WT~BPS.. WTP RAW ~,) I %M01808 RW OSTRP 8 ~W BPUMP ANNUNCIAI 1 FAIL OR RESET , puMP I .Z RW BPUMPANNUNCIAT 2 F,~IL ORRESET %M03012 %100062 WTP RAW TSEC WAT~R_B.~ %M01804 %800005 II %100052 %M03013 WTP RAW_ ONEORMO WATER h ... REFILTER. WTP_RAW_ WATER_T.. %R02020 WTP_RAW_ WATER H.., %R02174 RW H[GH_T ANNUNCIAT URB OR_ACKN... O Y~M03030 %100084 RW HIGH T ANNUNCIAT UR~ALA~... OR_RESET WATER BFq.. WTP RAW WAT~RBP %M01804 RWBSTR_P UMP2 FA~L %Q0CO04 I RW_HIGH_T URB %M03030 RW HIGH T ute A~... %M03031 9 RW HIGH_1 ANNUNCIAT URB OR RESET WATER HZ FLTR I TURANNUNCIAT B_AL~R-M OR_RESET %M;3~62 WTP FLTR FLTR 2TUR ANNUNCIAT B_ALARM OR_RESET %M03016 %100062 WTP PLTR il %M01815 FLTR_3_TUR ANNUNOIAT B ALARM I OR_RESET UNIT~3 B.,Y T_SEC RW HIGH TI %M0303~ T SEC %800005 FLTR 1 TU T~SEC i T_SEC II %S00005 FLT_R13I AL.AR... %M03019 W3p HAW WATER H .. %M01874 WTP RAW WTR HIT %Q00153 WTP FLTR () I FLTR UNT 1 %Q00011 WTP_FLTR_ UNIT 2 H_. %M01815 FLTR UNT 2 WTP_ffLTR_ %M01827 FLTR UNT 3 %Q00027 FLTR 3 TURANNUNCIAT B ALARM 2 OR RESET %M03020 %100062 EFF PMP I ANNUNCIAT WTP FLTR~.! %M01830 TSEC WTPFLTR UNIT 3 BA T_SEC IF FAFL AL~,..] %M01830 FLTR EFF P %Q00030 EFF PMP 4 ANNUNCIAT EFF PUM ~ EFF PMP_5 ANNUNCIAT FAIL ALARM ORE,SET TSEC II %S00005 EFF PMP 4 _FA~-L AL~ %M01818 FLTR EFF P %M03035 T_SEC %S00005 EFF P _FA~-L_AL~ II %M03037 WTPFLTR_ EFF_PUMP.. ~)--~ %M0t820 FLTR EFF P UMP_$_FAIL %Q00020 Program: S~ndyS00 C:\¥~L smff\PLE \Sandy800 FIMTALRM b/k 17 EFF PMP 6 ANNUNCIAT FAiL_ALARM OR_RESET T_SEC EFF_PUM.. I %M01822 ir %S00005 EFF PMP 6 FAIL ALA %M03039 %Q00022 28 [~TERRA FERN RESERVOIR ALARMS WTP TERRA FERN RE...- WTP TERRA FERN RE...- WTP TERRA _FERN_RE... - %R02159 TERRA_FER TERRA FER ANNUNCIAT II I %M03040 _ [~ A FERN ... II T_SEC %S00005 WTP TERRA _FERN_RE... (i I %M01859 () I WTP T[RRA FERN RE... %M01960 WTP TERRA FERN RE. %R01500 FERN RE,..- TERP, A_FER ANNUNCIATi N_LO_LVL_.. OR_RESET I WTP TERRAt RN RE F~R02-, 60 I T_SEC _FERN_RE... %M01860 TERRA_FER %M03043 %Q00140 ALW ON %S00007 %T00005 BCKWSH RE SERVE FL ( ;-4 %Q00102 TERRA FERN RESERVOIR LEVEL IS BELOW SETPOINT.. DISABLE BACKWASH OF FILTER 3 BCKWSH RE WTP_LVL_R %R02317 WTP TERRA %R01300 WTP_LVL S TRT_FLTR I- %R02300 <s) I WTP TERRA FERN_RE... - %R01300 WTP LVL S TOP_FLTR_1 %R02301 FLTR I CAL L %M04001 FLTR_I_ON FLTRI 2~-ON %100035 %100040 WTP RAW WTP RAW WTP RAW WTP RAW WTP RAW WATER_BP WATER_BP WATER_BP.. WAT~R_BP...WATER_H_ OK TO RUN _FILTERS %M04004 FLTRICAL FLTR UNT1 %M03519 OK_TO_RUN FLTRITUR L AUTO FILTERS B ALARM %M04001 %100033 %M03519 %M04004 %M03014 FLTR_I_ON FLTR_UNT_I _ON %190035 KWA~H- WTP FLTR UNIT l_Td... %R02002 50 H TU-R~ WTP_FLTR_ - I I UNIT I H ... %100037 %R02111 FLTR_I TUR ANNUNCIAT ALARM OR ACKN %M03014 %100064 FLTR I TURANNUNCIAT ALARM OR RESET %M03015 %100082 FLTR UNT 1 ~N BCXW. %Q00010 WTP FLTR %M01810 FLTR_I_TUR B FLTR I TUR %M03014 FLTR I TUR %M03015 WTP TERRA _FERN_RE... -- %R01300 WTP LVL S TRT~LTR_2 FLTR2CAL L {S) r %M04002 WTP TERRA %R01300 WTP_LVL_S TOP_FLTR_Z- %R02303 FLTR 2 CAL L %M04002 FLTR2_CAL FLTR UNT_2 %M03520 OK_TO_RUN FLTR_2_TUR L AUTO _FILTERI3 B_ALARM %M040~ %1ooo38 %M03520 %M04004 %M03016 FLTR_2_ON %~oloc~ FLTR 2_BAC KWAI3H II %100041 FLTR_UNT_2 %Q00014 WTP FLTR %M01814 22 23 WTP FLTR FLTR 2 BAG FLTR_2_ON FLTR_2_TUR ~ UNIT_2_H_ KWASH B ~ o~40 %TO J %M01915 %100041 %100 0002 I , FLTR 2 HIGI : H 'CURS I ~A/Tp FLTR I : UNIT-2 H 7.- %1ooo4~ %Ro2~5 FLTR_2_TUR ANNUNCIAT B_ALARM OR ACKN... IF ~½ %M03016 %100064 FLTR 2 TURANNUNCIAT B ALARM ... OR RESET %M03017 %100062 WTP TERRA FERN RE... %R01300 WTP_LVL_S TRT FLTR.3 %R02304 FLTR 2TUR %T00002 FLTR 2TUR B ALARM %M03016 FLTR2 TUR B~ALARM . %M03017 25 26 27 28 WTF LVL S TOP -FLTR_3 %R02305 FLTR_3_CAL L %M04003 Ii. Run Fileter ~hree if all conditions are met FLTR_UNT 3 _RUN CALL () %Q00101 FLTR_U NT_3 _ON ;; %100045 FL%R_UNT_3 _ON_ %Q90025 WTP FLTR UNIT 3 ON () I %M01825 FLTR_UNT_3 %100 FLTR_3_BAC KWASH () I %Q00026 WTP FLTR FLTR 3 TUR 3O 3Z WTP_FLTR UNIT 3_BA.. %R02005 58 WTP_FLTR FLTR_UNT_3 FLTR_UNT_3 FLTR_3_TUR UNIT 3 BA... _IN_BCKW... _ON B_BAY_I U NIT-$ 8A~.-- %100047 %R02~27 FLTR_3_TUR ANNUNCIAT %M03018 %100064 FLTR_$_T~JR ANNUNCIAT B_AL&RM,., ORRESET %M03019 %100062 WTP FLTR_ UNIT 3 BA. %R02014 %T00003 FLTR 3 TUR B_ALARM_.., %M03019 FLTR 3 TUR B_BAY_2 r %T00004 FLTR_3_TUR ANNUNCIAT B_ALARM_2 OR ACKN.. Il IL %M03020 %](]0064 FLTR 3 TUR ANNUNCIAT B ALARM . OR R~SET %M03021 %100062 Program: SandyS00 C:\VI,sa fI~PLC\S dyS00 I~ILTERS blk 3 ON II RUN 1 RW PUMP {) I PUMP II CHLORINATI %Q00107 FINWTR S FLTR I ON FLTR UNT 3 ON 1½ ~/ %100035 [ %100045 II ' RUN2 RW PUMPS %M03002 IF BOTH RAW WATER PUMPS HAVE BEEN OFF LINE THEN RETURN TO SERVICE IN THE SAME PLC SCAN, AS WITH A COMMU NICATIOS FAILURE. A NEWW LEAD PUMP CAN BE SELECTED BY TURNING OFF ALL FILTERS THEN RETUNING THEM TO AUTO ONE AT A TIME PUMPS PUMP %M03002 %M03001 RW PUMP1 RAW WATE _LEAD R_BSTR_P.. II I/~-- %M03004 %i00081 RW PUMP 2EAW WATE %M03005 %100083 RW PUMP CHANGE_L. %M03003 RW PUMP RW PUMP_I CHANGE b. LEAD II {S) I (RF %M03005 RW PUMP2 _LE~D {s~ %M03005 RW PUMP LEAD %M03004 CALLRWP MP 1 () I %M03006 WTP_RAW_ WATER_B,,, %R~32105 WTP_FLAW_ WTRBPS.. %M03022 w [P RAW_ ANNUNC~Ar %M03022 %100064 WTP RAW ANNUNCIAT WTR-BPS 7 OR RESET %M03023 %100062 WTP 14AW WTR BPS .. ~) I %M03023 WTP RAW RAW WATE ~ WATER BP~.. R_BP-S_INT... Pl I %M01906WTPWATER %100054-~W,,.: I WTPRAW %M03024 WTp RAW ANNUNCIAT %M03024 %100064 WTP RAW ANNUNCIAT WTR-BPS '... OR RESET %M03025 %100062 WTP PAW_ RAW_WATE WAT[R_SP.. R_BPS_FL.. %M01907 %100055 WTP_RAW_ %R02107 I WTP RAW %M03026 WTPRAW_ ANNUNCtAT %M03026 %100064 WTP PAW ANNUNCIAT WTR-BPS ~.. OR RESET 20 22 23 24 WTP RAW RAW WATE ~j WTP_RAW WTR BPS_,., %M00028 WTP RAW_ ANNUNCIAT WTR-_BPS_,,, OR_ACKN,.. %M03028 %[00064 WTP RAW ANNUNC[AT WTR 8PS ~.. OR RESET %MD3029 %100(]52 WTPRAW %M03020 RAW_WATE WTP RAW WTP_RAW_ W~P_RAW_ CALL_RW_P BSTR P WATER BP...WATER BP..,WATbR_BP,,,MP_I %100081 %M01807 %M0~800 %M0~802 %M05006 RW_BSTR_P %100049 RW_B$¥R_P UMP I ON () I %Q00001 WTP_RAW_ WATER_BP.. () I %M01801 WTP_RAW_ WATER B,., - %R02102 RW_BPUMP_ %M03010 25 RW BPUMPANNUNCIA/ I FAIL OR_ACKN . I~-- II %M03010 %100064 RW BPUMP ANNUNCIAT °/oU030~ ~ "/¢000e2 26 ANNUNCIAT II 27 IF %100051 29 RW_ABSTR_ RW_BSTR_P WTP~W PUMP_2_R... UMP_Z_VF.. WATER BP... %Q00098 %~0005~ %M0~g04 RW BPUMP 1 _FAIL ACK %M03011 RWBPUMP_ /_FAIL %M05010 RW_ABSTR_ PUMP_2_R %Q00098 RW BSTR P UM~2_O~ %Q00003 WTP RAW WATER_BP... K) I %M01803 WTP RAW WATER B.. %R02104 RW BPUMP 2 FAiL (s~ I %M03012 RW BPUMP_ANNUNCIAT o II 41 · M03012 %100064 RW BPUMP ANNUNCIAT 2 F~IL ACK OR RESET %M03013 %100062 %100064 %M03012 PNBC~_WR 22 28 28 35 36 37 38 39 43 46 47 49 [~COMMENT12 II ,! 55 56 57 58 59 62 64 66 67 68 69 70 FLTR EFF P FLTR_EFF_? II 2 FLTR EFF P WTP FLTR EFF PMP I ANNUNCIAT UMP~ O~ %M01829 EFF~PMP1 FAIL_ALARM ~) I %M03032 EFF PMP 1 FAIC_ALA~ ~ %M03033 FLITER EFF PUMP 4 . %Q00017 WTP_FLTR_ %M01817 EFF_PMP_4_ FA&L_ALARM %M03034 FLTR EFF P II FLTR_EFFP UMPSON %Q00019 %M01819 FLTR_EFF_P WTP_FLTR MP 5 MAL.. EFF PUMP EFF PMP 5 ANNUNCIAT FAIL_ALARM OR ACKN %M03036 %100064 EFF PMP 5 ANNUNCIAT IF FAI~ALA~. OR RESET %M03037 %100062 EFF PMP_5_ FAIL_ALAR, %M03037 FLTR EFF P UMP_6_ON I~-- FLTR EFF P %Q0002I WTP_FLTR_ EFFPUMP I IF %M03038 %100064 '1 /I EFFPMP _6 FAILALAR.. %M0303~ 14. 52. 2OO 82O I 23 24 25 20- .;~ylnitiallze data block for second read from PNa04 27 32 33 35 3O 2 Program: SandySO0 CX~VL smf~ PLC'\SandySO0 PNSO5~?. blk 20 22 23 27 20 29 3O 20- 32 34 35 36 64( 22 23 24 PNg~O_WR 2O 23 24 25 26 27 28 29 ~lnitiate fourth corrlreq for PNgoo II 2O PNgO0_WR5 4") 32 ~,~] nitJ alize data block for Seventh write to PNgO0 I 53 54 55 56 57 58 59 II I %M00897 COMMS.~TM R CNTRL_ . %M00897 COMMS_TM %M00897 C©MMTOK EN_ALL %R06000 4 COMMS TM R CNTRL . %M00897 COMM_TOK COMM TOK %R06000 EN_ALL CALL_PNg00 Wit %M00876 ICALL PNS03 CALL PNS03 WR CLR PLS 80 %M00877 PN80~ WR %M00899 CALL PNS04 WR I (R) I %M00878 CALL PNS05 WR (S) %M00900 CALL_PNS05 WR ~M00879 CALL PNS06 WR - %M00901 COMM TOK CALL_PNS06 WR %MD0901 CLR_PLS 90 0 %M00880 CALL PN900 WR ~S~ t VARIABLES USED IN BLOCK Name Type Len Address Description Stored Val Scope Ret Ovr Ext %AI0018 WORD 1 %AI001§ **No Description** 56 Global R res-calc_rt WORD 2 %R00007 **No Descdption** 10288, 0 Global R res calcr2 WORD 2 %R00009 **No Description** GJobal R Terra_Fern_Reservoir_Lev WORD 1 %R00100 0-32.0 feet Global R el_Corn FST_SCN BIT 1 %S00001 Set ~o I when the current System R TF_com chk_~rd WORD I %R00220 **No Description** Global R Pumps_ratemult WORD J %R00270 **No Description*' Global R Pumps runval WORD t %R00274 **No Description** Global R TFPump$_onable_lvl WORD 1 %R00261 **No Description** Global R MasterJ~ump_en BiT 1 %M00300 **No Description** 1 Global TF_Pumps_disable_lvl WORD 1 %R00262 **No Description** Global R master~ump_stop BIT I %M00301 **No Description** 1 Global Master~0ump_run BiT 1 %M00302 **No Description*' Global Sand_pump_nJn~oermit BIT 1 %M00303 **No Description** Global R Sand res hi dis BIT 1 %M00277 **No Description** Global R Sandercock_Reservoir_Le WORD 21 %R00250 **No Description** Global R vel Sandmax_lvl stop WORD t %R00214 **No Description** 32767 Global R Sandercock Comp Ivl WORD 1 %R00308 **No Description** Global R Terra_Fem~oump7start_l WORD t %R0025t **NO Description** Global R Pum~7 run Ivl sta~t BIT 1 %M0ti310 **No Description** 1 Global Term_Femj~ump7_stop_l WORD t %R00252 "No Description** Global R ~ump7 run_lvl_stop BIT 1 %M00311 -No Description** Global ?ump7_auto BIT I %M00251 "No Description** Global %G00005 BIT 1 %Q00008 '*No Description** Global Pump7_man BIT I %M00252 **No Description** Global pump_7_malfunction BIT 1 %M00131 **No Description** Global R pump7 fail-disable BIT 1 %M00270 **No Description** Global com_QI_PUMP7_RUN_C BIT 1 %M00114 *~No Description** Global Pump_7_run_au× BIT I %100003 "No Description** Global R Pump7~fault dly WORD 3 %R00070 ~*No Description** Global R PumpT_fault_t~lr BIT 1 %M002§0 "*Ne Descbption** Global annunciator rest BIT 1 %M00250 **No Descbption** Global Terra FempumpS_start_lvl WORD I %R00253 '*No Description** Global R Pump8 run Ivl start BIT 1 %M00320 **No Description** 1 Global Ten'a_Femj~ump8 stool WORD I %R00254 **No Description** Global R PumpB_run_lvl_stop BlT 1 %M00321 **No Description** Global CR-2_Pump_8_run_call BIT 1 %Q00002 **No Description** Globa[ Pump_8_runaux BIT 1 %100004 **No Description** Global R Pump8 fault dly WORD 3 %R00074 '*No Description** Global R Pump8 fault tmr BIT I %M00291 "NO Description** Global Annunciator reseLc BIT 1 %M00200 sent to m250 for control on Global R pu mp~_fai] disable BIT 1 com_Q3 PUMP~_RUN_C BIT 1 Pump~_fault_dly WORD 3 Pumpg_faulUmr BIT Terra_Fern_pump10_start WORD ~umpl0 run Ivl_start BIT 1 Sandercock_Reser~oir_Le WORD 21 Terra_fem~ump 10_stop_[ WORD 1 Pumpl0_runlvl stop BIT 1 Pumpl0_auto BIT 1 CR-4_Pump 10 run_call BIT 1 Pump1 O_man BIT 1 pum~10_malfanctlon BIT 1 pump10 fail diabJe BIT 1 com_Q4 PUMP10_RUN_ BIT 1 CR4 Pump_lO_run_aux BIT 1 Pumpt0_fault_dly WORD 3 Pum[:)f0 fault tmr BIT 1 Terra Fern~oump11_start WORD 1 Jvl Pump11 run Ivl start BIT 1 Terra_Fern~oum pll stop WORD VARIABLES USED IN BLOCK Address Description Stored Val Scope %M00272 **No Description** Global %M00115 **No Description** Global %100005 **No Description** Global %R00078 **No Description** Global %M00292 **No Descbpdon** Global %R00257 **No Description** , Global %M00340 **No Description** 1 Global %R00200 sentlo%r250ongoodcom 0,0,0,0,0, Global 32767, 32767, 57421, O, 0, %R00258 **No Description** Global %M00341 *'No Description** Global %M00257 **No Description** Global %Q00004 **No Description** Global %M00258 **No Description** Global %M00137 **No Description** Global %M00273 **No Description** Global %M00t 17 *'No Description** Global %100006 **No Description*' Global %R00082 **No Description** Global %M00293 *'No Description** Global %R00259 **No Description** Global %M00354 **No Description*' 1 G~obal %R00260 **No Description** Global %M00355 *'No Description** Global %M00259 **No Description*' Global %M00350 **No Description'* Global %M00351 **No Description'* Global %M00260 **No Description** Global %M00139 **No Description** Global %M00274 **No Description** Global %Q00005 **No Description** Global %M00118 **No Description** Global %100007 **No Description** Global %R000§6 **No Description** Global %M00294 **No Description** Global %M00103 **No Description** Global %M00104 **No Descrfption** Global %M00105 **No Descdp0on*' Global %M00106 **No Description** Global %M00107 **No Description** Global %R00213 **No Description** 32767, Global 32757, 57421 %M00358 **No Description** 1 Global %M00314 **No Description** Global %M00315 **No Description** Global %M00324 **No Description"* Global %M00325 **No Descripbon** Global %M00334 **No Descripbon** Global %M00335 **No Description** Global %M00344 **No Description*" Global %M00345 **No Description** Global %R00272 **No Descripbon*' Global %M00360 **No Description** Global %R00090 **No Descrip50n** Global %M00361 **No Description** Global %R00254 **No Description*' Global 8,10,41100 Ret Ovr Ext R R R R R R R R R R R HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Analog Input (%Al) %AI0018 Analog Output (%AQ) None Used Input (%1) %100007 Output (%Q) %Q00008 Internal Memo~ (%M} %M00361 Register (%R) %R00308 Genius Global {%G) None Used Genius Global {%GA) None Used Genius Global {%GB) None Used Genius Global (%GC) None Used Genius Global (%GD) None Used Genius Global (%GE) None Used Temporary (%T) None Used System (%S) %S00001 System (%SA) None Used System (%SE) None Used System (%SC) None Used Local (%L) None Used program (%P) None Used %AI0018 %AI0018 3200 FST_SCN TF_com_chk Pumps_ra[e_ wind mult %R00220 %R00270 %R00274 %AI0015 %AI0018 TF Pumps_e p_en R \V Engmccn~g VersaPro -- master_pure p_s[op %M00301 Master_pure masterJ~um Sand pump_rMasl~rJ~um p_en p_stop un permit p run %M00277 %R00250 Sa~d max Iv %R00214 %R00308 PumpT_man %Q00008 Pump 7 run IF %Q00008 %100003 8/31/01 10:45:09 \M 16 nnunciator_ Pump7_fault pump_7 %M00250 func[i°n!_ %M00290 ; %M00131 pump 7 %M00131 Pump8runl v/stop %M00321 Sandercock_ %R00308 Te~ra Fempu ~ndercock_ Pump8_fault _~r %M0029~ 22 23 24 25 %M00200 %M00291 J %M00133 ~Pump g Operation Terra_Fem_p urnpg_stert., %R00255 CompJvl %R00308 ' Pump9 man %M00256 I 29 30 Pumpl0_run %M00341 pump_l O_malCR-4 Pump_ function 10_run_call %M00554 pump 11 malCR-5_Pump_ function 11_run_call 42 44 47 ~PLC echo input~ for corn Pump_7_run_ com_I3_PUM aux PT AUX Pump_8_mn_ eom 14_PUM PS_AUX %100004 %M00104 Pure p_9_r u n_ ¢om_l~_PU M aux Pg_AUX %100005 %M00105 Pump 11 mncom 17 PUM aux PII_AUX Ih ~) I TF corn chk %R00200 57 PumpB_cnt_ dn stb muir muir %R00270 %R00270 %100005 %M00334 up_stb %M00334 muir %R00270 8/31/01 10:15:09 :XM R \¥ Engineering VcrsaPru (uI0 Page: 63 PumplO_cnt _up_arb %R00270 64 Pump_7_mn_PumplO_cnt aux _dn_stb %100003 %M00345 PumpT_cnt dn_stb 69 Pump11_cnt dn stb %M00350 Pump_7_run_Pump_8_run_Pump_9_run_Pomp 10 runPump 11 ran muir %R00270 %R00274 %R00272 8/3_1/01 10:45:09 AM %R00274 74 R W 15~gmecrmg VersaPro (m~) -Comp Ivl %R00308 reached %M00361 Page: Name Type Lan Address Description Sandemock reservoirleve WORD I %AI0001 0-15 feet %R00007 WORD 1 %R00007 *~No Descrlption** %R00009 WORD 2 %R00009 "No Description~* sanderc~ck_res_lvl WORD 1 %R00100 0-1500 HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Analog Input (%Al) %AIOOgl Analog Output (%AQ) None Used input (%1) None Used Output (%0) None Used In{emal Memo~ (%M) None Used Register (%R) %R0(~100 Genius Global (%G) None Used Genius Global (%GA) None Used Genius Global (%GB) None Used Genius Global (%GC) None Used Genius Global (%GD) None Used Genius G~obal (%GE) None Used Temporal/ (%T) None Used System (%S) None Used System (%SA) None Used System (%SS) None Used System (%$C) None Used Local (%L) None Used Program (%P) None Used Stored Val ,Scope Ret Global R Global R Global R Global R Ovr Ext 6400- %AI0001 6400 R \¥~ Engineering VersaPro (tm) -%R00007 %R00007 %R00007 %R00007 %R00007 %R00007 %R00008 %R~009 / Name Type Len Address Description Vista_loop_level WORD 1 %AIO001 0-30.0 feet %R00007 WORD 2 %R00007 **No Descd priori** %R00009 WORD 2 %R00009 **No Description'* Vista_loep_lvl 0-35_feet WORD 2 %R00100 0-1000 HIGHEST USED REFERENCE ADDRESS MEMORY AR~A ADDRESS Analog Input (%Al) %AI0001 Analog Output (%AQ) None Used Input (%1) None Used Output (%Q) None Used Internal Memow (%M) None Used Register (%R) %R00100 Genius Global (%G) None Used Genius Global (%GA) None Used Genius Global (%GB) None Used Genius Global (%GC) None Used Genius Global (%GD) None Used Genius Global (%GE) None Used Temporary (%T) None Used System (%S) None Used System (%SA) None Used System (%SD) None Used System (%SC) None Used Local (%L) None Used Program (%P) None Used Stored Scope Ret Orr Ext Global R Global R Global R Global R %A10001 6400 2 6400 Page: t Name Ty~e Lan Address Description Stored Val Scope Ret brownell_$prings_turbidity WORD 1 %AI0001 040 NTU Global R %R00007 WORD 2 %R00007 **No Description** Global R %R00009 WORD 2 %R00009 **No Description** Global R Turbid[ty_g-1000NTU WORD 2 %R00t 00 0-1000 Global R brownellsprings_~ow WORD 1 %AI0002 0-500 GPM Global R Flew0-500GPM WORD 2 %R00102 0-500 Global R HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Analog Input (%Al) %AI0002 Analog Output (%AQ) None Used Input (%1) None Used Output (%Q) None Used Internal