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1925 CALLE BARCELONA; BLDG 5; AS030182; Permit
City of Carlsbad Sprinkler Permit Permit No: AS030182 1925 CALLE Job Address: BARCELONA Status: ISSUED Permit Type: SPRINK Applied 9/10/2003 Parcel No: Approved: 3/3/2004 Lot #: 0 Reference No.: Issued: 3/3/2004 PC #: Inspector: Project Title: PAVILION AT LA COSTA Applicant: Owner: Fees ($) Add'I Fees ($) Total ($) Balance ($) 140 0 140 0 (L'-DJ City of Carlsbad ii 09-10-2003 Fire Department Permit Permit No: AS030182 Job Address: Permit Type: 1925 CALLE BARCELONA CBAD SPRINK Parcel No: Subtype: UNDGD Status: ..2.SN9I.NG Lot #: 0 Applied: Issued: 09/,102003 Fire Dept Ref#: 013778 Building Permit#: CB013778 Entered By: BSM Location: Project Title: PAVILION AT LA COSTA Description: Contractor: WESTERN PACIFIC PIPELINE CORPORATION Phone: 619-593-4823 FILE NY 1122 NORTH SECOND STREET ELCAJON,CA 92021 Total Fees 4140.00 Total Payments To Date $0.00 #of Systems i Plan Check Fee $40.00 Additional Plan Check Fee. $0.00 # of Heads 0 $0.00 Permit Fee $100.00 Additional Permit Fee $0 00 Re-Inspection Fee 0 $0 00 Other $0.00 Additional Fees $0 .00 TOTAL PERMIT FEES $140.00 NOTICE: Please take NOTICE that approval of your project includes the imposition of fees, dedications, reservations, or other exactions hereafter collectively referred to as 'fees/exactions? You have 90 days from the date this permit was issued to protest imposition of these fees/exactions, if you protest them, you must follow the protest procedures set forth in Government Code Section 66020(a), and file the protest and any other required information with the City Manager for processing in accordance with Carlsbad Municipal Code Section 3.32.030. Failure to timely follow that procedure will bar any subsequent legal action to attack, review, set aside, void, or annul their imposition. FIRE PROTECTION BUREAU 1635 FARADAY AVENUE, CARLSBAD, CA 92008-7314 (760) 602-4660 A56SO(U., 711 '/7' w'7 FIRE PROTECTION INC. THE FORUM @ CARLSBAD Bldg. #5 1925 Calle Barcelona Carlsbad, CA Install Fire Sprinklers FIRE PROTECTION SUBMITTALS HYDRAULIC CAL CULA TIONS NO A & D FIRE PROTECTION, INC. 11465 WOODSIDE AVENUE SANTEE, CA 92071 I HYDRAULIC CALCULATIONS FOR The Forum @ Carlsbad Bldg. #5 1925 Calle Barcelona Carlsbad, CA 92009 DATE: APR 25, 2003 (Caic #1) -DESIGN DATA- OCCUPANCY CLASSIFICATION: Ordinary Hazard II AREA OF APPLICATION: 1553 sq. ft. COVERAGE PER SPRINKLER: 130 sq. ft. max. NUMBER OF SPRINKLERS CALCULATED: 13 sprinklers TOTAL SPRINKLER WATER FLOW REQUIRED: 357.0 gpm TOTAL WATER REQUIRED (including hose) : 607.0 gpm FLOW AND PRESSURE (@ BOR) : 357.0 gpm @ 96.1 psi SPRINKLER • ORIFICE: 1/2" NAME OF CONTRACTOR: A & D FIRE PROTECTION DESIGN/LAYOUT BY: MARIA INIGUEZ AUTHORITY HAVING JURISDICTION: SAN DIEGO FIRE DEPARTMENT CONTRACTOR CERTIFICATION NUMBER: 0-16 602040 0 S SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE: 4/25/2003G: \SD JOBS\FORUM AT CARLSEAD\FIRESPKLDWGS\BLDG #5\BLDG#5.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #1 WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. 8 PRESS. 8 DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) SOR 132.0, 108.0 1630.0 128.1 607.0 103.9 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE 607.0 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 0.0 GPM OTHER HOSE STREAM ALLOWANCES 250.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 357.0 GPM NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) 1 15.4 - - - - 58.2 - - - . 2 15.4 K= 5.45 24.3 26.9 3 15.4 K= 5.45 23.1 26.2 4 15.4 K= 5.45 23.0 26.1 5 15.4 K= 5.45 23.1 26.2 6 15.4 K= 5.45 24.2 26.8 7 15.4 - - - - 43.2 - - - 8 15.4 - - - - 58.6 - - - 9 16.1 K= 5.45 23.4 26.3 10 16.1 K= 5.45 22.2 25.7 11 16.1 K= 5.45 22.1 25.6 12 16.1 K= 5.45 22.2 25.7 13 16.1 K= 5.45 23.2 26.3 14 15.4 - - - - 43.6 - - - 15 15.4 ---- 60.2 16 16.6 K= 5.45 34.1 31.8 17 16.6 K= 5.45 33.7 31.6 18 16.6 K= 5.45 33.8 31.7 19 15.4 - - - - 45.2 - - - 20 15.4 - - - - 63.1 - - - 21 15.4 - - - - - 47.7 - - - 22 15.4 - - - - 67.1 - - - 23 15.4 - - - - 49.6 - - - 24 15.4 - - - 76.0 - - - 26 15.4 - - - - 74.7 - - - SOR -3.0 SOURCE 103.9 607.0 27 15.4 - - - - 50.7 - - - 28 15.4 - - - - 74.1 - - - 29 15.4 - - - - 51.3 - - - 30 15.4 - - - - 74.0 - - - . 31 15.4 - - - - 51.4 - - - TOR 15.4 - - - - 85.1 BOR 0.5 - - - - 96.1 - - - UG12 -3.0 ---- 97.8 BF1 3.0 - - - - 95.9 - - - SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #1 NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) BF2 3.0 - - - - 99.9 UG -3.0 - - - - 102.6 - - - UG1 -3.0 - - - - 102.7 - - - UG2 -3.0 HOSE STREAM 103.0 250.0 UG3 -3.0 - - - - 103.5 UG4 -3.0 - - - - 103.7 UG5 -3.0 - - - - 103.1 - - - tJG6 -3.0 - - - - 103.2 - - - [JG7 -3.0 - - - - 103.3 - - - UG8 -3.0 - - - - 103.5 UG9 -3.0 - - - - 103.5 UG10 -3.0 - - - - 103.7 UGh -3.0 - - - - 103.8 - - - 0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5.SDP JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #1 PIPE DATA PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 1 65.9 1.380. FL 102.96 PP 33.9 1 15.4 0.0 58.2 0.0 14.1 120 FTG T PE 0.0 2 15.4 5.5 24.3 26.9 0.311 TL 108.96 PV Pipe: 2 39.1 1.380 PL 9.92 PF 1.2 2 15.4 5.5 24.3 26.9 8.4 120 FTG ---- PE 0.0 3 15.4 5.5 23.1 26.2 0.118 TL 9.92 PV Pipe: 3 12.9 1.380 PL 9.92 PP 0.1 3 15.4 5.5 23.1 26.2 2.8 120 FTG ---- PE 0.0 4 15.4 5.5 23.0 26.1 0.015 TL 9.92 PV Pipe: 4 -13.3 1.380 PL 9.95 PP 0.2 4 15.4 5.5 23.0 26.1 2.8 120 FTG ---- PE 0.0 5 15.4 5.5 23.1 26.2 0.016 TL 9.95 PV Pipe: 5 -39.5 1.380 PL 8.87 PF 1.1 . 5 6 .15.4 15.4 5.5 5.5 23.1 24.2 26.2 26.8 8.5 120 0.120 FTG TL ---- 8.87 PE PV 0.0 Pipe: 6 -66.3 1.380 PL 54.36 PP 19.0 6 15.4 5.5 24.2 26.8 14..2 120 FTG T PE 0.0 .7 15.4 0.0 43.2 0.0 0.314 TL 60.36 PV Pipe: 7 65.9 2.157 FL 12.25 PP 0.4 8 15.4 0.0 58.6 0.0 5.8 120 FTG ---- FE 0.0 1 15.4 0.0 58.2 0.0 . 0.035 TL 12.25 PV Pipe.: 8 64.9 1.380 PL 103.62 PP 35.0 8 15.4 0.0 58.6 0.0 13.9 120 FTG 2T PH -0.3 9 16.1 5.5 23.4 26.3 0.302 TL 115.62 PV Pipe: 9 38.6 1.380 PL 9.92 PP 1.1 9 16.1 5.5 23.4 26.3 8.3 120 FTG ---- FE 0.0 10 16.1 5.5 22.2 25.7 0.115 TL 9.92 PV Pipe: 10 12.9 1.380 FL 9.92 PP 0.2 10 16.1 5.5 22.2 25.7 2.8 120 FTG ---- FE 0.0 11 16.1 5.5 22.1 25.6 0.015 TL 9.92 PV Pipe: 11 -12.7 1.380 FL 9.95 PP 0.1 11 16.1 5.5 22.1 25.6 2.7 120 FTG ---- FE 0.0 12 16.1 5.5 22.2 25.7 0.015 TL 9.95 PV Pipe: 12 . -38.4 1.380 FL 8.87 PF 1.0 12 16.1 5.5 22.2 25.7 8.2 120 FTG ---- FE 0.0 13 16.1 5.5 23.2 26.3 0.114 TL 8.87 PV. Pipe: 13 . -64.6 1.380. FL 55.02 PP 20.1 13 16.1 5.5. 23.2 26.3 13.9 120 FTG 2T PH 0.3 14 15.4 0.0 43.6 0.0 0.300 TL 67.02 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 DATE: 4/2512003G: \SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #1 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (PT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 14 66.3 2.157 PL 12.25 PF 0.4 14 15.4 0.0 43.6 0.0 5.8 120 FTG ---- PE 0.0 7 15.4 0.0 43.2 0.0 0.036 TL 12.25 PV Pipe: 15 130.9 2.157 PL 12.37 PP 1.6 15 15.4 0.0 60.2 0.0 11.5 120 FTC ---- PE 0.0 8 15.4 0.0 58.6 0.0 0.126 TL 12.37 PV Pipe: 16 54.7 1.380 FL 103.96 PF 25.5 15 15.4 0.0 60.2 0.0 11.7 120 FTG 2T FE -0.5 16 16.6 5.5 34.1 31.8 0.220 TL 115.96 PV Pipe: 17 22.8 1.380 FL 9.92 PF 0.4 16 16.6 5.5 34.1 31.8 4.9 120 FTG ---- FE 0.0 17 16.6 5.5 33.7 31.6 0.044 TL 9.92 PV Pipe: 18 -8.8 1.380 PL 9.92 PF 0.1 17 16.6 5.5 33.7 31.6 1.9 120 FTG ---- FE 0.0 18 16.6 5.5 33.8 31.7 0.007 TL 9.92 PV Pipe: 19 -40.5 1.380 FL 74.31 PF 10.9 18 16.6 5.5 33.8 31.7 8.7 120 FTG 2T FE 0.5 19 15.4 0.0 45.2 0.0 0.126 TL 86.31 PV Pipe: 20 130.9 2.157 PL 12.37 PF 1.6 19 15.4 0.0 45.2 0.0 11.5 120 FTG ---- FE 0.0 14 15.4 0.0 43.6 0.0 0.126 TL 12.37 PV Pipe: 21 185.6 2.157 FL 12.50 PF 3.0 20 15.4 0.0 63.1 0.0 16.3 120 FTG ---- PE 0.0 15 15.4 0.0 60.2 0.0 0.240 TL 12.50 PV Pipe: 22 29.2 1.380 FL 199.08 PF 15.4 20 15.4 0.0 63.1 0.0 6.3 120 FTG 4T PE 0.0 21 15.4 0.0 47.7 0.0 0.069 TL 223.08 PV Pipe: 23 171.4 2.157 FL 12.50 PP 2.6 21 15.4 0.0 47.7 0.0 15.0 120 FTG ----- FE 0.0 19 15.4 0.0 45.2 0.0 0.207 TL 12.50 PV Pipe: 24 214.8 2.157 FL 12.50 PP 3.9 22 15.4 0.0 67.1 0.0 18.9 120 FTG ---- FE 0.0 20 15.4 0.0 63.1 0.0 0.314 TL 12.50 PV Pipe: 25 31.3 1.380 FL 199.08 PF 17.5' 22 15.4 0.0 67.1 0.0 6.7 120 FTG 4T FE 0.0 23 , 15.4 0.0 49.6 0.0 0.078 TL 223.08 PV . Pipe: 26 142.2 2.157 FL 12.50 PF 1.8 23 15.4 0.0 49.6 0.0 12.5 120 FTG ---- FE 0.0 21 15.4 0.0 47.7 0.0 0.146 TL 12.50 ,PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 DATE: 4/25/12003G: \SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #1 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 27 246.1 2.157 PL 10.08 PF 8.9 24 15.4 0.0 76.0 0.0 21.6 120 FTG T PE 0.0 22 15.4 0.0 67.1 0.0 0.404 TL 22.08 PV Pipe: 28 -110.8 2.157 PL 2.41 PF 1.3 26 15.4 0.0 74.7 0.0. 9.7 120 FTG T FE 0.0 24 15.4 0.0 76.0 0.0 0.092 TL 14.41 PV Pipe: 29 37.2 1.380 FL 198.32 PF 23.9 26 15.4 0.0 74.7 0.0 8.0 120 FTG 4T FE 0.0 27 15.4 0.0 50.7 0.0 0.108 TL 222.32 PV Pipe: 30 110.8 2.157 PL 12.50 PF 1.2 27 15.4 0.0 50.7 0.0 9.7 120 FTG ---- PE 0.0 23 15.4 0.0 49.6 0.0 0.092 TL 12.50 PV Pipe: 31 -73.7 2.157 PL 12.37 PF 0.5 28 15.4 0.0 74.1 0.0 6.5 120 FTG ---- PE 0.0 26 15.4 0.0 74.7 0.0 0.043 TL 12.37 PV Pipe: 32 36.3 1.380 FL 197.32 PF 22.9 28 15.4 0.0 74.1 0.0 7.8 120 FTG 4T PE 0.0 29 15.4 0.0 51.3 0.0 0.103 TL 221.32 PV Pipe: 33 73.7 2.157 FL 12.37 PF 0.5 29 15.4 0.0 51.3 0.0 6.5 120 FTG ---- FE 0.0 27 15.4 0.0 50.7 0.0 0.043 TL 12.37 PV Pipe: 34 -37.3 2.157 FL 11.25 PF 0.1 30 15.4 0.0 74.0 0.0 3.3 120 FTG ---- FE 0.0 28 15.4 0.0 74.1 0.0 0.012 TL 11.25 PV Pipe: 35 37.3 1.380 FL 196.00 PF 22.6 30 15.4 0.0 74.0 0.0 8.0 120 FTG 2T PE 0.0 31 15.4 0.0 51.4 0.0 0.109 TL 208.00 PV Pipe: 36 37.3 2.157 PL 11.25 PP 0.1 31 15.4 0.0 51.4 0.0 3.3 120 FTG ---- FE 0.0 29 15.4 0.0 51.3 0.0 0.012 TL 11.25 PV Pipe: 37 -357.0 2.635 FL 22.12 PP 9.1 24 15.4 0.0 76.0 0.0 21.0 120 FTG B FE 0.0 TOR 15.4 0.0 85.1 0.0 0.303 TL 30.12 PV Pipe: 38 -357.0 2.635 FL 14.91 PP 4.5 TOR 15.4 0.0 85.1 0.0 21.0 120 FTG ---- FE 6.5 FOR 0.5 0.0 96.1 0.0 0.303 TL 14.91 PV Pipe: 39 -357.0 6.280 FL 9.00 PP 0.2 W BOR 0.5 0.0 96.1 0.0 3.7 140 FTG 2E FE 1.5 UG12 -3.0 0.0 97.8 0.0 0.003 TL 53.00 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 7 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #1 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 39A -357.0 6.080 PL 140.00 PF 0.7 UG12 -3.0 0.0 97.8 0.0 3.9 150 FTG 2E2L PE -2.6 BF1 3.0 0.0 95.9 0.0 0.003 TL 212.00 PV Pipe: 40 FIXED PRESSURE LOSS DEVICE FF2 3.0 0.0 99.9 0.0 4.0 psi, 357.0 gpm FF1 3.0 0.0 95.9 0.0 Pipe: 41 -357.0 6.080 PL 6.00 PF 0.1 FF2 3.0 0.0 99.9 0.0 3.9 150 FTG E FE 2.6 UG -3.0 0.0 102.6 0.0 0.003 TL 28.00 PV Pipe: 41A -357.0 7.980 PL 30.00 PF 0.0 UG -3.0 0.0 102.6 0.0 2.3 150 FTG ---- FE 0.0 UG1 -3.0 0.0 102.7 0.0 0.001 TL 30.00 PV Pipe: 42 -357.0 7.980 PL 237.00 PF 0.3 UG1 -3.0 0.0 102.7 0.0 2.3 150 FTG 2ETG PE 0.0 UG2 -3.0 H.S. 103.0 250.0 0.001 TL 350.00 PV Pipe: 43 -411.1 7.980 FL 372.00 PF 0.5 UG2 -3.0 H.S. 103.0 250.0 2.6 150 FTG PG PE 0.0 UG3 -3.0 0.0 103.5 0.0 0.001 TL 431.00 PV Pipe: 44 -329.6 7.980 PL 195.00 PF 0.2 UG3 -3.0 0.0 103.5 0.0 2.1 150 FTG TG PH 0.0 UG4 -3.0 0.0 103.7 0.0 0.001 TL 254.00 PV Pipe: 45 -329.6 9.790 FL 445.00 PF 0.1 UG4 -3.0 0.0 103.7 0.0 1.4 150 FTG T PE 0.0 UGh -3.0 0.0 103.8 0.0 0.000 TL 513.00 PV Pipe: 46 -81.5 7.980 PL 497.00 PF 0.0 UG3 -3.0 0.0 103.5 0.0 0.5 150 FTG L PE 0.0 UG8 -3.0 0.0 103.5 0.0 0.000 TL 517.00 PV Pipe: 47 -81.5 7.980 FL 215.00 PF 0.0 UG8 -3.0 0.0 103.5 0.0 0.5 150 FTG TLG FE 0.0 UG9 -3.0 0.0 103.5 0.0 0.000 TL 294.00 PV Pipe: 48 -195.9 7.980 FL 300.00 PP 0.1 UG2 -3.0 H.S. 103.0 250.0 1.3 150 FTG T FE 0.0 UGS -3.0 0.0 103.1 0.0 0.000 TL 353.00 PV Pipe: 49 -195.9 7.980 FL 250.00 PF 0.1 UGS -3.0 0.0 103.1 0.0 1.3 150 FTG L FE 0.0 UG6 -3.0 0.0 103.2 0.0 0.000 TL 270.00 PV . - Pipe: 50 -195.9 7.980 FL 365.00 PF 01 UG6 -3.0 0.0 