Memory (%M) None Used Register (%R) %R00102 Genius Global (%G) None Used Genius Global (%GA) None Used Genius Global (%GB) None Used Genius Global (%GC) None Used Genius Global (%GD) None Used Genius Global (%GE) None Used Temporary (%T) None Used System (%S) None Used System (%SA) None Used System (%SB) None Used System (%SC) None Used Local (%L) None Used Program (%P) None Used Ovr Ext Type Len Address Description Stored Val ,Scope BIT 1 %100001 0-1 fi PPM Global WORD 1 %M0fi017 SP In Internl Input Point Global BIT I %S00001 Set to 1 when the current System sweep is the first sweep WORD 1 %M00033 SP In Scan Count =00 Global BIT ~ %M00018 SP]n ID Found Global BIT I %M00036 SP In Scan Count --03 Global BIT I %M00034 SP In Scan Count =01 Global BIT 1 %M00031 SP]n Regular ID Pulse Global BIT 1 %M00035 SP In Scan Count =02 Global BIT 1 %M00032 SP in Long ID Pulse Global BIT 1 %M00019 SP In Data Xmit- ting Global SIT 1 %M00020 SP In Clock Global SIT I %M00021 SP[n Type Xmit- ting Global SIT I %M00022 SP In Type 1 =Delia Global 0=Whole WORD I %M00049 SP[n Bit Count =00 Global BIT 1 %M00064 SP[n Bit Count =15 Global WORD 1 %M00065 SP In Data Shift Bit00 Global WORD 1 %R00005 SP In User Data Global BIT 1 %M00068 SP In Data Shift Bit03 Global WORD 2 %R00104 0 2.000 ppm Global HIGHEST USED REFERENCE ADDRESS MEMORY AREA ADDRESS Analog Input (%Al) None Used Analog Output (%AQ) None Used Input (%1) %100001 Output (%Q) None Used Internal Memory {%M) %M0g080 Register (%R) %Rg0104 Genius Global (%G) None Used Genius Global (%GA) None Used Genius Global (%GB) None Used Genius Global (%GO) None Used Genius Global (%GD) None Used Genius GlpoaI (%GE) None Used Temporary (%T) None Used System (%S) %S00001 System (%SA) None Used System (%SB) None Used System (%SC) None Used Local (%L) None Used Program (%P) None Used Name Chlorineresidual_input FST_SCN I_SCN00 I_SCN03 I_SCN02 I_DATAX I_CLOCK I TYPEX I_TYPE LBIT00 I_SHF0O Chlorine_residual I_SHFO3 Ret Orr Ext R R R R Mspln %AI0001 %R00007 4 %AJ0001 6400- ~RO0007 %R00007 %R00009 %R00009 %R00OO9 %R00009 rurbidity 0-~ 000NTU %R00100 brownell_spd rigs_flow %AI0002 --%R00007 %R00007- %R00007 %R00007 %R00007 %R00007 6400 %R00007 %R00009 %R00009 4 FST_SCN %$00001 I_IN %M00017 LID liN ~ ½ ~+) I %M00018 %]~00017 LID %M00018 %M00031 ~s~ %M00032 12 UD I_bATAX %M00034 (s)~ <s} I <R) I I 8/31/01 10;48;45 18 i_CLOCK %M00020 I_SCHD0 %M00033 I_SCN03 II %M00036 I_CLOCK %M00020 I SCNO3 %M00036 I SCN00 %M00033 Page: 5 I_TYPEX %M0002'I UN I_CLOCK %M00020 I_TYPEX %M00021 (+) I L LB[TOO %M00049 I_CLOCK ~) I %M00020 O) I M~pIn.b[k I %M00065 %M00065 I_SHFO0 -I_SHFO0 %M00065 %M00065 65520 Chlodne_resi Chlofine_resi -dual dual %RO0005 %RO0005 CL2 residual %R00104 R W Englneenng VcrsaPzo (tm) LSCNO0 %M00033 -%R00007 %R00007 %R00007 %R00007 %R00007 %R00007 %R00009 %R00009 %R00009 %R00009 %R00100 brownell spd rigs flow %AI0002 -%R00007 %R0000T %R00007 %R00007 %R00007 %R00007 City of Sandy Water Treatment Facility Expansion Engineer: Curran-McLeod, Inc. 6655 SW Hampton, Suite 210 Portland, OR 97223 Contractor: Slayden Construction, Ync, PO Box 625 Stayton, OR 97383 OPERATIONS & MALNTENANCE MANUAL TABLE OFCONTENTS Se~ion 1 Section 2 Se~ion 3 Se~ion 4 Section 5 Section 6 Section 7 Book I of 4 Equipment & Electrical Vertical Split Case Pump Water Treatment Equipment Chemical Feed System Mixer Flap and Misc Valves Plumbing Fixtures Finishes Electrical Book 2 of 4 Tnstrumentation & Control System Equipment Section 1 Section 2 Section 3 Section 4 Section 5 Section 6 Section 7 Section 8 Section 9 Drawings Enclosures Annunciator & Panel Indicators Electrical Devices Level Gauges & Pressure Transmitters Propeller Flow Meter Streaming Current Controller Chlorine Residual Analyzer PLC Hardware & Modems Section 1 Book 3 of 4 PLC Programs PLC Programs Panel 800 Panel 803 Panel 804 Panel 805 Panel 806 Section 1 Section 2 Section 3 Section 4 Section 5 Book 4 of 4 Instrumentation & Control System O&f4 Manual HMI General Description Hr4! Licenses HMI Screens HI4I Cross References HIq! TAG Databases Introduction to HMI operotation The CIMPLICITY Hlvll system installed for the City of Sandy Water Treatment Plant is designed in accordance with specifications provided by Curran McLeod, Inc. The general intent of the HM1 (Human Machine Interface) software is to provide the operators a graphical interface to the Water Treatment process while automatically creating historical logged files to document the Water Treatment process. ~ Operators manual provides a guide and description for understanding and operating the installed HMI solution. Understanding the CIMPLICITY HMI System This nmnual will detail thc navigation and operation of thc ~ sofiwarc. It is not intended to provide a base or introduction to the development or modifications of the existing installed CIMPLICITY appfication for the City of Sandy. Furthar instruction for the maintenance and/or modification of sofa, yarc, can be obtained through CIMPLICITY I-YMI manuals located on the Software installation disk or from training courses held in your local area. CIMPLICITY lqhVlI software has two basic software fimctions l. Real time database ruanagemem CIMPLICTY HMI database is based on TAGS. Wban the CIMPLICITY HMI system runs the primary function is to establish and maintain conanunications with the Main (PN-800) PLC located at the Water Treamacnt building. The data is transferred and held in the VALUE of the appropriate TAG. Example data flow: 'FAG Name "WTP_FLTR_UNIT_I iNF_FLOW" The realtime database looks up the PLC address associatatcd with the 'Water Treatment Plant' 'Filter Unit No 1' 'lmquent Flow Meter' and copies the value to HMl~ag called WTP .... FLTR UNIT 1 1NF FLOW'. This copied value is now made available in the fi>flowing prioritized order; ALARMS, DATALOGG1NG, GRA_PIC SCREENS. Note! It is also important to know that the CIMPL1C1TY HMI systems maltime databese is installed to mn as a software 'Service'. Even if your graphic screens are closed the real time database is still collecting data. 2. Real time management o f graphic screens. CIMPLICITY HMI Graphic screens are designed to represent your Water Treatmem process. Although thc graphic screens get their display and animated data from the real time database system, it is an independent ronnhig program and will not effect the operation of data collection~ System Menus The Base menu is always located at the bonom of the computer screen. There are seven buttons on the bnse menu, four of those seven pop-up smaller submenus. The submenus are covered in the next part of this section. In the lower right hand comer of the computer screen is a box, wMch displays the current number of unacknowledged alarms. On tins menu the current number of alarms is zero. To actNate the buttons on the base menu you must left lnouse click on them (this is a mouse-up action). Once clicked and released on the bution you have selected will tm green and perform the requested task. The first button on the base menu (fi'om left m right) is the blue City of Sandy button. This button when clicked on turns green and brings up a small menu. This menu gives you two choices, close the menu or click on the 'Water Treatment Plant' buttor[ The first choice, closing the menu, is performed by clicking on the small black 'x' in the upper right comer of the menu. Clicking on the 'Water Treatment Plant' burton, winch opens the 'Vicinity Map' screen, performs the second choice. Opel~S 'Vicinity Map' -- Inactive Button Activates Pop-up Menu The second button (again fi.om lef~ to right) opens the login screen. The login screen comes up in a separate window (login procedure will be covered later). The third button, 'Raw Water BPS,' opens the 'Raw Water Booster Pump Station' without a menu (this also will be covered later). The fourth button on thc base menu, 'Water Treatment,' opens/activates the 'Water Treatment' menu. This menu has four buttons. The four buttons lead to the four different sections of the water treatment process. If you click on the top button labeled Flow' respectively. And the fourth button under 'Flows' takes you to the 'Brownell Springs Flow' chart. The third section, 'Chlorine Residual', has two but~i~ trader it. The first, 'Water Treatment', takes you to the 'Finished Water Chlorine Residual' chart. The second button takes you to the 'Browneil Springs Chlorine Residual' chart. The final section under the 'Trends' menu is 'Daily Trends'. The daily trends are a thirty-day chart that contain the daily mirdmax average and totalized flow samples. The 'Water Treatment' button takes you to the 'Finished Water Daily Flow' chart. And the second button takes you to the 'Brownell Springs Daily Flow' chart. The final button on the bede menu, 'Alarms' takes you to the 'Water Treatment System Alarms' screen. You will learn about this later. Pop-Up Status Window The following pop up window is used for detailed information regarding equipment items such as pumps, filters, valves, etc. You need only lett mouse click on the equipment and the menu will appear... Left mouse click to close Runtime Reset butlon is used to reset the rontime meter of the selected equipment. The pop-up window will replace the data for each equipment item chosen with the left motme click. This window can be moved around as shown above. Graphical Screens The graphical screens ere used to animate your processes as well as display status. They are as described on each screen. The following graphical screens are in exception. Viciuity Map This screen can be used to see the overall layout of ~ Water Treatment and Distribution. Each 'area icon' will change colorto red in the event of an alarm in that area. Utility Screen The Utility Screen allows for you to select which screeas you would like to have displayed with the screen scroll option. Also, you are able to review any historical data with Microsol~ Excel or direct link to your historical database via the use of Microsoft Access. Data is recorded for display in this manner for a period of 365 days after which the most current data will be erchived the read/write CD ROM once a week. Alarm Screen The alarm screen allows for you to see any active alarms. The unacknowledged alarms are also display on the main menu. In addition to the alarm display you ere also able to review the "disabled" alern~ as well as the alerm "delay" times. This screen will be forced dally for evaluation of the alarms status. GFJ-738 ClMPLICITY SAFE Thank you For Purchasing ClMPLIClTY SAFe. Part Number: IC648SAF999 Description: CIMPLICITY SAFE Custom Serial Number: 2087702272 It's easy to Activate Your Support Contract - Simply fill in the information below. Fax or mail the form back to us. We need this information to update our database and assure you receive the support and upgrades you are entitled. We need to know who you am; otherwise we cannot provide /ou support or upgrades. Please Print Clearly Contact Name: .~0~ Company: ~, c '"~/ Address: ~'~1 2 ~:2 ci~: ~ S~te or Proving: Count~: ~ Pos~l Code: Phone Number: Fax Number: Emafl Address: Number of ClMPLICI~ Sales Questions - Inside Sales at 518-464-4619 or InsldeSales~gefalbany.ge.com Technical Questions - Help Desk at 800-433-2682 or 5t8-464-4645 CimHotline~gefalbany.ge.com Visit Our Web Site at www. ClMPLJClTY.com Please Note: GE Fanuc requires customers to maintain their systems at the current software version. Service Packs are only released for the current product version. Go to the technical support section of www,ClMPUCITY.com for the latest Service Pack information. _) GFJ-60§D ® 'E CIMPLICITY SA1~ Software Version Upgrade License Key Serial Number: 9013647582 ~lote: This Serial Number is to be used to upgrade the computers covered by your CIMPLICITY SAFE Support Contract or your warranty. Only those nodes covered by a SAFE Contract or warranty may be upgraded. Use of this Upgrade License outside of your SAFE Support Contract or warranty is a violation of your CIMPLICITY Software License Agreement. AlSer successfi~lly installing upgrade, please do thc f~llmving to register the version upgrade license: 1. From the Stork program select CIMPLICITY~ HMI\ Registration 2. Click "Add". 3. Note: Do not change Base System Serial Number. 4. Ente~r upgrade serial number and cl'ck 'OK". 5. Click *'NexP' and follow steps. The Most Powerful Automation Software on the Planet! Receive your CIMPLICITY® Authorization Code Online! Cheek it out at IMPORTANT! t.. THIS LICENSE IS PROOF OF OWNERSHIP FOR YOUR CIMPLICITY SAFE UPGRADE LICENSE. PLEASE RETAIN THIS LICENSE IN A SAFE PLACE FOR FUTURE REFERENCE. UNAUTHORIZED HSE OF THIS FNFOKMATION lS PROHIBITED UNDER TPYE TERMS OF THE CIMPLICITY SYSTEM SOFTWARE END-USER LICENSE AGKEEMENT GFJ-630 CIMPLICITY® License Key Product ID: IC646TDV700 Description: Serial Number: 700 I/O Development System 6994370821 The Most Powerful Automation Software on the Planet.~ Receive your CIMPLICITY® Authorization Code Online! Check it out at www.cimplicityregis~ation.com IMPORTANT! ! THIS LICENSE IS PROOF OF OWNERSHIP FOR YOUR CIMPLICITY HMI BASE SYSTEM. PLEASE RETAiN THIS LICENSE IN A SAFE PLACE FOR FUTURE REFERENCE. UNAUTI IORIZED USE OF TIIIS INFORMATION IS PROHIBITED UNDER THE TERMS OF THE CIMPLICITY SYSTEM SOF'fWARE END-USER LICENSE AGREEMENT FAX TO: (518)464-4581 GE Fanuc Automation N.A. ATT: CIMPLICITY Registration ~e : Roy Loftis Company : City of Sandy Address : 52500 Hwy 26 City : Sandy State : Oregon Zip Code : 97055 Country : USA Phone : 503-769-1969 Fax : 503-769-4525 Email : msl~industdaisystem sllc.com Base : 6994370821 - Server Development - 700 Version : 5.00 ( Build 99~2 ) Site Code: DE6E BDDB B4E1 219A FA Options Serial Number Product GE industrial Systems ?1 Help Please enter your CIMPLICITY registration information below, then click Create Authorization. Serial Number" System Key Code' CIMPUCITY Software Version* 16994370821 ]de6ebddbb4e1219afa If you would like to receive information on enhancements and new features added to the CIMPLICiTY application products you have purchased, please select all products currently in use from the list provided below: I-- Action Calendar ~- CIMPLICITY OpenProcess I-' CIMPLICITY PMCS ~- ClMPLICITY Tracker ]-' Historical Data Analyzer [" HMi for CNC ~- Integrator'stoolkit [- Marquee Driver ]-' OPC Server ]'- Pager ~-- Recipes [-- Report Writer ~- Server Redundancy ]'- SPC [- System Sentry r- WebG~(eway ]-- WebView Create Authorization Authorization code D1E1 47EA 3045 ID4D 4A73 6EF6 19 *~CIMPLICITY HMI Plant Edition Base System Registration Records**** http://www, gefanuc.com/CimpliciwReg/&mregcustauth.asp 6/25/2001 Warranty Start Serial Description Version Date (warranty = 90 Product ID Number dayS) 700 ItO 3646TDV700 6994370821 Development 5.0x 25-Jun72001 System Interested in renewing your CIMPLICITY Technical Support or upgrading to the latest version of CIMPLICITY? CivicS, here to learn more about CIMPLICITY SAFE. Next Registration J . Cancel/Quit ] ht t p ://www.g e fanuc.c on~CimplicityReg/cimr egcust auth-asp 6/25/2001 GE Fanuc Automation North America, Inc. C1MPLICIT~(~ HM1 System Sof~/are End User License Agreement ) Tags used in WTP.CIM Graphic Screen Page 1 Tags used 1[1 WTP.CIM Graptfic Screen Page Tags used in WTP.C1M Graph'c Screen Page 3 Resource ID: WATER_PLANT Point Type ID: BOOL Elements: 1 Description: WTP TERRA FERN PUMP 8 ON Database Logger Point is being used in the following Data Tables: Table Used As EQUIP_OPERATION Logged POINT ID: WTP.SANDERCOCK.RES MIN LEV Resource ID: WATER_PLANT - Point Type ID: INT Elements: 1 Description: WTP SANDERCOCK RESERVOIR LEVEL MIN Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.RAW_WATER_BPS.PI_ON Resource ID: WATER_PLANT Point Type ID: BOOL Elements: 1 Description: WTP RW BPS PUMPt ON Database Logger Point is being used in the following Data Tables: Table Used As EQUIP_OPERATION Logged POINT ID: WTP.FLTR_UNIT_3.TF_START LEV Resource ID: WATER_pLANT Po~t Type ID: INT Elements: t Description: WTP FILTER UNIT 3 TERRA FERN START LEVEL Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.FLTR_UNIT_2.TF_START LEV Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP FILTER UNIT 2 TERRA FERN START LEVEL Database Logger Point is being use~ in the following Group Tables: Table Used As VVTP Logged POINT ID: WTP FLTR UNIT 1.ON Resource ID: WATER_PLANT Point Type ID: BOOL Elements: i Description: WTP FILTER UNIT 1 ON Database Logger Point Js being used in the following Data Tables: Table Used As EQUIP_OPERATION Logged POINT ID: WTP.FLTR UNIT 1.1NF FLOW_TOT Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP FILTR1 DAILY TOT INFL FL (MGD 0.001) Database Logger Point is being used in the following Group Tables: Table Used As vv-rP Logged POINT ID: WTP.TERRA_FERN.RE$_LEVEL Resource ID: WATER_pLANT Point Type iD: INT Elements: 1 Description: WTP TERRA FERN RESERVOIR LEVEL VALUE Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.TERRA_FERN.RES_H_LEVEL Resource ID: WATER_PLANT Point Type ID: BOOL Elements: 1 Description: WTP TERRA FERN HIGH LEVEL ALARM Points Following Derived Points are derived from this point: WTP.FINISHED_WATER.ANIMATE POINT ID: WTR.TERRA_?ERN.PUMPT_START_LEV Resource ID: WATER_PLANT Po nt Type ID: INT Elements: 1 Description: WTP TERRA FERN PUMP 7 START LEVEL SP Database Logger Point is being used in the following Group Tables Table Used As WTP Logged POINT ID: WTP.TERRA_FERN PUMP7 ON Resource ID: WATER_pLANT -Point Type ID: BOOL Elements: 1 Description: WTP TERRA FERN PUMP 7 ON Database Logger Point is being used in the following Data Tables: Table Used As EQUIP_OPERATION Logged POINT lB: WTP.SANDERCOCK. RES MAX LEV Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP SANDERCOCK RESERVOIR LEVEL MIN Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.RAW WATER.TURBIDITY Resource ID: WATE-;-R_PLANT Point Type ID: INT Elements: 1 Description: WTp RAW WATER TURBIDITY VALUE Database Logger Point is being used in the following Group Tables: Table Used As VVTP Logged POINT ID: WTP.FLTR UNIT 3.BACKWASH TOT Resource ID: WATER_PLANT Poin~'Type ID: INT Elements: 1 Description; WTP BACKVVSH TOTAL DAILY FLOW (MGD 0.001) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP FLTR_UNIT 2JNF FLOW_TOT Resource ID WAIEP, PLANT PointType iD: Egements: 1 Description WTP FILTR2 DAILY TOT tNFL FL (MGD O 00I) Database Logger Point is being used in the following Group Tables: Table Used As WTp Logged POINT ID: Wq'P TERRA_FERN.PUMP7 RUNTIME Resource ID: WATER_PLANT -Point Type ID: DINT Description: WTP TERRA FERN PUMP 7 RUNTIME VALUE Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP TERRA_FERN.PUMP10_START_LEV Resource ID: WATER_pLANT Point Type ID: INT E~ements: 1 Description: WTP TERRA FERN PUMP 10 START LEVEL SP Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP TERRA_FERN.PUMP10 RUNTIME Resource ID: WATERPLANT ~'oint Type ID: DINT Elements: 1 Description: WTP TERRA FERN PUMP '10 RUNTIME VALUE Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP RAW_WATER BPS.P2_RUNTIME Resource ID: WATER_PLANT Point Type ID: DINT Elements: 1 Description: WTP RW BPS PUMP2 RUNTIME Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP FLTR_UNIT3.1NF_FLOW TOT Resource ID; WATER_pLANT Point Type ID: Elements: 1 Description: WTP FILTR3 DAILY TOT INFL FL (MGD 0.001) Database Logger Point is being used in the following Group Tables: Table Used As W'TP Logged POINT ID: WTP.FLTR UNIT IINF FLOW Resource I©: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP FILTER UNIT1 INFL FLOW VAL (GPM 1.0) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.FINISHED_WATER TURBIDITY Resoume ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP FINISHED WATER HI TURBIDITY Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP,TERP, A_FERN,RES_MIN_LEV Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP TERRA FERN RESERVOIR LEVEL MIN Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT iD: WTP.TERRA FERN.PUMP9 STOP LEV Resource ID: WATER_PI~,N? Point Type ID: INT Elements: 1 Description: WTP TERRA FERN PUMP 9 STOP LEVEL SP Database Logger Point is being used in the foifowing Group Tab!es: TabJe Used As WTP Logged POINT ID: WTR.TERRA_FERN.PUMP10_STOP_LEV Resource ID: WATER_PLANT Point Type ID: tNT Elements: '1 Description: WTP TERRA FERN PUMP 10 STOP LEVEL SP Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.FLTR_EFF.PUMP4_RUNTIME Resource ID: WATER PLANT Point Type ID: DINT Elements: 1 Description: WTP FILTER EFFLUENT PUMP4 RIJNTIME VALUE Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.FINISHED_WATER.FLOW_MIN Resource ID: WATER_PLANT Point Type ID: ~NT Elements: 1 Description: WTp FINISHED MrN DAILY FLOW (GPM 1.0) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.CHLORINATION_SV316_OPEN Resource ID: WATER_PLANT Point Type ID: BOOL Elements: 1 Description: WTP CHLORINATION SOLENOID VALVE 316 OPEN Database Logger T~b!e Used As EQUIP_OPERATION Logged POINT ID: WTP TERRA_FERN RES_MAX LEV Resource ID: WATER_pLANT Point Type ID: INT Elements: 1 Description: WTP TERRA FERN RESERVOIR LEVEL MiN Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.FLTR_UNIT_I.TF_STOP_LEV Resource ID: WATER_PLANT Point Type iD: Elements: 1 Description: WTP FILTER UNIT 1 TERRA FERN STOP LEVEL Database Logger Point is being used in the fol[owiog Group Tables: Table Used As v~rTP Logged POINT ID: WTP.FLTR_UNIT_I.KW_MEASURED Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: VVTP FILTER UNIT1 KW MEASURED VALUE BCE Scripts Following scripts are using this point: kw fltr 1.bcl Line(s): 12 POINT ID: VVTP.FINISHED_WATER.FLOW_MAX Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP FINISHED MAX DAILY FLOW (GPM 1.0) Database Logger Point is being used in the following Group Tables: Table Used AS WTP Logged POINT ID: WTP.BROWNELL FLOW_MIN Resource ID: WATER_PLANT Point Type ID: INT E~ements: 1 Description: B-SPRINGS MIN DAILY FLOW(GPM 1.0) Database Logger Point is being used in the followin§ Group Tables: Table Used As WTP Logged POINT ID: WTP.FINISHED WAYER FLOW_AVG Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP FINISHED AVG DAILY FLOW (GPM 1.0) Database Logger Point is being used in the following Group Tables: Table Used AS WTP Logged POINT ID: WTP,FINISHED WATER.CL RES Resource ID: WATER_P~,NT ~oint Type ID; INT Elements: 1 Description: WTP FlNISHED WATER CHLORINE RESIDUAL VAL Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP BROWNELL.TURBIDITY Resource ID: WATER_pLANT Point Type ID: iN¥ Elements: 1 Description: B-SPRINGS TURBIDITY VALUE Database Logger Point is being used i~ the following Group Tables: Table Used As WTP Logged POINT ID: WTP BROWNELL FLOW_MAX Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: B-SPRINGS MAX DAILY FLOW (GPM 1.0) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.RAW_WATER~EPS P1 RUNTIV~E Elements; 1 Description: WTP RW BPS PUMP1 RUNTIME Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.FLTR UNIT 3.BACKWASH_FLOW Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTp BACKWASH FLOW VALUE (GPM ~ 0) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP FINISHED_WATER.FLOW Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP FINISHED WATER FLOW VALUE (GPM 1.0) Database Logger Point is being used in the following Group Tables: Table Used AS WTP Logged POINT ID: WTP.BROWNELL.FLOW_AVG Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: B-SPRINGS AVG DAILY FLOW (GPM 1 0) Database Logger Point is being used in the following Group Tables: Table Used As VVTP Logged POINT ID: VVTP.TERRA_FERN,PuMPg_START_LEV Resource lB: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP TERRA FERN PUMP 9 START LEVEL SP Database Logger Point is being used in the following Group Tables: Table Used As WTF Logged POIN] ID: WTP RAW_WATER_BPS PI_VFD ON Resource ID: WATER_pLANT Po nt Type. ID: BOOL Elements: 1 Description: WTP RW BPS PUMP1 VFD ON Database Logger Point is being used in the following Data Tables: Table Used As EQUIP_OPERATION Logged POINT iD: WTP.FLTR_UNIT_3 RUNTIME Resource ID: WATER_PLANT Point Type ID: DINT Elements: 1 Description: WTP FILTER UNIT 3 RUNTIME VALUE Database Logger Point is being used in the fobwing Group Tables: Table Used As WTP Logged POINT ID: WTP.FLTR UNIT_2.1NF_FLOW Resource ID: WATER_PLANT Point Type ID: Elements: 1 Description: WTP FILTER UNIT2 INFL FLOW VAL (GPM I 0} Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.FLTR_EFF,PUMP6_ON Resource ID: WATER_PLANT Point Type ID: BOOL Elements: 1 Description: WTP FILTER EFFLUENT PUMP6 ON Database Logger Point is being used in the following Data Tables: Table Used As EQUIP_OPERATION Logged POINT lB: WTP BROWNELL CL_RES Resource ID: WATER PLANT Pont , yp~; D , Elements: t Description: B-SPRINGS CHLORINE RESIDUAL V,~L( E Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP TERRA_FERN.PUMP11 STOP LEV Resource ID: WATER_PLANT Point Type ID: INT EIements: 1 Description: WTP TERR4, FERN PUMP 11 STOP LEVEL SP Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.TERRA_FERN.PUMP11_ON Resource ID: WATER_PLANT Point Type ID: BOOL Elements: 1 Description: WTP TERRA FERN PUMP 11 ON Database Logger Point is being used in the following Data Tables; Table Used As EQUIP_OPERATION Logged POINT ID; WTP.FLTR_UNIT_3.BAY2_TURBIDITY Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP FILTER UNIT 3 BAY2 TURBIDI~¢ VALUE Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.FLTR EFF.PUMPS_ON Resource ID: WATER_PLANT Point Type ID: BOOL Elements: 1 Description; WTP FILTER EFFLUENT PUMP5 ON Database Logger Point is being used in the following Data Tables: Table Used As EQUiP_OPERATION Logged POINT ID: WTP.TERRA_FERN.PUMP10 ON Resource ID: WATER_PLANT Point Type ID: BOOL Description: WTP TERRA FERN PUMP 10 ON Database Logger Point is being used in the following Data Tables: Table Used As EQUIP_OPERATION Logged POINT iD; WTP.LIGHTING_PANELS_MEASURED Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP LIGHTING PANELS MEASURE VALUE BCE Scripts Following scripts are using this point: lighting.bcl Line(s): 12 POINT ID: Wl'P.FLTR_UNIT_2.TF_STOP_LEV Resource ID: WATER_PLANT Point Type ID; INT Elements: 1 Description: WTP FILTER UNIT 2 TERRA FERN STOP LEVEL Datebase Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.FLTR_EFF,PUMP4_ON Resource lB: WATER_PLANT Point Type iD: BOOL Elements; 1 Description: WTP FILTER EFFLUENT PUMP4 ON Database Logger Point is being used in the following Data Tables: Table Used As EQUIP_OPERATION Logged POINT ID: SPOINT ERROR: Unknown Point ID Database Logger Point is being used in the following Data Tables: Table Used As EQUIP_OPERATiON Eveni POINT ID; WTP.TERRA_FERN.PUMPT_STOP_LEV Resource ID: VVATER_pLANT Point Type ID: Elements: 1 Description: WTp TERRA FERN PUMP 7 STOP LEVEL SP Databsse Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.FLTR UNIT 2.RUNTIME Resource ID: WATER_PLANT Point Type lB: DINT Elements: t Description: WTP FILTER UNIT 2 RUNTIME VALUE Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT iD: WTP.FLTR UNIT_2.K-W_MEASUREE) Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP FILTER UNIT2 KW MEASURED VALUE BCE Scripts Following scripts are using this point: kw_fltr_2 bcl Line(s): 12 POINT ID: WTP.FLTR UNIT IlNF FLOW_rvllN Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP FILTR1 DAILY MIN INFL FLOW (GPM 1 0) Database Logger Point is being used in the following Group Tables: Table Used As VVTP Logged POINT ID: WTP.FINISHED_WATER.FLOW_TOT Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP FINISRD TOTAL DAILY FLOW {MGD 0.001) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP BROWNELL FLOW Resource ID: WATER_pLANT Point Type ID: ii4T Elements: 1 Description: B-SPRINGS FLOW VALUE (GPM 1 0) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.FLTR_UNIT_3.BACKWASH MIN Resource 113: WATER_PLANT Point-Type ID: INT Elements: 1 Description: WTP BACKWASH MIN DAILY FLOW (GPM I 0) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP FLTR UNIT_2.TURBIDITY Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP FILTER UNIT 2 TURBIDITY VALUE Database Logger Point is being used in the following Group Tables: Tabte Used As WTP Logged POINT ID: WTP.FLTR_UNIT_2.1NFFLOW MIN Resource ID: WATER_PLANT Point Type ID: [NT Elements: 1 Description: WTP FILTR2 DAILY MIN INFL FLOW (GPM 1.0) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP,FLTR_UNIT_I INF_FLOW MAX Resource ID WATER_PLANT Point T!me ~r! Elements: 1 Descr[p icr WTP FILTR1 DAILY MAX ',NFL FLO': 7 Database Logger Point is being used in the following Group Tables: Table Used As VVTP Logged PQINT iD: WTP FINISHED_WATER.SV317_OPEN Resource ID: WATER_PLANT Point Type ID: BOOL Elements: 1 Description: WTP FINISHED WATER SAMPLE SV317 OPEN Database Logger Point is being used in the following Data Tables: Table Used As EQUIP_OPERATION Logged POINT ID: WTp BROWNELL FLOW_TOT Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: B-SPRINGS TOTAL DAILY FLOW (MGD 0 001) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP TERRA_FERN.PUMPS_START_LEV Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP TERRA FERN PUMP 8 START LEVEL SP Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTF.FLTR_UNIT_3.1NF_FLOW MIN Resource ID: WATER_PLANT Po~t Type iD: INT Elements; 1 Description: WTp FILTR3 DAILY MIN INFL FLOW (GPM 1.0) Database Logger Point is being used in the following Group Tables: Table Used AS WTP Logged POINT iD: WTPFLTR UNIT 31NF FLOW Resource ID: WATER_PLANT Point Type iL;: Elements 1 Description: WTP FILTER UNIT3 INFL FLOW VAL (GPM 1 Database [ogger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.FLTR UNIT 3.BACKVVASH MAX Resource ID: WATER_PLANT Pein~Type ID: Elements: 1 Description: WTP BACKWASH MAX DAILY FLOW (GPM I 0) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.FLTR_UNIT_2.1NF_FLOW MAX Resource iD: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP FILTR2 DAILY MAX INFL FLOW (GPM 1 0) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP FLTR_UNIT_t.INF_FLOW AVG Resource ID: WATER_PLANT Po~t Type ID: INT Elements: 1 Description: WTP FILTRI DALLY AVG INFL FLOW (GPM 1.0) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP FLTR_EFF.PUMP1 ON Resource ID; WATER_PLANT Point Type ID: 8eeL Elements: 1 Description: WTP FILTER EFFLUENT PUMP1 ON Database Logger Point is being used in the following Data Tables Table Used As EQUIP OPERATION Logged POINT iD: WTP.TERRA_FERN.PUMP9_RUNTIME Resource ID: WATER_PLANT Point Type ID: DINT Elements: 1 Description: WTP TERRA FERN PUMP 9 RUNTIME VALUE Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.RAW WATER BPS.P2 VFD ON Resource ID: WAT~-R_PLAN~ Point Type ID: BOOL Elements: 1 Description: VVTP RW BPS PUMP2 VFD ON Database Logger Point is being used in the following Data Tables: Table Used As EQUIP_OPERATION Logged POINT ID: WTP.FLTR UNIT 3.1NF FLOW_MAX Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP FILTR3 DAILY MAX INFL FLOW (GPM 1.0) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP,FLTR UNIT 3.BACRWASH AVG Resource ID: WATE-R_PL,~NT Point-Type ID: INT Elements: 1 Description: WTP BACKWASH AVG BArLY FLOW (GPM 1.0) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT iD: WTP.FLTR UNI1 2.1NF FLOW AVG Resource ID: W~TER_PLANT Po~t Type iD i!qT Elements: 1 Description: WTP FILTR2 DAILY AVG INFL FLOW (GPM 1.0) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.FLTR_EFF.PUMP6_RUNTIME Resource ID: WATER_PLANT Point Type lB: DINT Elements; 1 Description: WTP FILTER EFFLUENT PUMP6 RUNTIME VALUE Database Logger Point is being used in the following Group Tables: Table Used AS WTP Logged POINT ID: WTP FLTR_EFF.PUMPI_RUNTIME Resource ID: WATER_PLANT Point Type ID: DINT Elements: 1 Description: WTP FILTER EFFLUENT PUMP'f RUNTIME VALUE Database Logger Point is being used in the folJowing Group Tables: Table Used As WTP Logged POINT ID: W'TP VISTA_LOOP.RES_MIN_LEV Resource ID: WATER_PLANT Point Type ID: Elements: 1 Description: WTP VISTA LOOP RESERVOIR LEVEL VALUE Database Logger Point is being used in the following Group Tables: Table Used As V~I-P Logged POINT ID: WTP.TERRA_EERN.PUMP11_START_LEV Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: ~VTP TERRA FERN PUMP ~ 1 START LEVEL SP Database Logger Point is being used [~- the foCJowin~ Group Tablss; Tabie Used As WTP Logged POINT ID: WTP FLTR_UNIT_3 INF_FLOW AVG Resource ID: WATER_PLANT Point Type ID: iNT Elements: 1 Description: WTP FILTR3 DAILY AVG INFL FLOW (GPM 1.0) Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.FLTR_UNIT_3 BAY'S_TURBIDITY Resource lB: WATER_PLANT Point Type ID: fNT Elements; 1 Description: WTP FILTER UNIT 3 BAY1 TUBIDI'FY VALUE Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP FLTR UNIT 1 RUNTIME Resource ID: WATER_pLANT Point Type ID: DtNT Elements: 1 Description: WTP FILTER UNIT 1 RUNTIME VALUE Database Logger Point is being u~ed in the following Group Tables: Table Used As W]'P Logged ...................................... POINT ID: WTP.VlSTA_LOOP.RES_MAX_LEV Resource ID: WATER_pLANT Point Type ID: Elements: 1 Description: WTP VISTA LOOP RESERVOIR LEVEL VALUE Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.V[STA_LOOP.RES_LEVEL Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Desc iption WTF VfS/A LOOP RESERVOIR L~.VEL VALUE Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP TERRA_FERN.PUMP8 STOP LEV Resource ID: WATER_PLANT Peint Type lB: INT Elements: 1 Description: WTP TERRA FERN PUMP 8 STOP LEVEL SP Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.SANDERCOCK.RES_LEVEL Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP SANDERCOCK RESERVOIR LEVEL Database Logger Point is being used in the following Group Table~: Table Used As WTP Logged POINT ID: WTP.FLTR_UNIT_3.TF_STOP LEV Resource ID: WATER_PLANT P~int Type ID: INT Elements: 1 Description: WTP FILTER UNIT 2 TERRA FERN STOP LEVEL Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP.FLTR UNIT 3.ON Resource ID: WATER_PLANT Point Type ID: BOOL Elements: 1 Description: V~q'P FILTER UNIT 3 ON Database Logger Point is being used in the following Data Tables: Table Used As EQUiP_OPERATiON Logged POINT ID: WTP.DATETIME HOLDER Resource ID: WATER_PL~,NT Point Type ID: STRING_20 Elements: I Descripbon; Hold DateTime ~3CP Scripts Following scripts are using this point: datetime bel Line(s): 4 POINT ID: WTP.ALARM_24HOUR_NOTIFY Resource ID: WATER_PLANT Point Type ID: BOOL Elements: 1 Description: FORCE ALARM DISABLE SCREEN VIEW Event Manager Following actions are using this point: Action Action Type SPT_ALARM_NOTIFY Set Point POINT ID: WTP TERRA_FERN.PUMPg_ON Resource I0; WATER_PLANT Point Type ID: BOOL Elements: 1 Description: WTP TERRA FERN PUMP 9 ON Database Logger Point is being used in the following Data Tables: Table Used As EQUIP_OPERATION Logged POINT ID: WTP.TERRA_FERN.PUMP8_RUNTIME Resource ID: WATER_PLANT Point Type ID: DINT