103.2 0.0 1.3 150 FTG L FE 0.0 UG7 -3.0 0.0 103.3 0.0 0.000 TL 385.00 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 8 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #1 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 51 -195.9 7.980 PL 725.00 PF 0.3 UG7 -3.0 0.0 103.3 0.0 1.3 150 FTG ET2LG PE 0.0 UG9 -3.0 0.0 103.5 0.0 0.000 TL 851.00 PV Pipe: 52 -277.4 7.980 PL 210.00 PF 0.2 UG9 -3.0 0.0 103.5 0.0 1.8 150 FTG TG PE 0.0 UGlO -3.0 0.0 103.7 0.0 0.001 TL 269.00 PV Pipe: 53 -277.4 9.790 PL 540.00 PF 0.1 UG10 -3.0 0.0 103.7 0.0 1.2 150 FTG T4L PE 0.0 UGh -3.0 0.0 103.8 0.0 0.000 TL 696.00 PV Pipe: 54 -607.0 9.790 PL 1.00 PF 0.1 UGh -3.0 0.0 103.8 0.0 2.6 150 FTG TG PE 0.0 SOR -3.0 SRCE 103.9 (N/A) 0.001 TL 76.00 PV NOTES: (1) Calculations were performed by the HASS 7.4 computer program under license no. 50121152 granted by HRS Systems, Inc. 4792 LaVista Road Tucker, GA 30084 (2) The system has been calculated to provide an average imbalance at each node of 0.002 gpm and a maximum imbalance at any node of 0.097 gpm. (3) Total pressure at each node is used in balancing the system. Maximum water velocity is 21.6 ft/sec at pipe 27. (4) a. System remote area HAS been proven or 'peaked'. Minimum pressure at any sprinkler: 22.064 psi Minimum pressure with remote area shifted one sprinkler space toward left cross main: 22.074 psi Minimum pressure with remote area shifted one sprinkler space toward right cross main: 22.133 psi (5) PIPE FITTINGS TABLE Pipe Table Name: STANDARD.PIP SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 9 DATE: 4/2572003G: \SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #1 PAGE: A MATERIAL: S40 HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A D N Eli Tee LngEll ChkVlv BfyVlv GatVlv AimChk DPVlv NPTee 1.380 3.00 6.00 2.00 7.00 6.00 1.00 10.00 10.00 6.00 PAGE: B MATERIAL: THNWL HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C ö G A D N Ell Tee LngEll ChkVlv BfyVlv GatVlv AimChk DPViv. NPTee 2.157 6.00 12.00 3.00 14.00 8.00 1.00 12.00 12.00 12.00 2.635 8.00 17.00 6.00 19.00 10.00 1.00 14.00 14.00 17.00 PAGE: 0 MATERIAL: DIRON HWC.: 140 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G N Eli Tee LngEll ChkVlv BfyVlv GatVlv NPTee, 6.280 22.00 47.00 14.00 51.00 16.00 5.00 47.00 PAGE: E MATERIAL: PVC150 HWC: 150 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G N Ell Tee LngEll ChkVlv BfyVlv GatVlv NPTee S 6.080 7.980 22.00 27.00 46.00 14.00 49.00 15.00 53.00 20.00 68.00 18.00 5.00 6.00 46.00 53.00 9.790 30.00 68.00 22.00 74.00 26.00 7.00 68.00 0 S . S 400 600 800 1000 1200 1400 1600 1800 FLOW (GPM) -14.7 140.0 G 112. 0 A U- G E P R 84.0 E S S U R E 56.0 p S i -c-Ic 0U '-3.. H-I tWIN.) -I QN.) Io Cl) (J)G) ccl.. DC)) rj C)) Oc'-cl — LOtrI cC U) WIfr Oi(J) F-31-3 tW:l QOZ (Dc, 44 UI I DC - t rWi I-HO c/)z DC)) G)U) C/) — UI c 0) QQ D 31r Ij Cn (II (I) 2000 IWJ D WATER SUPPLY ANALYSIS 0 L a L S L. . S 05 . LI LI fr)O S LXC OSlO . 5 Li LI . LI LI fri 0 S L S L/ WV . S LI_I W/ . LI 'J fr/LI1 LEGEND 1 Available pressure 128.14 psi 8 607.0 gpm 2-- ,_-Required pressure 103.90 psi 8 607.0 gpm 65.9 39.:12.13.:39.5 66.3 <7> 65.9 <8> 9 10 11 12 13 <13> 64.9 38.12.12.38.4 64.6 <15> 130.9 - <16> 16 17 18 <19> U 54.7 p>>p<<p 22.88.8 40.5 <21> 185.6 <22> 21 29.2 <24> 214 .8 <25> 2: 31.3 <27> 246.1 21 SOR < 3 2 2- 11607.b 36.3 /<34> 37.3 <35> 31 (14> 66.3 <20> 130. 9 <23> 171.4 <26> 142.2 <30> 110.8 <33> 73.7 <36> 37 . 3 2 TO] SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 11 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #1 SPRINKLER SYSTEM DIAGRAM WITH FLOWPLOT 1 <1> 2 3 4 5 6 <6> 7 UG11 37.3 S SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 12 DATE: 4/25/2003G: \SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #1 WATER SUPPLY CURVE 132*\\\\ \\\\\ I \\\\\ 121+ \\\\\ I \\\\\ I \\\\\ \\\\\ ' 110+ I 108.0 psi @ 1630 gpm-> * I X Flow Test Point 99+ P 88+ R I E I S I S 77+ • 66+ P I S I I 55+ 44+ 33+ 22+ LEGEND 'V I X = Required Water Supply I 103.90 psi @ 607.0 gpm TI 11+ I 0 = Available Water Supply " 128.14 psi @ 607.0 gpm 0++-+---+----+-----+------+--------+ --------+---------+-----------+ 400 600 800 1000 1200 1400 1600 1800 2000 FLOW (GPM) SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 13 DATE: 4/25/2003G: \SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\ELDG #5\BLDG#5.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #1 GRID FLOW DIAGRAM [XXX] - Node Numbers 1] __>__*__>__*__>__*__<__*__<__*__<__[ 71 66.0 39.1 12.9 13.2 39.4 66.2 65.9 66.2 A A 141 A 65.0 38.6 13.0 12.6 38.3 64.6 A 130.8 130.9 A A --------------[ 191 A 54.7 22.9 8.7 40.4 A 185.5 171.4 A A 201 ----------------->-----------------[ 211 A 29.3 A 214.7 142.1 A A 221 ----------------->-----------------[ 231 A 31.4 A 246.1 - A 24] (Source Connection) A 110.9 110.8 v A 251 ----------------->-----------------[ 27] v 37.2 A 73•7 73.6 v A 28] ----------------->-----------------[ 29] v 36.4 A 37.4 37.3 v A 30] ----------------->-----------------[ 31] 37.4 0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 14 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #1 Utility Report: Equivalent K-Factor Calculator Node Sprinkler Pres. Dia. Pipe Ftgs. Total H-W Equivalent Name K-Factor. (psi) (in) Len. (ft) Len. (ft) coef. K-factor ----------------------------------------------------------------------- ROOSTER 5.60 19.14 1.049 0.50 T 5.50 120.00 5.45 S 0 A & D FIRE PROTECTION, INC. 11465 WOODSIDE AVENUE SANTEE, CA 92071 HYDRAULIC CALCULATIONS FOR The Forum @ Carlsbad Bldg. #5 1925 Calle Barcelona Carlsbad, CA 92009 DATE: APR 25, 2003 (Caic #2) -DESIGN DATA- OCCUPANCY CLASSIFICATION: LIGHT HAZARD AREA OF APPLICATION: ENTIRE AREA COVERAGE PER SPRINKLER: 130 sq. ft. max. NUMBER OF SPRINKLERS CALCULATED: 6 sprinklers TOTAL SPRINKLER WATER FLOW REQUIRED: 107.5 gpm TOTAL WATER REQUIRED (including hose) : 207.5 gpm FLOW AND PRESSURE (@ BOR) : 107.5 gpm @ 68.1 psi SPRINKLER ORIFICE: 1/2" NAME OF CONTRACTOR: A & D FIRE PROTECTION DESIGN/LAYOUT BY: MARIA INIGUEZ AUTHORITY HAVING JURISDICTION: SAN DIEGO FIRE DEPARTMENT CONTRACTOR CERTIFICATION NUMBER: C-16 602040 fl SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE: 4/2572003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-2.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #2 WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. @ PRESS. @ DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) SOR 132.0 108.0 1630.0 131.5 207.5 73.9 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE 207.5 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 0.0 GPM OTHER HOSE STREAM ALLOWANCES 100.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 107.5 GPM NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) 1 28.9 K= 5.60 7.8 15.6 2 28.9 K= 5.60 8.7 16.5 3 33.1 K= 5.60 7.0 14.8 4 33.1 K= 5.60 7.8 15.7 5 28.9 K= 5.60 15.2 21.9 6 28.9 K= 5.60 16.9 23.0 4A 27.1 - - - - 15.1 - - - 6A 27.1 - - - - 24.8 - - - 6B 27.1 - - - - 34.7 - - - 6C 15.4 - - - - 53.4 - - - 24 15.4 - - - - 60.1 - - - SOR -3.0 SOURCE 73.9 207.5 TOR 15.4 - - - - 61.1 - - - BOR 0.5 - - - - 68.1 - - - UG12 -3.0 - - - - 69.6 - - - BF1 3.0 - - - - 67.1 - - - BF2 3.0 - - - - 71.1 - - - UG -3.0 - - - - 73.7 UG1 -3.0 - - - - 73.7 UG2 -3.0 HOSE STREAM 73.7 100.0 UG3 -3.0 - - - - 73.8 - - - UG4 -3.0 - - - - 73.8 - - - UGS -3.0 - - - - 73.7 - - - UG6 -3.0 - - - - 73.8 - - - UG7 -3.0 - - - - 73.8 -- - UG8 -3.0 - - - - 73.8 - - - UG9 -3.0 - - - - 73.8 - - - UG10 -3.0 - - - - 73.8 JJG11 -3.0 - - - - 73.9 - - - S 0 S SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-2.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #2 PIPE DATA PIPE TAG Q(GPM) -DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (PT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 1 -15.6 1.049 FL 11.00 PF 0.9 1 28.9 5.6 7.8 15.6 5.8 120 FTG ---- FE 0.0 2 28.9 5.6 8.7 16.5 0.082 TL 11.00 PV Pipe: 2 -32.1 1.049 FL 14.16 PF 5.7 2' 28.9 5.6 8.7 16.5 11.9 120 FTC 2E FE 0.8 4A 27.1 0.0 15.1 0.0 0.312 TL 18.16 PV Pipe: 3 -14.8 1.049 FL 11.00 PP 0.8 3 33.1 5.6 7.0 14.8 5.5 120 FTG ---- FE 0.0 4 33.1 5.6 7.8 15.7 0.075 TL 11.00 PV Pipe: 4 -30.5 1.049 FL 9.50 PF 4.7 4 33.1 5.6 7.8 15.7 11.3 120 FTG ET FE 2.6 4A 27.1 0.0 15.1 0.0 0.284 TL 16.50 PV Pipe: 5 -62.6 1.049 FL 9.00 PF 9.7 S 4A 27.1 0.0 15.1 0.0 23.2 120 FTG ---- FE 0.0 6A 27.1 0.0 24.8 0.0 1.074 TL 9.00 PV Pipe: 6 -21.9 1.049 FL 11.00 PP 1.7 5 28.9 5.6 15.2 21.9 8.1 120 FTG ---- FE 0.0 6 28.9 5.6 16.9 23.0 0.153 TL 11.00 FV Pipe: 7 -44.9 1.049 FL 5.16 PF 7.1 6 28.9 5.6 16.9 23.0 16.7 120 FTG ET FE 0.8 6A 27.1 0.0 24.8 0.0 0.581 TL 12.16 PV Pipe: 8 -107.5 1.380 FL 7.00 PP 10.0 6A 27.1 0.0 24.8 0.0 23.1 120 FTG 2E FE 0.0 68 27.1 0.0 34.7 0.0 0.768 TL 13.00 PV Pipe: 9 -107.5 1.380 FL 11.71 PF 13.6 6B 27.1 0.0 34.7 0.0 23.1 120 FTG P FE 5.1 6C 15.4 ' 0.0 53.4 0.0 0.768 TL 17.71 PV Pipe: 10 -107.5 2.157 FL 64.83 PF 6.7 6C 15.4 0.0 53.4 0.0 9.4 120 FTG T FE 0.0 24 15.4 0.0 60.1 0.0 0.087 TL 76.83 PV Pipe: 11 -107.5 2.635 PL 22.12 PP 1.0 24 15.4 0.0 60.1 0.0 6.3 120 FTG H FE 0.0 TOR 15.4 0.0 61.1 0.0 0.033 TL 30.12 PV Pipe: 12 -107.5 2.635 FL 14.91 PP 0.5 S TOR 15.4 0.0 61.1 0.0 6.3 120 FTG ---- FE 6.5 BOR 0.5 0.0 68.1 0.0 0.033 TL 14.91 PV Pipe: 13 -107.5 6.280 FL 9.00 PF 0.0 BOR 0.5 0.0 68.1 0.0 1.1 140 FTG 2E FE 1.5 UG12 -3.0 0.0 69.6 0.0 0.000 TL 53.00 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-2.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #2 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (PT) SUM. NODES (PT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 14 -107.5 6.080 PL 140.00 PP 0.1 UG12 -3.0 0.0 69.6 0.0 1.2 150 FTG 2E2L FE -2.6 BF1 3.0 0.0 67.1 0.0 0.000 TL 212.00 PV Pipe: 15 FIXED PRESSURE LOSS DEVICE BF2 3.0 0.0 71.1 0.0 4.0 psi, 107.5 gpm SF1 3.0 0.0 67.1 0.0 Pipe: 16 -107.5 6.080 PL 6.00 PP 0.0 BP2 3.0 0.0 71.1 0.0 1.2 15.0 FTG E PE 2.6 UG -3.0 0.0 73.7 0.0 0.000 TL 28.00 PV Pipe: 17 -107.5 7.980 PL 30.00 PP 0.0 UG -3.0 0.0 73.7 0.0 0.7 150 FTG ---- FE 0.0 UG1 -3.0 0.0 73.7 0.0 0.000 TL 30.00 PV Pipe: 18 -107.5 7.980 PL 237.00 PP 0.0 UG1 -3.0 0.0 73.7 0.0 0.7 150 FTG 2ETG FE 0.0 UG2 -3.0 H.S. 73.7 100.0 0.000 TL 350.00 PV . Pipe: 19 -140.5 7.980 FL 372.00 FE 0.1 UG2 -3.0 H.S. 73.7 100.0 0.9 150 FTG TG PE 0.0 UG3 -3.0 0.0 73.8 0.0 0.000 TL 431.00 PV Pipe: 20 -112.7 7.980 PL 195.00 PP 0.0 UG3 -3.0 0.0 73.8 0.0 0.7 150 FTG TG FE 0.0 UG4 -3.0 0.0 73.8 0.0 0.000 TL 254.00 PV Pipe: 21 -112.7 9.790 FL 445.00 PP 0.0 UG4 -3.0 0.0 73.8 0.0 0.5 150 FTG T PE 0.0 UGh -3.0 0.0 73.9 0.0 0.000 TL 513.00 PV Pipe: 22 -27.9 7.980 PL 497.00 PP 0.0 UG3 -3.0 0.0 73..8 0.0 0.2 150 FTG L PE 0.0 UGS -3.0 0.0 73.8 0.0 0.000 TL 517.00 PV Pipe: 23 -27.9 7.980 PL 215.00 PP 0.0 UG8 -3.0 0.0 73.8 0.0 0.2 150FTG TLG PP 0.0 UG9 -3.0 0.0 73.8 0.0 0.000 TL 294.00 PV Pipe: 24 -67.0 7.980 PL 300.00 FE 0.0 UG2 -3.0 H.S. 73.7 100.0 0.4 150 FTG T PE 0.0 UG5 -3.0 0.0 73.7 0.0 0.000 TL 353.00 PV Pipe: 25 -67.0 7.980 PL 250.00 PP 0.0 UGS -3.0 0.0 73.7 0.0 0.4 150 FTG L PE 0.0 UG6 -3.0 0.0 73.8 0.0 0.000 TL 270.00 PV Pipe: 26 -67.0 7.980 PL 365.00 PP 0.0 UG6 -3.0 0.0 73.8 0.0 0.4 150 FTG I L PP 0.0 UG7 -3.0 0.0 73.8 0.0 0.000 TL 385.00 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-2.