Elements: 1 Description: WTP TERRA FERN PUMP 8 RUNTIME VALUE Database Logger Point is being used in the following Group Tables: Table Used As WTP Logged POINT ID: WTP TERRA_FERN.PUMP1 I_RUNTIME Resource ID: WATER_PLANT Point Type ID: DINT Elements; 1 Description: WTP TERRA FERN PUMP 11 RUNTIME VALUE Database Logger Point is being used in the following Group Tables: i'a~ie Used As WTP Logged POINT ID WTP.RAW WATER E~PS.P2_ON Resource ID WATER PLANT Point Type ID: BOOL Elements: I Description: WTP RW BPS PUMP2 ON Database Logger Point is being used in the following Data Tables: Table Used As EQUIP_OPERATION Logged POINT rD: VVTP,FLTR_UNIT_3.KW_MEASURED Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP FILTER UNIT3 KW MEASURED VALUE BCE Scripts Following scripts are using this point: kw_fit r_3 bcl Line(s): 12 POINT ID: WTP.FLTR UNIT 2.ON Resource ID: WATER_PLANT Point Type lB: BOOL Elements: 1 Description: WTP FILTER UNiT 2 ON Database Logger Point is being used in the following Data Tables: Table Used As EQUIP_OPERATION Logged POINT ID: WTP FLTR UNIT 1.TURBIDITY Resource ID: WATER_PLANT Point Type ID: INT Elements: 1 Description: WTP FILTER UNIT 1 TURBIDITY VALUE Database Logger Point is being used in the following Group Tables: Table Used As WTp Logged POINT lB): WTP FLTR UNIT 1.TF START LEV Resource ~D: WATE-R_PL~,NT - Po~t Type lB: INT Elements; 1 Description: WTP FILTER UNIT 1 TERRA FERN START LEVEL Database Logger Point is being used ir~ the following ~,roup I aD~e~ Table Used As WTP Logged POINT ID WT?.FLTR_EFF.PUIVlP5 RUNTIME Resource ID: WATER PLANT Point Type ID: DINT Elements: 1 Description: WTP FILTER EFFLUENT PUMP5 RUNTIME VALUE Database Logger Point is being used in lhe following Group Tables: Table Used As Wq'P Logged J WT OO A B C D E i F G I H I 1 PT ID ACCESS ACCESS FILTER ACK TIMEOUT ADDR ADDR OFFSET ~DDR TYPE ALM CLASS ALM CR)TERIA 2 ALARM 24HOUR NOTIFY W 3 WTP ANNUCIATOR ACKNOWLEDGE W 4 '¢/FPANNUCIATORRESET W ~M1730 0 =O 5 ~PANNUClATORTEST :W %M1731 0 :Q 6 ~P ~CKWASH_RESERVEFLTRS_I_2 ,W %M1836 0 FQ 9 ~P.BROWNELLCL LEAK F DA N %Mlg67 0 FQ 10 ~P.BROWNELLCL_L~K_F_DE~Y N %R2167 , 0 FQ 18 ~ROWNE~H T P'b~Y W %R2165 21 ~PBR~ELL L_C~_F~5~ W %M1966 C FQ I 25 ~p BR~NELL.PLC~COMMS~F~I~ :i ~MiS~ ~FQ ~RowN ABS 29 ~P.CHLORINE ~A~ R [ 1%M1869 ~ ~ ~ ~P AB~ 30 ~P.CH[ORINE_[~F_~A N %MISG9 ~ FO 32 ~P DATETIME_HOLDE R N - %R2016 0 FQ i 34 ~P FINISHE D_WATER CL_RES 38 ~P.FINISH~D~A~ER~FL~W_MIN R ~R2218 FQ 39 ~PFINISHED WATERFLOW'T~T R Y. R2224 FQ A I J K 1L M ! N 0 PT_ID ALM_DEADBAND ALM_DELAY ALM ENABLE ALM_HIGH 1 AL~ HIGH~2 ALM_HLP_~IEE 2 ~P.A~RM 24HOUR NOTIFY 0 4 ~P ANNUCIATOR RESET 13 ~P BRO~NEL~FLO~ ~ 15 ~P~B~OWNELL FE~MIN 0 16 ~ ~ow~E~E ~L6W 'TOT 26 ~P.BROWNELL TURBIDI~ ~ ' ) r 27 ~P. CHLORINA~N_~V316_o~N 28 ~PCHLORINATOR_PAGING _ ' 29 ~PCHLORINE_LEAK ~ , 0 ¥ ~ ~P.CHLORI~_LEAK 35 ~P FINISHED~ATER.FL~ 0 36 ~ P ~ ~ E--~_WATE R F LOW~VG 0 38 ~P ~I~I~HED_WA~R.FLOW_MIN ~ WTlW~200~ ~ A I ~ Q R I s 1 PT ID ALM LOW 1 ~LM LOW 2 ALM MSG ALM ROUTE OPER 2 ~N~P ALARM_24HO U R_N OTI FY 4 ~P.ANNUCIATOR.RESET 7 ~P BACKWASH_RESER~.FLTRS_3 1~ ~ ~P BRO~E[[.FL6~TOT , 20 ~P.BROWNELL L_CL_RES ~p BROWNELL SPRINGS LOW CHLORINE REISDUAL A~RM 21 ~.BROWNELL L_CL_RES_F_DA 22 ~P.BROWNELL L = CL ~ RES ~ F. DE~Y ~ /~ ~~ 23 ~P. BROWNELL PLC_COMMS_F_DA 25 ~P BROWN ELL.PLC_COMMS_FAIL PLC PN~06 COMM ~CAT~0N~ HAS FAILED 26 ~P BROWNELL.TURB~DITY 28 ~CHL~RINAT~R~PAGING 30 ~P.C~ORINE_LE~F_DA 32 ~PDATETIME HOLDER 34 ~ ~[~ISHE D]W~TER 37 ~P Fi~HED_WAT~R. FLOW_M~ 3B ~PFINISHED W~T~.FL~W_MIN - I A I T U V I W X Y ! Z PT ID ALM ROUTE SYSMGR ALM ROUTE USER ALM STR ALI~ TYRE ANALOG DEADIBAND BFR COUNT 3FR OUR 2 Arrp ALARM_24HOUR_NOTIFY O 0 3 ~NTP.ANNUCIATOR ACKNOWLEDGE 0 4 VVTP.ANNUCIATOR RESET j O 0 5 v~rP.ANNUCIATORTEST '" 0 01 6 WTPBACKVVASH_RESERVEFLTRS 1 7 W~f p BACKWASH_RESERVE FLTRS_~ 0J 0 0 8 WTpIBROWNELL CL~LEAK 1 I lC AL O! 0 0 ~ WTPBROWNELL.CL_LEAK F DA 10 VVTP ~ROWNELL CL=LEAK F' DELAY ~ I ~[ 0 11 WTP.BROWNELI CL_RE$ J i ::~:~I j 1 0 0 12 WTP BROWNELL FLOW 1 0 0 13 WTP.EIROWNELL FLOW A_ VG ~ 0 0 14 A~rPiBROWNELL F LOW_ ~MAX' 0 0 17 NTP E~ROWNE LL H_T_F~DA 0 18 AF-P BROWNELL H_T_F_DELAY I 0 C 20 NTP.BROWNELL L_CL_RES 1 1 9 a,L 0, C 24 ~VTP.BROWNELLPLg_COMNIS ~_DELAY I 0 0 0 "~ ~NTP CHLORINATION~SV316 OP~ , 1' ( ( 0 28 WTP.CHLORINATOR_PAGING -- ~r ~ ( O 0 29 WTP.CHLORINE_LEAK 1 10 AL ' ( 0 0 30 WTP.C H[GRIN E_LEAK_F_DA 31 WTP.C H LORINE_LEAK_F_DE LAY 1 30 'VTP. FIN iS H ED_WATEr. F LOW AV~ '- 1 0 0 ~' ~P~INISHED_WATER.FLOW i~A~- ' . _ I 0 0 39 AZTPFINi~HED WATERFLOW TOT J l~ Om A AA I ^B AC I AU I AE I AF 2 ~P A~RM 24HOUR NOTIFY ( I O O 0 3 ~p ANNUCIATOR ACKNOWLEDGE ( ] 4 ~P.ANNUCIATO R.RESET ~ ( 0 0 0 6 ~P BAC~ASH_RESERVE FL~_I_2 ~ O ~ ' O, 0 0 7 ~[BAC~A~H RESERVEFLT~3I ~ I 0 0 0 9 ~ BROWNELL.CL_LEAK_F_DA ~ I ~ 6 O 17 ~P.BRO~ELLH_T F_DA C 0 ~1 ( ~9 ~p.B~OWNE~L H=TURBi6~ 0~ ~ 0 0 23 ~p BR~EEL PLC~C6MM~F_DA 0 I 0 0 0 ~BR~E LL.PLC_COMM ~_F_D~Y b 24 o , 1 ~ o 31 ~:CHL~R~NE_LEAK_F_DE~Y ~ 2 ---- C ~1 ~ 32 ~P.DA~ETIME HOEDER ~ [ 11 -~0 O0 ~ ~/fiN iSU E D~WA~ R.FL~TM~ : I 0 0 38 ~ VVT~200~ ~ A AG I AH Al AJ AK AL 1 PT ID SALC TYPEICONV UM HIGH CONV_LIM_LOW CONV_TYPE DELAY_LOAD DELETE_REQ 2 WTP ALARM 24HOUR_NOTIFY --GU 3 WTP AN N UCIATOR AC~KNOWLEDG E NO 4 WTP ANNUCIATOR RESET NO 5 VTp ANNUCIATOR TEST NO 6 /~FrP BACKWASH_RESERVE.FLTRS_I_2 NO 0: 7 ~TP.BACKWA$ H_RES ERVE.FLTRS=3 ,lO 0i 8 NTP.BROWNELLCL LEAK ,JO ( AR 9 NTP. BROWNE EL. C L~LEAK_F_DA 11 /~TP.BROWNELL CL_RE$ , 15 ~VTP BROWNE LL FLOW_MIN ] NO 0 NO 16 ¢~TP.E~ ROWN E L L.FLOW_TOT 17 ¢~FIp.6ROWNELLH T F D_ _ _ A 18 ¢VTP.OROWNELL. H · F DELAY CS 'J~ VVTP.BROWNI: LL H_TU R B IDITY NO 0 20 WTP.BROWNELLL_CL_RES ' NO 0 AR 21 WTP.B~OWNELL~ RES F DA NO 0 22 WTP.BROWNELLL CL RES F DELAY CS 0 23 WTP BROWNELL PLC=COMMS_F_DA NO 0 24 WTPBROWNELLPLC COMMS F DELAY ~ CS NO 0 AR 25 WTP BROWNELL PLC_COMMS_FAIL 28 WT P CHLO RINATOR_PAG lNG NO 29 WT~ CHLORINE_LEAK - NO AR 30 WTP.C H LOI~IN E_LEAK_F_DA " ~O 35 /VTP F{NI S H E D-WAT~ F L~W 39 I NTP.FINISHED W~'~ER. FLOW TOT qO i A I AM AN I AD I AP AQ 1 PT_ID OESC. DEVIATION_PT DEVICE:ID'OISP~LIM=HtGH DISP=LIM LOW/ 2 WT~LARM 24HOUR No'FY FORCE ALARM DISAI3LE SCREEN V1EW 3 ~FFPANNUCIATORACKNOWLEDGE WTP ANNUCIATOR ACKNOWLEDGE PN 800 4 V~FPANNUOIATORRESET WTPANNUCIATORRESET PN 800 5 WTPANNUCIATOR TEST WTP ANNU~IATORTEST PN 800 6 WTP BACKWASH RESERVE FLTRS I 2 WTP BACKWASH RESERVE FILTERS 1 & 2 PN_800 7 WTP BACKWAS H_RE$ ERVE F LTRS_3 &rfp BACKWASH RESERVE - FILTER 3 ~PN-800 0 YTP BROWNELL~L=LE~K ~ ~[ ~RINGS CHLORINE L~kKALARM ~ i I PN=800 9 A~FP.BROWNELL CL_LEAK_F_DA 3-SPRINGS CHLORINE LEAK ALARM DISABLEI PN_800 10 NTPBROWNELLCE_LEAK ~_OELAY B-SPRINGSCHLORINELEAK~LARMDELAV PN~800 50 0 11 NTP BROWNELL.CL_RES B SPRING~HLO HiNE RESIDUAL VALUE' PN_B00 12 ~TP EROWNELL. FLOW B-SPRING,FLOW VALUE (GPM ~0i =N 800 15 NTP BROWNELL.FLOW_AVG B-SPRINGS ~VG DAILY FLow iGFI~ 10) ~N]~O01 14 /VTP BROWNELL FLOW_MAX B:~PRINg~ DAILY FLOW EG~" ~:0~ I 'N--~O I 15 ~TP BROWNELL FLOW_MIN B-SP~INGS MIN DAILY FLOW{GPM 1 0)I ~ ~0~ I 16 ¢/TP.BROWNELL FLOW_TOT B-SPRiH~§ iOTAL DALLY FLOW (MGD 0001) ~H_800 '=~ ¢]TP BRowNE[_~ ~ DA B-SPRINGS HIYURBIDITY ALAR~ DIABLE 18 ~NTP BROWNELL H-~=F-D~LAY B-SPRINGS HI TURBIDITY ALARM DELAY PN_800 50 ~9 WTP BROWN ELL.H_TURBIDITY B.SPRINGS HI TURBIDITY ALARM PN~800 20 WTP BROWNELL. L CL RES B-SPRINGS LOW CHLORINE RESi[~UAL ALAR~ PN~800 21 =~ B-SPRINGS LOW CNLORiNE R~ ~-L DISABLE PN 800 WTP BROWNE LLL_CL_RES_F_DA __ __ - 22 WTP BROWNELLL_CL_RES_F_DELAY B-SPRINGS LOW CHLORINE RESIDUAL AL DELAY PN_800 50 23 ~FP.~ROWNELL. PLC_COMMS_F_DA PLC IN PNS06 COMMS FAIL DISABLE PN_800 24 ~FE.BROWNELLiPLC_COMMS F DELAY PLO IN PNS06 COMMS FAIL DELA'~F~ME PN_80O 50 0 25 V~P BROWNELL PLC_GOMMS~F~,IL 'LCiN ENS06 COMMUNICATIONS ~ ii~ PN 800 26 VVTP BROWNELL TURBIDITY ~-SPRINGS TURSIDITY VALUE PN_80D 27 WTP ~HLORINATIO N~SV316_OPEN NTP CHLORINATION SOLENOID VALVE 316 OPEN PN=B00 28 WTp CHLORiNA;~AGiNG - V~F~ CHLORINATOR PAGING VALUE PN~800 29 WTP CHLORINE_LEAK ~P CHLORINE LEAK~LARM PN_800 30 AO~iCHLO~INE LE~ DA /¢FP CHLORINE LEAKAL~RM DISABLE PN 800 31 NTP c H LO _R!N_ E_LEAK_F_C E LAY ~TF CNLORINE LEAK ALARM DELAY /VTP ~i~iSHED-~VATER ANIMATE HIGH WHEN Y~RRA FERN L~VEL GT S F~ET 33 ~ ~ FINIS HEO wAT~ CHLORINE RESIDUAL ~AL! ~N 35 ~/TP ~INISI~ED WA~ER.FLOW_AV~ WT~ 'F~ISHED AVG DAILY FL~W IGPM 10) ~N~800 37 ~r~p F~WATER~LOW M~X ~ F~N/~H£D r~AX DAIL~ FLOW (~PM i 0) 38 ~/VTE.FINISHEO~WATER.FLOW_MIN ~r~P~[NISHED MIN DAILY FLOW (GEM ~0) PN 8OOI I ~ PT_ID ~DIS~T~PE 31SP_W)DTP ELEMENT~c ENG_UNITS ENUM_~D EQUATION XTRA 2 WTP ALARM_24HOUR_N OTIFY ~P ANNUCIATOR.RESET 5 ~P ANNuc ATo~S~ i 7 ~P BACKWASH_RESERVE FLTRS 3 [ i i 1 8 mPBR~N~LL.CL LEAK 1 13 ~P.BROWNELLFLOW_AVG 1 GPM 0 21 ~,660~EEEL 6L RES F DA i ~01NT_STA~US ~ FINISHE~ ~ER ANIM~ 1 ~ ' (~P.~R~_FERN,RES_H_LEVEL GT 05) 33 _ 34 ~INISHED ~[R CL~RE~ ~I~PPM~M ' 35 mP FINISHEe~ATER FLOW 36 ~P.FIN[SHED~ATER.FL~_AVG I GPM 39 ~.¢INISHED=WATER.FLOW TOT [ ~ 11MGD ~ WT'F~F2001 ~lm"¢ A AY AZ BA BB BC BD BE BF BG :~- ID FW CONV EQ GR SCREEN NIT VAL JUSTIFICAF~OI~ LOCAL LOG ACK LOG DATA LOG DEL LOG GEN 3 ,'VTPANNUCIATORACKNOWLEOGELEFT'LEFT 8 ~rl'p BROWNELL CL LEAK- I -EFT (1 I0 , O[ 12 WTp. BROWNELL. FLOW J LEFT J 0 13 '~q'P.B ROWNELL FL OW_AVG [ I t~E~ 23 NTP.BROWNELL PLC_COMMS_F_DA LEFT 0 24 ArfP BROWNELL PLC_COMMS_F_DELAY %P~00 00 LEFT 25 Ar[p DROWNELL pL~COMM S_FAiL _ _ LEFT 0 C ( 26 ¢VTP ~ROWN ELL TURBIdiTY .EFT 0 30 WTP CHLO~R~NE~LEAK F DAt L~LEFT (O 38 N"rp FINISHED-~A/--ATER.FLOW MIN LEFT 0 ~ ~?~200~ ~ 8 t. AFFP B R~WN e I~L '~ L~LEAK[ O 5 I 11 WI'P BROWNELL CL-RES - 1 33 WTP. FINSH ~D:WAT E R.ANII~IATE MASTER_PTDP_RP v,,rr 2ool A I BN BO BP BQ BR I BS BT BU 'l PT iD PTMGMT PROC ID PT_ENABLED PT_ORIGIt, PT SET INTERVAL PT SET TIME PT TYPE :~ANGE HIGH ~NGE L~ ~ ~p AN NU CiATOR ACKNOWL~DGE ~ ~ BOOL 4 ~P ANNUCIATOR RESET 1 ~ BOOL 7 ~p~cmASH_RESERVE.FLTRS_3 ~ D~ooL 8 ~P.B"OWNELLOL L~K ~ ~ ~8 ~P BR~NELL H_T_F_DE~Y ~ ~ ] ~- INT m 21 ~P.BROWNELLL~L-RES F DA I b BOOL 1 22 ~.BROWNELLL CL_RES_F_DE~Y ' I ) INT 23 ~.~ROWNELLPLC ~b~S~F_D~ ~ 1 ~ BOO~ 24 ~ ~R~ELL PL0_ _OOMMS~__F DE~Y~ I O IN~ , 26 ~P ~O~ELL.TURBIDITY -' - 1 D - 27 ~CHL~ORINA~ION_S~16_OPEN 1 ~ BOOL 1 1 D ~ ]~ ]J 'INT 28 PAGING 30 ~CHLO~iNE-L~_FLDA I ~ - - BOOL ' ]J 0 31 ~ ~]C H L~RIN E:LEAK_ F_DE~ ]~INT I ~p.DA~TiME-HOL~R MASTER PT~0 ~P I ~ ~STRJNG 2D 32mBOOL - 33 ~P.FINISHED_WATER.ANI~ATE MASTER_P~D_Rp 1 R 36 ~P FINISHED WATERFL~_AVG I D ~ INT A BV I BW BXJ BY ! BZ CA i CB J PT ID RAW LIM HIGH AW LIM LQW REP TIMEOU RESET ALLOWED RESET CONO RESET P1 RESET TIMEOU~ 2 WTP ALARM_24HOU R_NOTiFY iN 3 WTP ANNUCIATOR.ACKNOWLED~E 11 ~P.B~O~ELLS~ES q/ , 12 ~ ~P~ELL FL~W 15 ~O~BR~N E~E~FLOW_MIN 2e ~p. BROWNELL L_CL_RES[ 1 ( 21 ~P.B~OW~ELL L_C LZRE S_~_DA 26 ~:BROW~ LL TURBIDITY ] I A CC CD CE CF CG I CH CI ~T ID RESOURCE ID /REV CONV EQ :~OLLOVER VAL SAFETY PT AMPLE INTV SAMPLE INTV UNIT SCAN PATE 4 ~JXNNUOJ~TOR R~SE f ~ATER~P~ 0 I 5 ~PANNUCIATOR~EST WATER P_ ~NT I 7 ~c KWA~H_RESER~E. F LTRS_3 WATE~_P ~N~ 0 9 17 ~PBROWNELL.H T~D~ NATE~ p~N~ I o 21 ~PBROWNELLL CL RES F BA ¢ATER_P~NT '~'~ 22 ~BR~NEL~.L-C~RES-F BE~Y WA~ER_P~ %~*600~ O 23 ~P~R~N~LL.~C ~oM~F_DA WA~R P~NT - 0 24 ~PBROWNELL.PLC_COMMS_F DE~Y WATE~P~NT 25 WATER P~NT 29 ' ~ATER_P~NT ( 30 ~PCHLORINE_[~_~_~ ~ATE~ P~NT ' 33 ~P.FI NIS ~ ED_W~R AN IMATE ~ATER_P~NT C ' 34 ATER o, jT j 37 ~P FINISHED WA~E~ LO~_M~ ~ R~P~ ' 0 38 = ~ WAIST 0 ~P,FINtSHED WATER.FLO~MIN 39' ~ FINiSHED-WATER;~EOW T6~ ~ATE~NT 0 A CR CS CT ST ID UPDATE CRITERIA VARIANCE VAL ~/ARS 2 EFP ALARM 24HOUR NOTIFY O 3 NTP ANNUC~ATO R ACKNOWLEDGE ~OC 4 EFP.ANNUCIATOR RESET OC 5 NTP.ANNUCiATOR.TEST OC 6 ~/TP.B~CKWASH_RESE RVE FL~RS_ 1_2 OC 7 ~P.BACKWASH_RE~ERVE FLTRS_3 OC 8 ~FFP.B~OWNELLCL LEAK OC 9 ¢/TPBROWNELLCL LEAK F DA OC I 10 VVTP BROWNELL.CL_LEAK_F_DELAY OC 1 ~1 WTP BROWNELL.CL_RES OC 12 WTP BROWN E LL.FLOW ~OCI 1 13 WTP.~ ROWN E LL.FL~W_AVG OC ' 14 WTP.BROWNELLFLOW MAX OC 15 WTP.BROWNELLFLOW MIN OC 16 WTP.BROWNELL FLOW TOT OC 17 WTP.BROWNELLN T F D~ OC 13 WTP.BROWNELL H T_F DELAY OC 19 WTP.BROWNELL H_TURBIDITY 3(; 20 WTP BROWNELL L-CL I~E~ ' )C 21 WTPBROWNELLL CE RES F DA 27 WTP~C H L ORI ~SV316_OP ~ 32 NT P D A T E T I?_E.~H~O.L D~E R , 0 35 ArrP FINISHE D_WATER.FLOW OC : 36 ~FP.F~NIS H E D_WATE R.F LOW_AvG OC 1 ~ ¢VTP. FIN ISHE D_WATE R. ~ LOW_MAX OC 1 33 Aq'P.FIN ISHE D_WATE R.F LOW_MI N OC I A B C D E I F G H I I PT_lO ACCESS ACCESS_FILTER ACK_TIMEOUT ADDR ADDR_OFFSET ADD~_TYPE ALI~_CLASS ALM CRITERA 40 WTP FiNISHED_WATER~H_T_F_DA W %M1972 FQ 41 WT P Fl N ~E D -W~TE R~H_~ ~ LAY W %R2172 FQ 42 WTPFINISHED WATER.H TURBIDITY ~ -1 %M1872 FQ VVTP ABS 43 VVT P FINIS H ED_WATE R.L_C L_F_D ELAY W %R2168 FQ 44 WTPFINISHED_WAT~R,L_CL_RES . LR 1%M1868 ,FQ WTP jABS 45 WTPFINISHED WATERL CL RES F DA W %M1965 54 WT~FLTR-EF~iPUMP4-F DA N %M1918 O FQ 57 ~rlp FLTR_-EE~PuMP4_-ON !~ %Mle17 0 FQ 50 ~F<ELTR ~FF~uM~4 R~ I~1~ ~w %M2038 0 FQ ~1 ~,rFPFLTR_EF~F.~?~M?5_F_DELAY W .... ~ %R212~ 0 FQ ~2 N'TPFLTR EFF.PUMP5 FAIL.R -1 %M1520 0 FQ iWTP ABS ~3 ~TP FLTR~FF~UMP5_ON ~ __ ~4 /~rFPFLTR EFF.PUMP5 RT RESET :W %M2040 0 FQ 06 NTP F LTR_~F,p U MP~_F_DA 67 NTP.FLTR_EFF PUM P6_F_DELAY ~' ~R2122 0FQ 68 NT'PFLTR_EFF PUMP6_FAil- R ; -1 ~M1~22 FO - v~rfP 5, BS 69 NTP.FLTR_EFF PUMPB_ON R ¢~M1 $21 FQ 75 ArFPFLTR UNIT 1H TURBIDITY AR 7~ ~rIpiFLTR UN[T-I.IN- BACfCC,/ASH 1 PT~ID ALM_DEAOBAND ALM_DELqY ALM_ENABLE ALM_HIGH_I ~LM_HIGH_2 ALM HLP FILE 40 WTP.FINISHED WATERH · F DA 0 42 NTP.FINiSHED_WATER, H_TORBIDITY 0 1~ /WTP~iNISHED WAT~RHI T ~iDI~Y 43 NTP ~1NIS~E D_WATE R~_C L_F_DE LAY 0 44 NTP.FINISHED WATER.L CL RES 0 1 \WTPLO CL2 RESIDUAL 45 /~IPFINISH~D WATERL CL RES F DA 40 ,'VTPFINISHED WATERSV317 OPEN 47 NTP FINIS H ED_WATER TURBIDITY C 48 ~q'PFLTR_EFFPUMP1 F DA ~VTP FLTR EFFPUMP1 F_DELAY 50 /VTP FLTR EFFPUMPI_FAIL 0 1 \WTP FLTR EFF.PUMP1 FAIL 51 ArTP FLTR_EFF PUMPI_ON 0 52 ~r~'P FLTR_EFF PUMP I_RT_R ESET £' ' 55 WTP.~L'-R EFF ~LIMP42FZDEL~Y 56 ~,ri"P.FLTR EFF.PUMP4 FAiL _- - ( 1 :¢trl P FLTR=E ~F PUMP4_FAIL 57 WTP.FLTR_EF~PUMP4_ON ( 58 VV[PFLTR EFFPUMP4 RT RESET 59 W3'PFLTR EFF.PUMP4 RUNTIME 60 V~Q P FLTR_EFF.PUMP5_F_DA I ~2 WTP FLTR EFFPUMP5 FAIL 0, 1 I ~VCD~FF.PU~5 ~AIL 66 WTP.FLTR_~FFPUMP6 F DA 68 WTP.FLTR_EFF.PUMP§_FAIL_ 0 I ~ \v',rrP FLTR~EFF~UM~ FAIL I PT ID LM_LOW_I LM LOW 2 %M MSG ALM ROUTE OPER 40 WTP FINISHED_WATE R H_T_F_DA 41 WTP FI NISH E D_WATE R H_T_F_DELAY 42 WTP FINISHED_WATER H_TURBIDIT¥ NTP FINISHED WATER HIGH T BIDITY ALARM ,43 WTp F~NISHED_WATER.L CL_F_DELAY - 44 YrP FrNISHEO_WATER.L_CL_RES NTP LOW CHLORINE RESIDUAL ALARM 45 NTP ~INISHED WATER L CL RES F DA r 4~ ~,ri'P FINISHED_WATER SV317_OPEN 47 ¥i'P FINISHED_WATERTURBiDITY ~ N'TPFLTR EFF.PUMP1 F DA 49 ~VTP FLTR E_ FF PUMPI_F_DELAY 50 NTP FLTR_EFF.PUMP1 FAIL I Ari'p FILTER EFFLUENT PUMP 1 ALARML 51 NTp FLTR_EFF PUMP1]ON 52 NTP FLTR_EFF.PUMPI RT_RESET 53 NTP FLTR_EFF PUMPI_RUNT ME 54 NTP FLTR_EPF PUMPa_F_DA 55 NTP FLTR_EFF PUMP4_F_DELAY 56 /'~'P FLTR_EFF PU MP4_FAIL - ~r~pF LTER EFFLUENT pUM p4 ALARM 57 NTP FLTR_EFF PU MP4_ON 5~] I NTP FLTR_EFF PUMP4_RT_RESET 59 I NTP FLTR_EFF PUMP4_RUNTIME 60 NTP FLTR EFF PUMP5 F DA 61 NTP FLTR_EFF PUMPS_F_DELAY 62 /',rFp FLTR EFF PUMP5 FAIL WTP FILTER EFFLUENT PUMP 5 ALARM 6~I NTP.FLTR_EFF PUMP5_ON 64 i NTP FLTR_E_F[.~P_U~M~5_R~'_?_ E~SET 65 NTp. FLTR EFF PUMP5 RUNTME 66 NTPFLTR EFFPUMP6 F DA 67 NTP.FLTR EFF PUtMP6 F DELAY 68 NTP.FLTR_E FF PU~1P6_FAIL WTP F LTEREFFLUENT PUMP 6 ALARM 69 /~TP FLTR_E FF PUMP6_ON 70 N~P. FLTR_E FF PUMP6_RT_RESET 71 NTP FLTR_EFFPUMP6_RUNTIME 72 ,~TP FLTR UNIT I AUTO 73 ArrPFLTR UNT 1 H T F DA 74 ArrPFLTR UNIT 1H T F DELAY 75 VYTP FLTR_UNIT_I H_TURBIDITY WTP FILTER UNIT 1 HIGH T_BIOITY AL~P~ 76 ArTP FLTR_UNIT_I IN_BACI(WAS H 77 ArTp FLTR_UHI¥_I INF_FLOW ~ VVMmm, JO01 ~ ^LM ROUTE SYSMGR ALM ROUTE USER ALM STR [ALM TYPE ANALOG DEADBAND BFR COUNT BFR DUR 42 ~A~TP FINISHED WATER H_TURBIDITY 45 WTP.FI~I~ER.L CL ~ES F DA 46 WTPFINISHED WATER SV317 OPEN I 0 0 ~ WTP ~i~II~HED_-WATER ~LIRBI~)ITY I 0 0 48 V~LTR EFF PuMPI_F_DA I 0 0 49 WTP~L:r~ EFF~UMPI_F_DEL~Y I 0 51 WTPFLTR EFF.PUMP1 ON '! O 0 ~4 WTP F LTR_EFF PUM P4_F_DA 1 0 55 WTPFLTR ~FFPUMP4 F DEL~Y , 56 WTP:F LTB-EFFiPU~ P4ZF~IL 57 WT~EL~R EFFPUMP4 ON 59 V~TP,FLT~_EF~ PUMP4_RGNTI~E 65 &'TP FLTR_EFF.PUM~5_~U NT~ME I C C O ~8 NTPFLTR_EFF.PUMP6_FA~L i 1 1 3 AL c [ D 69 NT~FLTR EEFPUMP60N_ ~ _ [ [ 0 71 mPFLTR EFFPUMP6 RUNTIMF 1 0! 0 0 75 Ar~P.FLTR UNIT 1H TURBIDITY 1 1 AL 0 0 0 71~ ~VTP.~LTR UNIT lIN BACIONASH I 0 0 0 77 ~VTP.FLTR_UNIT_I INF_FLOW I [ ~ 0 0 0 ~ W~W~2001 ~ A I AG AH I Al 1 AJ AK AL :'T ID/CALC-TYPE CONV_LIM_HIGH. ;ONV_LIM_LOW CONV_TYPE 3ELAY:LOAD DELETE 40 NTPFINISHED WATER.H T F DA qO 41 NTPF~NISHED WATERH T F DELAY 3S 44 ~P F~NISHED WATER L CL_RES 45 ~ FINIS H~_WATE R L_C L_~_F_~X I NO [ 0 47 ~P FINISHED WATER,TURBIDITY NO 4~ ~P,FLTR_EFF-P U MPI_F_DA NO 0 50 ~p FLTR_EFF PUUm_FA~L NO 0 AR 51~PPLT~ ~FFPUMm ON~ NO 0 52 ~p FLTR-EF~.PUMPI_RT RESET Uo 54 ~PFLTR~EFF.PUMP4 f DA ~ ~]] ~NO 0 57 ~PFLTR-EFFPUMP4 ON 58 ~P F[~-E~F.PuMP4 RT RESEY ~d ~ - 60 ~P FLTR_EFF.PUMP5_F_DA NO ~ FLTR~PUMPS~F~IL 'mN5 0~R NO 64 ~.~LTR EFF PUMP5_RT~RESET ' NO 0 65 ~P FLT~ EFF PUMP5_RUNTIME CS 66 ~p F~R_EFF.PUMP6_F_DA I ~; NO 67 ~P FLTR ~FF~PUMP6_F_DE~Y 'mcs o 68 ~p FLTR EFF;PUM~_FAIL / 71 ~p FE~-E ff PU~P6_~UNTIME ~S 0 76 ~P.F LTR-UNIT-i l~ BA~~H ' A AM AN AO AP I AQ ~T ID DESC DEVIATION PT DEVICE_ID!D~SP_LIM_HIGF D~SP_LIM_LOW 70 ~flP FLTR~EFF PUhlP6-RT_RESET VVTP FILTER EFFLUENT PUMP6 RUN~_MERESET PN_SO0 ~ MVTP FLTR_-UNIT-I__IN-_BACK~/ASH -- ,~[-p FILTER UNIT 1 IN BACiC~/ASH _ I~N-800 A I A~ AS I A~ I AU I AV AW ~ PT_iD DISP_TYPEDISP VvIDTH ELE'~NTSiENG_UN TSiENIJM_ID EQUATIONIEXTRA 40 WTP F NISHED WATER H T F DA 1 PO NT · __~ ; =-- _STATUS 42 WTP.~IN~SHED WATER~H TURBIDITY 1 43 WTP ~INISHED WATER L_-CL_F_DELAY 4 1 MIN 45 WTP.FIN~SEED WATER;~ CL R~S F DA 1 ~POIN~ STATUS 46 W~P.FiNIS~ED~WATER~I~ 0P~N- 1 I 48 WTP.FLTR_EFF PUMP1 F DA 1 POINT_STA~U! 49 WTP:FLTR_EFF PUM~I~F-DELA~ 4: IIMIN 50 Vel PiKLT~_EFF PUMP 1_FAIL 51 VVTP.F£TR_~F_ ~?MP 1_ON 1, 52 WTP.FLTR EFFPUMP1 RT RESET 53 WTP.FLTR-EFI: PUMP1-RU~TiME ~ i ~OURS 54 WTP ~LTR-~F puMP4=r DA 1 POINT STATUS~ - [ 59 V~.FL~R_EFF~UblP4_RUNTIM~ ~ i HouRS 63 WTP FLTR_EF~]PUM P5~ON 1I 65 WTP FLTR_~FPUMPS_RUNT ME - ~ I HOURS 66 WTP,FLTR_EFF PUMP6_F_DA ~~PO~NT ~TATu! 67 WTP.FL~R_EFF PUMP6_F_DELAY 4 11.?~N~ ~ ' / 'T~ WTP.FLTR_UNIT_I IN_BA___CK_WA~H' ' A AY AZ BA I BB bCI BD BE DF BG 1 PT_ID -~N_OONV_EQ ,'~R_SCREEN NIT_VALIJIJS~IFICATION LOCAL[LOG_ACK _OG_DATA LOG_DEL LOG~GEN 40 WTP. Fl NISH E D_WATE R. H_T_F_DA !LEFF 0 46 NTP.FINIEHED WATERSV317 OPEN LEFT 47 NTP ~1N iSH E D~WA~ ~R.TU RBI~ITY I_~Pf I 54 ~PFLTR EFFpUM~4_~_OA ) .EFT C 59 ~P.FLTR_E FF PUM P4_RUNTIME %P/10.O LEFT [ L 60 ~P."~T ~ ~U M P 5_F_DA L~FT I [ ~1 ~.~L~ -E ~" ~MP5_F_D~ ~Y %P/~ O0 LE~ [ i ~3 ~P~FLTR_EFF[~ ~ : LE~ 0 66 ~fi ~[TR_~PUMP6_F_DA LEFT 0 67 ~EY~_~.~UM~6_F DE~_ Y _ %P/B00.00 'LEFT 0 68 ~P FLTR_EFF PUMP6_FAIL LEFT 0 0 0 ~ 69 ~P.FLTR EFF.PUM~ ~N LEFT 0 71 ~PFLTR EFFPu~P6 RUNTIME ¢~P/100 LEFT 0 ~ ~P~LTR~UNIT~I AU~ LEF~ ~ 0 / PT ID LOG RESET 4~- ~*rrP FINiSHED_WATER H_T_F_DA 41 FCfF.FINISHED WATER.H T F DELAY 42 WTP.FINISHED_WATER.H_TU RBIDITY 0 43 WTP FINISHED WATER. L CL F DELAY 2 44 wqrP FINISHED WATER L CL RES 0 5 45 WTP FINISHED_WATER L_CL_RES_F_DA 1 46 WTP FINIS H ED_WATER SV317_OPEN I 1 47 WTPFIN~SNED WATER TURBIDITY 1 49 WTP FLTR_EFF PUMP1 _F_DEL~Y 1 50 WTP FLTR EFFPUMPI FAIL 0 51 WTP FLTR_EFF PUMPI_ON/[ I 1 52 WTP FLTR_EFF PLIMp I_RT_RES£ I' 1 53 WTP.FLTR_EFF.PUMP I_RU NTrM E 1 58 ~rlPFLTR EPF.PUMP4 FAIL , ~ ( 1 57 NTPFLTR EFF,PUMP4 ON 58 ArFP F LTR_EF F PUMP4_RT_RESET 59 NTP FLTR_EFF ~ U MP4_RUNTIME ! ~ 1 60 NTP FLTR_EFF PUMP5_F_DA 1 61 NTPFLTR EFFPUMP5 F DELAY I 2 63 ,'VTP FLTR EFF PUMP5 ON ~ 1 64 /VTP.FLTR_EFFPUMP5_RT RESpEcT 65 NTP.FLTR E~¢.PUMP5 RUNTIME 1~ 1 _ _ I 86 Ar f P. FLTR_E F F.PUMPS_F_DA 67 ~rPFEFR iFC.PUMP6 F DELAY 1 2 68 ~NTP FLTR_EFF PUMPS_FAIL 69 ¢,/TP FLTR_EFF P U MPS_ON 70 ~ F LTR_EFF PUMP6_R F2RES ET 1 71 WTP.FLTR_EFF PUMPS_RUNTIME 1 72 WTP FLT~_UNi~ ~ 1 ~ WTP FLTR UNIT~_{~_T_F_DA 1 78 WT~ FLTR_UNIT_' 'N_BAbK1/VASH .... 77 WTPFLTR UNIT 1.1NF FLOW 'i PT ID]PTMGMT PROC ID PT ENABLED PT ORIGIN PT SET NTERVALIPT SET TIME PT TYPE RANGE HIGH 'RANGE LOW 40 WTP FINISHED_WATERH_T_F_DA ' I D ~ 48 VVTP,FLT~_EFFPUblPI_F_dA 1 ~3 :BOOL [ ~ 1[ ~ ] 4g ~.FLTR EFFPUMPI_F_DE~" ~ 1~ NT I J 50 ~P.FL~R~FF PUBF~_FA~ 1 D ~ BOOL 54 ~]F LT~_EFF P ~MP4_F_DA I BOOL ] ~ 55 ~P FLTR EFF PUMP4 F DE~Y_ - ~~l S3 ~: I BOoLINT /~;:: L PUMP4-ON ~ 5~ ~FL~ EFFPuMP4~AIL 1 ~ 59 ;~P FLT" EFF.PUMP4_RU~IME D ]]] ]]~m 62 ~P F LT~_EF F. PUMPS_FAIL q ~ -- BO~[ 68 ~P~TR E~UMP~FAIL ' I b ~ 76 ~P ~ ~TR-UNIT=~ IN ~AC~SH ^ I ,:,v 4~ ~P F~NISHED_WATER L_~_F_DE~Y 44 ~P.F~NI~HE~_WATER L_~RES -1 0 -1 45 ~P.FINISHED WATER L CL RES F OA 46 ~PFINISHED WA~R SV317_OPE~ I 49 ~PFLTR EFFPUMPI F DE~Y 54 ~P FLTR_EFF.PUMP4_F_DA 55 ~P FL~_~¢F.PUMP4_F_DE~Y 5~ ~P ~[~R_~ ~[PUMP4_FAIL j -1 0 57 ~P FLTR_EFF PUMP4_ON 58 ~PF[~ ~FPUMP4 RT RESET 59 ~P.FLTR_EFF PUMP4_RUNTIME 60 ~ F[~R_~F PUMPS_F_DA , 61 ~F[FLTR EFF.PUMPS_F~DE~Y 62 ~P FLTR EFF.PUMP5 FAIL ' -1 0 -1 63 ~ FLTR-EFF.PU~PS~ON/' ~p FL~ff PUMPS~RT_RESET 65 ~P FL~_EFF PU MPS_RUNTI~ E , 66 ~P F LTR_EF~ P UM~6~F_DA 07 ~P FLTR_EFF PUM P6_F_DE~Y 68 ~P.FLTR_EFF PUMP6_FAIL '~ 0. -1 69 ~P.FLTR_EFF.PUMP6_ON 70 ~.FLTR EFF.PUMP6 RT RESET 72 ~P.FLTR UNiT 1.AUTO 77 ~PFLTR~O~i~I 'N~ FL~W A CC I CD I CE CF / CG CH CI 40 ~P]~INI~HED~AT~RH T F DA WATER P~T I 0 I 45 ~fiFINISHED_WATE~L_CL_RES F_~A. WATER_P~N~ 47 ~INIS~_WATER ~0~BIDITY WATER_P~NT 0 48 ~P.FLTR_EFF PUMP ~ _F~ ~ WATE~T 0 50 ~P.FLTR~EFFPUMPI F_ AIL W~E~ 52 ~P FL~R_EFF.PUMPI_RT_RESET WATER_P~NT C 1 54 ~P FL~ EFF PUMP4 F DA ~ ~.~L~R EF~ PUMP4_ON NA~R P~NT ( 1 = ~ATER PmNT 6~ ~PFL~EFF.POMP5 F OE~Y ~ATER_P~NT %P'60000 0 B2 ~p FLTR_EFF.PUMP~IL ~ATER_P~NT , ~ ~ffFLT~ EFFPU~P6_hT_RESET WATER_P~T 0 = - WA~A~p~NTI 72 ~P FLTR~NIT 1~ AUTO 75 ~ ~ FLOR_UNIT_ 1 ,H_TORBI DI~ WATERSPOUT C 1 1 PT_ID SETPOINT_HIGH~SETPOINT_LOWTIME_OF_DAY TRIG~_C~_PT~TRIG_PTITRIG_R~_ ELJTRIG~VAL iUAFSET 40 ~P.FINISHED_WATE R H_T_F_DA 41 ~PFtNISHED~ATER.H_T_F DE~ 42 ~P FINISHED_WATER.H_TURBIDITY 43 ~ FINISH ED~ATER.L_CL_F_D~Y 50~ ~ i qO 44 ~p FINIS H EO_WATER L_CL_RE8 45 ~P.FINISHED WATER L CL_RES_F_DA 47 ~P. FiNiSH~D_WA~ER TURB~EITY NO 48 ~P FLTR_EFF.PUMPIF DA~ i~ ~ ~ ~ " ~o 53 ~ F~T~=~F PUMPI~RUNTIME / 55 ..... ~ No 62 ~P.FLTR_EFF.PUM P5_FA~L 63 ~P.FLTR_~F P0~P 5_~ 68 EFF PUM~ FAIL ~PFLTR~FPu~P6_~ ~ ~[ ~ ~ ~ NO 77 ~P.F[TR-UNI¢I i~F FLOW ' N6 A I CR I CS CT 1 PT_IDIIJPDATE-CR~TERI'~ ;ARI^NCE=VA_t% VARS 40 WTP.FINISNED WATER.H T F DA 41 WTP FiNiSHED_WATER H_LF_DELAY O~ 42 WTP FINISHED_WATER.N_TURBIDITY OC 43 WTPF~NISHED WATERL GL F DELAY OC 44 WTp FINISHED WATERL CL RES OC 46 WTF FINiSHED-_WAf~R S~/31~_OF~N- 47 W%P.FINISHED_WATER TURBIDITY i ~C 49 WTP.FLTR~EFF.PUMPI=~F DELAY 50 WTP.FLTR_EFF.PUMPI_FAIL 51 ~'P,FLTR_EFF PUMPI_ON _ 53 NTPFLTR EFFPUMP1 RUNTIME OC 55 /VTF ~LTR_EFF PU blP4_F_OELA¥ 58 ,'¢1P.FLTR_EFI- PUMP4_RT_RESET OC 59 ."¢rP.FLf R_~ FF PUMP4_RUNfI~E O6 60 Art P F LT Ft _E ¢~:P U'MP 5_F_DA OC 81 ¢~f~;~LTR EFF,PUrvlP5 F DELAY 63 ¢/TP FLTR_EFF.PUMP5_ON 65 WTp ~LT~2~FF pUMPS_RUN fiME 'OC I 66 ICFp F Lf~ECF PUM P6_F_DA OC L 67 WTP.FLTR~EFF PUMP6~_DELAY OC 68 WTP.F£TR EFFPUMP6 FAiL OC 69 WTP.FLTR_E FF PUMP6_ON OC 70 '¢rfP. CLT R_E FF. PU MP6_~R~ ~'_R E S ET 71 WTP fLTR_EFF PUMP6_RUNTIME OO 72 WfP FLTR_UNIT_I AUTO OC 73 WTPI-LTR UNiT 1h T F DA OC 74 WTP F LTR=UNIT_I.H_T_F_DELAY ~C 75 WTP FLTR UNIT 1.H TURBIDITY 76 WTPFLTR_UNIT 1.1_ N=BACKWASH~ ~C__ I 77 WTP.FLTR UNIT I.INF FLOW DC I 3T ID ACCESS ACCESS_FILTER ACK_TIMEOUT ADDR . ADDR=OFFSET ADDR_TYPE iALI~_CLASS ~ALM_CRITERIA ,~22~ ~ ~ 80 AqP.FLTR UNiT I ~NF FL~ M~N ~ voR~ 0 FQ 84 ~P FLTR UNIT 1 ~ANUAL~R ~MI~0~. C FQ 86 ~PFLTR UNIT IP ~E~Y ~~0~2 ~°/o~ bFQ 91 ~PFLTR_UNIT_I.~UNTIME ~ %R2026 6 FO 92 ~LTR UNIT 1.TF=START_LEV W %~2300 ~ 93 ~P FLTR~UNIT_I .TF_STOP_LEV ~ %R2301 0PQ ,101 ~ FLOR UNI~ ~.i~ FL~ AVG ]~ %R224G 0 FQ 103 ~P,FLTR_UNIT_2 INF FLO~MIN R %R2242 ( FQ 104 ~P.FLTR_UNiT_2 iNF_FL~W~TOT R %~2248 ( FO,' 107 ~P FLTR UN1- ~2.~NUAL ~ ' %M1707 FO FLZR_O T_ :5N 11C ~.FLTR_UNi~L2.P_LOCK -- ~ ~ [ ~7~ %M2191 ! ~ ~Q 111 ~FLTR ~NIT_2 P~STEP N~ %R219~ ' 0 FQ .... 0 FQ 11~ ~PFLTR UNIT 2.RUN ~LL ~ %M1834 ~ FQ %~O2~ ~ FQ I 11z ~P FLTR-UNiT-2~UN~IME ~ ~' Fb 11[ ~P FLfR-UNIT-2TF S~ART LE~ ~ %~302 3T ID ALbI_DEADB^NQ ALM~?~LAY ALM_ENABLE ~ALM_HIGH_I ALM_HIGH_2 ALM_HLP_FILE 78 ~PFLTR UN,TI.,NF FLOWAVG .... I ~ 79 ~PFLTR UNT I.INF FLOW M~ 80 ~P.FLTR UNIT I.INF FLO~M N 81 ~P.FLTR UNIT IlNF FL~ TOT 0 L 89 ~. FET._UNIT 1 RT_RESET I ~ 103 ~P FL~.R~NIT 2_ .INF_FL~M~N _ _. 1 PT ID ALM LOW I ~d.m LOW 2 MSG ALM ROUTE OPER 89 mPFLTR UNIT 1RT RESET 91 ~P FLTR~UNIT~IRUNT~M- E 101 ~P FLTR_UN~T_2]i~_FLS~_AVG -I 103 ~P.FLTR UNIT_2,1NF_FL~_MIN 1 ~ ~.F LT~_U ~i~ F_~TOT 115 ~F~[~R UNIT 2.~ ~RT LEV I 1 PT_ID ALM_ROUTE_SYSMGR ALM ROUTE USER !ALM STR ]ALM TYPE ~,N~LOG DEADBAND FR COUNT BFR DUR ~ ~P r[.~ UN~ ~INF FLO~ AVG ? Oj 0 80 ~PFLTR UNIT_I INF_FLOW_MiN I 0 81 ~FLTR UNIT ~i~F FLOW ~0T I 0 84 ~.~[TR UNIT-~ MANU~L ~ 0 d 85 ~P.FLTR~UNIT~I~6~ ' 0 0 9~ ~PFLTR_UNIT_I.TF STOP LEV 1 0 C ~ ~PFLTR_UNIT_2.H T F_DE~Y ~ ~ ~ ~ 115 ~P FLTR~UNIT-2 ~F S~ART_LEV~ 0 A I AA I AB J AC AD AE AF 1 F~TID BF~ EVENT pERIOD ..... 78 ¢VT~FLTR UNIT I~NF FLOW AVG I ( 1 0 0 79 ¢VTp F LTR=U N ~T- 1 ~INF-FL OW-MAX! ~ 1 0 0 89 ~P.FLTR U_ NIT_I RT_RESET 0 ~ O 0 90 ~P FLTR_UNIT_I RUN_CALL 0 1 ~ 0 0 92 ~PFLTR UNiT 1.TF START LEV 8 1 0 0 0 95 ~P FLTR_ ~ j 111 ~P;FLTR_UNIT_2 P_STE~ A AGI AH Al ~J AX I AL 78 ~P FLTR_UNIT~I INF_FLOW_AVG NO 79 ~p FLT~UN~T_I tNF=FLOW~ NO 0 84 ~P~L~ UNI~MANUA~ ! i N~ 0 87 ~P FLT~_UNiT_I P_LO~ ~N0 88 ~P FLTR UNiT 1.P STEP 92 ~P.FLTR~ONI~_I ~F_START_E[9 C~ ~04 ~P FLTR_UNIT_2.1NF_F LO.TOT N0 1 o~ ~ ~gT~fl N~;'~ ~e U 10[ ~.FLTR UNIT 2.P_DE~Y 11C ~P.~R_UNI~2 ~OCK A !DE$C AM AN AO I AP I AQ 78 WTp FLTR_UN[~ IINF FLOW AVG WTP FILTR1 DAILY AVG INFL FLOW (GPM 10) PN_800 79 WTP~FLTR UNi~_~tNF_FLOW_MAX WTP FILTR1 DALLY MAX INFL FLOW (GPM 1.0) PN 800 81 WTP ~LT R_ LIN IT_I .IN F_F L OW_TO} WTP FILTR~ DAILY TO~ IN-FL FL (MGO 0J]01 ) PN_800 83 WTF FLTR UNIT 1.KW MEASURED ~ NTp FILTER UNIT1 KW MEASURED M~LUE ~4 ~ ~LTR-UNI~:ilMA~IUAL~ NTP FIL_~R UNIT 1 IN M~NDAL ~N 800 90 WTP FLTR_UNiT_~ RUN_CALE /VTP FILTER UNIT 1 RUN CALL PN_800 91 ~'TP FLOR UNIT 1 RUNTIME ,~rp FILTER UNIT 1 RUNTIMEVALUE PN 98 A/TP FLTR_UNIT_2.H_TURBID~TY ~/YP FILTER UNIT 2 HI TUR01OITYB ALAF{M PN_800 99 NTP F LTR~U NIT_2. IN_BACKWAS H ~ FIL~ER UNIT 2 iN BACKWASH PN_800 101 NTP F LTR_UNIT_2.1NF_FLOW_AVG ~1P FILTR2 DAILY AVG INFL FLOW [GPU 1.0) P~PN_80? lOz NTE FLTR_UNIT_2 INF_FLOW_TOT ¢.,'TP FILTR2 DAILY TOT INFL FL (MGD 0.001) 105: /V-P FLT[~' '[ J ~TT_-2 'i~'~ WTP FILTER UNIT2 KW MAX KW RATING -- 106 /~TP FLTR_UNIT_2 KW_M~URED WTP F LTER UNIT2 KW MEASURED VALU[ '~ 10 ~rP~LTR UNIT 2 P LOCI( . . .i_wr~~ ~}~-T_ER_~IT_2.FO~WER LIp LOCKOUT =N_800 : '~ 15 ¢~-~ FLTR UNIT_2 TF_START LEV ~V~FP ~iLTER UNIT 2 TERRA FERN START L~VEU P',l_so0 ~ V~ma~2001 ~1~ A AR ^S I A~-I AU AV AW lAX 1 PT_ID DISPTYpE 31SP_WIDTHELELEMENTS,£NG_UNITS[ENUM_ID EQUATIONJ 78 V~'P FLTR UNIT 1 INF FLOW AVG I GPM 0 79 ~PFLTR UNIT 1 INF FLOW MAX 1 GPM 80 ~PFLTR UNIT 11NF FLOW MIN I GPM 81 ~PFLTR UNIT 1 iNF FLOW TOT I 1 MGD 100 ~P FLTR UNIT 2.1NF FLOW I O~ 107 ~P FLTR_UNIT~2.~NUAL : -. 11~ ' ~i~ STATUS 11C ~P,FLTR_U NIT_2 P_LOCK .-- I _ 1 PT_ID FW_CONV_EQ ~R_SCREEN INIT_VAL JUSTIFICATION LOCAL _OG ACK LOG DATA LOG 78 VVTPFLTR UNiY~NF FLOW AV~ ~ iLEFT .... 0i 79 WTP FLTR~UNIT=I INF-FLOW-blAX[ ~EFT 80 WTPFLTR UNIT IlNF FLOW MIN LEFT 0 81 WTPFLTR UNIT 1,1NF FLOW TOT LEFT 0 82 WTPFLTR-UNIT 1 KW-MAX ~I LEFT 0 0 83 wfP FLTR-UNIT-I .KW~MEAS U RE D ! 0LEFT ~ 0 84 WTP FLTR_UNIT_I.MANDAL , iI-EFT 0 85 WTPFLTR UNIT_I ON LEFT 86 WTP ~TR_UNrT_I.P_DELAY %P/600 00 LEFT ! 0! 87 WTP FLTR_UNIT_I R_LOCK ~EFT 0 88 v',rFp FLTR UNIT 1 P STEP ~ ~ LEFT 0 89 WTP FLTR_U NIT_I .RT_RESET LEFT 0 §0 ~FFP FLTR_U NIT_I .RUN_CALL LEFT 0 91 WTP.FLTR_U NIT_I .RUNTIM E ~%P110.0 LEFT ' 0 92 WTP FLTR UNIT I TF S~A~T LEV YoPN00 LEFT 0 93 WTP.FLTR_U NIT_I TF_STOP_LEV YoPII 0.0 LEFT 0 ' 94 ~rFP.FLTR UNIT_I.TURBIDITY LEFT 95 WTP.FLTR UNIT 2AUTO LEFT ' 0 96 WTP.FLTR UNIT 2H T F DA LEFT ~ 0 105 WTP FLTR UNIT 21NF FLOW M]N LEFT I o lO: LEFT 10( NTP FLTR_UNIT_2.ON ~ 'LEFT 0 ~ NTPFL~F{ UNIT 2.P DELAY %Pt60000 'LEFT 11( NTPFLTR UNIT 2.P LOCK LEFT 111: NTPFLTR UNIT 2.P STEP LEFT ~ NTP FLTR-UNIT 2,R- ~ RESET LEFT /VTP.FLTR_UNIT_2.RU N CALL : LEFT 114! NTP FLTR_UNIT 2.RUNTIME %P110.0 I LEFT 115 NTP FLTR UN[T_2.TF_START_LEV i%P110.0 i LEFT ~1~ VV3~2001 ~ A BH I BI BJ I BK IBL BM 82 v~rPFLTR U_ NIT~IKW_MAX MAS~E~PTDP_RF 83 WTPFLTR_UNIT_I KW_MEASURED MASTER PTDP RP 88 W3'F'FLTR_UN~T_I P_STEP 89 WTP FLTR=LINIT_I RT_RE~ET li 95 WTPFLTR UNIT 2AU~0 ' 1 ~ ~rrp FLfR_U NIT_-2 H-TiP-DElseY 98 WTP F LTR_UNIT_2 "_TURBIDITY £ ] 1 99 WTPFLTR UNIT 2.IN BACKWASH - 1 10-~ ~TI~ LT R-U NIY-2. KW-M AX~ i ~IASTER_PTDP_RP ' 10( ~[P.FLT R_-U NIT-_2. KW-_M~:AS URE D '- = ~4ASTER_pTDP_RP 10~ NTP.FLTR UNIT 2ON _ _ I 09' NTP.~LfR-UNiT_-2 p_D~LAy , 1 ~ ' 1~0 ~P FLT"_UNIT_2 P_LOCK 13 A~'p FLTR_UNiT_2 RUN=CALL 82 ~P FLTR UNIT 1 ~ MAX MASTER P~0 RP 1 G INT 83 ~P FLTR_UNIT_I K~MEASURED ~STER_PTMO_RP 85 ~P.FLTR UNIT 1ON 1 D ' BOOL 1 85 ~F~ UNIT 1 P DE~ -- I D INT 87 ~PFL~ UNIT 1 P LOCK 88 ~P FLTR~UNI~I~-STEP 89 ~P ~LT~ UNtT 1 RT ~ET 1' 90 ~P FLTR_ UNIT_ 1.RUN _CALL I 92 ~PFLTR UNIT I.TF START LEV 1 ~ INT 32 9~ ~P.FLTR UNIT 2H T F DA 1 D BOOL 1 9S ~P.FLT~ UNIT 2 h TURBIDITY ~ ~ D ' BOOL 10~ ~P FLTR UNIT 2.1NF FLOW MIN 1 O INT 10z ~PFLTR UNIT 2.1NF FLOW TOT 1 D [NT , 110 ~P.~LTR UNI~ 2.P LOCK ---- -~ b ~5[ ~ ~ 0 ~P FLTR UNIT 2.RT RESET , 114 ~ ~[YR UNIT 2.RUNTI~ 115 ~P.FLTR UNIT 2.TF START LEV g NT 32[ 0 A I BV BW BX BY BZ I CA CB 1 PT ID RAW LIM HIGH RAW LIM LOW REP TIMEOU] RESET_ALLOWED RESET COND]RESET PT RESET TIMEOLr 81 ~ ~P FLTR_UMI~=~ INF~FLOW_TOT 84 mP FLTR~UNI~I MA~AL ~ 85 mP FLTR~UN T_I ON 13: ~P FLTRZU NIT~2 REN_CALL A CC / CDI CE CF CG OH ICI 1 PT_ID RESOURCE ID~RlEV CONV EQ ROLLOVER VAL SAFETY_PT 3AMPLE INTV SAMPLE INTV UNIT SCAN P~.TE 78 V~r~ ~F LTR_U NIT_ 1 I N I-_F LOw_AVG ~A~T ~R_~L~N T = ~ J = - ~ - 81 ~PFLTR_UNIT IINF FLOW TOT NATER~P~T 0 89 ~PFLT~ UNIT I~RT ~ NATER P~NT O 97 ~ FL~U~T~2 H T ~ DE~ ~ATER_P~NT %P*600 00 ' 0 9S ~P F L~_UNIT_2,H_TU R BIDI~ , WATER_P~NT 0 105 ~b.~TR~UNIT~2 ~_M~ WATER_P~NT 0 109 ~'~FLfR_UNI~? ~=~E~ WATER_P~NT %~'~ 00 - C 1 114 ~P FL~_UNIT_2.RUNTIME WATER_P~NT %P*100 0 1 115 ~PFLTR~UNIT_2~F_S~LEV ~WATER_P~NT %P*100 ' ' 0 1 ^ I oJ cK I c, I cu I c" I co I cP co 1 PT~D SETPOINT_NIGH ~ETFOINT_LOW TIME_OF_DAY TRIG_CK_PTITRIO_PTLTRIG_RBL TRIG_VAL 7~__- - ~ ~ 91 mP FLTR_UNIT]1RUNTIME ~ ~ ~0 93 ~P FLTR UNIT 1.TF STOP LEV 3; 0 NO 95 ~P.FLTR UNIT 2.AUTO NO 98 ~.FLTR UNIT 2 H TURBIDITY NO 100 ~P.FLTR_UNiT_2 INF_FLOW NO 1D1 ~P FLTR UNIT 2 INF FLOW AVG INO 102 ~P FLTR UNIT 2 INF FLOW M~ 103 ~PFLTR UNiT 21NF FLOW MIN NO 11 C ~P.FLTR_UNiT_2 P_LOCK NO 111 ~P FLTR_UNIT_2 P_STEP NO ~T I_D UPDATE=CRITERIA VARIANCE~VAL VAR~ 78 AFrp FLTR_UNIT_I INF_FLOW_AVG lOC I 79 ~.rlPFLTR UNIT I lNF FLOW MAX Oc 81 ~P FLT~_UN?_%~NF~FLOW_TOT OC I I / 98 ~FL~R=uNiT-2H-TURBIDITY ' 3C I 99 ~PF~TR ONiT 2I~ BAC~ASH I 1o3m ~.FLTR-U NIT-2.1NF-F Lo~MIN 107 ~P FLTR_UNIT_2 MANUAL OC 108 ~P FLOR_UN(T_2 ON moo 109 ~p FLTR_UNIT_2.P_DE~Y OC 1 111 ~P ~LT~ O~IT 2.P STEP OC 1 112 ~P FLTR~UN~_RES~ OC ~ 1 113 ~P~LiR_~i~_~RUN_CALL OC 114 ~P.FLTR UNIT 2.RUNTIME OC i 115 ~P.~LfR~U~i~2 iPjsTA~L~ 1 PT ID ACCESS IACCESS FiLTERIACK TIMEOUT ADOR AOOR OFFSET ADDR TYPE 11( h~TP.FLTR UNIT 2TF STOP LEV N ~ !%R2303 0 FQ 11~ NTPFLTR_UNIT_3AUTO R %M1711 ~ 0 FO 120 ~P.FLTR_UNIT_3 BACKWASH_FLOW ~ ~R2022 0 FQ 123 ~P FLTR_U~I~_3 ~C~ASH_~OT ~ Y~R2232 0 FQ ~ 126 ~P FLTR_UNIT_3.~YI_H_TURBIDITY -R i -1%MI827 C FQ ~P ABS 127 ~P FLTR~U~iT_3~AYI_TURBIDITY R , %R2006 ~ ~FQ 128 ~P FLTR~U NIT_3.BAY2_H_T_DE~Y ~ I%R2128 ~FQ 129 ~P.FLTR_UNIT 3. BAY2_H_T_F_DA W 131 ~PFLT~-O~J~BA~R~T~ - R %R2014 ( FO 142 ~FLTR_UNIT_3 P_DE~ W %R2183 0 FQ 142 ~]~[~R_~NI~_~]P_LOCK ~ N %M2192 0 :O 1 PT I_D ALM_DEADBAND 'ALM DELAY JALM_ENABLE [ALM_HIGH_I JALM___H!~H~ ^LM HLP~ILE 116 ~P F LTR_U NI~_2.TF_STOP_LEV , 11~ ~P FLTR_UNIT_3 BAC~ASH_AVG 12~ ~ FLTR_UNIT_3 ~c~H_T6T 139 148 ~ P F ~T~_U~ IT_3~ ~_S~ART_LEV 0 ~4~ ~P FLTR UNIT 3.TF STOP LEV 0 A 116 ~/TP.FLTR UNIT 2TF STOP LEV 1 17 CFI P.FLTR_UNIT_2 TURBIDITY 119 ~ FLTR~UNI~3.~C~ASH~¢G 121 ~P FLTR UNiT 3.BAO~ASH 122 ~¢[TRZUNI~3 123 ~PFLTR UNIT 3BAC~ASH ~OT 124 ~P.FLTR_UNIT_3 BAY I_H_T_F_DA 125 ~P.FLTR UNIT 3 BAYI_H_T_F_DE~Y 126 ~P:FLTR]UNIT]3~YI=~4IORBIBITY 12( ~P FLTR UNIT 3 BAY2_H_T_F_DA 131 ~P FLTR_UNIT_3 BAY2_TURBIDI~ 132 ~P FLTR_UNIT_3 IN_BAC ~ASH 132 ~P FLTR_UNIT=3 IN F=FLOW 136 ~P FL~_UNIT_3 INF_FLOW_MIN 139 ~P FLTR_UNIT_3 KW MEASURED 141 ~.~LTR_UNIT_~ 142 ~fi~E~R_UNIT_3 P_DE~Y 143 ~P FLTR UNIT 3P LOCK 145 ~P FLTR_UNIT_3.RT_RESET 147 ~PFLTR UNIT 3 RU~IME 148 ~P FLTR UNIT 3 TF START_LEV A I T I U V W I X Y I Z 118 WTP FLTR_UNIT 3 AUT_ O .. 0 0 11 g WTP FLTR_UNIT_3 BACKWASH_AVG 0 0 121 WTp FLTR=UNIT_3 BACKWASH_~ .~ 1 0 0 WTP.FLTR-UNIT-3, BA YI_H_TURBIDITY i T2E 12~ ~P.FLTR-UNIT-3 BAY{ TURBIDIT~ 131 ,~,rrp FLTR UNIT 3.BAY2 TURBIDITY ~ C 0 132 ,VTP FLTR UNIT 3.IN BACKWASH 1 C O 133 ¢VTP FLTR_UNIT_3.1NF FLOW 1 0 D 134 ~I~.~L'~R~UNIT 3 INF-FLOW_AVG 1 0i O 0 135 ¢~P FLTR_UNIT_3 IN F_FLOW_MAX 1 C 0 0 136 VVTP FLTR UNIT 31NF FLOW MIN ~ l 0 0 137 WTP FLTR UNIT 3 INF_FLOW_TOT 1 138 WTP ~LTR-UNIT 3 K~_~ 0 139 WTP FLTR_UN)T_3 KW_MEASURED 1 0 140 w~P FLTR_UNiT_3.MANUAL I 0 0 141 WTP H_TR_UNIT_3.ON 142 WTP FLTR UNi~_~.P~DELAY 144 WTP. FLTR_U NIT_3 P_S TEP ~ O 0 145 WTP.FLTR UNIT 3RT RESET ' 0 0 146 WTP.FLTR UNiT 3RUN CALL I 0 0 147 WTP FLTR_UNIT_3 RUNTIME 14E WfP I~L~_UNIT_3,TF_START_LEV I fl 14E A/Ti5 F LTR_U NiT_3.TF_STO P_LEV I 0 C 15( NTPINTRUSION 1 5 ~L 0 C 15' NTPINTRUSION F DA I I 15; /',rFP.INTRUSION F DELAY 1 ~ E 0 PANELS KW MA,~ ~' W~tz001 ~ A I AA I AB I AC I AD I AE AF 116~PFLTR UNIT 2TF STOP LEV I o ] 1' o] o 118 ~P FLT~UNIT~3A~O ~ I 1 0 0 119 ~P.FLTR_UNIT_S.BAC~ASH~VG C 1 0 0 120 ~P.FLTR_U NIT_3 BAC~ASH_FLOW [, , 1, 0 0 ~22 ~P FLTR UNiT 3.BACKWASH MIN ( I 0 0 0 123 ~PFLTR UNIT 3 BACKWASH TOT 127 ~P.~[TR-UNIT ~,BAYI~TURBIDITY~ 0 ' ~ 0 0 ~P~ ~ ~T R-U NIT-3~ BAY~H_~D E ~Y 0 I I 0 ~ 2~ ~P.FLTR=6~I~3 BAY~ ~]T_~_DA 0 13C ~P ~L~R=UNIT-~BAY2=~ TURBIDITY 0lJ ~ ( 138 141 ~PFLm UNiT 3ON C 147 ~P FLTR_UNIT_3 RU~TIM E 0 0 0 15C ~P INTR~SIO~ O O 0 A I AG [ AH Al AJ I AK AL PT ID 3ALC TYPE~CONV UM HIGH OONV LIM LOW CONV TYPEIDELAY LOAD DELETE REC 11( NTP.FLTR UNIT 2TF STOP LEV I L 11~ NTP FLTR UNIT 2 TURBIDITY 11~ NTP.FLTR UNIT 3AUTO ~O 0 119 NTP FLTR UNIT 3 BACICCVASH AVG qO 0 121 ¢VT P ~I_~R_U NiT_~. BAD KWASH _MAX NO 0 122 ~¢rp FLTR_UNiT_3.~ACK~/A~H_MIN NO 0 123 WTP.~LTR U~IT~.BACK~A/ASH_TOT I NO 0 124 WTP. FL~ R~U NI~_3. BAYi _H_T~ F_DAL NO 0 125WTP.FLTR_UNIT=3BAYl_N~_F_DELAY ~ il ] i CS O 127 WTP.FLTR-UNIT-3 BAY1 =~RBIDiT~ I ' NO 128 WTP~LTR-UN T-3 BAY2-H T DELA~I ,C$ O 132 WTP.FLTR UNIT 3.IN BACK~/ASH NO 13E WTP FLTR_UNIT_3 INF_FLOW_MIN NO 13.