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #2 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 27 -67.0 7.980 PL 725.00 PF 0.0 UG7 -3.0 0.0 73.8 0.0 0.4 150 FTG ET2LG PE 0.0 UG9 -3.0 0.0 73.8 0.0 0.000 TL 851.00 PV Pipe: 28 -94.8 7.980 PL 210.00 PF 0.0 UG9 -3.0 0.0 73.8 0.0 0.6 150 FTG TG PE 0.0 JJG10 -3.0 0.0 73.8 0.0 0.000 TL 269.00 PV Pipe: 29 -94.8 9.790 PL 540.00 PF 0.0 UG10 -3.0 0.0 73.8 0.0 0.4 150 FTG T41, PE 0.0 UGh -3.0 0.0 73.9 0.0 0.000 TL 696.00 PV Pipe: 30 -207.5 9.790 PL 1.00 PF 0.0 UGh -3.0 0.0 73.9 0.0 0.9 150 FTG TG PE 0.0 SOR -3.0 SRCE 73.9 (N/A) 0.000 TL 76.00 PV NOTES: S (1) Calculations were performed by the HASS 7.4 computer program under license no. 50121152 granted by HRS Systems, Inc. 4792 LaVista Road Tucker, GA 30084 The system has been calculated to provide an average imbalance at each node of 0.006 gpin and a maximum imbalance at any node of 0.155 gpm. Total pressure at each node is used in balancing the system. Maximum water velocity is 23.2 ft/sec at pipe 5. PIPE FITTINGS TABLE Pipe Table Name: STANDARD.PIP PAGE: A MATERIAL: S40 HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A 0 N Eli Tee LngEll ChkVlv BfyVlv GatVlv AlmChk DPVlv NPTee 1.049 2.00 5.00 2.00 5.00 6.00 1.00 10.00 10.00 5.00 1.380 3.00 6.00 2.00 7.00 6.00 1.00 10.00 10.00 6.00 0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page .6 DATE: 4/25/2003G: \SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-2.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #2 PAGE: B MATERIAL: THNWL HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A ID N Eli Tee LngEl-1 ChkVlv BfyVlv GatVlv AlmChk DPVlv NPTee 2.157 6.00 12.00 3.00 14.00 8.00 1.00 12.00 12.00 12.00 2.635 8.00 17.00 6.00 19.00 10.00 1.00 14.00 14.00 17.00 PAGE: 0 MATERIAL: DIRON HWC: 140 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G N Eli Tee LngE1l ChkVlv BfyVlv GatVlv NPTee 6.280 22.00 47.00 14.00 51.00 16.00 5.00 47.00 PAGE: E MATERIAL: PVC150 HWC: 150 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G N Eli Tee LngEll ChkVlv BfyVlv GatVlv NPTee 6.080 22.00 46.00 14.00 49.00 15.00 5.00 46.00 7.980 27.00 53.00 20.00 68.00 18.00 6.00 53.00 9.790 30.00 68.00 22.00 74.00 26.00 7.00 68.00 S 0 0 0 co H 0 0 H 0 0 0 0 0 '.0 0 0 ,31 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 7 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-2.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #2 [ I cj - 0 0 0 0 0 0 • • ••• H 0 (N r W • 0 H 60 Lf) (N H H C,JC')C/)JQL) -U)-H--- n 6 <10> 107.5 UG1 1 fl SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 8 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\ELDG #5\BLDG#5-2.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #2 SPRINKLER SYSTEM DIAGRAM WITH FLOWPLOT 1 <1> 2 3 4 5 6 <2><4> 4A S SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 9 DATE: 4/25/2003G: \SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-2.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #2 WATER SUPPLY CURVE 132*0\\\ I \\\\\ I \\\\\ 121+ \\\\\ \\\\\ \\\\\ 1 \\\\\ 110+ \\\\\ 108.0 psi @.1630 gpm-> * I Flow Test Point 99+ P88+ R I E I S I S 77+ U IX R I E I 66+ P S 155+ 44+ 33+ 22+ LEGEND X = Required Water Supply 73.86 psi @ 207.5 gpm 11+ I 0 = Available Water Supply 131.47 psi @ 207.5 gpm 0++-+---+----+-----+------+--------+--------+--- 400 600 800 1000 1200 1400 1600 FLOW (GPM) ----------------- 1800 2000 A & D FIRE PROTECTION, INC. 11465 WOODSIDE AVENUE SANTEE, CA 92071 HYDRAULIC CALCULATIONS FOR The Forum @ Carlsbad Bldg. #5 1925 Calle Barcelona Carlsbad, CA 92009 DATE: APR 25, 2003 (Caic #3) -DESIGN DATA- OCCUPANCY CLASSIFICATION: LIGHT HAZARD S AREA OF APPLICATION: ENTIRE AREA sq. ft. COVERAGE PER SPRINKLER: 130 sq. ft. max. NUMBER OF SPRINKLERS CALCULATED: 7 sprinklers TOTAL SPRINKLER WATER FLOW REQUIRED: 114.1 gpm TOTAL WATER REQUIRED (including hose) : 214.1 gpm FLOW AND PRESSURE (@ BOR) : 114.1 gpm @ 41.0 psi SPRINKLER ORIFICE: 1/2" NAME OF CONTRACTOR: A & D FIRE PROTECTION DESIGN/LAYOUT BY: MARIA INIGUEZ AUTHORITY HAVING JURISDICTION: SAN DIEGO FIRE DEPARTMENT CONTRACTOR CERTIFICATION NUMBER: 0-16 602040 0 S SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-3.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #3 WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. @ PRESS. S DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) SOR 132.0 108.0 1630.0 131.4 214.1 46.8 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE 214.1 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 0.0 GPM OTHER HOSE STREAM ALLOWANCES 100.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 114.1 GPM NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) 1 15.4 - - - - 29.5 - - - 2 15.4 - - - - 24.8 S 3 15.4 - - - - 24.3 - - - 4 15.4 - - - - 23.9 - - - 5 15.4 - - - - 23.5 - - - 6 15.4 - .- - - 23.1 - - - 7 15.4 - - - - 29.9 - - - 8 15.4 - - - - 30.0 - - - 9 16.1 - - - - 29.7 - - - 10 16.1 - - - - 29.7 - - - 11 16.1 - - - - 29.7 - - - 12 16.1 - - - - 29.7 - - - 13 16.1 - - - - 29.8 - - - 14 15.4 - - - - 30.1 - - - 15 15.4 - - - - 30.5 - - - 16 16.6 - - - - 29.9 - - - 17 16.6 - - - - 29.9 - - - 18 16.6 - - - - 29.8 - - - 19 15.4 - - - - 30.3 - - - 20 15.4 - - - - 31.0 - - - 21 15.4 - - - - 30.4 - - - 22 15.4 - - - - 31.6 - - - 23 15.4 - - - - 30.6 - - - 24 15.4 - - - - 32.9 - - - 26 15.4 - - - - 32.7 - - - SOR -3.0 SOURCE 46.8 .214.1 27 15.4 - - - - 30.7 28 15.4 - - - - 32.7 - - - 29 15.4 - - - - 30.7 - - - S 30 31. 15.4 15.4 - - - - - - - - - 32.7 30.7 - - - 1P 21.5 K= 5.60 12.0 19.4 2P 26.0 K= 5.60 7.0 14.8 2AP 21.5 - - - - 9.7 - - - 3P 21.5 K= 5.60 8.5 16.4 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-3.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #3 NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (PT) (PSI) (GPM) 42 22.5 K= 5.60 7.8 15.7 52 22.5 K= 5.60 7.8 15.7 62 19.5 K= 5.60 8.2 16.0 6AP 22.5 - - - - 8.0 72 22.5 K= 5.60 8.3 16.2 lAP 15.4 - - - 22.0 - - - 4.6C 15.4 - - - - 29.4 - - - TOR 15.4 - - - - 34.0 BOR 0.5 - - - - 41.0 - - - UG12 -3.0 - - - - 42.5 - - - BF1 3.0 - - - - 40.0 BF2 3.0 - - - - 44.0 - - - UG -3.0 - - - - 46.6 - - - UG1 -3.0 - - - - 46.6 - - - UG2 -3.0 HOSE STREAM 46.7 100.0 UG3 -3.0 - - - - 46.7 - - - UG4 -3.0 - - - - 46.8 - - - UG5 -3.0 - - - - 46.7 - - - UG6 -3.0 - - - - 46.7 - - - UG7 -3.0 - - - - 46.7 - - - UG8 -3.0 - - - - 46.7 -- - UG9 -3.0 - - - - 46.7 - - - UG10 -3.0 - - - - 46.8 - - - UGh -3.0 - - - - 46.8 - - - fl 0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-3.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #3 PIPE DATA PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 1 22.8 1.380 PL 102.96 PF 4.7 1 15.4 0.0 29.5 0.0 4.9 120 FTG T PE 0.0 2 15.4 0.0 24.8 0.0 0.044 TL 108.96 PV Pipe: 2 22.8 1.380 PL 9.92 PF 0.4 2 15.4 0.0 24.8 0.0 4.9 120 FTG ---- PE 0.0 3 15.4 0.0 24.3 0.0 0.044 TL 9.92 PV Pipe: 3 22.8 1.380 PL 9.92 PF 0.4 3 15.4 0.0 24.3 0.0 4.9 120 FTG ---- PE 0.0 4 15.4 0.0 23.9 0.0 0.044 TL 9.92 PV Pipe: 4 22.8 1.380 PL 9.95 PF 0.4 4 15.4 0.0 23.9 0.0 4.9 120 FTG ---- PE 0.0 5 15.4 0.0 23.5 0.0 0.044 TL 9.95 PV Pipe: 5 22.8 1.380 PL 8.87 PF 0.4 . 5 15.4 0.0 23.5 0.0 4.9 120 FTG ---- PE 0.0 6 15.4 0.0 23.1 0.0 0.044 TL 8.87 PV Pipe: 6 22.8 1.380 PL 24.00 PF 1.0 6 15.4 0.0 23.1 0.0 4.9 120 FTG ---- PE 0.0 lAP 15.4 0.0 22.0 0.0 0.044 TL 24.00 PV Pipe: 7 -42.8 1.380 PL 50.16 PF 7.8 lAP 15.4 0.0 22.0 0.0 9.2 120 FTG T PE 0.0 7 15.4 0.0 29.9 0.0 0.140 TL 56.16 PV Pipe: 8 71.4 2.157 PL 12.25 PF 0.5 8 15.4 0.0 30.0 0.0 6.3 120 FTG ---- PE 0.0 1 15.4 0.0 29.5 0.0 0.041 TL 12.25 PV Pipe: 9 -1.4 1.380 PL 103.62 PF 0.0 8 15.4 0.0 30.0 0.0 0.3 120 FTG 2T PE -0.3 9 16.1 0.0 29.7 0.0 0.000 TL 115.62 PV Pipe: 10 -1.4 1.380 PL 9.92 PF 0.0 9 16.1 0.0 29.7 0.0 0.3 120 FTG ---- PE 0.0 10 16.1 0.0 29.7 0.0 0.000 TL 9.92 PV Pipe: 11 -1.4 1.380 PL 9.92 PF 0.0 10 16.1 0.0 29.7 0.0 0.3 120 FTG ---- PE 0.0 11 16.1 0.0 29.7 0.0 0.000 TL 9.92 PV Pipe: 12 -1.4 1.380 PL 9.95 PF 0.0 . 11 16.1 0.0 29.7 0.0 0.3 120 FTG ---- PE 0.0 12 16.1 0.0 29.7 0.0 0.000 TL 9.95 PV Pipe: 13 -1.4 1.380 PL 8.87 PF 0.0 12 16.1 0.0 29.7 0.0 0.3 120 FTC ---- PE 0.0 13 16.1 0.0 29.8 0.0 0.000 TL 8.87 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 DATE: 4/2572003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-3.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #3 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 14 -1.4 1.380 PL 55.02 FE' 0.0 13 16.1 0.0 29.8 0.0 0.3 120 FTG 2T PE 0.3 14 15.4 0.0 30.1 0.0 0.000 TL 67.02 PV Pipe: 15 42.8 2.157 PL 12.25 PF 0.2 14. 15.4 0.0 30.1 0.0 3.8 120 FTG ---- PE 0.0 7 15.4 0.0 29.9 0.0 0.016 TL 12.25 PV Pipe: 16 70.0 2.157 PL 12.37 PF 0.5 15 15.4 0.0 30.5 0.0 6.1 120 FTG ---- PE 0.0 8 15.4 0.0 30.0 0.0 0.039 TL 12.37 PV Pipe: 17 3.0 1.380 PL 103.96 PF 0.1 15 15.4 0.0 30.5 0.0 0.6 120 FTG 2T FE -0.5 16 16.6 0.0 29.9 0.0 0.001 TL 115.96 PV Pipe: 18 3.0 1.380 FL 9.92 PF 0.0 16 16.6 0.0 29.9 0.0 0.6 120 FTG ---- PE 0.0 17 16.6 0.0 29.9 0.0 0.001 TL 9.92 PV Pipe: 19 3.0 1.380 FL 9.92 PF 0.0 17 16.6 0.0 29.9 0.0 0.6 120 FTG ---- FE 0.0 18 16.6 0.0 29.8 0.0 0.001 TL 9.92 PV Pipe: 20 3.0 1.380 PL 74.31 PF 0.1 18 16.6 0.0 29.8 0.0 0.6 120 FTG 2T FE 0.5 19 15.4 0.0 30.3 0.0 0.001 TL 86.31 PV Pipe: 21 44.1 2.157 FL 12.37 FE', 0.2 19 15.4 0.0 30.3 0.0 3.9 120 FTG ---- FE 0.0 14 15.4 0.0 30.1 0.0 0.017, TL 12.37 PV Pipe: 22 73.0 2.157 FL 12.50 FE' 0.5 20 15.4 0.0 31.0 0.0 6.4 120 FTG ---- FE 0.0 15 15.4 0.0 30.5 0.0 0.043 TL 12.50 PV Pipe: 23 4.9 1.380 FL 199.08 FE' 0.6 20 15.4 0.0 31.0 0.0 1.1 120 FTG 4T FE 0.0 21 15.4 0.0 30.4 0.0 0.003 TL 223.08 PV Pipe: 24 41.1 2.157 FL ' 12.50 FE' 0.2 21 15.4 0.0 30.4 0.0 3.6 120 FTG ---- FE 0.0 19 15.4 0.0 30.3 0.0 0.015 TL 12.50 PV Pipe: 25 77.9 2.157 FL 12.50 FE' 0.6 22 15.4 0.0 31.6 0.0 6.8 120 FTG ---- FE 0.0 20 15.4 0.0 31.0 0.0 0.048 TL 12.50 PV Pipe: 26 6.8 1.380 PL 199.08 FE' 1.0 22 15.4 0.0 31.6 0.0 1.5 120 FTG 4T FE 0.0 23 15.4 0.0 30.6 0.0 0.005 TL 223.08 PV fl SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 DATE: 4/2512003G: \SD JOBS\FORUN AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-3.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #3 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 27 36.2 2.157 PL 12.50 PF 0.1 23 15.4 0.0 30.6 0.0 3.2 120 FTG ---- PE 0.0 21 15.4 0.0 30.4 0.0 0.012 TL 12.50 PV Pipe: 28 84.7 2.157 FL 10.08 PF 1.2 ".. 24 15.4 0.0 32.9 0.0 7.4 120 FTG T FE 0.0 22 15.4 0.0 31.6 0.0 0.056 TL 22.08 PV Pipe: 29 -29.4 2.157 FL 2.41 PF 0.1 26 15.4 0.0 32.7 0.0 2.6 120 FTG T FE 0.0 24 15.4 0.0 32.9 0.0 0.008 TL 14.41 PV Pipe: 30 9.9 1.380 FL 198.32 PF 2.1 26 15.4 0.0 32.7 0.0 2.1 120 FTG 4T FE 0.0 27 15.4 0.0 30.7 0.0 0.009 TL 222.32 PV Pipe: 31 29.4 2.157 FL 12.50 PF 0.1 27 15.4 0.0 30.7 0.0 2.6 120 FTG ---- PE 0.0 23 15.4 0.0 30.6 0.0 0.008 TL 12.50 PV Pipe: 32 -19.6 2.157 FL 12.37 PF 0.0 28 15.4 0.0 32.7 0.0 1.7 120 FTG ---- FE 0.0 26 15.4 0.0 32.7 0.0 0.004 TL 12.37 PV Pipe: 33 9.6 1.380 FL 197.32 PF 2.0 28 15.4 0.0 32.7 0.0 2.1 120 FTG 4T FE 0.0 29 15.4 0.0 30.7 0.0 0.009 TL 221.32 PV Pipe: 34 19.6 2.157 FL 12.37 FE 0.0 29 15.4 0.0 30.7 0.0 1.7 120 FTG ---- FE 0.0 27 15.4 0.0 30.7 0.0 0.004 TL 12.37 PV Pipe: 35 -9.9 2.157 FL 11.25 PF 0.0 30 15.4 0.0 32.7 0.0 0.9 120 FTG ---- FE 0.0 28 15.4 0.0 32.7 0.0 0.001 TL 11.25 PV Pipe: 36 9.9 1.380 FL 196.00 PF 1.9 30 15.4 0.0 32.7 0.0 2.1 120 FTG 2T FE 0.0 31 15.4 0.0 30.7 0.0 0.009 TL 208.00 PV Pipe: 37 9.9 2.157 FL 11.25 PF 0.0 31 15.4 0.0 30.7 0.0 0.9 120 FTG ---- FE 0.0 29 15.4 0.0 30.7 0.0 0.001 TL 11.25 PV Pipe: 38 -65.6 1.380 FL 11.86 PF 7.3 iF 21.5 5.6 12.0 19.4 14.1 120 FTG 2ET FE 2.6 lAP 15.4 0.0 22.0 0.0 0.308 TL 23.86 PV Pipe: 39 46.1 1.380 FL 14.83 PF 2.4 iF 21.5 5.6 12.0 19.4 9.9 120 FTG ---- FE 0.0 2AF 21.5 0.0 9.7 0.0 0.161 TL 14.83 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 7 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-3.