~ ~P ~LTR_U N iT_3. KW_M EA S_U R E D EQU 14( ~TPYEYA UNiT 3.MANUAL 142 ~TP FLTR_UNIT_3 P_DELAY CS 0 143 NTP FLTR~UNI~- 3P LOCK , hJO 0 153 WTP LIGHflN~ CA~I~LS NW MAX ~(~U I I A 1 AM AN AB AP I AQ ~T ID DMSO DEVIATION PT DEVICE I£ DISP tim HIGH DISP LIM LOW 11[ ArT-p FLTR=UNIT=2.TF~STOP_LEV WTp FILTER UNIT 2 TERRA FERN BT0~ LEVEL PN ~oo ] ] ] ]]] ]/]]]5 ~ ~TP.FLTR_UNIT_3 BACKWASH_FLOW WTP BACI(WASH FLOW VALUE (gPM I 0) PN_800 I 122 WTP FLTR_UNIT_3 BACKWASH_MIN WTP BACKWASH MIN DALLY FLOW (GPM 10) F'N_800 123 WTP FLTR UNIT 3 BACKWASH_TOT iW'-P BACK'~/BH TOTAL DAILY FLOWereD ~Om) PN 800 126 ~ F LTR_U N IT_3.BAY~ ~H~TU RBI DITY WTP FILTER UNIT 3 BAY1 HIGH TURBIDITY PN_800 ~ WT p F LT R_U N iT_3. BAY tTLIF[BID ITY WTP FILTER UNiT 3 BAY1 TUBJDITY VALUE PN_800 132 WTP FLTR UNIT 3IN BACKWASH NTP FILTER UHjT 3 iN BACKWASH PN_SOO ~ WTP FLTR_UNIT_3 INF_FLOW~ ~VTP FILTR3 DAILY TOT INFL FL (MOD 0.001) ~N 8___07 _ 13~ /',.'TF.FLTR UNIT 3KW MAX Arlp FILTER UNIT3 KW MAX KW RATING 13.c NTP.FLTR~'UNiT-3 KW=MEAS U RE D WTP ~ILTER U NIT3 RW MEASURED VALUE .... i " &cFi:) ~LTR-UNIT-3.MA~UAL ~VT~FiLTER UNiT 3 N MANUAL PN 800 I ~4( ' - - WTP FILTE~ UNIT~ ON :*N_80O 141 /VTP~E~ UN_ IT_3ON ~ ~ L,~r~ FLTR-UNIT 3 RdN~IME WTP FILTER UNiT 3 RU~i~rlME VALUE PN 800 '14~ ~ ' ' WTPFILTERUNIT3T~FERN~TAETLEVEL PN 800 A ARI AS AT I AU~ AV AW ]AX 1 Pq~_ID - ~ISP~TYPE,DISP_WIDTH ~I.~MENTS ENG_UN]T~ ENUM_ID EQUATION ~XT~ 117 IVI'p FLTRZU N IT._-2 ~T U~ BI DI~ [ 1 NTU 11(. NTP~LTR-UNITZ3~,CKWASH_A~G I GPf~ 0 123 NTP.FLTR_UNIT_3 B^CKWASH TO_ T I I MGD I 0 ' 125 ~P.¢I_TR=UNIT~3 BAY~=H-T-F-DELAY 4 1 MIN ;126 ¢VTP.~LT~=UNtT=~ BAYI-N-T~R-BIBITY 1 O vcr P FLTRZUNIT_-3.BAYI~T~RBIDITY ~ ~TU ; 0 128 ¢~IPFLTR_UN,T_B.B~Y2_H_T_DEL~y 4 i MIN ]]]]]] ]] ] ]]]]] 0 129 ¢¢TP FLTR_LINIT_3 BAY2 "_T_F__DA ! 11 POINT STATU~ 130 WTp FLTR_UNIT_3.BAY2_H_TURBIDITY 131 ~¢iFLTR_UNJT_3.BAY2_TURBIDI~;' I NTU 132 WTP.FLTF~ UNIT 3.IN B^OKWASN J Iq 14~ WTP.FLTR UNIT 3P LOCK I POINT_STATUS 14~ WTP~ETR_UNiT_3 P]STEP I 14( NTPFLTR UNIT 3.TF START LEV ' ~ 1 Fr 150 ~¢Tp INTRUSION I 0 151 /¢rPINTRUSION F DA 1 "5OINT_STATUS[ 0 152 ~ fN¥~USlSN-F-DEI~¥ ~ 41 ~Ml'q 153 NT~LIGHTING ~A~EL~ KW_MAX 1'KW J 0 A I AY AZ I B^ BB BO BD I BE 11( ~PFLTR UNIT 2,TF STOP LEV %Pt10.0 ~ LEFT ' ~ ~P FLTR-UNIT~2 TU~BIDIT~ LEFT 11( ~PFLTR UNIT ~AUTO LEFT 0 12[ ~P.F L~R_~ NIT_3~BA~ ~H_FL~W LEFT 0 132 ~PFLTR UNiT 3.IN ~C~H -E~ i 145 ~P ~[~_UNIT_3.R~_RES ET ~ LEFT ~ O 147 ~PFLTR UNIT 3 RUNTIME %Pt10.0 LEF~ - 0 152 ~P INTRUSION F_DE~Y Y. PI600.00 LEFT ~T_ID LOG_RESET %~X_STACKED MEASUREMENT UNIT ID POLL AFTER SET PRECISIO~ PROC ID ~ ~4TP FLTR UNIT 2 TF STOP LEV 1 117 ¢/Tp FLTR UNIT 2 TURBIOITY 1 118 ~P FLTR_UNIT_3 AUTO 1 122~PFL~UNC3'BAC~ASH~MIN ~ ~]L~ ~ ~ ~ 1 128 ~P FLTR_UNIT_3 BAY2_H_T~DE~Y / i 2 140 ~P FLTR uNIT 3MANUAL 1 145 ~P,~LTR UN~ 3. RT RESET 1 I I NT 122 WTP FLTR_UNIT_3.BACKWASH_MIN 1 D INT 123 ~P FLTR_UNIT_3 BACKWASH_TOT ' ' [3 INT 124 WTp FLTR_UNIT_3.BAYI_H_T_F_DA ~ ~ i BOOL ' 1 125 WTPFLTR UNIT 3.BAY1 H T F DELAY ' ) INT 127 ~,/TP.FLTR_UNIT_3BAYI_T~RBID~TY ' - ~ ~ INT 12c. WTp FLT~_UNJT 3 BAY2~ T_ _F~??_ 145 NTP FLTR_UNiT 3~RT_RE~ET I D B~OL 11 0 148 Arfp FLOR UNIT 3TF START LEV D NT 151 ~PIN~R~ION_F DA ~ D 3OOL 1 0 1 PT_ID = = :~,AW_LIM~LOW REF_TIMEOU~RESETALLOWED ~EBET~COND RESE~P RESET~II~EOU~ 11E ¥1PFLTR U_ NIT_2TF 8_ TOP_LEV 117 ~P FLTR UNIT 2 TURBIDITY 12( ~FLTR UNIT 3.~O~ASH_FLOW 121 ~P ~[~R-UNI~ACK~ASH MAX I 122 ~P'FL~"-UNIT-3"AC~ASH-MIN1 ~3 ~P FLTR_UNIT_3 'AC~A~H_TOT 136 ~P FLT~U~[Ti3 'NF_FLO~MIN 137 ~P FL~NI~33NF_FLOW_TOT 13~ ~ ~TR_UNIT_3 ~ M~URED SI ~4C ~P FLTR_UNIT_3 ~NUAL J 141 ~]~E~_~J~_3 ON[ ' 14~ ~P FLTR_UNIT_3 P_STEP 1 ~2 ~P~NTRUSJ~N_F~E~Y 117 WTP.FLTR_U N IT_2 TU RBI PITY W~_TE_R_ PLANET 118 WTP.FLTR_U NIT_3 AUTO WATER_PLANT 119 WTP FLTR UNIT 3 BACKVVASH AVG WATER PLANT 121 WTP~LTR_UNIT_3.~ACNWASH_MAX 'WATER PLANT 122 Vel P F LT R_ U NTT_3 [BA~ KWA~H_MIN NATER_PLANT 12.~ WTP.FLTR_UNIT_3.BAYI_H=T_F_DA ~VATER_PLANT 12~ ~PFLTR_UN~T 3BAY2_H_T_DE~Y WATER_P~NT 133 ~P.~LTR d~lT ~.IN~ FL~ WA~R~ 139 ~P FLTR-UNIT-3 ~-MEASURED WATER_P~ 140 ~P.F LTR~UNtT~3.~UAL WATE R_P~NT 141 ~P.FLTR_U~JT_3.ON ~ ~Nf 144 ~P ~TR-UNIT_3~P wATER_P~NT ~P FL~ UNIT' ~RT RE~T ~ATER_P~ 14~ .... ~ATER P~ 15~ ~P ~T~US~ON 151 ~P]NTR~siON_F_DA" ~R_P~NT A I CJ I CK I OL CM CNI ¢OI CP OD 118 ~P FLTR~UNIT-3 AUTOd qO J 121 ~p. FST ~U N~C3 B~C ~A SH_~ ~' NO 132 ~P FLTR_0NI~_~.IN_~C~ASH NO I 135 ~P FLTR_UNIT=3.1NF=FL~_~ m ~ ~ ~ ~LT~_U~ ~F_FL~T~T ' ~0 ~ ~0 ~P FLTR_UNIT_3 MANUAL - '_]]] - - J iN9 - ~42 ~FLTR_UNIT_~ P_D E~Y 50 0 NO 147 ~P~FLTR_UNIT_3 RU~IM~ , ~O 149 ~.FLTR UNIT 3TF STOP LEV 32 0 ~O / A I CR CS CT 1 FcC-ID 122 NTP FLT R_U NIT_3BAC KWAS H_Mi~ 123 .~TP, F LT R_U NIT_3 BAC K~,~/ASH_TOT CC 129 WTI~ FL¥~ ONT~ ~.B~Y2 H T F DA '~ I 1 135 WTP FLTR UNiT 3.1NF_FLOW_MAX oC 139 WTP FLTR_t)NIT_3 KW_MEASURED (, 140 '¢¢1P.FLTR_UNIT_3 MANUAL OC 141 WT P;FL~R_UNiT_3 ON OC 147 WTP.FL I- R_U NIT_3 RUNTIM E 1 PT_ID ACCES~ ACCESS FILTER ACK=TIMEOUT ~,DCR &DDR_OFFSET ADOR_TYEE~ AL~CLASS ALM_CRITERIA 154 WTPLIGHTING PANELS MEASURED IW I 155 ~lP RAW WAVER H T ~ DA ~ %M1974 [ F~ I i 16~ ~P.~W_WATER~BPSINTRU_F_DE~Y ~ %R2106 ~ 0 ;Q 167 ~ ~W_WAT~BPS~O~UC~_D~Y N [ %R2108 0 FQ 16~ .... %M1902 ~ FQ 17: ~W WATER BPS.PI ON ~ - %M1~1 0 FQ ~ ~,~W~WATER~BPS.PI~RT_RESET N %M2032 0 FO '182 ~ ~W WA~ ePs. P2 F OA ~ ' ~904 C FQ 188 ~P.~W~ATER_BPS,P2_RUN_CALL R %M1832 0FQ 1 PT_ID ALM DEAD,,ND ALM_OELAY LM_ENA ALM_HIGH I ALM_HIGH_2 ALM_HLP_FILE 15~ WTPLIGHTING=PANELS M_ EASURED 15( ~P ~W_WATER H_T_F_DE~Y I ~5~ ~P ~W WATER BPS FLD A~RM O 1 162 ~]~W_WA~ER_BPS IN~0'~ DA 163 ~P~w_W~ER_BPS INTRU f DE~Y C 164 ~P ~W_WA~R_BPS INTRUSION C 1 1 ~W WATE~ 165 ~P ~W~ATER~BPS.LO~UC~LM 0 ~ ~)~P ~W~ATER BPSZ~ ~UCT]ON_~LM 167 ~P.~W~A~ER=BPS LOSUC_F_DE~Y 171 ~P]~WATER_~;~I]FAIL ( 1 1 ,~P~W WATE~BPS P~FAiL 172 ~P~W WA~R_B~S PI_~ANUAL C 173 ~ ~W_WATE~_B~ P 1_O~ 174 ~PT~W_WATE R_BPS.PI_~T_RES E~ 0 ~ ~P~W~ATER~.PI_RON~ALL ~i _ ~ ~P ~W~A~R ~PI_RUNTI~ 181 ~P~W~AT~R_B P S P2~AU~ 0 18: ~P ~W_WATE R_BPS.P2_F_DE~Y 18( ~P.~W~ATER_BPS.P2_ON 0 188 ~.~W_~ATER_BPS ~2_RUN_CALL 189 ~P.~W W~TER BP~]~ RUNTIME 191 ~P ~W WATE~BPSP2 A P I Q I ~ I s 1 PT iD ALM LOW 1 ~,LM LOW 2JALM_MSG ALM_ROUTE_OPER 154 ~F~p LIgHTiNG_PAnELS_MEASURED - = ~ ~ I 164 ~P.~_WATE~_BPS.i~Ru~J6~ J~P ~WWATER BP~ iNTRUSION A~RM ~ 17~ ~P.~w WATER~P~ RUN CALL ~ ~P ~W_WATE~_kPS PI_VFE_]~IL , ~ ~W WATER BPS PuM¢ 1 WD ~R~ PT_IQ . _ . ALM_ROUTE_SYSMGR ~LM_ROUTE_USER IAIJM_STR ALM_~YPE ANALOG_DEADBANQ BFR_COIJNT =DUR 156 WTP RAW_WATER.H T F DEL~Y ~ CI ~ 0 16~ ~P~W WATER BPS LOSUC ALM ' 1 1 ( ~b/ 01 0 171 ' ~P.~W~ATER_~;PI_FAIL 1 1 ~ 3 ~L 0 ( ~ ~,~A~E R_B PS. P I_VF~_F_DE~Y ~ ~ 0 ~ 0 179 ~P,~W~ATER_BPS.PI_VFD_~iL ~ I ~ AL~ ( 0 0 180 ~ER_BPS PI_VFD_ON I ( , 0 0 185 ~p, ~W~AT ER_BPS. P 2_MA N U~._ ' ~ 0 6 189 ~p.~E R_BPS~P2~RU NTIME 0 AA AB AC AD 154 ~TP LIG.~ING PANELS MEASURED, ( ' 0 0 0 168 ~ ~WAT e R~B PS ~L~_DA 161 ~P ~W~ATE R_B PS.F LB_ F_DE~Y 0 164 ~P~wATER~BPSINTRUSION ~ ~ ~ 1 e C 16~ ~PRAW WATER BPS LOSUC ALM~ ~ 1 C C 177 ~w ~R BP~ bl-~D fi DA ~ I I o o, 191 ~.~w WATER BPSP2 VFD F DE~Y :T IDI / ]CALC~TYPE CONV~LIM=HIGH CONV~LIM:LOW ;ONV=TYPE ~LAY~O~D jD~L~TE:R~c m154 ~F ~ IG H~i~ ~_ P~_~S UR E D 155 ~P ~W~ATER H_T_F_DA ' NO 16O ~ ~f~]~ ~LU]F_~A NO o 162 ~P~W~ATEA_B~S r~f~ NO 0 ~P ~WATER]BPS P1]RUN CALL ~O 0 181 ~ ~W_WATER_BbS P2_AuTo NO 0 185 ~ ~W~ATER_BPS P2_MANUAL NO 186 ~P.~ER_BP~P2 ON NO 0 187 ~.~W WATER BPS P2 RT RESET NO 0 190 _ _ _ / 191 ~P~W WA~ER Bps]fi2_VFD]F]DE~ [ CS O A AM ANI AOI AP AQ 15~ NTP LIGHtiNg_PAnELS_MEASURED WTP I-IGHTIN~ bANELS MEASURE VALIJ~ 1551 Afl P RAW~W~TERiH_T_F_DA ~P R~W WATER HIGH TURBIDITY AL DISABL~ ~N~800 156!/VDP RAW WATER H T f DELAY WTp RAW~A¥~'~i~ TURE)II31TY AL DI:LAY ~N 800 50 1 58 /erE.RAW WATER TURBIDITY WTP RAW WATER TURBIDITY VALUE 1 59 vYTP.RAW WATER BPS FLD ALARM VVTP RAW WATER BPS FLo ALARM 5N_-800 160 v~TP.RAw_-WATER_-E~PS FLO-F_DA ' WTP RAW WATER EPS FLD ALARM D~SABLE ~ 61 ~FrP.RAW_WATER_BPS FLD_F_DELAY WTP RAW WATER BPS ELD ALARM DELAY ~N_800 50! 162 WTP RAW_WATER_BPS INTRU_F_DA ~P RAW WATER BPS INTRUDE ALARM DISABLE PN_800 163 ¢,rrp. RAw WATER BPSINTRU F DELAY WTP RAWWATER BPS INTRUSIONALARrvl DELAY PN 800 5(1 164 ~.rrp P, AW WATER BPS INTRUSION WTP RAWWATER BPS INTRUSIONALARM PN_800 165 WTP RAW-WATER~-B~S ~_~)~U~_ALM WTP RAWWATER BPS LOW~IJ~IONALARM PN 800 166 w~rP RAw=WATrR D_ P§ LO§UC F DA WTP RAWWAI'~ffBPS LOW~U~TIONAL DISABLE PN_~SO0 167 WTP RAW_WATER~PS.LOSUC:F~DELAV ~P RAWWAY~R~PS iOW ~UCTION AL D~LAY PN_800 50 171 ~PRAW WA~R B_ P~P~=~AI~ jW~:~RWBP~PUMP1MALFUNCTIONALARM . PN_800 172 WTP RAW_WATER_BPS.PI~MANUAL WTP RW BPS PuMP~ iN MANUAL PN 800 174 ~PAW_WAT~R_~P§iP~_RT_~E$~T WTE RW BPS PUMP1 RUNI'IM~R RESE~ .pN~_8oo 175 WTPiRAW_WATER_E)PS PI_RUN_CALL WTp RW R~S P~Pi RUN CALL PN_800 177WTPRAWWAT[~PSP~ VFD F DA WTPRWBPSPUMP1VFDFAILALDISABLE PN 8(~0 18~ WTP RAW_WATE~_I~S.P2_MANUAL NTp RW BPS PUMP2 IN MANUAL PN_SO~ 18( WTP RAW WATER ~.P2 ON N~P RW BPS PUMP2 ON PN 800 18~ NTP.P~.W_WATER_BPS.P2_RUN_CALL ArFp RW BPS PUMP2 RUN CALL PN_800 18~c ~'Tp PAW_WATER_BPS.P2_RUNTIME ¢VTp ~WBPS PUMP2 ~UNTiM~ PIN 800 1 g I ,WTP ~W_WATER_BPS ~2_VFD_F_DELAY Arrp RW BPS PUM~ VFD FAIL Al- OELAY ~1~800 ~ 50J A AR I AS I AT I AU I AV AW ~ AX ] ~T tD D18P TYPE/DISP WIDTH ELEMENTS ENG UNITS ENUM ID =QUATION 155 ¢¢FP.RAW T F DA I n I 157 ¢VTP RAW_-W^TER H TURBIDITY , 1 i 0 161 ¢~rP ~AW WATER_BPS FLD_F_BELAY 4 1 MIN 162 WTP ~U~W WATER BPS INTRU F DA I POINT STATUS~ 165 WT P RAW_-WATE RZBP$ ~OS UC_AIJM 1 '~ WTP.RAW WATER BPS PI_RUN_CALL 1 176 W~P RAWWATER ~PS P~I~R_UNTIME . ' l . I _HOURS 1 PT ID FW CONV EQ GR SCREEN INIT VAL ~USTIF[CATION LOCAL LOG ACK LOG DATA LOG DEL LOG GEN 154 ¢ITP LIGHTING PANELS MEASURED i 0 _EFT 0 155 ~VTp.~RAW WATER H_T_F_DA LEFT 158 ~rE.RAW WATER H_T_F_D~LAY %P/600 00 ' LEFT 157 ~1'~. RA~/~AT~ R FI_TURBiDI~Y ;LEFT 0 0 158 ¢.rrP RAW WATER TURBiDi]Y 'LEFT 0' 159 v~rIp RAW-W~TER BpS FED ALARM ' .... ~EFT ~ 0 0 160 WTP RAW_WATER_EPS FEE_F_DA 7EFY I 0 161 WTP RAW_WATER ~FS FLD_F_DEI~Y %PI600 00 ~EFT i 162 WTp RAW WATER_EPS INTRU_~_DA _EFT 163 WTP RAW WATER EPSINTRU F DELAy ~Pt60000 _EFT ' ( 164 WTP RAW_WATER I~PS iNTRUSION EFT 165 WTp RAW WATER BPS LOSUC ~1_~ EFT 0 ( 166 Vtrr~ RAW WA~ER-EpS I_O§D~-F DA i EFT ( ~ WTP RAW-WATER_-Bp§ I_OSUC-F-DELAy %Pt600 00 ~EFT 168 WTP RAW WATER_BPS PI_AUT-O~ [ _EFT ( 169 WTP:RAW_WATER_B~S PI_F_DA i ~ _EFT 170 WTP RAW WATER BPS PI F DELAY %P~00.00 _EFT 171 WTP RAW_ WATER'BPS P I~F~IL~ ~ I LEFT/ 173 WTP RAW WATER BPS.P1 ON ~ .EFT 174 WTP RAW WATER BPSP1 RT RESET .EFT RAW;W^ ER: .S ,L-RU;_CA E EFT 170 WTP RAW WATER SPSPI RUNTIME %PII00 ~T 177 WTp RAW WA- TE~-BP-S PI~VFD~F DA _EFT ' ~ ' .... ( 178 ~P RAW_WAT~R~BP~ RI~VFD~F_DELAY %PI6~000 ; ~EF~' -- 179 WTP RAW WATER ~PS.P1 VFD FAIL L~EFT ' lS0 WTpRAW-_WATER~_BPS PI-VF_ D~O_ N I LEFT 181 W~P..RAW_WATER_BPS P2_AUTO LEFT F 01 1 82 WTP.RAW WATER_BPS P2_F_DA LEFT 0 1 83 WTP.RAW~WATER_BPS P2_F_DELAY %PI600 00 LEFT ~ 0 I 1 84 WTP~T:~AW WATER BP~ P2_FA L LE FI' 0 0 1 B5 WTP RAW_WATER_BPS P2 MANUAL LEFT 0 1 ~ WTP.RAW WATER BPS P2_ON LEFT ' 187 WTp:.R~,~ W WATER_BPS P2=RT_RESET LEFT 0 188 WTP RAW_WATER_B PS.P2_RUN_CALL ' LEFT 0 189 WTP RAW_WATER~BPS,P~_RDNTIME ~E~10 0 LEFT 191 WTP RAW_-WATER_-BPS.P2-VFD-~'DELAY %P/600 00 LEFT I 154 ~P.LIGH~iNG RAN~LS MEASURE~ 155 WT~ RAW WATER~H T 157 WTP.RAW_WATER H_TURBIDiTY 15~ WTP RAW_WATER ~U RBID~TY 15~ WTP RAW_WATER_BPS FLD_ALARivl 16[ VW~ RAW_WATER_EPs FLD_F_D~ 161 WTP RAW WATER_BPS FLD_F_DELAY 16; ~TPRAW_WAT~_EPSlNTRU F DA 16." nrr~RAW WATER EPSINTRU F DELAy 16Z ~q-~ RAW_WATER_BPS INTRUS[ON ~6.~ ~TPRAW WATRR ~PS Ld§0C ~LM 16E ~rTp RAW_WATER_BpS LOSUC_F_DA 167 ~RAW WATER BPSLOSUC ~DELA~ 16~ ArF P RAW-WAT~R-B P S .P 1-AUTO 17[ ~rrpRAW WATER BPSP1 F DELAy '~ ~'1P RAW_WATER_B P S .P I_FAI L T~. /VTp RAW_WATER_BPS PI_RUN_CALL T~ NTP RAW_WATER_BPS.P I_RUNTIME 17; NTP P~.W_W.~TE R_ BPS. P 1 _V-FD_~_D,~ 182 NTP.RAW_WATER_BPS P2~F_DA 183 NTP~F~W-WATER_BPS P2_F_DELAy 184 NTP RAW_WATER_BPS P2~FAIL 185 NT P RAW_WATE R_B P $. P2_MAN UAL 186 f~TP.RAW~WATER_BPS P2_ON 1~§ AITP RAW=WATER.B~ ~2_RUNTIME PT_ED PTMGblT_PROC=ID >T_ENABLED PT_ORIGIF, PT_SETJ NT~RVAL RT=~ET_TM~PT~YPE :P~NGE~HIGHJRANGE_LOW 154 ~P LIGHTING PANELS MEASURED ~STER_PTMO_RP 1 'G INT 157 ~P ~W~R.~URBIDI~ ~ ) BOOL ~ ~P ~WAYER BPS Pt ON 1~ r ~OOL ~ 0 , 181 ~P ~W~ER_BPS P2 183 ~P~W WATER BPS.P2 F DE~Y 184 ~P.~W~A~ R_BPS.P2_FAIL 185 ~P~W WATER BPS.P2 MANUAL ~ IBOOL ~ ~P.~W~ATER~BPS P2_RT_RESET 1 188 ~[~W_WAT ER~B PS ~ 2_RU N_CA~ L 1 BOOL __ , A I By I BW I BX I BY I BZ ICA CB 1 __T D RAW_ LIM_ H~GH ] RAW_ LIM _ LOW I REP_TIMEOUT RESET_ALLOWED RESET__ID~COND RESET PT RESET TII~EOU 15z NTP.LIGHTING PANELS MEASURED SI 157 NTP.RAW~-WATER H~T~JI~-BIDITY 1 0 - -I 158 Z~I'F.RAW_WATER TURBIDITY 162 Arlp RAW~WATER~BPSINT~U~-F_DA ~ w~P ~,W_WATE._BPS.P2_O. . A CJ OK I C. CU CNI CO I CP I CO 1 PT_ID ISETPO~NT_HIGH SETPOINT LOW TIME OF DAY LTRIO CI< PT PRIG_PT TRIG REL TRIG VALIUAFSET 154 VvTP.LIOHTii'~G_PA~[~ BEASURED I ~ 5~~P.~W~ATER TURBIDI~ 159 ~P~W~A~R_BPS.FLO~R~ 161 ~p ~WmWATER~BPS.FLD _ F _ DE~Y ~6~ ~P ~WATER_BPS LOSUC_AL~ NO 16~ ~p ~W_WATER_BPS LOSUC_F~DA I 167 ~P~W WATER BPSLOSUC F DE~Y 16~ ~P ~W_WATER_BPS P1 AUTO 16~ ~P ~W~WATER~BPS P1 F DA ] ~ NO ~ ~P ~W~TER BPS Pl f D~Y 50 C , ~ ~P~W WATER BPS~I MANUAL -- 17~ ~P~W WATER BPSPI RT RESET ~ ~P ~WA~BPS PI~RU~_CALL ~ NO lsl ~P.~WAT ER_B PS.P2_A U TO NO 184 ~P ~WATER_BPS P2_FAIL N~. 186 ~P~W WATER_BPS P2 ON NO A I OR CS lOT 15~ WTP LIGHTING PANELS MEASURED 0 15.: WTP RAW_WATER H_T_F_DA 157 ~P.~W WATER H_TURBIDITY 165 ~P ~w WAT~_BP~.~OSUC_ALM ~C 167 ~P~ WATER BPS.LOSU~ Dc I 168 ~P.~W WATER BPS P1 AUTO DC 169 MP.~WA~ER~BPS~ I~F_DA DC 172 ~ ~W WATER_~PS~I_MAN~AL DC 174 ~ ~W_WATER_BPS.P I_RT=RE SET DC ~ [ 1 180 ~P ~WAT~R_B~S.P1 _VFD_ON DC 181 ~P~W WATER BPSP2 AUTO DC 1 189 ~ ~W~ATER_BPS P2=RU~IME OC I 1 PT_ID ~ACCESS ACCESS_FILTER. ACK_TIMEOU~ ^DDR ~ADDR~OFFSET NDDR_TYPE ~LM_CLASS ALM_CRITERIA 195 ~P ~W WATER BPS SM6k~ F~ 19~ ~ ~WATER~BPS SMOKE_F_DE~Y N I %R210~ ~ 0 FQ 19~ ~P.SANDERCOCK PLC COMMS_FAIL 20[ ~P SANDERCOCKR~S .... ~ LEV F DE~ 20~ ~P.SANDERCOCK.RES L LEV F DE~Y 20~ ~P SANb~RC~ RES_L_LEVE~'_F_DA 20~ ~P SANDERCOCK.RES~LEVEL ~ ~P ~ANDERCOCK.RE~_~_LEV N i %R1404 0 FQ _ _ %R1402 0 FQ 20~ ~P SCRN_CONTROL N 21~ ~P TER~_FER N.PLC_COMMS_F_~ 22; ~PTER~_FERN PUMPI0_ON R ] . . ~MI~ ~ 0 FQ 22~ ~P~TER~ FERN PUMP10 RT RE~ ~ [ Y~205~ 0 FQ 22( ~P,TER~_FERN PUMPI0_STOP_LEV 22~ ~P.TE ~F~;~MP~ I_F DE~Y W ~R2158 0FQ ^ L JK L I M I N 0 192 ~P ~ WATER B~S:~ VFD_FAIL I ~ ~P ~W WATER B~S~ VFD ~1~ 194 ~P ~WAf ER~MP~O KE~ 195 ~P.~W WATER_BPS.SMOKE F DA ' - - 196 ~P ~WATER_BPS.SMOKE]F~DE~Y 197 ~P SANDERCOCKPLC CQMMS f DA 201 ~P S~NDE~COCK RES H-L~V~ I 1 ' - - 1 ~P SANDERCOCK RES HI LEVEL 202 ~P:SANd~RCOC~ ~_H_LEVE[ 203 ~P.SANDERCOCK RES_L_LEV_F_DE~Y 204 ~P SANS~COCK ~S_L_LEV~L I 1 ,~P SANDERCOCK RES LO 205 ~P ~ 5 ~COCK.~6S_L_LEVE~_~_DA 206 ~P SANDERCOCK RES_LEVEL 207 ~P SA~DERC0~;RES_M~_LEvi 208 ~fi. SANDEROO~K ~ES_MiN_LEV I 209 ~P.SCRN_CO~ROLI 210 ~P]SCRN_CONf~OL ALT 217 ~P.~R~_FERN PUMP 10~UTO 1- 219 ~P~-FE~N PuM P~ 0-F-D E~Y : 220 ~PTER~=~ERN'~UMP10-F~IL {' ~ ~.TER~ FE~PUM~O FAiL 223 ~P.TER~_FERN PUMP 10_RT_RESET - - 224 ~P~E~UM p 10_RU~IME ~ . 220 ~P.TER~EERN PUM~I~STOP 228 ~P.TER~ERN~PuMP~ DA A P Q 192 WTP RAW WATER BPS P2 VFD FAIL WTp RAW W~ER BPS PUMP 1 VFD ALARM 193 W"f P RAW_WATER_BPS P2_VFD_ON 194 ~P RAW_WATER_BPS ~MOK~_ W~ RAW WATER ~ ~b~OKE ALARM 195 WTP RAW_WATER_BPS SMOKE_F_DA 196 WTP RAW WAT~R_BPS~MOKE_F_DELAY 197 WTP SANDERCOCK PLC COf~MS_F_DA ~ 9~ WTP SANDER~ocK ~LC_CObI~_E_DELAY 19c. W~P]SAN E~E ~ C OC K PE~_CO M M S_~AII_ 20C WTP.SANDERCOCK RES=H_LEV_F_DELAY 201 WTP SANDERCOCK RES_H_LEVEL ~rlP SANDERCOCK RES ERVOI~ HIGH LEVEL ALARM 20~ WTP SANDE~COCK RE~ H LEVEL_F DA 20~ WTP SANDER~0~K~ES_L_LEV_F_DE LAy [ 2C~ WTp SANDERCOCK RES_L_LEVEL [ ! &CiE SANDERCOCI( ~SERVOIR LoW~VEL ~LARM 20~ WTP SANDERCOCK RES L LEVEL F DA 20( WTP.SANDERCOCK RES_LEVEL ~ WTP.SANDERCOCK RES_MAX_LEV 2C1~ WT~.SANDERCOCK ~_MiN_LEV 20.c ~TP.SCRN_CONTROL 21£ ~TP SCRN~CONTROL=ALT ] i 211 NTP,SMOKE_ALARM WTE SMOKE ALARM 212 ¢¢FP.SMOKE ALARM F DA 212 ¢VTP S MO K E_ALARM _F_DE LAY 21." &rfp TERRA_F ERN PLC_COMMS_F_DELAy 21( tel P T~RRA_F ERN PLC_COMMS_FAIL =*LC PN-~03 ~OM MU NICATIONS RAS ~AiE~D 21,~ /VTP.TERRA_FE RN.PUMP 10_F_D ELAY 22( NTPTERRA_FERN.PUMP10_FAIL ~ ArrPTERRAFER~PUMP 10ALAR~ 221 NTPTERRA FERN.PUMP10 MANUAL 224 ............. J ;226 ¢VTP.t~RRA=EERN ~U~I~i)~-~-Tb-P ~EV- ! ]227 ¢VTP.T~ RR~-F ~ R N:'F UM P j i ~AI~ '228 ¢VTP.TE RRA_-F ~R Ni ~U-M P ~ ~ _-~_DA 1229 ¢VTP.TERRA_FERN PUMP1 ~_~_DELAY 1 PT_ID]ALM ROUTE SYSMGR ALM ROUTE USER ~LM STR 192 WTP RAW WATER ~v~D FAIL ...... . 193 ~ ~-WATER-BP~P2 VFD-O~ 1: ~ ~ - ~ 194 ~P ~W_WA~ER_BP~ SMO~E_ 196 ~P~w WATER BPS SMOKE F ~Y 197 ~PSAND-ERCOCK-PLC_COMMS_F_~A ~ ' 1 198 ~P S~NDERCQCK.P~ COMMS_F_DE~ 1, 199 ~P SANDERCOCK.PLc COMMS FAIL 1 ~00 ~P SANDERCOCK R~LE~ ~ ~E~ 1 ~01 ~P s~N~ERco~s~H~vE~ 1~ 1 ~ AL ~02 ~P sA~ ~ERCOCK.R~S=H_LEVEL_F_DA ! 1 203 ~P SA~ DER~ OCK.~ S_L_L~_F_DE~ ~05 ~ ~NDERC~K.RE~=L~LEV~F DA ~ 1 207 ~P~AN~ERCOCK RES~MAX_L~ ~08 ~P SANDERCOCK.RES MIN L~ '209 ~SCR~_CO~OL = - ,210 ~c RN_CON~OL_AL~ ; i ~211 ~P SMOKE_A~RM 212 ~P SMOK[ A~ F b~ ~ 1 215 ~P TE~-FERN~PLC=COMMs=F-D~ I i' 218 ~PTEA~ FErN PLC~COM~S~F~IL ~J 11AL ' 217 ~P TER~ FERN.PUMP10 AUTO 1 21~ ~ ~ER~F ERE ~UMPI 0~F_DA 219 ~P~R~ FERN PUMP10 F DE~Y ~22 ~h~TER~_FER N.PUMP 10_O~ 223 ~PTER~ FE~UMPIO R~ ~SEY 224 ~P TER~_~ERN PUMPIO_RUNTIME 225 ~ TER~_~ERN.PUMPIO_START_LEV ' ~ 229 ~fi:TER~_FER ,.poM~-F-DE~Y I [ 1 3T_ID BFR EVENT PERIOD EFR EVENT PT ID SFR EVENT TYPE 3FR~EVENT_UNITS]BFR_GATE_CONDiBFR SYNC TIME 192 ~Tp.RAw WAf~ §PS;P2 VFD CAlL ~ = = - = = = I O 0 193 ~P.RAW~WATER _ BPSP2~ VFD ~ ON 0 I O 0 194 /VTP.RAW_WATER BPS SMOKE_ 0 I ~ 0 195 NTP.RAW WATER BPS SMOKE F DA oi I 0 0 196 NTP.RAW_-WATER-BPS ~MOKE-F]DELA~ D! 1 O 0 197 ArlP.SANDERCOCK PLC_COMMS_F_DA 0 ~ 1 0 O 198 NTP.SANDE~COCK PLC_COMMS_~_DELAY ~ I i O O 199 NTP.SANDERCOCK PLC_COMMS_FAIL , 200 NTP.SANDERCOCK.RES H LEV F DELAY ~1 ~ O 0 201 NTP]SANBERCOCK RES~H-LEV~L- ~1 1 0 0 202 ^rfp SANDERCOCK RES_H_LEVEL%~F DA I O 0 203 .~VTp SAND~RCOCK.R[~_L_LEV_F_DELAY 1 0 0 204 ATP SANDERCOCK,RE$__L LEVEL ~ 0 0 205 NTP SANDERCOCK RES = L _ LEVEL ~ F ~DA 206 ATP SANDERCOCK.RES_LEVEL 1 0 207 NTP SANDERCO~. RES=MA.X_LEV I 0 0 208 ATP SANDERCOCK RES_MIN_LEV 1 209 ATP SCRN_CONTROL 210 ATP SCRN~CONTROL_ALT - 1 D 0: 211 ATP SMOKE_ALARM I 0 0 212 ~rfi ~MOKE_ALARM_F_DA I 0 213 ATP SMO KE_ALARM_F_DELAY 1 0 0' 214 NTPTERRA_FERN PLC_~OMMS ~ DA 1 0 0 215 NTp TERRA_FERN PLC_COMMS_-F]DELAy I 0 0 216 ~PTERRA_FERN PLC_~bMMS FAIL I 0 0 217 NTP TERRA_FERN PuMp 10_AUT-O 1 0 218 NTP.~ERRA_FERN PUMP~0 219 NTP.TERRA_F E R N P-t~l~ { ~]F_D E LAY 1 0 220 ATP TERRA_FERN PUMPI0_FAIL I 0 0 221 NT~]TERRA]~RN PUMP~MA~IJ~[ 1 0 0 222 ~P TERRA_FERN I~t)MP~ ~1~ I 1 0 0 223 A/TP T~RRA ~F~N PLUMP10 RT RESE~ 224 Afl P TERRA_F ERN PUMPI0_RUNTIME I 0 '225 NTP TERRA_FERN PUMPI0_STARt_LE~ T 0 226 ArfP TERRA-FERN PUI~PI 0-STOP-LEV I 0 227 Arlp YERRA_~ PUMPI~_AUTO I 0 228 ¢VTP TERRA_ FErN PUMP11 _ F_ DA ~ 0 O A AG AH I At I AJ AK I AL 1 ~T ID ICALC TYPE ICONV LIrvl HIGH CONV LIM LOWICONV TYPE 3ELAY LOAD DELETE REC 19~ ¢¢TPRAW WATER BPSP2 VFD ON ~ ~10 o '~gz NT ~ RAW-=WATE R--B P S ~M-O K E-- ! ' ~lO OAR 19.' NTPRAW_WATER_BPSSMOKE F_DA 196 NTP RAW wAT~_BPS.SMOK~ F_DELAY 197 AFF~ ~ANDERCOCK PLC_COMMS_F_DA 198 AFTPSA~DERCOCKPLC COM~iS F DELAY ;S 0 199 NT~ SANDERCOSK ¢~[C~F~i~ ~O i 0 ~R 200 AFTp SANDERCOCKRES H LEV' F DELAY 2S 0 201 AfTP SANDERCOCKRES H LEVEL 202 Acrp.sANDERCOCKRES H LEVE· F DA ' NO 203 ArlP.SANDERCO~K ~ES-[ LEV_F_-D~LAY 2S O 204 ADP SANDERCbE~RES · L~V~L ~O 0 ,205 ArFP sANDERCO~K RES-L-LEV~ ~ DA ! No o '206 NTP~ANDERCO~KRES-LT~VE· ~= ' CS 0 208 NTP.SANDERCOCK RES MIN LEV ] CS 0 209 NTP.SCRN ~ONTROL ~ : EQU 210 NTP SCI~N CONTROL_ALT EQU 212 NTPSMOKE ALARI~ F DA I ~10 0 213 AO'P.SMOKE_ALAR~_F_DELAY OS 0 214 NTPTERRA FERNFLC COMMS F DA NO 0 215 NTP TERRA_FERN PLC~COk, IMS_F_DELAy SS O 216 ~P TERRA_FERN PLC_COMblS_FAIL NO 0 217 NTP.TERRA_FERN PUMP10_AUTO NO 0 218 ArFP I"ERRA_FERN PUMI~O_F_bA NO 0 219 ~PTERRA_FERN PUMPIO F DELAY 220 ~VTP TERRA_F ERN.PU~P10_FAIL NO )21 ArfP.TERRA-F ERN PUMP1 O-MANtJAL NO 0 222 ¢VTP T~RRA FE~N.pOMp10 ON 223 vCfP ~RRA._FERN.PUMP ~ o_~T_RESET 'NO 0 224 VVTP TE~RA_FERN.PUMF 10_RU N~iM E OS 0 2--~ ~P T~RRA-FERN.PUM~i= =~Ab~0~ i NO _ Di 228 ¢,rl P TERRA_FE R N.PUMPI 1 _F_DA I NO O, ~2§ ¢VTP TERRA_FERN.PUMP11_F_DELAy A AM I AN AOI I AQ 1 PT~ID DESC )EVIATION_ PT ~EVICE_IDIDIEP~UM~H]GH I BISP_ LIM~LOW 192 ~VTP.RAW=WATER_S~.~')~FD= _~iL ~P ~ ~PS PUM~2 ~D FAi~ ~N_800 I 193 ~P.RAW WATER BPS.P2 VFD ON ~P RW BPS PUMP2 VFD ON PN 800 194 ~P~W WATER_BPS.SMOKE_ ~P RAW WATER BPS SMOKE A~RM DIBBLE PN_800 195 ~P ~W_WATER_B~.SMO~E_F_~A ~P ~WATER BPs sM~ A~ DE~Y PN_~00 ~ ~ 19~ ~P~W WATER BPS SMOKE_F_OE~Y ~P ~W WATER BP~ SMOKE ~RM PN_80O 50 ~ ~ SAN ~ERC~C~LC_COMMS_F_~ P~ IN PNS04 COMMS FA~L DISABLE P~"800 198 ~ANDER~OCKPL~_C~MMS_F~DE~Y PLC]NPN804COMMSFAiLDE~YTtME pN 800 ~ 199 ~P SANOERCOCK PLC_COMMS_FAIL ~L~ IN PNS04 CO~MUNI~IONS STAT~ ~00 ~N~ERc~CK RES~H LEV F DE~Y ~ANDERC~CK RESERVOIR HI LEVEL D~Y PN 800 50 201 ~P SANDERCOCK.RES H LEVEL ~P SANDERCOCK R~SERv~iR HI ~EVEL A~RM ~ 80~ 202 ~ ~A~Rcoc~.RES-H-LEV~L F DA ~ ~ANDERCOCK RESERVOI~ HI ~V DI~LE ~ 203 ~P SAN DERCOCK RES_L_LEV_F_DE~Y ~P SANDERCOCK ~ESERVOI~ Low ~VEL D~ PN_800 50' 204 ~P~ANDE~COCK RES_L_LEVEL ~ SANDERCOCK RE SERVOI~ L0~ LEVEL~RM PN_800 205 ~P SANDERCOCK. RESL LEaL F DA ~P ~DERCOC~ ~ESERVO~R L~W LEV DISABLE PN_800 208 ~P SAND~RCO~RE~_MIN_LEV i~P SANDERCOCK RESERVOIR LEVEL MIN PN_800 ~0~ ~P ~CRN_CONTROL J 2 ~ 0 ~P SCRN_CONTRO L_ALT I 211 ~PSMOKE A~M ' _ i~P SMOKE A~RM ~N 800 212 ~P ~OKE~RM F DA~P SMO~A~R~ISABL~ PN~800 213 ~P SMOKE ~RM-F-DE~ ~P SMOK~RM DE~Y ~ PU_800 50 214 ~P TEA~RN.~6MMS F DA ~PLC I~ PNS03 COM~S FAI~ DISABLE PN_800 ~ 15 ~P TERRA~ERN PLC_COMMS~F~DE~Y I~LC iN PNS03 ~MMS ~lL ~y Ti~E 216 ~PTE~ FERN PLC_~b~_FA~L I~0~ COMMUNICATIONS ~AT0~ PN~8oo 217 ~P T~_FERN PUMP10_AUT0 ~P TER~ FERN PUMP 10 IN AUTO PN_800 218 ~T~R~ F~R_ N PUMPIO_F~DA ~PTER~FERNfiUM~10MALF~N~DisA~LE PN 800 221 ~P~ER~_FERN pU MP1 b_M~bAL ~ ~R~ fi~N PUMP 10 MA~ PN_800 ~ 224 ~P ~ER RA~FE~U MP10-R~IME ~P TER~ FERN PUMP ~0 RUNTIME VALU~ PN~8~ 225 ~P T~ R ~_FERN P~P ~'~¥~ ~P TEE~ FERN PUMP 10 START LEVEL SP - PN_~ 226 ~P.~E~N ~OMPIO_STOP_LEV ~P~R~ FERN~MP 10 STOP L~VE[ ~ PN_8~ 227 ~P.TER~_FERN~P0~i~-~UT~ ~P ~R~ FERN PUMP ~ 1 IN AUTO PN 800 228 ~P T~R~ FE~MPI~ F DA ~PTER~R~ PuM~ M~[~0~T DI~BL~ PN-8~6 229 ~P TE~ ~ I_F_DE~ ~ TER~ FErN PUM~ MA[~O~YDE~Y P~800 50 ~1 1 PT_ID D~SP_TYPEIDISP_~DTN ELEMENTS!ENG UNITS!ENIJM IDIEQUATIONIEXTRA 192 vcrp RAW W~fffR ~S P2 VFD FAIL J I = = ] 194 ~P~W WATER BPS SMO~ 1~ ~ 195 ~P ~W_WATER_BPS ~MOKE_F_OA ~ ~blNT STATU~ 19~ ~P ~ANDER~OC~ PLC-COMMS-F~IL ~ 20~ ~P.SANDER~CK~RE~_H_LE~L F DA ~ 1 ~OIN~ STATU~ 20~ ~P.S~DERC~CK~ L ~V F~Y ! / ~ 20~ ~P SAND~COEKRE~ [ ~E~L ~ ~ ~ ~0~ ~AND~0~K RES L=LEVEL ~ 1 POINT S~AT~ ~ 20~ ~.SANDE~COCKRES~L~EL - ~ , 3 PY - 20~ ~PS~NDE~COCKRES MI~ ~EV ~ f FT 20~ ~PSCRN ~NTROL - ~ 1 21( ~P SCR~_CONTROL_ALT ~! 2~ ~KE_~_F_DA ] 1 P51NT_STATd~ 2~ ~PsMoKE A~RM ~ 4 I ~IN 21~ ~P TER~ERN~PL~-COMMS ~ DAI 1 POINT STATUS 21~ ~P~ER~]FE~N-PLC]COMMSZF_DE~Y ] 4 1 ~lN ~ ~ 216 ~P TER~-FERN'PLC C~MS FAILI ' ~ ' i 22~ ~PTER~_FERN.PUMPIO FAIL I ] ' :11: ] 222 ~P.TER~_FE RN.PUMP J 0_ON ~ 22~ ~PTER~RN PUMPI~RT RESET - " I ' 22E ~TER~_FER~UMPI~STOP LE~ 3 1 :~ 227 : - [ 22~ ~PTER~ FERN.PUMP11 F DA 1 ~POINT STATUS] - ~ CONV EQ GR SCREEN INIT VAL JUSTIFICATIONILOCAL LOG ACK [LOG DATA LOG DEL LOG GEN 19; ~rrfi RAW wATER BP$~2 VfD TAiL LEFT i , ~l 0 19." NTP.RAW WATER BPS.P2 VFD ON LEFT 19z &rIP'RAW-WATER-BPS.SMOKE_ LEFT 0 0, 196 NTP RAW WATER BPS,SMOKE F DELAY ~/oP/600.00 LEFT 197 NTP SANDERCOCK PLC COMMS F DA LE~T 198 NTP SANDERbOCK PLC~-CO~M~_F DELAy ¥.P]~00.0D LEFT 199 NTP SANDERCOCK.PLC_COMMS_FAIL L~FT 0 200i NT~ND~RCO~K ~ES H LEV ~= DELAy %P,'$0O.00 LEF¥ ' 201 NT~TSAND~R¢OCK.RES-H-LEV~__ LEFT i 0 01 [ 202 N~ ~ANBERCOCK.RES H LE~'~ DA L~FT 203 /V~ SANDERCOCK.R~]L_-L~ -F -D~LAY %P/600 00 LEFT 204 NTP SAND ERCOCK,RES~L~L EVEL i I-~FI 0 205 NTPS~ND~RCO~K RES'L LEVEl ~ DA LEFT 207 NTP.SANDERCOCK.RES_~AX L E~ %P~10 0 i ~FI 0 208 NTP SANDERCOCK RES_MIN LEV %P[100 LEFT : 0 20-( NTP.SCRN_CONTROL LEFT (~I 0 2'~[ NTP.SCRN_CONTROL_ALT LEFT 0; 21' NTP.SMOKE_ALARM ; LEFT 0 0 0 21': NTP.SMOKE~ALARM_F_DA ~ LEFT o 21~ NTP.TERRA FERNPLC COMMS FAIL L~T 0 O 0 21; AfTP.TERRA-FERNPUM-Pi~ A~T-O LEFT 0 22; NTPTERRA FERNPUMP~00'q - EEFI ~ ~ 0 22~ NTPYERRA_ _ _ _. LEFT 0 22, ~rrp TERRA FERNPUMPI0_RUNTIME %P/100 LEFT 22[ NTP TERRA_FERN PUMP10_$TART_LEV %PI10[~ I_EFI I 22( NTp TERRA_FERN PuMP ~ 0_BTOP_~EV %P~10 0 LEFT 22[ NTP.TERRA FERNPUMP~I F DA LECT 22(. ~'P TERRA_-F~RN.PuMP~I-F-DELA~ I%pl60000 I_~T A BH Bi I BJ BK ] BL BM 1 PT_ID LOG_RESET MAX_S~ADKED MEASUREMENT UNIT ID POLL AFTER SET ,PRECISIONIPROC_ID 193 V',q'P RAW WATER EPSP2 VF~ ON i ~ ~ ~ ' 198 ~ SAND~RC~ PLC-~0MMS~F-QE ~y 190 ~P:~ND~RC~PLC COMMS FA~L ~ , 201 ~P.SANDERC~K RES~H LEVEL 202 ~P.SANDERd6~KR~H~EVEL F DA 203 ~P:SANDER~OCKR~ L LEgenDarY ' 205 ~P SANDERbOCK RES ~ LEaL F 207 ~P.SA~b~OCK RES_M~_LEV 208 ~P.SANDERCbCK RES_UlN_LEV 209 ~P.S~RN_~dNTROL 210 ~P ~RN_CONTROL_ALT 213 ~P.SMO~E A~RM F 214 217 ~P TER~FERN PUMP10~UTO 218 ~P.TER~ FER~ ~UMP10 F D~ 227 ~.TE~_FERN ~U~I 1 ~AUT~ 22S ~p.TER~FERN PUMPI~_~_D~Y = PTMGMT_PROC]D PT_ENABLED PT ORI81i~ PT SET INTERVAL PT_SET TIlde'PT_TYPE RA~GE_H!GH P~NGE~OW 193 WTP RAW_WATER=BPS P2_VFD_ON I ] ' ~OOL 1 195 ~ P~W_WA~ E R_ B PS.S MO KE_F_DA 1 196 WT~ RAW_WAY~R~ePs SMOKE_F_DELAY I ~ INT I 19§ ~P SAND~R~O~K;PLC_~OMMS_F~iL I 10 BOOL 20~ WTP SANDERCOCK RES_H_LEV_F_DELAY 1 20.~ WTP-SANDERCOCK RI:$]I-ZL~E--D~LAY ~ fiT 20Z WTP.SANDERCOCK IRES=L_LEVEL , 1 : I~O0g 20~ NTP SANDERCOCKRES L LEVEL F_DA 1 D BOOL 1 213 AfI~MOK~_ALARM F DELAy I D INT 224 W~fi f E R-PJ~_~ E R N P-OM P ~ O_RU NTIM E 226 WTP TERRA_FERN.P[JI~PI 0_STOP_LEV I'D NT 32 0 227 WTP T~RRA_FERN~UMPI~_AUTO , i 1 [3 ~0-o~ I 0 229 WTP TERRA_FE RN.PUMPI I_F_DELAY I ID i NT 194 ~Fi'P RAW_WAT E R_B PS.S MO K E_ -1 C -1 195 WTP RAW WATER BPS.SMOKE F DA 196 WTP P, AW~_WATER_BPS.SMOKEZF_-OELAY 197 WTP SANDERCOCK.PLC_COMMS_F_D^ 203 WTP SANDERCOCK RES_L_LEV_F_DELAY - 19[' NTP RAW_WATE R_B pS~ P'~_VF D~oN WATER_PLANT 195' NTpRAW_WATER BP_ SSMOKE_F_DA WATER_PLANT 198 ~P.SANDER~OcKPLc_COMMS_F_DELAY W^TER_PL~,NTpLANT %P'60000 199 ~/TP.SANDERCOCK PLC_COMMS_FAIL WATER_PLANT 200 ~q'P.SANDERCDC K RES_H_LEV_F_DELAY WATER 201 ¢/TP~ANDERCOC K RE$_H_LEVEL WATER_PLANT 203 ¢.rl P SANDERCOCK RES_L_LEV_F_DELAy WAT~E R_P_~L~_N ~ ..... --LEVEL 209 WTP.SCRN_~ONTR6L - -- WATER_PlaNT 210 WTP.SCRN_CONTROL_ALT WATE R_PLANT 211 WTP.SMOKE ALARM ' WATER PLANT 216 V~FFP.TE RP~F ER N P LC_CO U M S_FAIL NATER_PLANT 21 ? WTP.TEI~RA_FERN ~UMP1 O_AUTO NAT~PL~NT 21 ~ ~Pi~RA_FERN PHMP1 O_F_DA NATER pLANT 21 ~c V~T~ T~F~RA~N PUMP10_F_DELAy NATER~PLANT %P~600 GO 221 ~Tpi~[-RP~R~I0_MANL!AL ~WATER P_ LA~ 228 NT-P.T[~'I~]i:~I ~U M P 11_F_DA WATER_PLANT 229 N~'P :¢~RA - I~-E ~i~ pU M p 11 _F_[3 ~Y ~ATER_PLANT A CJ CK CL CM CN CO CP CQ 1 :~T_ID SETPOINT_HIG~ SETPOINT_LOW TIME_OF_DAY TRIG_CK_PT TRIG PTITR~G REL TRIG VAL IUAFSET 192 195 ArrPPJ~W_WAT~R_OPSSMOKE_F_OA ' ~ NO 196 ~TP RAW_WATER_BPS sMOK~_F_DELAY 5£ 0 I NO 197 A~T~SANDERCOCK p[_~ COMMS F DF NO 198 Arrp SANDER~OCK.PL~_-COMMS~FZDELA~( 5( 0 NO 199 ~P ~AN D~C~K;~LC_coM~_F~L NO ,200 ~PSAND~RC6~K~ H LEV F DE~ ~03 ~P SAN~K. RES~L~LEV_F~D~ 5~ 0 ~04 ~PS~NDERC~KR~ [ LEVEL ~05 ~P SAN DE RC~K R~[~LEVEL_F_EA 206 ~P SA~D~RCOC~ES LEVEL ' ~ ~P SA~bERC0~K RES~_E~V ~ NO 209 ~SCR~ CONTROL '212 ~PSMOKE~RM F ~ ~ ~ NO 213 ~SMO~ A~RM_F_DE~Y 5C 0 I NO 215 ~fi T~R~-FERN.PLC-COMMS~F-DE~Y 5~ ' ~ i NO 21S ~PTER~ FERN.PLC~COMMS FAIL 217 ~P.TER~_FE RN.PUMPIO_AUTO NO 218 ~P f~R~_F[~N~U~'h~? DA ~ L NO 21 g ~P TE~ ~RN PUMPIO_F_DE~ ~ 0 ~ ~ NO 220 ~ER~ ~RN.puMpIo FAIL ' NO [~2 ~TER~_FERN.PUMP~ 0_ON NO Z23 ~ TER~_FERN.PUMP10_RT_~ESET NO 227 ~P TER~_FERN.PUMP11_AUTO ' NO ' 1 'T IQ UPDATE CRITERIA VARIANCE VAL VARS 192 /WP RAW WATER BPS.P2 VFD FA~L 3C 193 ~rP P~,W_WATER_BPS.P2_VFD_ON DC 194 NTP RAW_WATER_BPS.SMOKE_ ~08 ~PSAND~RCOCK~ES MIN LEV OC ~11 ~P.SU~KE A~R~ !~16 ~P TE R~FER~.PLC~COUaS~F;~L ~18 ~P~R~_F~[~UM~10~F~DA OC ~19 ~P.TE R~_FERN,P UMPIO_F_DE~Y OC 1 ~20 ~ TER~_FERN P U MP 10_FAIL OC 222 ~P ~R~_FER~ PUMPI0_O~ OC 1 ~23 ~P T~R~_FERN puM~ 0_R~_R ES~ 0C 1 224 ~P~TER~ERN PuM P{ o_~u NTIM[ ~ 1 ~29 ~P TER~_FERN ~U~P11~-"~ ~Y oc 1 1 PT ID ACCESS ;ACCESS FILTER ACK TIMEOUT ADDR ,ADDR OFFSET ~DR TYPE ALM C~SS ALM CRI~RIA 231 ~P~TER~_FERN ~11_MANOAL R %~46 ( FQ 232 ~P.TER~_FERN PUMP11_ON R - %M1857 233 ~.TER~ FERNPUM~11 RT ~ESET ~ %M2052 ( FQ 234 ~P.TER~ERNPUMP~i~R~IM~ ~ %R2052 ~' ( FO 238 ~P:?ER~ FE~PUMPT~ DA 239 ~P:TER~ER N ~P7~F~DE~ 240 ~ TER~_FERN.PU~P7_FAIL R ]1%M~850 0 =m rER~ ABS 241 ~P~TER~_F E R~ ~UMP7_MANUAL R %~ 73~ 244 ~ ~R~-FERN-PUMp7-RU N~ 245 ~PTER~ FERN.PUMP7 START LEV IW ] 246 ~P TER~-FERN.~0~-ST0~ lEV ~ I %R2307 0 ~Q ' 247 ~P ~'~FE RN PUMPS-AUTO- 24S ~P TER~-F~RN.PuMP8~=6E~Y 25C ~fi~A~FERN;PUMPS~F~IF IR 252 ~PTERRA FERN.~UMP~ ON IR ~ %~i I ~ :Q 25~ ~ fER~FERN PUMP8~RT_RESE~ W %M2046 257 ~P.TER~FERN PUMPg~UTQ %M1741 0 F~ 25~ ~P.TER~ FERN~OMP~_F_DA N ~ %M19~ ~FQ 25~ ~P.TERRA~F~ PUM~_F_DE~Y N , I%~154 2~ ~]~R~-~ PUMPg~RT_RESET N 26~ FERN ~9 ~IME %R2048 0 FO 26~ ~+TE~_FERN PUMP9~STA~_LE~ N %R23~ ~ 0 FQ 26( ~ TER~_FERN PUMPg_STOP_LEV 267 ~P.TER~_FERN RES_H_LEV_F_DE~Y ALM DEADBAND ALM~DELAY _ _ - A~M E_ NABLE ALM HiGH 1 ALM HIGH 2 ALM_HLP_FILE 230 NTP.TERRA_FERN PUM~I_FAIL ~ I /WTP.TERRA ~ERN PUMPll FAIL 231 NTP.TERRA FERN PuM~il MAN~AL ' _ ~/Tp T~RA=FERN pUMp 11-R~TiME~- 237 NTP TER~_EERN PUMPT_AUTO 1238 ~P,T~RRA ~ERN PUMP? F DA 239 AtOP.TERRA_FERN PUMPT_F DELAY 240 NTp]TEERA_~ERN PL~P?~FAIL 1 q \WTP,TER~ERN pUMP f FA~[ 241 ArrPTERRA FERN PUMP7 MAN~JAL 243 A/TP TERRA_F ER N ~uMp7_RT_R~S ET 2,~4 m~ TE~RA_~RN ~UUP7_~UNT~E 245 A/TP TERRA FERN PUMP7_ST~T_LEV !~45~TP TERR~-FERN PUMP7 STOP LEV ' :247NTP.TERRA_F ERN~PUMPS_-AbTO- 248 ArrP TERRA_FERN PUMPS_F_DA ' !249 ArrPTERRA_FERN PUMP8 F DELAY - , 250 NTP TE~RA ~RN PUMP8 FAIL I 1 \WTP.TERP.~ FERN PUMPS FAIL 251 'VTP'T~RA-FeRN FUM~8~-~ANOA~ 252 NTP.TERRA_FERN PUMP8 ON 253 )~rP ~ERRA FERN PUMPS_PT_RESET 254 NTP.TERRA FERN PUMP8 RUNT]ME 255 NTP TERRA_FERN PUMPS_-~TA~T_LEV 256 NTP.TEI~RA FERN PUMP8 STOP LEV 257 NTp.~RA_~FERN PUMPg_-AUTO- 25B ArFp.~ERRA_FE~N PUMP9 F DA ' _)59 ¢VT~ T~RRA_F ER N PUMpg~F-DELAY ~63 ArFp TERRA FERN PuMP9_RT_RESET ~64 ~TP TERRA_FERN P~MPg_~UN~ME ~65 ArT p T E~RA_ F E R N, PUM pg_START_L EV _)66 ArrP TERP. A~FERN pLIMpg_sTOP_LEV ;267 A~TPTERP. A_FERN.RES H LEV F D~LAY A I P Q R S ~3~ WTPTERRA FERN.PUMP11 MANU,~,L ~32 WTP TERRA-FERN.PUMP11-O-N i 233 ~PTERRA ~ERN.PUMP11 RT ~E-SET 234 WTP TERRA_FERN.PUMP11_RUNTIME 235 - - --'~ I 236 WTP TERRA_FERN. puMP11_STOP_LEV ~'~ WT~TERRA_FERN.PUMP7_A UTO ' 239 WT~ TER RA_F~RN.PU~P7-FZDELAY , 240 WTp TERRA_FERN.PUMP7_FAiL i ~ IwrP TERRA FER~ ~UMP 7~LARM 241 V~fTP ~ER RA_FERN PUMPT_ivlANLIAI_ 243 WTF TERRA_FERN PUMP7_RT_RESET 245 WTP~ER RA_FERN.PUMP7_~AR ['_~EV 246 WTPTERRA FERN.PUMI~7 STOP LEV 247 ~T P T E ~P,A- ~E RN.P u MPS-A U TO- 248 WTP TERRA=FERN.PUMPS-F '~A 249 WT~ TERRA_-FERN PUMPS_-F_-~D~LAY 250 WTP TE~RA_FERN,PUMP~_-FAIL - _ ~P TERRA FiERN PUMp 8 AI~,RM 251 WTp TERRA_FERN.PUMP~Z'_~,NUAL 252 ~rl P TE R P,A_FE ~N[~ U MP$_O N 253 WTp TERRA_FERN PUMPS_RT_REg[c~ 254 I~VTP TERRA_FERN~UMPS_RUNTiME 257 WTP TERRA_FERN.PUMPg_AUTO 258 WTP TE~RA~F~RN.PuMPg~=F DA 2{~0 WTP,TEREA FERN.P~MP9 FAIL ' - ~ WTP TERRA FERN pIJMp 9~LARM 265 ~ TE R RA-FE RN.~ U M pg_~ART_LE,J I A I T I U V W X ¥ t Z 1 PT ID ALM ROUTE SYSMGR[ALM ROUTE USER ~,LM STR ALM TYPE ANALOG DEAOBAND BFR COUNT BFR OUR -)30 ¢¢FPTERRA FERNPUMPll FAIL 1 AL 0 0 -)31 ¢~TPTERRA FERN PUMP11 MANUAL 0 0 233 VVTP~'ERRA FERN~UMP11 iRT ~SET ' ~ ~ 01 0 234 WT~.TERR.~_FERN PUMP11~RU-NTIME 0 ~1 0 236 ~P.~R~E~N ~U~I_~OP LEV 0~ 0 0 237 ~P.TER~ FERN ~7 ~Uf~ r 0' 0 0 238 ~P.TER~__FERN ~0~)~¢ 5~ 0 0 0 243 ~P T~R~0~PT~T__~ET 1' 0 0 244 ~P ~ER~__FE~N.PU~fi~ RUNTiME t~ 0 0 fiER~PUUP7-STOF ~V 258 ~P TER~PERN ~U M P~_ST~F~LEV 26C ~P.~R~_FERN PuMPg_FAIL ' ~ ~ ~= ~L 0 2S~ ~PTER~ FERN PUMP9 STOP LEV 1 0 267 ~i~R~[FER~ RES_H~L[V_~D[GY 1' 0 A AA I AB AC I AD AE I AF I PT ID JBFR EVENT PERIOD BFR EVENT PT ID BFR EVENT TYPE BFR EVENT UNITSiBFR GATE COND ]BFR SYNC TiME 23C v~r~ TERRA FERN PUMP~ 237 ~P TER~_FERN PUMP7_AUTO 0 ( 0 246 ~PTE~ERN PUUP7 8TOP LEV 25~ ~P.TER~_FERN PU~PS_ON 2~ ~P~ER~ F~N'~uuP8 RT RESET ~ 0 1 :*T_ID[ CALC~TYPE CONV~LIM~HIGH~[CONV_LIM~LOW J CONV_TYPE DELAY. _LOAD 3ELETE_RE¢ 230 NTPTERP~FE~N PUMP~_FAFL NO 0 ~,R 231 NTP TERRA_FERN PU aP 11_MAN UAL NO 0 232 NTp. TERRA_FERN pUMP~i ON 233 )~Tp'T~ERRA-FERN PU M P 11-RT-RESET ~O 0 234 NTP.TE R P~_~ E RN P U M P~I_RUNTI~M-E ] 3S 0 235 NTP TERRA_F~RN PUMPi~_S~ART LEV I 33 0 236 ~P T[ERA_~ERN PUblP~i_STOP_LEV 3S 0 ~ ~TP]TE R P~,_F E RN P U M P~ U T~ i NO 0 241 ,~TP.TER~-FE~N PUMP7 MANU~ 242 NTP.TERRA-FERN PU~IP7~N i NO 0 243 zVTP.TERRA-FERNPUMP7 RT RESET ] NO 0 244 N~P.TERRA-FE~NPUMP7 RU~TIM~ ]]]] ]]]7 ] ] OS 0 245 NTP.TERP~,_-F~RN PUMP7 START_LEV 05 246 NTP.TERRA FERNPUMP7 STOP ~Ev O,S 0 248 NTP.TER__RA FERN PUMPS_F_QA NO 0 249 NTP TERRA FERN PUMPS~F_DEL~ , OS 0 250 NTpTERRA FERN PUMP8 FAIL NO 0 254 NTP.TE RRA~F[~N PU MPS-RU~Tli~E i OS 0 259 ,'~FrP.TERRA_FERN PUMPg_F DELAY OS 0 260 NTP~TERRA FERN PUMP~ ~,IL NO 0 261 ~PiTE RRA_-F ER N ~P U M ~M/~N UA L hiD 267 )~rP.TERRA_FERN.RE~ FI-LEV F-6[-LAY ' C~ A IDESc AM AN t AO AP AQ ~T_ID DEVIATION_PT DEVICE_lB DISP LIM HIGMIDIEP LIM LOW 23{ AFFP.TERRA FERN]PUMP11 FAiL '¢~Fp TERRA FERN PUMP 11 MALFUNCTION IPN_0CO 23! NTPTERRA_FERN.PUMPll_MANUAL NTPTERRAFERNPUMPll. MANUAL =PN_800 23,~ A/Tp TERRA FERN PUMP11 ON ~TP TERRA FERN PUMP 1 ~ ON PN_800 23: NTP.TERI~A FERNPUMP11 RT RESET ArFpTE~RAPERN PUMP 1~ RUNTIM[~ESE~ PN~00 2~4 NTP.TERRA_FERN PUMP1 I_RUNTIME ArrP TERRA FERN PUMP 11 RUNTIME VALUE PN_800 235 ,'~rrfi Y~RRA FERN PUblP11_START_LEV Arfp TERRA FERN PUMP 11 START LEVEL SP ' 236 An'P TERRA_-FERN PUMPlI_STOP_LEV ~Arfp TERRA FERN PUMP ~1 STOP LEVEL SP , ~N~OO 237 ~P TE~RA FERN ~UMP7_AuTo VVTP TERRA FERN PUMP 7 iN AUTO I 3N-800 -)38 ~TP[~ERRA FERN PUMP7 F DA WTP TERRA FERN PUMP 7 MALFUNCT DISABLEI 3N-800 239 ~VTP TERRA FERN PUMP7 F DELAY WTp TERRA FERN PUMP 7 MALFUNCT DELAY I 5N 800 50 240 ¢~TPTERRA FERN.PUMP7 FAIL :WT~ TERRA FERN PUM~ ~MALFUNCTION 241 ~TP TERRA~ FERN PUMP7~MANUAL WTP TERRA FERN PUMP 7 MANUAL iPN_800 244 WTP TERRA ~R'4 PUMP7 RUNTIM~ WTP TERm FER~PUMP 7 RUNTIM~ VALU~ 245 WTP TERRA FERN PUMP7-START LEV WTP TERRA FERN PUMP~ START LEVEL ~ PN_80O 247 W~;TE~P~ FERN.pLI~IpE_AU~O WTP TERRA ~RN PUMP 8 IN ALrTO PN_~00 248 WT~ TERRA_FERN PUMI~ F_D~ WIP ~P~ FERN POMP $ MALFU~DISABLE PN_800 ~5C WTP TERRA_FERN.PUMPS_FAIL 'WTP ~ERRA FERN PUMP 8~ALFUNCTION PN_800 , 251 WTP.TE RRA_FERN.p UMPE_MANUAL WTP TERRA FERN PUMP 8 MANUAL 'PN_800 252 WTP.TERRA_~ERN PUMPS_ON WTP TER~ I-[~ PUMP 80~ PN_$00 254 V~FP.TERRA_FERN PUMPE_RUNTIME A~rP TERRA FERN PuM~ 8'~,LI-~TIM~ALU~ ~ PN_800 261 NTP~TERRA-F~RNiPOMPg=MANUA~ ¢~rp TERRA FERN ~UMP ~MANLI~L PN_800 262 NTP.TERRA_FERN PUMP9_ON VVTP TERRA F~RN PUMP 9 ON ~N_800 263 WT~ERRA_¢~h Pu~P9 RT_RE~~r WTP ~ERRA FERN PUMP 9 RUNTiM[ RI=~E~ ~N_800 264 ~TP TERRA_FERN.PUMPg_-F~UNTIME wTP TERRA ~ERN PUMP~RUNTibl~ VALUE ~N~800 ~65 ~TP TERRA_FERN.PUI~9 START_LEV WTpT~RRAFERNPUMP9STAR~LEV~LSP ~6~ ~PTERRA FERN PUMP9 STOP LEV ~CrpTERRAFERN PUMPgSTOP LEVELSP 267 ¢~rP TE~RA-F~RN RES H LE~?