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #3 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 40 -14.8 1.049 PL 4.51 PP 0.7 2P 26.0 5.6 7.0 14.8 5.5 120 FTG T PE 2.0 2AP 21.5 0.0 9.7 0.0 0.075 TL 9.51 PV Pipe: 41 31.3 1.380 PL 14.50 PP 1.1 2AP 21.5 0.0 9.7 0.0 6.7 120 FTG ---- PE 0.0 3p 21.5 5.6 8.5 16.4 0.078 TL 14.50 PV Pipe: 42 14.9 1.380 PL 7.95 PP 0.3 3P 21.5 5.6 8.5 16.4 3.2 120 FTG 2E PE -0.4 42 22.5 5.6 .7.8 15.7 0.020 TL 13.95 PV Pipe: 43 -0.7 1.380 PL 11.20 PP 0.0 4P 22.5 5.6 7.8 15.7 0.2 120 FTG ---- PE 0.0 5P 22.5 5.6 7.8 15.7 0.000 TL 11.20 PV Pipe: 44 -16.4 1.380 PL 8.25 PP 0.2 5P 22.5 5.6 7.8 15.7 3.5 120 FTG ---- PE 0.0 6AP 22.5 0.0 8.0 0.0 0.024 TL 8.25 PV Pipe: 45 -16.0 1.049 PL 6.16 PP 1.1 6P 19.5 5.6 8.2 16.0 5.9 120 FTG ET PE -1.3 6AP 22.5 0.0 8.0 0.0 0.086 TL 13.16 PV Pipe: 46 -32.4 1.380 PL 3.95 PP 0.3 6AP 22.5 0.0 8.0 0.0 6.9 120 FTG ---- PE 0.0 7P 22.5 5.6 8.3 16.2 0.083 TL 3.95 PV Pipe: 47 -48.6 1.380 PL 92.83 PP 18.0 7P 22.5 5.6 8.3 16.2 10.4 120 FTG ET PE 3.1 6C 15.4 0.0 29.4 0.0 0.177 TL 101.83 PV Pipe: 48 -48.6 2.157 PL 5.12 PP 0.1 6C 15.4 0.0 29.4 0.0 4.3 120 FTG ---- PE 0.0 1 15.4 0.0 29.5 0.0 0.020 TL 5.12 PV Pipe: 49 -114.1 2.635 PL 22.12 PP 1.1 24 15.4 0.0 32.9 0.0 6.7 120 FTG E PH 0.0 TOR 15.4 0.0 34.0 0.0 0.037 TL 30.12 PV Pipe: 50 . -114.1 2.635 PL 14.91 PP 0.5 TOR 15.4 0.0 34.0 0.0 6.7 120 FTG ---- PE 6.5 BOR 0.5 0.0 41.0 0.0 0.037 TL 14.91 PV Pipe: 51 -114.1 6.280 PL 9.00 PP 0.0 BOR 0.5 0.0 41.0 0.0 1.2 140 FTG 2E FE 1.5 UG12 -3.0 0.0 42.5 0.0 0.000 TL 53.00 PV Pipe: 52 -114.1 6.080 PL 140.00 PF 0.1 UG12 -3.0 0.0 42.5 0.0 1.3 150 FTG 2E2L PH -2.6 BF1 3.0 0.0 40.0 0.0 0.000 TL 212.00 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 8 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BJDG #5\BLDG#5-3.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #3 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 53 FIXED PRESSURE LOSS DEVICE BF2 3.0 0.0 44.0 0.0 4.0 psi, 114.1 gpm HF]. 3.0 0.0 40.0 0.0 Pipe: 54 -114.1 6.080 PL 6.00 PF 0.0 BF2 3.0 0.0 44.0 0.0 1.3 150 FTG E FE 2.6 UG -3.0 0.0 46.6 0.0 0.000 TL 28.00 PV Pipe: 55 -114.1 7.980 PL 30.00 PP 0.0 UG -3.0 0.0 46.6 0.0 0.7 150 FTG ---- PE 0.0 UG1 -3.0 0.0 46.6 0.0 0.000 TL 30.00 PV Pipe: 56 -114.1 7.980 PL 237.00 PP 0.0 UG1 -3.0 0.0 46.6 0.0 0.7 150 FTG 2ETG FE 0.0 UG2 -3.0 H.S. 46.7 100.0 0.000 TL 350.00 PV Pipe: 57 -145.0 7.980 PL 372.00 PP 0.1 UG2 -3.0 H.S. 46.7 100.0 0.9 150 FTG TG FE 0.0 UG3 -3.0 0.0 46.7 0.0 0.000 TL 431.00 PV Pipe: 58 -116.3 7.980 FL 195.00, PP 0.0 UG3 -3.0 0.0 46.7 0.0 0.7 150 FTG TG PE 0.0 UG4 -3.0 0.0 46.8 0.0 0.000 TL 254.00 PV Pipe: 59 -116.3 9.790 FL 445.00 PF 0.0 UG4 -3.0 0.0 46.8 0.0 0.5 150 FTG T PE 0.0 UGh -3.0 0.0 46.8 0.0 0.000 TL 513.00 PV Pipe: 60 -28.8 7.980 PL 497.00 PF 0.0 UG3 -3.0 0.0 46.7 0.0 0.2 150 FTG L FE 0.0 UG8 -3.0 0.0 46.7 0.0 0.000 TL 517.00 PV Pipe: 61 -28.8 7.980 FL 215.00 PP 0.0 UG8 -3.0 0.0 46.7 0.0 0.2 150 FTG TLG FE 0.0 UG9 -3.0 0.0 46.7 0.0 0.000 TL 294.00 PV Pipe: 62 -69.1 7.980 PL 300.00 PF 0.0 UG2 -3.0 H.S. 46.7 100.0 0.4 150 FTG T FE 0.0 UGS -3.0 0.0 46.7 0.0 0.000 TL 353.00 PV Pipe: 63 -69.1 7.980 FL 250.00 PF 0.0 UGS -3.0 0.0 46.7 0.0 0.4 150 FTG L FE 0.0 UG6 -3.0 0.0 46.7 0.0 0.000 TL 270.00 PV Pipe: 64 -69.1 7.980 FL 365.00 PF 0.0 UG6 -3.0 0.0 46.7 0.0 0.4 150 FTG L FE 0.0 UG7 -3.0 0.0 46.7 0.0 0.000 TL 385.00 PV Pipe: 65 -69.1 7.980 PL 725.00 PP 0.0 UG7 -3.0 0.0 46.7 0.0 0.4 150 FTG ET2LG FE 0.0 UG9 -3.0 0.0 46.7 0.0 0.000 TL 851.00 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 9 DATE: 4/2572003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-3.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #3 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 66 -97.9 7.980 FL 210.00 PF 0.0 UG9 -3.0 0.0 46.7 0.0 0.6 150 FTG TG FE 0.0 UG10 -3.0 0.0 46.8 0.0 0.000 TL 269.00 PV S Pipe: 67 UG1O -3.0 UGh -3:0 Pipe: 68 UGh -3.0 SOR -3.0 -97.9 0.0 46.8 0.0 0.4 0.0 46.8 0.0 -214.1 0.0 46.8 0.0 0.9 SRCE 46.8 (N/A) 9.790 FL 540.00 PF 0.0 150 FTG T4L FE 0.0 0.000 TL 696.00 PV 9.790 PL 1.00 PP 0.0 150 FTG TG FE 0.0 0.000 TL 76.00 PV NOTES: Calculations were performed by the HASS 7.4 computer program under license no. 50121152 granted by HRS Systems, Inc. 4792 LaVista Road Tucker, GA 30084 The system has been calculated to provide an average imbalance at each node of 0.001 gpm and a maximum imbalance at any node of 0.055 gpm. Total pressure at each node is used in balancing the system. Maximum water velocity is 14.1 ft/sec at pipe 38. PIPE FITTINGS TABLE Pipe Table Name: STANDARD.PIP PAGE: A MATERIAL: S40 HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A D N Eli Tee LngEll ChkViv BfyVlv GatVlv AlmChk DPVlv NPTee 1.049 2.00 5.00 2.00 5.00 6.00 1.00 10.00 10.00 5.00 1.380 3.00 6.00 2.00 7.00 6.00 1.00 10.00 10.00 6.00 PAGE: B MATERIAL: THNWL HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A D N Eli Tee LngEll ChkViv BfyVlv GatViv AlmChk DPVlv NPTee 2.157 6.00 12.00 3.00 14.00 8.00 1.00 12.00 12.00 12.00 2.635 8.00 17.00 6.00 19.00 10.00 1.00 14.00 14.00 17.00 0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 10 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-3.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #3 PAGE: D MATERIAL: DIRON HWC: 140 Diameter Equivalent Fitting Lengths in Feet (in) B T L C B G N Eli Tee LngEll ChkVlv BfyViv GatViv NPTee 6.280 22.00 47.00 14.00 51.00 16.00 5.00 47.00 PAGE: B MATERIAL: PVC150 HWC: 150 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G N Eli Tee LngEl1 ChkViv BfyVlv GatVlv NPTee 6.080 22.00 46.00 14.00 49.00 15.00 5.00 46.00 7.980 27.00 53.00 20.00 68.00 18.00 6.00 53.00 9.790 30.00 68.00 22.00 74.00 26.00 7.00 68.00 S C . . o -14.7 WATER SUPPLY ANALYSIS .uj uo.uu rkL)w; 10)U.L) yplu LEGEND 1 Available pressure 131.44 psi 8 214.1 gpm 2—_Required pressure 46.80 psi @ 214.1 gpm 4UU bUU 000 1000 1200 1400 1600 1800 FLOW (GPM) 140.0 G 112 . 0 A U G E P R 84.0 E S S U R E 56.0 p S i 28.0 o uj CD I—I Ln (DG) tJ.. rxl tcjcJ) C CD 0 C CDZ — bOt1 CC CD 4 CDCD c) te CD CC IHC) tj CDZ COD IH COD CD C C CD C Crc' 2000 1 . 21 2 21 21 2 22.8 22.122.22.122.A <8> 71.4 9 10 11 12 13 <14> / 1. 1.4 / 14141.414 1.4 <16> 0.0 7 <17> 16 8 3.0 >8> >8 > 3.0 3 0 3.0 <22> 73.0 21 /4.9/ <48> <6> <7> 48.6 /22.8 42.8 / 2: 6.8 <28> 84.7 2 SOR <68> <3 214.1 9.6 /<35> 9.96 / 3J (15> 42.8 21> 44.1 24> 1.1. 1 27> 36.2 c31> 19.4 34> 9.6 :37> ).9 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 12 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-3.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #3 SPRINKLER SYSTEM DIAGRAM WITH FLOWPLOT 1 <1> 23456 7 / UG11 9.9 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 13 DATE: 4/25/2003G:\SD JOBS\FORUM AT CARLSBAD\FIRESPKLDWGS\BLDG #5\BLDG#5-3.SDF JOB TITLE: CARLSBAD FORUM BLDG #5 CALC #3 WATER SUPPLY CURVE 1320\\\ I \\\\\ I \\\\\ 121+ \\\\\ \\\\\ I \\\\\ 110+ \\\\\ I 108.0 Psi @ 1630 gpm-> * I Flow Test Point 99+ P 88+ R E I S I 5 77+ U R E 66+ .(I P I S I I 55+ Ix 44+ 33+ 22+ LEGEND I 'V I X = Required Water Supply I 46.80 psi @ 214.1 gpm 11+ I 0 = Available Water Supply I 131.44 psi @ 214.1 gpm 0++-+---+----+-----+ ------+ --------+ --------+ ---------+ -----------+ 400 600 800 1000 1200 1400 1600 1800 2000 FLOW (GPM) 0 .t;u 1AA 70 753 7810 UMWD OIFRA11UNS 1002 .7 OLIVFNEJATN3].•;;S.CT FIREFLOW.ThSTRESULTS w.Q.. Q••• . CITY: '; .WLiIN ti. . .: . .. ...: . . • FAX4_____________ RSFF1REDPT ____________________ C1T2 OFSA t'TEGO tRE t '747 *T _____________ OTHER._________________________ .Fwe STQ1EStBDBY__* -if) PROJECT NAME___________________________________ DATE__________________________________ TIME L o r • ADI1ESS: . 4LL S, :. ..PRESSURE.ZOi'4E: 4:37' S POTENThLIMPACT TO ZONE: __..... ..•. .PkSTAflCNSThVOLVED L41 Va'. k,r :EESERVOiR/.S INVOLVED:.WM1 do 132.. RESIDUAL PRESSURE (DU EWTST) J C' P S I - PITOT RSIDUAL PRESSURE, 2.5' PORT________ ____ •• I (3Q____________ O.M.W.D PERSONFL CONDUCT TEST: TEST RESLTh. V WED BY: COMMENTS: Recessed Pendent \/9 ta U I i 13ic An Q 9001 certified company V27, K5.6 Models V2703, V27041 V2707 and V2708 Standard Spray Upright, Pendent and Recessed Pendent Standard and Quick Reponse PRODUCT DESCRIPTION These Model V27 standard spray sprinklers are designed to produce a hemispherical spray pat- tern for standard commer- cial applications. They are available with either stan- dard or quick response bulbs. The design incorpo- rates state-of-the-art, heat , responsive, frangible glass bulb design (standard or quick response) for prompt, precise operation. Pendent V2703 V2704 Upright The die cast frame is more streamlined and attractive than traditional sand cast frames. It is cast with a hex-shaped wrench boss to allow easy tightening from many angles, reducing assembly effort. This sprin- kleris available in various temperature ratings (see chart on page 2) and fin- ishes to meet many design requirements. The recessed pendent should be utilized with a Model V27 recessed escutcheon which pro- vides up to 3/4" (19 mm) of adjustments. Sprinkler Operation The operating mechanism is a frangible glass bulb which contains a heat responsive liquid. During a fire, the ambient tempera- ture rises causing the liquid in the bulb to expand. When the ambient temper- ature reaches the rated temperature of the sprin- kler, the bulb shatters. As a result, the waterway is cleared of all sealing parts and water is discharged towards the deflector. The deflector is designed to dis- tribute the water in a pat- tern that is most effective in controlling the fire. Coverage For coverage area and sprinkler placement, refer to NFPA 13 standards. TECHNICAL SPECIFICATIONS Models: V2703, V2704, V2707, V2708 Style: Pendent, Upright or Recessed Pendent Nominal Orifice Size: ½" (13 mm) IC-Factor: 5.6 Imp. (8,1 S.I.A) Nominal Thread Size: ½" NPT(l5mm) Max. Working Pressure: 175 PSI (1200 kPa) Factory Hydrostatic Test: 100% @ 500 PSI (3450 kPa) Mm. Operating Pressure: 7 PSI (48kPa) Temperature Rating: See chart on page 2. MATERIAL SPECIFICATIONS Upright Deflector: UNS C22000 Pendent Deflector. UNSC51000 Bulb: Glass with glycerin solu- tion. Bulb Nominal Diameter: U Standard: 6,0 mm % Quick Response: 3,0 mm' Load Screw: tiNS C36000 Pip Cap: tiNS C36000 Spring: Beryllium nickel Seal: Teflon* tape Frame: Die cast brass 65-30 Lodgement Spring: tiNS S30200 ACCESSORIES Installation Wrench: U Open End: V27 U Recessed: V38, V38-3 U Socket: V27 Finishes; Plain brass Chrome plated U Bright brass plated White painted** U Flat black painted** U Custom painted** U Lead 155, 200, 286SR Only: UWax** U Wax over lead** For cabinets and other accesso- ries refer to separate sheet. A For K.Factor when pressure is mea- sured in Bar, multiply S.I. units by 10.0. Teflon is a registered tramark of Dupont Co. UL Listed for corrosion resistance in all configurations . (Exaggerated for clarity) Victauuic® World Headquarters • P.O. Box 31, Easton, PA 18044-0031 • 4901 Kesslersville Rd., Easton, PA 18040 • 1-800-PICK VIC' FAX:610/250-8817' w.victaulic.com 2544 Rev.0 9/00 IS Registered Trademark of Victaullc 0 Copyright 2000 Viotaullc ' Printed In U.S.A. Temperature - Sprinkler Victauilc Nominal Maximum Glass Temperature Part Temperature Ambient Temp. Bulb Classification Identification Rating Allowed Color Ordinary A 135 57 100 38 Orange Ordinary C 155 68 100 38 Red Intermediate E 175 79 150 65 Yellow Intermediate F 200 93 . 150 - Green High . J 286 141 225— 107 Blue Extra High $ K 360 182 300 149 Mauve - M Open : No Bulb RATINGS All glass bulbs are rated for tethperatures from -65°F (-54°C) up to those shown in adjacent table. S APPROVALS/LISTINGS 40.10-IC Nominal Approved Temperature Ratings °F/°C Orifice Size. K-Factor Inches imperial Deflector Model millimeters Si." Response Type LIL FM . ULC NYC/MEAt CSFM § V2703 ½ 5.6 Standard Upright 135-360 135-360 135-360 135-360 135-360 13 8,1 57.182 57-182 57-182 57-182 57-182 V2707 ½ 5.6 Standard Pendent 135-360 135-360 135-360 135-360 135-350 13 8.1 57-182 57-182 57-182 57-182. 57-182 ½ 5.6 Recessed Pendent 135-360 135-200 135-360 135-360 135-360 V2707 . 13 8,1 Standard Up to 3/4' Adjustment. 57-182 5793 57-182 57-182 57-182 6704) 1h 5.6 Quick Upright 135-286 135-286 135-286 135-286 135-286 13 8,1 57-141 57-141 57-141 57-141 57-141 1/2 5.6 Quick Pendent 135-286 135-286 135-286 135-286 135-286 13 8,1 57-141 57-141 57-141 57-141 57-141 V2708 1/2 5.6 . Qu1c1 Recessed Pendent 135-200 135-200 135-200 135-200 135-200 13 8,1 Up toW Adjustment 57-93 57-93 57-93 57-93 57-93 2708 ½ 5.6 QuIck Recessed Pendent 135-200 No 135-200 135-200 135-200 13 8,1 Up to ~ Adjustment 57-93 5793 57.93 Ustings and approval as of printing. 0 All are approved open, except for areas designated 'No. A For K-Factor.when pressure is measured in Bar, multiply S.I. units by 10. t MEA #62-99-E. § CSFM #7690-0531:112 40.10-25 Standard response only. All are approved open, except for areas designated 'No". 150/65 If wax coated. ORDERING INFORMATION Please specify the folloviring when ordering: U Sprinkler Model Number Cl K-Factor U Sprinkler Finish Cl Style U Thread Size U Escutcheon Finish U Temperature Rating U Quantity U Wrench Model Number Always read and understand instaliatioe, care, and maintenance instructions, supplied with each box of sprinklers, before proceeding with installation of any sprinklers. Always wear safely glasses and foot proteotlin. • Piping systems must always be depressurized and drained before attempting disassembly and removal of any Vlctaullc piping products. • installation rules, especially those governing obstruction, must be strictly follbwed. • Painting, plating, or any re-coating of sprinklers (other than that supplied by Victauiic) is not allowed. Failure to follow these instructions could result in serious personal Injury and/or property damage. • The owner Is responsible for maintaining the fire protection system and devices In proper operating condition. For minimum maintenance and inspection requirements, refer to the current National Fire Protection Association pamphlet that describes care and maintenance of sprinkler systems. In addition, the authority having jurisdiction may have additional maintenance, testing, and inspection requirements that must be followed. If you need additional copies of this publication, or If you have any questions about the safe Installation of this product, contact Victaulla World Headquarters, P.O. Box 31, Easton, Pennsylvania 18044-0031, 610-559-3300. 40.10-2 DIMENSIONS. S (37 mm) 1 WV2 7 2W (41 mm) (60 mm) Ll Standard Upright - V2703, V2704 (D mm Standard Pendent - V2707, V2708 (60 mm) _2W Max. Hole 2"(51 mm) Mm. Hole (17m) lyle Typical Calling Tile (27mm) (43 mm) T Finished Surface (30 mm) MAXIMUM RECESS 21FAe (76 mm) - MAXIMUM EXTENSION ½" Adjustment Recessed - V2707, V2708 (Drawing not to scale) _2W (60 mm) I Max. Hole I 2'(51 mm) 'ta if- Min. Hole a,' (24 mm) 6 7119 Typical Citing (14f0rn) 1",iu Finished Surface MAXIMUM RECESS (24 mm) (43 mm) 2ie (75 mm) MAXIMUM EXTENSION AVAILABLE WRENCHES W- Adjustment Recessed - V2707, V2708 (Drawing not to scale) V27 Socket V38 or V38-3 Recessed V27 Open End V2707, V2708 Pendent / V2707, V2708 Recessed Pendant V2703, V2704 Upright 40.10-3 iuuumuuuuimiiu iii•u•uiuiu• iiu•uau•••u iuuiiimiiuiu uuiuu•u•uuui uiuuiiuimiuu 10' 3,0 rr [] 2, 1,6 4 1,2 4 0,6 7PSI ------ 48 kPa 15 PSI 103 kPa 30 PSI 207 kPa . DISTRIBUTION PATTERNS MODELS V2707, V2708 1(5.6 STANDARD PENDENT AND RECESSED PENDENT DISTRIBUTION PATTERNS -TRAJECTORY 10, 3,0 m - - - -- 8' -------- - 2,4m N - - - - - - .\ 41-1 18m 4' ----- 0,6 rn 0 2' 4' 6' 8' 10' 12' 14' 0,6 m 1,2 m 1,8 m 2,4 m 3,0 m 3,7 m 4,3 m MODELS V2703, V2704 1(5.6 STANDARD UPRIGHT DISTRIBUTION PATTERNS —TRAJECTORY 7PSI 48 kPa 15 PSI 103 We 30 PSI 207 We r-] 0,6m 1,2m 1,8m 2,4m 3,0m 3,7m 4,3m 4,9m NOTES: Data shown is approximate and can vary due to differences in installation. These graphs illustrate approximate trajectories, floor-wetting, and wall-wetting patterns for these specific Victaulic FireLock Automatic Sprinklers. They are provided as information for guidance in avoiding obstructions to sprinklers and should not be used as minimum sprinkler spacing rules for Installation. Refer to the appropriate NFPA National Fire Code and the authority having jurisdiction for specific information regarding obstructions, spacing limitations and area of coverage requirements. Failure to follow these guidelines could adversely effect the performance of the sprinkler and will void all Listings, Approvals and War- ranties, All patterns are symmetrical to the centerline of the waterway. WARRANTY Refer to the Warranty section of the current Price List or contact Victaulic for details. This product shall be manufactured by Victaulic Company. All products to be Installed In accordance with currant Victaulic installatloiVassembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. 40.10-4 CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. 7165-1591:102 Page 1 of 1 CATEGORY: Control Units (Non High-Rise) LISTEE: Edwards Systems Technology, 6411 Parkland Dr., Sarasota, FL 34243 Contact: Leon Newsome (941) 739-4276 Fax (941) 739-4334 DESIGN: Model FireShield series fire alarm control units. Models FS302G, F5302R, FS302G-2, FS302GF, FS502G, FS502R, FS502G-2, FS502GF, FS1004G, FS1004R, FSI004G-2 and FS1004GF. *Model FSDACT digital alarm communicator transmitter. Local, auxiliary, remote station, automatic, manual, waterflow and sprinkler supervisory service. Refer to listee's data sheet for detailed product description and operational considerations. RATING: 120 VAC Primary, 24 VDC Secondary INSTALLATION: In accordance with listee's printed installation instructions, applicable codes and ordinances and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name, model number, electrical rating and UL label. APPROVAL: Listed as fire alarm control unit for use with separately listed compatible initiating and indicating devices. These control units do not generate a temporal pattern signal. If the distinctive three-pulse Temporal Pattern Fire Alarm Evacuation Signal (for total evacuation) per NFPA 72, 1999 Edition is required, the control unit must be used with audible appliances that can generate the temporal pattern signal. Refer to manufacturer's Installation Manual for details. NOTE: For Alarm Verification Feature, the maximum Retard/Reset/Restart period must be adjusted to 30 seconds or less. NOTE: Formerly 7165-1501:129 Rev. 11-24-2002 This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. Date Issued: NOVEMBER 24, 2002 Listing Expires June 30, 2003 Authorized By: DIANE K. AREND, Senior Deputy Program Manager CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING. BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. 7300-1591:101 Page 1 of 1 CATEGORY: Misc. Device/Control Unit Accessories LISTEE: Edwards Systems Technology, 6411 Parkland Dr., Sarasota, FL 34243 Contact: Leon Newsome (941) 739-4276 DESIGN: Model FSRZI-A remote zone indicator (Part No. 7990044), Model FSRSI remote system indicator (Part No. 7990043) and Model FSRRM remote relay module (Part No. 7990042). Refer to listee's data sheet for additional detailed product description and operational considerations. RATINGS: Primary Operating Supply: 21-25 VDC INSTALLATION: In accordance with listee's printed installation instructions, applicable codes & ordinances and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name or Edwards, model number, electrical rating and UL label. APPROVAL: Listed as control unit accessories for use with separately listed compatible fire alarm control units. For indoor use only. NOTE: Formerly 7300-1501:128 09-28-2002 JEW This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test , results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. Date Issued: SEPTEMBER 28, 2002 Listing Expires June 30, 2003 Authorized By: DIANE K. AREND, Senior Deputy Program Manager CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. 7300-1591:103 Page 1 of 1 CATEGORY: Misc. Device/Control Unit Accessories LISTEE: Edwards Systems Technology, 6411 Parkland Dr., Sarasota, FL 34243 Contact: Leon Newsome (941) 739-4276 DESIGN: Model FSRZI-A remote zone indicator, Model FSRSI remote system indicator and Model FSRRM remote relay module. Models FSAT1, FSAT2, FSAT3 and FSAT4 nylon wall plates. Model FSRRM-Sllspan track mount for FSRRM. Models EOL-1.1KL and EOL- 3.6KL end of line resistors. Model CTM4.7 city tie module. Refer to listee's data sheet for additional detailed product description and operational considerations. RATINGS: Primary Operating Supply: 21-25VDC INSTALLATION: In accordance with listee's printed installation instructions, applicable codes & ordinances and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name or Edwards, model number, electrical rating and UL label. APPROVAL: Listed as control unit accessories for use with separately listed compatible fire alarm control units. For indoor use only. NOTE: Formerly 7300-1501:130 09-28-2002 JEW This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation tL......JJ criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. Date Issued: SEPTEMBER 28, 2002 Listing Expires June 30, 2003 Authorized By: DIANE K. AREND, Senior Deputy Program Manager EDWARDS SYSTEMS TECHNOLOGY CONTROL PANELS FireShield Conventional Fire Alarm Control Systems FS302 Features Available in 3,5, and 10 IDC models IDC or NAC pairs convertible to single Class Acircuits (10 and 5 IDC panels only) Supports 2M, EC and 6200 Series detectors Combination Waterflow and Supervisory lDCs NACs programmable by zone and individually selectable for Genesis, continuous, ortemporal outputs Front panel programmable PC programmable with optional DACT installed F5502 I Genesis option allows precision synchronization and audible silence overtwo wires without additional modules Description The FireShield fire alarm family consists of 3, 5 and 10 zone con- ventional fire alarm control panels, an integrated DACT/Dialer, serial annunciator modules, and serial remote relay modules. All of these components are microprocessor-controlled. The FireShield family is ideal for both new and retrofit installations alike. FireShield incorporates features designed to simplify installation, operation and maintenance. These include front panel program- ming, one person walk testing, and selectable IDC and NACtypes. FireShield panels are powerful enough to meetthe demands of today's installations while leaving plenty of room to grow in the future. FS502 and FS 1004 panels support Class A operation by combining pairs of on-board lDCs or NACs to provide the necessary circuits. For example, the FS 1004 comes factory setto support 10 Class B lDCs and four NACs. But it can be field-configured to provide five Class A lDCs, no Class BlOCs, and two Class A NACs - or any other combination of circuits thatfall within the circuit-pairing parameters. FS1004 F3502 FS302 Class B lDCs Up to 10 Up to 5 3 Class A lDCs Up to 5 Up to 2 Not supported Class B NACs Up to 4 Up to 2 2 Class A NACs Up to 2 1 Not supported NAC Power 2.5 exp to 5 amps 2.5 amps 1.5 amps Auxiliary oower 0,5 amps 05 amps 015amps Note: Class operation will reduce the numberot available Class BIDCs and/or NA Cs, depending on thepanelconfiguration See Specifications onpage5for details. On-board relays for Alarm, Supervisory and Trouble Optional serial bus relay modules are programmable for common or zone activation U Optional serial bus remote annunciator One person device testing (audible or silent) Expandable power supply (10 IDC panel only) Optional City Tie and Reverse Polarity Modules U Optional trim ring for semi-flush mounting Optional fully integrated DACT/Dialer with: 32-character LCD display Event history log Supports Contact ID and SlA DCS 4/2 Upload/download of Panel/DACT configuration, status and event history EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: SARASOTA, FL 94.1-739-4200: FAX 941-727-0740 • CANADA SALES: OWEN SOUND, ON 519-376-2430; FAX 519-376-7258 INTERNATIONAL SALES: 906-270-1711; FAX 905-270-9553 • CORPORATE HEADQUARTERS: CHESHIRE, CT • US. MANUFACflJlNG: PITTSFIELD. ME Issue 2 Literature Sheet #85006-0118 Page 1 of 8 Not to be used for Installation purposes. For the most current literature and updates visit wwwest.net. FS502 The FS5O2provides five zones of control pIusoptonalLCD display. Options Off-premise communication A fully integrated FireShield DACT/dialer is available for reporting events to a monitoring facility. The DACT also supports uploading or downloading of system configuration, status and event history. The DACT is programmable for either single or dual line opera- tion. It also supports split and dual reporting for two digital alarm receivers. The DACT brings additional features to the panel including a 32-character alphanumeric LCD display, local or remote PC programming and an event history log. Modules are also available for City Tie (dM4. 