~ELAY WTP TERRA ~N I-I[GH LEVEL ALARM bELAY PN_~00 50 1__Pt I~ }ISP_TYPE DISP_WIDTH ELEMENTS ENO_UNITS ENUMJD EQUATION EXTRA 23C v~r P YERRA_F~N ~U MP 11_~IL 1 231 WTP ~ER~A= F~RN ~UMPI~ ~MANUAL 1 23~ WTP.TERRA_FERN PUMP11_ON 1 23E V¥1P.TERRA_E~RN PUMPll_RT_RESET [ 1 23E ~TPT~RRA FERN.PUMP7~ f DA - 23[ ~TERRA FERN.PUMP7=~6~LA-Y ~ ~ MiN o 24[ /VTPTERRA FERN.PUMP7_FAIL t 0 24' NTP.TERRA FERN PUMP7 MANUAL 1 0 242 NTp TERRA FERN.PUMP7 ON 1 0 243 NTp TERRA_FERN PU MP7_RT_RESET 1 0 244 NTP.TERRA FERN PUMP? RUNTIME 8 1 HOURS 0 245 NTP TERRA_FERN PUMP7_START_LEV 3 1 FT 0 24~ NTPTERRA FERN PUMP7 STOP LEV 247 ArlPTERRA FERN PUMP8 AUTO 1 , 0 248 ArlPTERRA FERN PUI~P6 F UA 1 POINT STATUS ~4§ ¢~TP TERRA_FERN PUMPS_F_DELAY 4 1 MIN 250 ~TP TERRA FERN.PUMPS FAIL 252 ~TPTERRA FERN.PUMPS_ON 1 254 V~FrPTERRA FERN.PUMP8 RUNTIME E I HOURS 255 WTp TERRA_FERN.PUMPS_START_LEV ~ I FT 2~6 WTP.TERRA_FERN~UMPS_STOp_LEV 2 i FT 257 WTP~TERRA_~[RN PUM PS_AU¥O 1 258 V~'TP~TERRA~ERN.PUMPS ~ DA I 1 POINT STATUS 2~0 WT~TER~FERN.PUMP9 FAIL 261 V~I P/ERPJ~F E R N. PUM PS~N UAL 1, 262 WTP TERRA_FERN.PUMPS_ON 1 2~q WTP TERRA_FERN.PUMPS_RT_RESET 264 V~FfPTERRA_FERN.PUMPS_RUNTIME 8 1 -IOURS 26~ WTPTERRA~FERN PUMPS_START_LEV 3 1 --T 26~ WTP.TERRA FERN PUMP9 STOP LEV 3 1 ;T 267 WTP.TERRA_FERN RES_H_LEV~F_DELAY 4 I ~IlN A AY AZ BA I BB BC BD BE BF I BO I PT_ID /FW CONV EQ OR SCREEN INIT VAL JUSTIFICATION LOCAL LOG ACK LOG DATA LOG DELILOG OEN 230 vi.rIp TERRA_FE~ P01~IFI~ FAIL I i _EFT i 231 WTP TERRA_FERN PUMPll_MANUAL i -EFT 232 WTPTERRA FERN.PUMP~I O~ _EFT 233 WT" TERRAZFER-N~dI~P~i-~RT-RESET 71 ~ -EFT 234 WTP TERRA_FERN,pIJMP 1 I_RUNTIME %P/100 LEFT I 235 WTP TERRA_FERN PUMP 11_START_L EV %Pt100 LEFT 236 WTP.TERRA FERN PUMP~i STOP ~V %Pt100 LEFT 0 237 WTP.TERRA-FERN~P-U-MP~ ~.UTO ~ LEFT 238 V'ClP.TE~RA]FERRPU~,IpT_-F_DA LEFT ~i 239 WTP.TERRA FERN PUMP;' F DELAY %P/60080 LEFT 240 WTP.TE RRA=FERN P UMP?_FAIL LEF~ : 241 VC~PTERRA FERN PUMP7 MANUAL LEFT 0 242 WTP.iERRA_-FERN ~tJb1P7%_ON LEFf 0 243 WTP.TERRA_FER~N ~PUMP7=RT__R~SET ; LEFT O 24E WTP.TERRA FERN PU"P7 STOP LEV *PllO O LEFT 247 WTP T~RRA--F E~R ". PU~. r ~-.- .Ay TO= LEFT 0 24~ WTP TERRA_FER_N P~=/~BA LEFT ' 0 25'; '¢¢1'P TER RA ~ ~ F~4 ~ ~-MI~ 8- (~1 - 'LEFT ! 0 25,~ WTP~I~RA FERNTPUMPS_R~RESET I ' LEFT O 25'~ W~P TERRA_FERN PU~PS_RUNTIME %P1100 LEFT O 25~ WTP TERRA ~ERN.PUMP8 START LEV %Pt100 LEFT 0 25~ WTP TERRA_FL RN.PUMPS_STOP_LEV %Pt100 LEFT O 257 ¥¢P T~RRA_FERN pLIMpg_AUTO , LEFT 0 25[ NTP TERRA_FERN.PUMPg_F_DA LEFT i 0 26( NTP TERRA_FERN.PUMPg_FAiL LEFT ~ 0 0 ~ 1 26" NT~E R RA~FERN.i= U M Pg_M, AN UAL . L 26', NTp ~RA_FERN PUMpg_oN I~_F~ , 0 ' 26: NTP.TERRA_FERN PUMPg_RT_RESET i~ LEFT 26z NTP TERRA_FERN PUMPg_RIJNTIME VoP/IOi~ ~ t~Fr 267 NTP,TERRA_FERN RES_H_-LEV_F~.DELAY %PIS00~00 ,LEFT 1 PT ID RESE~ MAX STACKEO MEASUREMENT UNIT 113 POLL AFTER SET PNECISIOh PROC ID 232 WTPTERRA_FERN PUMP11 ON 234 WTP TERRA_FERN PUMP~I_RUNTIME 235 vv'rP ~ERI~A_FERN~fiLJMP 11_START_LEV 242 'ATp TERRA_FERN PUMPT_ON 244 WTPTERP~ FErN.DUMP7 F:UN~IM~ 1 247 WTP TE RRA_FERNiPUM~_AUTO 248 WTPiTE R RA_FEF[N ~UMPS_F_DA I I 24c~ WTp:TE RP.A_~ERN PUMPS_~DELAY 1 251 WTP.TERRA ~RN PUMP8 MANUAL 25~ WTP.TE RRA_F ~RN?P U m P 8_S IARi_L EV 1 25E ~1P~TE RRA_F E R N ~ U M P 9_F_D,~ .... . 1 25~ ~rP TERRA_FERN.PU~Pg_F_DELAY 1 26[ ~/TP TERRA_FE R N.PUMP9_FAIL 5 1: ~ NT P T E F~ RA~_FE ~ N. P~U~M_P~__ ...M~N U_AL 26: NTP .T _E RRA_FE R N .PUMP9_ RT~_?_E_S E T 267 A I BN I BO BPI BQ I BR BS BT I BU 1 PT ID PTMGMT PROC ID PT ENABLED :~T ORIGIN PT SET INTERVAL IRT SET TIME4PT TYPE RANGE HIGHIRANGE LOW 230 WT-p ~ERRA ~ERN.PUMPIi FA~ 231 W~P TERP~-FER~]FUMPll-MANUAL - ~BOOL 232 W'T~TSRRA_FERN PUMP11 'O~ I 1 i IBOOL 233 WTPTERRA FERN.PU~q~I~ R~ RESET i 1 I BOOL 234 ~ TERRA_-FERN PUI~Ip11_RLINTIME 1 j glNf 235 WTfi TERRA F~RN.PUMPI~TAR~: L~g I j , INT 32 236 WTP TERRA_-~RN PUMm~_-§TS'P_~V ! ~ , hNT 3~ 237 WTP TERRA_FE RN.PUMPT_AUTO J : i BOOL 238 WTP TERRA FERN.PLIMP7 F DA ~ I ~OOL 239 WTPTERRA FERN.pLIMP7 F BEL~y [ I I-NT j 240 WTp TERRA_FERN.pLIMpT_FAIL 1 jBOOL 241 WTp TEfiRA ~ERN.PUMP7 MANUAL 1 ~BOOL 242 WTP TE RRA_FERN PUMPT_O N 1 B(~O~ 243 WTPiTERRA PERN PUMP7 RT RE~ET i BOOL 244 WTP TERRA_FERN PUMPY_GUNTIME J 1 245 WTPTERRA ~RN PUMP7 8TA~ E~ 1 : INT 32 246 '¢¢FP TERRA~FERN.PUMP?~STOP_LEV 1 INT 32 247 WTP TE R RA_?ERN PUMPS_AUTO 1 BOOt_ 248 WTPTERRA FERN.PUMP8 F DA 1 BOOL 249 WTP TERRA FERN.PUMP8 F DELAY 1 INT 25(] V~Tp TERRA_FERN.PUMPS_FAIL 1 BOOL 251 WT~ TERRA_~ERN ~UMPS_MANUAL 1 BOOS 252 WTP TERRA_FERN.PUMPS_ON 1 BOOL 253 WTP TERRA_FERN.RUMP8_RT RESET I BOOL 254 WT~TTERRA_~ERN PUMP8 RUNTIME 1 DINT 255 WTP TERRA ¢~-RN PUM~8_START_LE~ 256 WTP.TE~RA~ERN PUMP8=STOP~LEV t 1 ' INT 32 257 kYTP TERRA_FERN PUMPg_^UTG 1 BOOL 258 WTPirERRA ~RNPublP9_F_DA 1 D ' -- BOOL 25g WTP TERF~A_F~RN PUMPg_F_DELAY I b I~T 26C WTP TERRA_FERN PUMPg_FAIL 1 D ' BOOL 26'1 WTP.TERRA_FERN PUMPg_MANUAL I D BOOL 262 WTPTERRA FERN PUMPg_ON I D BOOL 26~q WTP.TERRA_FERN PUMPg_RT_R~SET 1 D BOOL 264 wTpTERRA FEl~i~ RUMP9 RUNTIME ~ ~ ~ ' ~ ',Ar~me'2o01 ~ A BV BWI BX BY BZ CA CB IRAW_LIM_HIGH RAW_LIM LOW iREP_TIMEOU" RESET ALLOWED RESET COND RESET PT RESET TIMEOUT 232 ~P TER~_FERN.PUMPll_ON I 233 ~P TER~_FERN.PUMP 11_R~RESET I 241 ~.TE R~_FERN PUMPT_MAN UAL ~ I I ' 245 ~P.TER~_FERN PUMP7 STAR_ T L_ EV i { 246 ~P.TER~ FERN PUMP7 STOP LEV ~ ~P.TER~-FER" PUMPS]AUT~ ~ 26e ~P.TER~_FERN PU~P~_~f~-~EV - 267 ~P.TE R~FERN RES_H~LEV_~DE~Y CC CDI CE I CF CG CH CI A RESOURCE iD REV CONV EQ rROLLOVER VAL PT_I~ 230 VVI'PTERRA FERNPUMP!I FAIL WATER_PLANT 231 L~/TPTERI~,_FERNPUMP11 MA_ NUAL WATER PLANT , 234 wrp TERRA FERN PUMP11 RUNTIME WATER ~LANY '%P*10.0 I 239 WT~:fERR~ERN PUMP~ ~ DELAY WATER_PLANT %~-~oo oo I ~ ] 1 24C VVTP TERRA-FERN PUMP7-FAIL WATER PLANT 242 WTP ~R~=P~RN~PUMP7 0N ~VA~ER P~NT 24~ ~ ~ FERN~Q~M~7-R_ T_R~SET ~ATE~-P~N~I [ 0 2~ ~P TER~_ FERN PUMPB ~STOP- LEV WATER= P~NT m %P'100 0 ~1~ 1 PT_ID S ~FPOINT~HIGH ETPOINT_ LOW TIME~OF DAY ~TRIG~CK~PT I TRIG~[T.PT TRIG REL ITRIG~VAL UAFSET 233 ~P TER~_FERN PUMP11_RT_RESET I ~ NO 235 ~P TER~_~ER~UMP~I_STAR~_LEV 32 ~ NO 239 ~P TE~_FE~ PU~PT~F~bE~Y 50~ 0~ qO 24C ~P TER~ffERN~UMP~ ~FAIL 243 ~P.TER~ FERN PUMPT_RT_RESET 2~ ~P~R~ FERN ~P7_RUNTIME 24~ ~P.TERRA_EE~N. PUMP7_START L_ EV 25~ ~P.TE ~E~N[~ 0~ P 8_RT_~E S ET 254 ~ TER~_FERN PUMPS~RUNTIME 2~ ~.TER~_FERN PU~PB_START_LEV 261 ~P TER~_FE RN.PUMPg_~AN~AL , .... NO A I CR I CS 1 ~T_ID U~P DATE_C RITERIA] VARIANC E_VAL 230 ,~rP TEF~P.A_FERN.PUMP11_FAIL OC 231 NTPTERRA_FERN.PUMP11 MANUAL OC 232 A~T~RA_FE RN.PUMP11_ON OC 233 ,'VTP TERRA_FERN.PUMP 11_RT_RESE~ OC 234 ~TPTERRA FERN.pLIMPI1 RUNTtME ,OC 235 ~.FFPTERP~ FERN.PUMP11 START LEV OC 242 ~P.TERRA]FERN ]=UM P~ON O~ 1 245 ~P TERP~. ~ER',IiPUMPY~"i'AR~ LEM OC i 249 v'~rfpTERRA~ERN.PUMPB~F_DELAY OC 251 WTP TERRA_~E RN.PLIMI~_MANUAL ,O~ 252 WTP TERRA_FERN.PUMPS_ON 4OC 253 ~P TERRA ~L~N]~UMP8 RT_RESET -OC 254 w~P ~ERP. A_FERN PUMP8 RU~TiME OC 256 WTP TERRA FERN PUMP8 STOP LEV 257 WTP TERRA_FERN PUMPg_AUTO OC 258 ~I~P.TE R RA_ f~ R N ]~ U M ~9_F_DA 26C WTP]~RA FERN PuMPg-~,I'I_ B C D E F G H I : ACCESS ACCESS_FILTER ACK~TIMEOLIT ADDR = : _ ADDR~OFFSET ADDR TYPE ALM CLASS ALM CRITERIA ~ NTP~RRA ~RN~RES L LEVEL R 1 Y~M1860 (3 FQ TERRA ADS 274 /¥TPTERRA_¢ERN RES_MAX_LEV 275 Arlp TERRA-FERN RES-MIN-LEV ¢¢ Z~jl ~/oR1302 0 FO I 276 NTPTOTAL ESTIMATED KW ~ /¢fP ~ISTA -LOOP PLC_C-OMMS_F_DA ¢¢ YoMI§~ I 0 ~Q · ~ ¢¢FP vi~A_LOOP ~LC~O~blS_~_DELAY 280 Aq P VISTA_LOOP R~_H_LEV_F~_DEL~Y iN ~R2163 0 FQ ~81 ¢VTPVJ~A_LOO~RES~.H_LEV[I: ~ ! -1 '~M1863 0 FQ iVtSTA ~,B~ 282 ¢VTP VIST~_LOO~iRE~_H__LEVEL.F. DA W ,%M196~ 0 FQ ~83 ~VTP VISTA_LOO? R~E_.~=_~:.LEVm? DELAY W %R2164 C FQ -~85 ¢,rl P VISTA_LOOP RES_L_LEVEL_F_E)A W %M1984 ~O ~86 ¢¢TP VISTA LOOP RES_LEVEL R %R1500 0FQ 289 ¢¢"VTp. PLC_COMMS_F_DA W %M1984 0 FQ ~90 ~P PLC_COMMS_F_DELAY W !%R2 84 ~FQ , 291 ~P PLC_COMMS_FA L ~ I :~1~Mi884 o FQ v~.rlp ASS 1 3T ID ALM OEADBAND ALM DELAY ALM ENA~3LE ALM HIGH I ALM HIGH 2 ALM HLP FILE 268 NTPTERRA_FERN RES_H_LEVEL 0 1~ I 1 \WTP.TERRA FERN RES HI LEVEL 269 NT P.TERRA_~ ~1~ ~1 ~ES_H_L EVE L_F_DA 0 270 NTP TERRA_FERN.RES_L_LEV_F_DELAy 0 271 NTPTERRA_FERN RES_L_LEVEL 0 1 ~ ~WTPTERRA E~R~.RES LO L~V~L 272 NT~ rERRA ~RN~S L LEVEL F DA 273 NTPTERRA FERN.RES LEVEL C 274 ~TP TERRA FERN.RES MAX LEV ~ ~TE T~RRA=~[RN.~--MIN-~EVI 1~.77 ~PVISTA LOOP~P[~ C-OMM~ ~ DA I ~78 ~NTP VISTA LOOP.PLC COMMS-F DELAY ~79 ~F-P.VISTA_LOOP.PLC_COMMS_FAIL ~ ; ~ WTP.PLC_PNS00_COMMS_FAI~ ~80 VVTP.~I~TA-LOOPJR~ H LE-V_~_D~AY ' £ 281 VVTP.VISTA LOOP.RES H LEVEL £ 1 i WTpVISTA LOOP.RES HI LEVEL 282 L'¥TP VIS TA_LO OP. R E S_H_LE VE L_F_DA 283 ~VTP.VISTA_LO OP. R E S_L_LEV_ F_D E LAY ( 284 LNTP VISTA_LOOP.RES_L_LEVEL ( ~ 1 ~VTRVISTA LOOP]~ LO t_EVEL 285 ~TP.VISTA [OOP.RCS~L LEVEL F DA ( 287 WI'P vls¥~_ibO~ RES_MAX LEV 288 WTP ~/I~TA_LOOP RES=MIN_LE~/ I 0 290 WWTP.PLC_COMMS_F_DELAY I 0 I 11 291 W~VTP.PL~_COM MS~FAIL 0 \WTP PLC_PNS~0~OMM §?AIL A ] ' Q I R I S 1 ~T_ID __iALM_LC)W_I ALM_LOW=2LALM-MSG ALM_ROUTE_OPER 26[ N"i'P YERRA_FE RN.REs_H_LEVEL Arfp TERRA FERN RESERVOIR EIGH LEVEL ALARM 26.~ YfPT~IRP, A_EERN.RES H LEVEL F DA ~ 27[ &rrPTERRA FERN.RES L LEV F DELAY &rip TERP. A_FE RN.RES L_LEVEL : Arrp TERRA FERN RESERVOIR LOW LEVEL ALARM ~ &q P TERRA_FL RN.RES~L_LEVEL_F_DA ~ ¢,rl P TEF{P.A_FERN.R ES_LEVEL ~ ¢¢TP VISTA~LOOP ~LC_COMMS_¢_DA 28' NTP VISTA_L- OOP.RES--H--LEV~:L~ ¢¢'P VISTA LOOP R~g~RVOIR HiGH L~VELALARM 28,; ~VTP VI STA_LOOP.~_ H_L EVE L_F_DA i ' 28~ /VTPVISC~OOPiRES E LEVEL F DA 28; Ar['P .VI STA_LO Op. R ES_M AX_L EV 28,~ /VTp VISTA_LOOP.RES_MIN_LEV 28(- ¢,ANTP. P L C_C OMM S_F_DA 29( /VWTP. PLC COMMS F DELAY 1 PT ID ALM~ROUTE_$YSMGR ALM ROUTE USER ALM STR ALM TYPE ANALOG DEADBAND BFR COUNT BFR DUR ~71 ~P ~R~_FE~N~RES_L_LEV~ 8 AL O O '275 ~p TER~=FE R~.R ES-MiN ~EV 0 0 ~ ~P TOTAE~ESTi~TED_~ ?77 ~P~VI~TA LOOPPL~ C~M~ ~ DA 278 ~P ~IsT~LOO~ ~[~CO~MS-F-~E~ 0 0 ~ ~P vI~TA_EOOP PLC_CO~S_FAIL 11 ~E ~l 0 ~280 ~VISTA_LOOP RES_H_LE~'~ DE~ 0~ ~1 0 283 ~p VlSTA~LOOP RES~L_~EV_F_~Y BPF: EVENT PEF:IOD eFR EVENT PT ID BFR_EVENT_¥¥PE BFR_EVENT_UNITS ~E~_~TE=COND FF:=~YNC_~IME 270 ~P.TE R ~_~ ~: R~ S=L_LE V=~= ~ ~ ~ Y I C 1 0 O: d~ 271 ~P.TER~ FERNRES L LEVEL C I ~ ~E~ 7 ~ 0 272 ~P TE R~_FERN RE S_L_LEVEL_F_DA ( i I ~ O 273 ~P TER~_FERN RES_LEVEL C I 1i 0' 0 276 ~P TOTAL_E STIMATE D_~ C 1, 0! O ~' 278 ~P.ViSTA L~6~7~E~ ~OM~S_F_DE~ ~ I 0 0 0 281 ~P VISTA_LOOP RES_H_LEVEL O 1 0 0 0 284 ~P VISTA_L~P RES_L_LEVEL 0 I 8 C 0 285 ~P VISTA_EOOP RES_L_LEVELF_DA ~ l { 0 C 0 288 ~P VISTA_LOOP RES_MIN_LEV 0 I 0 0 0 289 ~P PLC_COMMS_F_DA 0 I 0 0, 291 AG AH AJ AK AL A CALC TYPE CONV LIM HIGH CDNV LIM LOW PT ID DONV TYPE DEL~Y LOAD DELETE RE¢ 270 WTP.T~RRA_F[R~i ~E~L LEV F DELAY ~S 0 271 WIP.TE~RA FE~N~RES:L_-LEVEL N~ 0 AR 272 WfP T~RRA_~ERN ~[ LE~L F DA ' NO 0 273 v~rlP T~RRA_FEF~N.RES L~VE~ CS 0 274 WTF) TERRA FERN RES MAX ~EV 275 V?TP T~RP, A~R~RES_Mi~ ~EV I 276 W~ TOTAL_ESTIM~AT-ED ~W EQU 278 WTp VISTA_LO0~ PLC COMMS ~ D~L~y , I CS 279 WTP VIS~_LOOP PLC COMMS_FAIL · NO AR 281 WTP.VISTA_-LOOP ~ES~_-H_LEV~L ~O AR 282 WTP .VI S~A_LO DP ~'~H_L EVE L_F_DA , I NO 285 WTpVISTA LOOP RES ~LEVEL FDA i NO [ 286 ~,~TpVI~TA LO- OPRES_-L~VEL ~ - J CS 287 ~P.91STA LOO~Es_MAx_L~V ! CS 288 WTPVISTA LOOP.R~S MIN LEV [ CS 28~c WWTP~PLC_CoMM$_F_D^ NO 29£ VCAri'P PL~ COMMS I- E)~LAY CS ~ VV7~72001 ~ A l AM !AN AC AP AQ 1 PT_ID DESC DEVIATION_PT DEVICE ID DISP LIM HIGH DISP LIM LOW 268 'ArFP TERRA FERN RES ~ t.~VEL WTp TERRA FERN HIGH LEVEL ALARM ~ - . PN 800 269 WTP TERRA FERN RES H LEVEL F DA WTP TERRA FER~ HIGH LEVEL AI~M DISABLE ~ PN-800 270 WTp TERRA_FERN RES_L_LEV_F_DELAy WTP TERRA FERN LOW LEVEL ALARM DELAY ' PN 800 50 0 271 WTp TERRA FERN RES L LEVEl_ WTP TERRA FERN LOW LEVEL ALARM - PN 800 272 WTP :EERRA~-F ERN RES-L_-LEVEL_~_DA W"fP f~RRA FERN I_OW LEVEL~LARM DISABLE ' ~N_-800 273 wT ~RRA_F E R N RES_LEVE L WTP TERRA FERN RESERVOIR LEVEL VALUE PN_800 274 WTP TERRA FERN ~ES_MAx]LEV WTP TERRA FERN REsERvO R t. EVEL M N : PN_800 275 WTP,TER~A_FERN RES_MIN_LEV WTP TERRA FERH ~RVOIRLEVELMI~ : PN 800 I 276 ~ P ;TOTA[~E 8TiM~TE D_KW WTP TOTAL ESTIMATED KVV iI -- 277 ~P vISf~ [OOP.PLC_COMM~_F_DA ~I_~N ~NS0~ COMM~ FAIL DiSABL~ I 80o 278 WTP.VI~TA_LOOP.PLC_COMMS_F~D~LAy ~LC PNS05 COMMS FAil DELA~ TIME !PN=800 ! 50 0 279 WTP.VISTA_LOOP PLC_COMMS_FAIL PLC I~ PN8O5 CON1MUNICATI~N~ STATUS PN_800 280 w~PvIs~A LOOP.RES H L~VF DELAY WTPVI~TALOOPHIGHLE~-LALARM DELA~ PN 800 50 28~ WTP VtSTA_LOOP.RES_H_LEVEL VCFP VISTA L00~ HIGH LEVEL ALARM pN=~0O 282 ~rrP VISTA_LOOP.R~_H_LEVEL~F DA WTP VISTA LOoP HIGI~LEVEL ALARbl D~SA~LE F PN-800 283 ',,wp VISTA_LOO¢.RES_L_LE~/ ~DELA~ WTP VI~A LOOP LO'LEVEL ALARM DELAY ; ~ I PN 800 284 WTP VISTA_LOOP RES_L_LEVE L WTP V~STA LOOP LOW L~EL ALARM PN_80O O 285 VCTP ViSTA_LOOP.RES L LEVEL F DA ~Arrp VISTA LOOP LOW LEVELALARM DISABLE PN_800 I 286 WTPiVI~TA_LOOP.RE S_LEVEL WTp V ~?A LOOP REdE ~O~R LEVEL VALUE PN_800 287 vcrP.v~s~^ LOOP.RE~'CvlAX LEV WTP VISTA LOOP RE~ERvoI~LEVELVALUE PN 800 288 WTP,VISTA LOOP.RES MIN LEV WTP VISTA LOOP RESERVOIR LEVEL VALUE PN 800 289 WWTP PLC_COMMS_F DA WTP PLC IN PNS00 COM-MS FAIL DISABLE RN_800 290 WWTP P LC_COMMS_F' DELAY VVS'p P[.~ COMM~FAIL OELAY TIME PN_800 50 O 291 W~rfP PLC_COMMS FAIL WTP PLC IN PNS00 C(~IM~UNICATIONS STATUS PN 800 A I AR I AS I ^T i AU AY AW lAX 1 ~T~ID DISP:TYPE IDISP~WIDTH ELEMENTS EN G_UNITE: ENUM_/D ~QUATIONJ EXTRA 26`( NTPTERRA FERN.RES H LEVEL 0 26.( NTFTERRA FERN.RES H LEVEL F DA 27( NTP TERRA_FERN RES_L~LEV_F_DE LAy I 4 1MIN 0 ~ NTp TERRA-FERN.RES_ ~-L LEVEL==F D~A I PONT STATU E 27: NTPTERRA_FERN.RES_LEVEL ! ~- 1 FT 0 27z NTP TERRA_FERN.RES_MAX_~EV ~ NTPTERRA_FERN RES_MIN LEV ~ NTPTOTAL ESTIMATE~ KW ~ KW i 0 ~ NTP VISTA_LOOP PLC_CO~IM~_F_DA ~ NTP VISTA LOOP PLC COMMS F DELAy 28( tCFPVISTA LOOP RES . LEV [' DELAY 4 I MIN I 28,~ N~'P VISTA_LOOP RES_H_LEVEL_F~DA 1 ~oIN~r_STATU 28.¢ ¢¢TP VISTA_LOOP RES_L_LEV~L_F~DA I I ~OINT_STA~ 28~ ~TP VISTA_LOOP RES_LEVEL ~ 3 28~ ~PPLC COMMS F DA ~ ' 29[ ~JWTP.~LC_CO M M~=F~E I~Ay 4 291 N~VTP.PLC COMMS FAIL ~9 ~NTP TERRA_FERN.RES]H]LEVEL_F_DA i ]~FT ~ ¢/TP TERRA FERN.RES L LEV F DELAY %P160000I, LEFT 274 vVTP TERRA]~ERN.REs_MAX_LEV %P/10 0 -EFT 275 ~VTP TERRA FE~N]RE~ MiN LEV %~7~0.~ _EFT 278 vVTP VISTA_LOOP.PL~_CoM~s_F_DELAY %l~/B00 00 LEFT 279 WTP VISTA LOOF]P[~ COMMS FAil LEFT 280 WTP VI~TA-LOOP.REs-H LE~ ~ DELAY %PZB00 O0 LEFT 281 ~P VISTA_LOON.RES _ H_ LEV'EL LEFT 282 WTE.VISTA LOOP.RES H LEVEL F DA LEFT 285 WTP]V STA_LOoP. R ES_L_ L EvE [_~_DA ' LEFT 287 Vt/TP.VISTA_LOOP.RES_MAX LEV %P/100 L~ 288 WTP.ViSTA LOOP ~ ES_MIN_LEV %P/10,0 LEFT 289 VV~AFFp. PLC COMMS_F_DA LEFT 290 LAANTP.PLC COMMS_F_DELAy %P/600 00 I LEFT 291 vw~r~ PLC ~O~a~_PAIL I i LEFT A I BH I B~ I ~J I .K I BL [ BM 1 PT_ID ILOG_RESET!MA)C_STACKED MEASUREMENT_UNiT_ID POLL_AFTER_SET PRECISIONIPROC=ID 274 ~P~ER~_F~ RES_~AX_LEV ~ 1 27~ ~P.TER~_FERN RES_MIN_LEV I 1~ 27E ~PVISTA_LOOP PLC_COMMS F DE~Y ~ ~ 2 2~[ ,~ P~ISTA~L~ RE S~_~_~_DE ~Y 2 28~ ~P VISTA~L~RE~_L_L~_~6~Y 1 2 28z ~PVISTA_L~PRES_L_L~EL m 5r : F 28~ ~P VISTA L~P RES L L~EE F DA m ~ 287 ~P VI~A_LOOP RES~U~LEV) ~ 1 28[ ~p.pLC~OM~ ~ r I m 29( ~P.PLd_coM M~_F_DE~ 1 2 ~ vcm~'2oo~ ~ A I BN BO BP BQ BR BS BT I BU 274 ~PTER~ FERN.RES M~ EEV I D i NT ~ 32~ 0 ~ ~TER~-F~RN RES~MIN~ I D : NT r, 32~ 0 ~76 ~PTOTAL EST~MATEB_~ ~MASTE~_PTM0_RP 1 G NT ~77 ~PVISTA_LOOPPLC COMMS_F_DA I D ~ ~ ~ ~OOL~ ~ ~ 1 0 ~80 ~P;~ISTA L~P~_~_L~_F_DE~ D NT ~91 ~P PLC~CO~F~iL i ~ A BV BW I BX / BY BZ CAI CB 268 ~P.TER~NRES H LEaL -1 ~/ 1 270 ~P.TER~_FER~ ~S_L_LE~ F DE~ ~P~ER~ FERN~S E ~EVE~ '~ ~ -1 274 ~P TER~_~ERN R~_M~_LE~ ~ ~ ~ ~OTAL~ESTIM~E~K~ SA 277 ~P Vi~A_LOOP ~C_COMU~_F_DA ~ ~"V~ST~:~OO~L~COM~S:~L I ~ 0 -1 ~O ~PVISTA LOOPRES H LEV F DE~Y J ~ 282 ~ VISTA LObP ~S H E~VE~ 6~ ~ J ' 284 ~ VIST~L~P RES_L_LEVEL : -1 01 ~ 1 285 ~fi~I~TA_L~P RES_L_~L_F_DA 286 ~P VISTA_L~P REE_LEVEL 288 ~ VISTA ~OO~RE~'-Mi~E~ ' 289 ~P.~LC-COMMS ¢~A ~ 291 ~P P~C~M&_~AIL -1 ~ 0 -' -1 A I CC i OD t ce cFI c~ CH C~ ~ PT~ID :RESOURCE~ID REV~CONV_EQ ,ROLLOVER_VAL SAFETY PT SAMPLE IN~V SAMPLE INTV UNIT SCAN RATE 269 ~PY~R~FERN RE~ H LEVE~ F DA WATER P~ ~ ~ ~ ~bTER~RN.RES~L~ F~Y WATER~P~NT F*P"600 ~ ~ 0 ~ ~TE~FERN.RES-~ LEV_ ~ WATER_P~ %~'~0 0 g ~ ~ ~PVISTA~E6~PLc~coM~s-F-_DE~ ~TER~P~Y ¥~P'600~ ~ 0 279 ~P VISTA_LOOP PLC~CQMMS_FAIL WATER_P~NT ~ 0 ~PVISTA LOOP,RES H LEaL ~82 ~Vl STA_Lo O P,RE S_~_ L[~L_F_DA WATE ~P~NT 284 ~P.VISTA LOOPRES L LEVEL WATER P~NT , ~86 ~PVISTA_LOOP.RES_LEVEL WATER P~NT %P*100 I ~90 ~PPLC COMMS F DE~Y WA~R_P~N~ %P*600 00 ~ ~91 ~;PLC~COMMS~F~IL WATER P~NT ~ A I CJ I CK I CL I CM I CN CO I CP ICC I PT ID SETPOINT HIGHLSETPO~NT LOWITIME OF DAY TRIG CK PT TRIG FT ~IG RELITRIG VAL UAFSET 268 ~TER~_FERN ~ ~ LEVEL - 269 ~P TER~ FERN.RES H LEVEL F DA NO 277 ~P VISTA~LOOP.PLC_~OMMS_F ~ ' NO ~ ~P~IST~LOOP PLC_COMM~ DE~Y 5( ~ N~ ~79 ~P VISTA ~P PLC COMMS~F~IE- ' ~ - ' NO ~ ~P ~ISTA~LOOP ..... ~E~H L~ F DE~Y 5~ 0 m NO 281 ~P~ISTA_L6OP RE~_H_LEVEL ~ , NO ~84 ~P VISTA_L~P.R~ ~ L~EL ~[~ ~0 ~85 ~P VISTA_LOOP RES_-~LEVEL_F_6~ ~ NO ]88 ~P. VISTA_LOOP RES_MIN_LEV 3( 0 ~ NO m NO )291 ~P ~LC_d~S_FAIL ~ NO m A 1 PT_ID UPDATE_CRiTERIA JARiANCE=VAL VARS 26§ WTPiTERRA-FERN R~-H-LEVEL F DA 276 ~P TER~_~RN~RES L LEV ~_DE~Y OC ~ ~]TER~-F~RN RES-L-L~L ~ ~TER~_~ERN RES_~IN~[~V OC ~ ~ VIStA_LOOP PLC_C~F DA ~P VISTA_LOOP PLC_COMMS~FAIL OC 281 ~P VISTA LOOP RES_H~LEVEL 282 ~WSY~_~R~S~H_LE~EL F DA OC~' 283 ~ISTA~LOOP 284 ~P 285 ~PVISTA LOOPRES L LEVEL F DA OC 286 ~P~VI~A-L60P~S~L~VEL - ~ OC ; : 287 ~fiV~STA L00fi~ES ~ LEV OC 2~8 ~PVISTA LOOPRES MIN LEV 290 ~P.PLC COMMS F DE~Y OC 291 ~P.PLC~COMMS~F~I~ OC