7) and Reverse Polarity (RPM) connections. Remote Annunciators and Relays The serial bus standard on all FireShield models is another installation time-saver. This circuit allows the connection of Remote System Indicators (FSRSI), Remote Zone Indicators (FSRZI-A) and Remote Relay Modules (FSRRM) over a four-wire (data and power) circuit. Annunciator and relay modules can be installed up to 1,000 feet from the panel on 18-gauge wire. Panel Operation Operators' Interface Control of the panel's operation is both simple and intuitive. While the LEDs and optional LCD are visible with the panel door closed, the door and bezel block access to the controls. With the door open the following controls are available: - Reset -used to reset the panel; Signal Silence and Drill - used to silence notification appliances or activate the drill function; Panel Silence - silences the buzzer on the panel and the remote trouble unit; Remote Disconnect - disables the DACT, or, if no DACT installed, disables the panel's alarm relay; Walk Test - activates the panel's silent and audible walk test mode. The following system LEDs displaythe panel's status: Alarm - panel is in the alarm state; - Trouble -panel is in the trouble state; Supervisory- panel is in the supervisory state; Power - indicates the status of the AC power source; FS1004 Application FireShie/d provides smoke and fire detection, occupant notification and off-premises signaling for small- to medium-sized buildings. Each IDC can be configured for either Class B or Class A operation and one of eight operating modes: Alarm -without smoke detector verification; Alarm -with smoke detector verification, and instant activation of contact devices; Waterflow Alarm - no retard; Waterflow Alarm -with 15 second retard; Combination Waterflow (no retard) and Supervi- sory; Combination Waterflow (retard) and Supervisory; Supervisory (Latching); Monitor-for monitoring devices other than alarm or supervisory such as fire doors or fire dampers. NACs may also be configured for either Class B or Class A operation. Additionally, NACs can be individually configured for one of three outputs. These are Genesis, Continuous or Temporal. The Genesis selection allows independent horn control over two wires and provides precision synchroniza- tion for Genesis devices, all without the need for a Genesis Signal Master accessory. When configured for Genesis notification appliances, F/raSh/e/d's Alarm Silence function will silence connected Genesis audible appliances but Genesis strobes will remain active until the panel is reset. When Genesis Mode is selected, both the horns and strobes on Genesis and Enhanced Integrity notifica- tion appliances will be synchronized across all NACs. Battery Trouble - indicates battery or charging problems; - Ground Fault- indicates a short between any panel circuit and ground; Walk Test - indicates that one or more lDCs are in the walk test mode; - Alarms Silenced - indicates that the panel is 1' in the alarm state with one or more NACs silenced. Each IDC has a disable switch and three LEDs: Alarm -red- indicates that the IOC is in the alarm state; Trouble -ye/low - indicates that the IDC is in the trouble state or is disabled (when flashing); Supervisory/Monitor -yellow- indicates thatthe IDC is in the supervisory state orthe monitor state (when flashing). Each MAC also has a disable switch and a trouble! disable LED. Status indication with the DACT/Dialer installed The dialer's LCD display provides two lines x 16 characters of text. For programming, the top line displays the programming step and the lower line displays the selected option. Disable - indicates when any IDC, MAC, relay or the DACT are disabled; Annunciator Trouble - indicates trouble on the remote annunciator bus; EDWARDS SYSTEMS TECHNOLOGY Page 2 Of 6 Literature Sheet #85006-0118 Issue 2 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. The DACTIDAaIerI'tstaUsbehind the front panel display. DACT/Dialer Remote Relay Module E 1M Ca,, be mounted 1 Upto4RRMs in an FSARM- Si? snap track. Up to two FSRRM-Si is can be mounted in an MFC-A. TheRemote Relay Module mountsonaplastictrackinside anMFC-Acabinat. The optional DACT/Dialer is a multifunction modulethat provides communications, modem capability, and LCD display functions. Its primary function is as a Digital Alarm Communi- cator Transmitter (DACT). As a DACT, it transmits event messages to a Digital Alarm Communicator Receiver (DACR) at a monitoring facility. The monitoring facilitythen notifies the fire department and other responsible parties of the event. Programmable options include single or dual line operation, and split or dual reporting to two DACRs. The DACT module can also be used as a modem to connect the panel to both local and remote computers for uploading and downloading of configuration data (programming), panel status and event history. For security, the modem can be configured to accept programming on incoming calls or it can be required to call a preprogrammed number before accepting downloads and sending uploads. The DACT module can be configured to work as all of the above, or as only an LCD display or LCD display and modem. The Remote Relay Module (FSRRM) is one component of the system that sets FireShield apart from other panels in its class. This module has five Form C relays rated at 1 amp each. It can be configured to function in either a zone relay mode or a common system mode. When configured in the zone relay mode, relays energize when the associated IDC is active. The module can be configured for activation by lDCs 1 through 5 or IDCs 6 through 10. One relay is automatically associated with each lDC. The FSRRM mounts on a plastic snap track and can be installed in an MFC-A or other listed fire alarm enclosure. The panel will supporttwo RAMs of each configuration for a total of six on the 10-zone panel. When configured in the common system mode, relays energize or de- energize when the panel changes state. One relay is available for each of the following functions: Alarm, Supervisory, Trouble, Power — Loss, Monitor. Remote Annunciators FireShield family has several remote annunciation options. The serial remote annunciator bus can be runup to 1000 feet (305m) on untwisted non-shielded 18-gauge cable. Several annunciator models round out the family to provide, range of features and functions. As many as three annunciator modules may be mounted in a standard electrical box, sharing an attractive trim plate that blends with any decor. - Remote System Indicator (FSRSI) _ The FSRSI is ideal —: for common system annunciation. It includes five LEDs and a local silence/ lamp test switch. The LEDs indicate 0 power status, alarm, ______-. supervisory, trouble 2800. and ground fault. The silence switch will silence the onboard trouble buzzer if active. The switch can also -. be used to initiate a lamp test of the LEDs on all connected FSRSls and FSRZI-As. - Remote Zone [ Indicator - (FSRZI-A) The FSRZI-A is used to indicate - zones in the alarm state. It contains five red LEDs. Depend- ing on the jumper setting selected, the LEDs will indicate either lDCs 1 through 5 or lDCs 6 through 10. The panel can support two modules programmed for each selection. The FSRSl can beinstalled alone or with one or more FSRZI-As. The FSRSI and FSRZI-Arequiretrimptates (orderedseparstely).Thes. are available in one, two or three gang models. Each panel wig supporttwoFSflSis. EDWARDS SYSTEMS TECHNOLOGY Issue 2 Literature Sheet #86005-0118 Page 3 of 8 Not to be used for Installation purposes. For the most current literature and updates visit www.aat.net. Panel Layout Main AC wiring block and fuse holder: Provides connections for 120 or 230 volt AC (primary power) from dedicated service. Includes primary power fuse (5 Amp). O Dual Transformer AC wiring block: Ten-zone panel only. Provides connections between primary side of both main and expander transformer and 120 or 230 volt AC (fused primary power). 0 Transformer: Changes 120 or 230 volt AC supply voltage to 24 volt AC. Power expander transformer (XTR): Optional. Available for the ten-zone panel only. Provides additional primary power to increase the available NAC currant for the ten-zone panel. O Main circuit board: Provides connections for all circuits. Also includes the operator interface. 0 Operator Interface: Includes operator controls, LED indicators and circuit identification labels. 0 Cabinet enclosure: Houses the panel electronics and standby batteries. In some cases the batteries may be housed in an external battery cabinet (BC2). Standby batteries: Provide Secondary/Standby power to the panel electronics in the absence of primary power. OTie wrap mounts: Used to secure wires and to help maintain proper separation between Power-limited and nonpower- limited conductors. Power Connections Fror,ri2OVac 15A601z DericwlaA r0ncfl cirraut —OR— Fraro 230 Va 15A. 50/00 090ratac Drancr circa! Dual ran,form AC u'.ng Nk Dimensions Model D1 D2 D3 D4 D5 Three- & 16.5 in 3.75 in 9.13 in 10.5 in 14.23 in five- zone (41.9 cm) (9.5 cm) (23.2 cm) (26.67 cm) (36.14 cm) Ten-zone 23.65 in 3.75 in 735 in 21.27 in 16.25 in (60 cm) (9.5 cm) (19.7 cm) (54.0 cm) (41.27 cm) *Add 11/2 inches (3.81 cm) to Dl and D5 dimensions for trim kit. O .° 0°0 00 Surface mounting holes - 0 E E 00( D4 EDWARDS SYSTEMS TECHNOLOGY Page 4 of 8 Literature Sheet #85005-0118 issue 2 Not to be used for installation purposes. For the most curre-it literature and updates visit www.a5t.net. Specifications Control Panels FS1004 FS502 FS302 Initiating Device Circuits- lOCs (Available combinations shown at right) Class B Class A 10 0 8 1 6 2 4 3 2 4 0 5 5 0 3 1 1 2 Three Class B lDCs Notification Appliance Circuits - NACs (Available combinations shown at right) Class B Class A 4 0 2 1 0 2 2 0 0 1 Two Class B NACs Power Supply 3.0 A expandable to 6.0 A 3.0 amps total 2.0 amps total NAC Vul(dte R(iiiy 24 Vfwr Maximum NAC current 1.5 amps each,2.5 amps total for NAC 1 + 2 or 3 + 4 5.0 A w/ optional transformer 1.5 amps each 2.5 amps total 1.5 amps each 1.5 amps total AC Input 120 Vac 60 Hz... 230 Vac 50/60Hz... 1.6 Aw/ optional transformer 0.8 A w/ optional transformer 0.8 amps 0.4 amps 0.8 amps 0.4 amps Base Panel Current Draw Standby... Alarm.,. 145 mA 250 mA 120 mA 170 mA 110 mA 145 mA Panel Battery Charge Capacity (sealed lead acid only) Up to two 18 Ah batteries Up to 18 Ah, 7Ah max in cabinet * Auxiliary Current 0.5 amps max. May be programmed as resetable. Auxiliary Output 19 to 25.7 Vdc IDC Alarm Current 1.5 mA (Consult detector compatibility list p/n 3100468 for maximum detectors per circuit) IOC Circuit Maximum loop resistance: 13 Ohms; Maximum loop capacitance: 0.03pF IDC Operating Voltage 16.3 to 25.7 Vdc UL Detector ID 100 Alarm Contact (normally open) 30 Vdc @ 1 A (resistive load) Supervisory Contact (normally open) Trouble Contact (Form C) Operating Environment Temperature: 32- 120° F (0 - 49° C); Humidity: 5-93% RH, non-condensing Terminals (wire gauge) 18 - 12 AWG (0.75 mm2 - 2.5 mm2) Asynchronous Serial Communications Maximum resistance: 13 Ohms; Maximum capacitance: 0.03pF If larger batteries are required, use the C-2 battery cabinet. See installation sheet 31000Z/ for details. DACT - FSDACT (mounts in panel) Receivers Supports two receivers with two phone numbers each Communications Protocol Contact ID (SIA DC-05),4/2 (SlA DC-02 P3) Programming Front panel controls or PC with appropriate software Telephone line connection Two RJ31X (plug-to-plug) cords supplied with DACT Telephone lines Two or one loop start lines on the public switched telephone network. Pulse or DTMF. Telephone wall connector RJ31X/CA31X equiv. or RJ38XJCA38X equiv. Communications Compliance Communications Canada CS-03; FCC/CFR 47 Parts 15 & 68; NFPA 72; UL 864; ULC S527-M87 Operating Environment Temperature: 32-120° F (0.49° C); Humidity: 93% RH, non-condensing Current requirements Standby: 40 mA; Alarm: 60 mA Remote Annunciators FSRSI Remote System Indicator ==FSRZI-A Remote Zone Indicator Maximum per System All panels: 2 10 zone panel: 4 3 or 5 zone panel: 2 Current Requirements Standby: 12 mA Alarm: 48 mA Standby: 8 mA Alarm 35 mA Voltage Range Minimum: 21 Vdc; Maximum: 25 Vdc Maximum Circuit Capacitance 0.03 pF Maximum Circuit Resistance 13 Ohms Wire Size 18- 12 AWG (0.75 mm2 - 2.5 mm2) Mounting ANSI/NEMA OS1-1996 1-3 gang electrical box Operating Environment Temperature: 32 - 120° F (0 - 49° C); Humidity: 93% RH, non-condensing Remote Relay Module - FSRRM Configured for Zone Mode Configured for Common Mode Maximum per system 10 zone panel: 4; 3 or 5 zone panel: 2 All panels: 2 Current Requirements Standby: 8 mA; Alarm: 65 mA Standby: 30 mA; Alarm: 41 mA Voltage Range Minimum: 18 Vdc;. Maximum: 27 Vdc Maximum Circuit Capacitance 0.03 pF Maximum Circuit Resistance 13 Ohms- Wire Size 18- 12 AWG (0.75 mm2 - 2,5 mm2) Mounting Single FSRRM mounts in plastic track (included) or up to four FSRRMs in an FSRRM-S1 111" track ordered separately. FSRRMs should be installed in an MFC-A or other listed fire alarm enclosure. Operating Environment Temperature: 32 - 120° F (0 - 49'C); Humidity: 93% RH, non-condensing Dimensions 2-3/4 W x 3-3/8'H x 1-1/2"D (65.9 mm W x 85.7 mm H x 38.1 mm D) EDWARDS SYSTEMS TECHNOLOGY Issue 2 Literature Sheet #85005-0118 Page 5 of 8 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. Ordering Information Part Number I Description Ship Wt. lb. (kg.) Control Panels EST-FS1004* Conventional Fire Alarm Control Panel - 10 Class B lDCs and 4 Class B NACs (Pairs of lDCs and NACs convertible to single Class A circuits), 120 Vac 30.5 (13.8) EST-FS1004-2 Conventional Fire Alarm Control Panel - 10 Class B IDCs and 4 Class B NACs (Pairs of lDCs and NACs convertible to single Class A circuits), 230 Vac. Grey cabinet. 30.5 (1 3 8 • EST FS5o25 Convontionah Firo Alarm Control Panol 5 Cl acs B lDCe and 2 Class B NACc (Pairs of lDCs and NACs convertible to single Class A circuits), 120 Vac 18.5(8.4) EST - - FS 02 2 Conventional Fire Alarm Control Panel - 5 Class B lDCs and 2 Class B NACs (Pairs of lDCs and NACs convertible to single Class A circuits), 230 Vac. Grey cabinet. 18.5 (8.4) EST.FS302* Conventional Fire Alarm Control Panel -3 Class B lDCs and 2 Class B NACs, 120 Vac 18.0 (8.2) ESTFS302*.2 Conventional Fire Alarm Control Panel -3 Class B lDCs and 2 Class B NACs, 230 Vac 18.0 (8.2) FSTR1M35* Semi-flush trim ring for FS302 and FS502 1.7 (0.8) FSTRIM10 Semi-flush trim ring for FS1004 2.2 (1.0) * Insert G for Gray cabinet or 'R' for Red cabinet. Insert GP for French language (grey cabinets, 720 volt models only). Related items XTRA3A120 Expander Transformer, 120 Vac - For FS1004* only 4.0(1.8) XTRA3A230 Expander Transformer, 230 Vac - For FS1004*2 only 4.0 (1.8) FSCDF35 Electrical terminal shield for 3 & 5 IDC panels. Required for all installations in Canada 1.0 (0.5) FSCDF10 Electrical terminal shield for 10 IDC panels. Required for all installations in Canada 2.0 (0.9) - .1 EOL3 61 Required UL listed End of Line Resistors - One 3.0K Ohm and one 1.1K Ohm. One required for each IDC configured as combination waterfbow and supervisory. 0.1 (0.5) EOL-P1 Required ULC End of Line Resistor Plate - includes one 1.1K, 3.6K and 4.7K Ohm resistor 1.0 (0.5) Off Premises Communications FSDACT Digital Communicator/Modem/LCD module (Mounts in control panel) S 1.0 (0.5) CTM4.7 City Tie Module (Requires 4' square or 2-gang North American electrical box) 1.0 (0.5) RPM Reverse Polarity Module (Requires MFC-A or other listed fire alarm enclosure) 3.0 (1.4) Remute Annunciation FSRSI Remote System Indicator - Includes LEDs for display of Power, Alarm, Supervisory, Trouble and Ground Fault, trouble sounder and silence/lamp test switch. Single gang trim plate included, multi-gang plates ordered separately. Mounts in a single or muiti-gang North American electrical box. 0.3 (0,1) FSRZI-A Remote Zone Indicator - Includes LEDs for five lDCs. Single gange trim plate included, multi-gang plates ordered separately. Mounts in single or multi-gang North American electrical box. 0.3 (0.1) FSAT2 Annunciator Trim Plate, 2 gang with FireShield Logo 0.1 (0.05) FSAT3 Annunciator Trim Plate, 3 gang with FireShield Logo 0.1 (0.05) Remote Relay Module FSRRM Remote Relay Module - Five Form C relays. Configurable for lDCs 1-5, or 6-10, or common system indications. Requires MFC-A or other listed fire alarm enclosure. 0.4 (0.2) FSRRM-S1 1 11' Mounting track. Holds up to 4 FSRRMs. 0.4(0.2) Accessories MFC-A Multi-function Cabinent (fire alarm accessory enclosure) 7.0 (3.2) BC-2 Grey Battery Cabinet (holds two 18 Ah batteries) 12.0(5.4) BC-2R Red Battery Cabinet (holds two 18 Ah batteries) 12.0(5.4) Batteries 12V4 14Ah Sealed Lead Acid Battery. 12 Vdc (2 required) 5.0 (2.3) 12V6 16.5 Ah Sealed Lead Acid Battery - 12 Vdc (2 required) 6.0 (2.7) 12V10 I 10 Ah Sealed Lead Acid Battery - 12 Vdc (2 required) 10.0 (4.5) 12V17 117 Ah Sealed Lead Acid Battery - 12 Vdc (2 required) 13.0(5.9) EDWARDS SYSTEMS TECHNOLOGY It is our intention to keep the product information current and accurate. We cannot cover specific applications or anticipate all requirements. All specifications are subject to change without notice. For more information or questions relative to this Specification Sheet. contact EST 2002 EST P'ufled in U.S.A. Page 8 of 6 Literature Sheet 085005-0118 ISSUC 2 Not to be used for Installation purposes. For the most current literature and updates visit www.est.net. 05/12/2083 18:59 9093051686 BEC PAGE 07 CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. . 7272-1591:135 Page 1 of I CATEGORY: Photoelectric Smoke Detector LISTEE: Edwards Systems Technology, 6411 Parkland Drive, Sarasota, FL 34243 Contact: Leon Newsome (941) 739-4276 Fax (941) 7394334 DESIGN: Model EC30U-3 photoelectric type, 2-wire smoke detector. Refer to listee's data sheet for detailed product description and operational considerations. RATING: 12-30 VDC INSTALLATION: In accordance with listee's printed installation instructions, applicable codes & ordinances and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name, model number, electrical rating and UL label. APPROVAL: Listed as a photoelectric type smoke detector for use with listee's separately listed compatible fire alarm control units. NOTE: Formerly 7272-1388:245 11.02-2002 This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. Date Issued; JANUARY 16, 2003 Listing Expires June 30, 2003 Authorized By. DIANE K. AREND, Senior Deputy Program Manager 05/12/2003 10:59 9093051606 EEC PAGE 04 EDWARDS SYSTEMS TECHNOLOGY CONVENTIONAL INITIATING DEVICES I -- Compatibility 4l QulckStart I FircShleld I EST3 I Low-profile Plug-in Photoelectric Detector EC3OU-3 Features I Sensitive to visible and invisible products of combustion Finely tuned to sense all fire types, especially slow burning, smoldering fires fuelled by combustibles typically found in modern multi-use buildings. Stable, reliable design Uses the light scattering principle for smoke detection and is not affected by air movement. Non-polarized Simplifies installation of field wiring I Simple to install, cliff icultto vandalize Twist-and-lock design saves installation and maintenance time. Field-configurable locking mechanism prevents unauthorized removal. I Flexible mounting options Compatible standard base mounts to 1-gang, 4" octagonal, BESA, or European single-gong boxes. At-a-glance alarm indication An on-board high-Intensity LED glows bright red when the unit is in alarm, making alarm response a simple and straightforward operation. Easy to maintain Removable housing and insect mesh facilitates cleaning. I Attractive appearance with clean, modern lines Low-profile design blends easilywith surroundings, extending less than 2Y'.' (61 mm) from the ceiling, including base. Description EC30U-3 low-profile plug-in photoelectric detectors measure-up to the quality and performance standards that have made ESTfire detection products the industry's best price-performance buy available today. Meticulously engineered to deliver high-perfor- mance features, superb reliability, and unbeatable quality, the EC30U.3 is a low-cost solution for conventional detection applica- tions. The EC30U-3 distinguishes itself as a performance leader In Its class with its highly stable design that resists air movements caused by heating and air conditioning, and changing environ- mental conditions. This makes it a reliable performer ideally suited to modern building interiors. ,4 111111W waft- ShownwIthbase ordered sepornt';y Aloft V The installation and maintenance advantages of the EC30U-3 add value to this detector throughout its service life. Its twist-and-lock design makes short work of installation and maintenance opera- tions. A plastic breakout on the detector housing optionally prevent; removal from the base except with a special tool. A bright, easy-to-see LED on the detector glows steady when it is in alarm, thus eliminating much of the guesswork when responding to front-panel indications. If a detector is removed for any reason while the panel is in its normal state, a zone trouble condition will result. This ensures the integrity of the alarm system at all times. EC30U-3 detectors are manufactured to strict international ISO 9001 standards. All electronics employ surface mount tcchnol- ogy (SMT) for smaller size and greater immunity to RF noise. A corrosion-resistent conformal coating is used to seal components againstdust and humidity. Application Thanks to its high-performance photoelectric sensor, the EC30U-3 responds quickly and reliably to all fire types, especially slow burning fires fuelled by combustibles typically found in modern multi-use buildings. Particles as small as 0.5 microns will be detected by the sensing element, triggering an alarm atthe first sign of smoke. EST recommends that all detectors be installed according to the latest recognized edition of national and local fire alarm codes. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: SARASOTA. FL94 1.739.4200 FAX 941.777-07,1t1 - CANADA SALES: OWEN SOUND. ON 519-370-2430: FAX 519-376-75 INTERNATIONAL SALES; 905.70.1711: FAX 9O-27t.553 ' CoRPORATEHEAbOtJAflTEfiS: CHESHIRE. CT • lJ,S.MANUFACTURING: PIflSFIELD snd NEWPORt ME Issue 1.1 LIteTetur SPeat *00001.0552 Page 1 of 2 Not to be used for 115teIItIon purpon. For tho most currant literature Anc, kiptl^Tno ,IIt www.nat.not. CSBU- 1: Standard detector base Provides plug-in tamper-resistant mounting. Includes screw terminals for connection of installa- tionwires. 05/12/2003 10:59 9093051606 BEC PAGE 05 Compatibility Panel model Zone model Maximum Detectors Zone ID (IL iC UL I ULC QuickStart ZA8•2, Z816-4 40 - 30 100 EST1.2Z3, -2Z3R, -2Z6, -2ZR 482213-2101, .2102, .2104,. 2105 40 00 EST3 lDC8/4 48 30 DO 0.0 LSS4/121R), LSS4/36(R), LSS4/52(R) BZEXP, 4CLA, Motherboard 48 0.0 - LSS4(R) 4ZEXP - 48 0.0 IRC.3 130108,240113.240119 48 32898 130082, 48 3289A 240124 (RZB12-6 only) 49 -- 5389 FCC 130108,240113,240119 - 48 32898 130082 48 FireShield CPU 24 24 1 100 100 Mounting Hn /T 2.4' (tt aim) __•'_O ::2— — 4.G5' (110 mm) EC Series with Standard Base Standard bases mount to the following electrical boxes: North American 31/2 inch octagon boxes North American 4 inch octagon boxes North American 1-gang electrical boxes European 1-gang boxes with 60.3 mm fixing centers European BESA boxes Wiring The detector mounting bases will accept #18 AWG (0.75mm2), #16 (1.0mm'), #14AWG (1.5mm') and #1 ZAWG (2.5n'imt) wire sizes. Specifications Operating Voltage Range 14-30 Vdc Normal Operating Currant - 62/iA Alarm Current 100 MA (max,) limited by control panel Sensitivity Range 1,38 - 3.08% obs/ft Test Feature Sensitivity reading using Test/Picker Tool Operating Environment Altitude Nat Applicable Temperature 32 F to 100 F (0° C to 36° C) Humidity 20-95% RH (non condensing) Air Velocity 0 - 5.000 ft/mm (manufacturer rated) 0 - 300 ft/mm (UL listed) Storage Environment 32^Fto 120F(0'Cto49'C) Temperature Maximum Spacing - 30 ft (9.1 ml centers Construction White molded high-impact fire-retardant plastic UL Compatibility ID A Compatible Besee See Ordeng Information Ordering Information Model DescriptIon Ship Wt. lb (kg) EC30U-3 Low-profile Plug-In Photoelectric Detector 0.25 (0.11) CSBU-1 Standard detector base CS84U-1 4' Standard detector base 0.11 (0.05) CR84U-1 4' Detector base with relay CSBU-3 Detector base with resistor c-LED Remote Alarm LED 0.4 (0.18) C-TRIM Trim skirt for standard base 0.4 (0.18) C-PSI Detector picker/sensitivity tester 1.4 (0.64) EDWARDS SYSTEMS TECHNOLOGY It our intrIntion to hoop the product intorrntlon current and accurate. We can not cover 9P8c111c eppilcadona or anticipate all requirements. All specifications are subject to cl,ango without notice. For rnorm. infrmntion or q"ttipns rointiv,, to this Spocificslipn Sheer, contact EST. 0 2002 EST Prin,w In U.S.A. Prign 2 00 2 tjtarnturo 5hna1 895001-05.52 Isaua 1.1 Not to an uand ton Int&Ietlon purposes, or tho most currant Ilteretur, and vodatee visit www.01,not. CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING- BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. 7150-1591:111 Page 1 of 1 CATEGORY: Boxes/Pull Stations LISTEE: Edwards Systems Technology, 6411 Parkland Drive, Sarasota, FL 34243 Contact: Leon Newsome (941) 739-4276 Fax (941) 739-4334 DESIGN: Models 270, 270P, 270-SPO, 270A-SPO, 270-DPO, 270A-DPO, 270-DOC, 276B, 277B, 278B, 279B, 279TC, 279P, 279T, 279L, 276A-REL, 278A-REL, 5966B, 5966BR, 5966BV, 5966BRV, 6296B-270, 6296B-K279, 6296B-T279,8557-B301, 8557-13311, 8558-13301, 8558-13311 and 8558-13312 manual pull stations. Refer to listee's data sheet for detailed product description and operational considerations. INSTALLATION: In accordance with listee's printed installation instructions, applicable codes and ordinances and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name, model number, electrical rating and UL label. APPROVAL: Listed as non-coded fire alarm pull stations for use with separately listed compatible fire alarm control units. NOTE: 1. Models provided with two-wire lead and normally closed switch contacts are not approved for fire alarm signaling use. 2. Formerly 7150-0073:117 and 7150-1388:121 11-02-2002 This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. Date Issued: JANUARY 16, 2003 Listing Expires June 30, 2003 Authorized By: DIANE K. 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UC4S3!flO I ( S331A30 SNIIVIIINI 1VNOI1N3AN03 A0010P41433.1SW$1SAS SQM03 g 39td 03e 99I0E606 B:ot E2/T/9 at. NO'S. 275B a Cot. No. 2706-R38 'oe.Rse 5eckbo Surfuc. B.ckbow 6b/12/20.3 i: bJ 9093b 1 B@b EEC PAGE @3 Accessories Category Number Description 276.GLR Replacement Packageof Glass Rods 276 - Ki Station Reset Key, Supplied with all Key Reset Stations 276-K2 General Alarm Kay. Must be ordered separately. - 278-PT' Iseries Resistor Kit with Terminal Block. 2768-RSB Isurface Back Box, Red. 'Sea Ordering Table to determine Kit for specific stations. WARNING: Those devices will not operate without electrical power. As fires frequently cause power interruptions, we suggest you discuss further safeguards with your local fire protection specialist. Specifications Contact Ratings General Alarm Switch/Kayewitch Single Pole 3.0 Amps, 30 Vac, Resistive Load 1.0 Amps, 28 Vdc, Resistive Load Double Pole 1.5 Amps, 30 Vç, Resistive Load 1.0 Amps, 28 Vdc, Resistive Load Cat. No. 276-P and 276RT 560 Ohms, ±5% Series resistor kits (optional)_ - (For stations connected to 2W smoke detector circuits) Station Housing Red Lexan 940 with White Letters Weight 1 lb4k Mounting Front View I is, lii?w) FIRE — 1 Cat, No's. 2786 6 2786 SrIav Seml-Fluah 2-Il', (!7Pwo1 P FEE 0111 i'31132 4 Tiquare baokbuw and Cut. No. 270e Disater COW With &flQle Series with 9i29 opnnIrg having Optional o'erail nilS, depth Of 6uckbox 2-114 (almm) t.102 Cat. No'm' 21 2716 12756 surfus without B55kboo Surface Ordering Information Table Catalog Field Switch Station Type Agency Series Number Connections Contacts Reset - Alarm Approvals Resistor Kit £ - I - Double iCOfl Pull e- • I I 0; j 3 . —a ;-_. a ,u . —C Stations .a 85 o u i!i xx u 1511 u 2768-1110 X X X x x x X X 2789.1120 X X X X x x X X 2788-1210 X X x x x x X 2788.1220 X X x x X X X 2789-1310 X X X X x x - X X 2788-1320 X X X X x x X X 2788-1410 X X X X X x x x x 2789.1420 X X X X X X X X X - 2788-2110 X X X X X x x X X 2788.2120 X X X X X x x X X 2788-2310 X X X X X x x X X 2788-2320 x x x x x x x x x 2798-1110 x X X X x x X 2799-1120 x X X X x x X 2798-1310 x x x x x x x 2798-1320 X X X X X X X EDWARDS SYSTEMS TECHNOLOGY It is our intention to keep the product Information current and accurate. We can not cover specific applications or anticipate all requirements. All specifications are subject to change without notice. For i-flora information or questions relative to thiS Specification Sheet. contact EST. C 1995 EST Printtd in U.S.A. PeOl 2 Of 2 Literature Shoot 950001.0227 Iaiuu 2 CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. CATEGORY: LISTEE: DESIGN: INSTALLATION: MARKING: 7770-0328:001 Page 1 of 1 Valves/Switches Potter, 2081 Craig Road, St. Louis, MO 63146 Contact: Brad Serangeli (314) 878-4321 Vane and pressure type water flow alarm switches listed below. Refer to listee's data sheet for detailed product description and operational considerations. Vane Types: VSR-CF VSR-D VSR-F VSR-SF VSR-FE-2 VS-SP VS-F VSR-SFG VSR-SFT VSG *VSR Pressure Type: WFS-B WFSR-C WFSPD-B PS-10A PS-100A WFSR-F In accordance with listee's printed installation instructions, applicable codes and ordinances and in a manner acceptable to the authority having jurisdiction. Listees name, model number and UL or FM label. APPROVAL: Listed as waterflow alarm switches for use with fire sprinkler systems. Vane models may be used in wet pipe systems; pressure models may be used in wet or dry systems. Model VSR- CF is for use on K, L or M copper pipe (2", 2-1/2", 3", 4") and listed CPVC pipe (2', 2-1/2", 3'). Model VSR-SF for use on 1 , 1-1/4' and 1-1/2' steel, copper or listed plastic pipe. Model VSG is for low flow rate. Model VSR-SFG and VSR-SFT are for use on 1", 1-1/4" and 1-1/2' plastic pipe. Models VS-F, VSR-F, VSR-FE and VSR-FE-2 is for use on 2', 2-1/2", 3', 3- 1/2", 4", 5", 6', 8" and 10" pipe. *Model VSR is for use on steel pipe sizes from 2" through 8". Vane type switches may be used outdoors when the outdoor temperature never falls below 401F. *Rev. 06-05-2000 This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. Date Issued: JUNE 20, 2002 Listing Expires June 30, 2003 Authorized By: DIANE K. AREND, Senior Deputy Program Manager ®POTTER VANE TYPE WATERFLOW ALARM SWITCH WITH RETARD U.S. Pat. No. 3921989 Canadian Pat. No. 1009680 Other Patents Pending Potter Electric, Rd.. 1990 GENERAL INFORMATION The Model VSR-F is a vane type waterfiow switch for use on wet sprinkler systems. It is UL Listed and FM Approved for use on steel pipe; schedules 10 through 40, sizes 2" thru 8". LPC approved sizes are 2" thru 8" (50mm thru 200mm). The unit may also be used as a sectional waterfiow detector on large systems. The unit contains two single pole, double throw, snap action switches and an adjustable, instantly recycling pneumatic retard. The switches are actuated when a flow of 10 gallons per minute or more occurs downstream of the device. The flow condition must exist for a period of time necessary to overcome the selected retard period. ENCLOSURE: The unit is enclosed in a general purpose, die-cast housing. The cover is held in place with two tamper resistant screws which require a special key for removal. A field installable cover tamper switch is available as an option which may be used to indicate unauthorized removal of the cover. See bulletin no. 5400775 for installation instructions of this switch. UL, ULC and CSFM Listed, FM and LPC Approved, NYMEA Accepted, CE Marked Service Pressure: Up to 450 PSI Minimum Flow Rate for Alarm: 10 GPM Maximum Surge: 18 FPS Contact Ratings: Two sets of SPDT (Form C) 15.0 Amps at 125/250VAC 2.0 Amps at 30VDC Resistive Conduit Entrances: Two knockouts provided for 1/2" conduit Environmental Specifications: Suitable for indoor or outdoor use with factory installed gasket and die-cast housing. NEMA 4/lP54 Rated Enclosure - use with appropriate conduit fitting. Temperature Range: 40°F/1 20°F, 4.5"C/49C Non-corrosive sleeve factory installed in saddle. Caution: This device is not intended for applications in explosive environments. Sizes Available: Steel Pipe schedules 10 thru 40, sizes 2" thru 8" BS 1387 pipe 50mm thru 200mm Note: For copper or plastic pipe use Model VSR-CF. Service Use: Automatic Sprinkler NFPA-13 One or two family dwelling NFPA-13D Residential occupancy up to four stories NFPA-13R National Fire Alarm Code NFPA-72 Optional: Cover Tamper Switch Kit, Stock No. 0090018 INSTALLATION: See Fig.2 These devices may be mounted on horizontal or vertical pipe. On horizontal pipe they should be installed on the top side of the pipe where they will be accessible. The units should not be installed within 6" of a fitting which changes the direction of the waterfiow or within 24" of a valve or drain. Drain the system and drill a hole in the pipe using a circular saw in a slow speed drill. The 2" (50mm) and 2 1/2" (65mm) devices require a hole with a diameter of 1 1/4" + 1/8" - 1/16" (33mm ±2mm). All other sizes require a hole with a diameter of 2" ±1/8" (50mm ±2mm). Clean the inside pipe of all growth or other material for a distance equal to the pipe diameter on either side of the hole. Roll the vane so that it may be inserted into the hole; do not bend or crease it. Insert the vane so that the arrow on the saddle points in the direction of the waterflow. Install the saddle strap and tighten nuts alternately to an eventual 50 ft- lbs. of torque (see Fig. 2). The vane must not rub the inside of the pipe or bind in any way. Specifications subject to change without notice. Potter Electric Signal Company 2081 Craig Road, St. Louis, MO, 63146-4161 • Phone: 800-325-3936/Canada 888-882-1833 • www.pottersignal.com PRINTED IN USA MKT. #8800001 - REV S PAGE 1 OF 2 MFG.#5400761-7/00 ®POTFER VSR-F VANE TYPE WATERFLOW SWITCH WITH RETARD FIG. I SWITCH TERMINAL CONNECTIONS CLAMPING PLATE TERMINAL ,r. op D'O. 3'023-3 CAUTION: An uninsulated section of a single conductor should not be looped around the termi- nal and serve as two sepa- rate connections. The wire must be severed, thereby providing supervision of the connection in the event that the wire becomes dislodged from under the terminal. FIG. 2 RETARD ADJUSTMENT: TO CHANGE TIME TURN KNOB (EITHER DIRECTION) FOR DESIRED TIME DELAY. USE THE MINIMUM AMOUNT OF RETARD NECESSARY TO PREVENT FALSE ALARMS, A "B" SETTING IS USUALLY ADEQUATE FOR THIS. FACTORY IS SET TO B'. TO INSTALL, DRILL A HOLE AS INDICATED: PIPE SIZE HOLE SIZE 2t021/2 11!4"+1/8"-1/16" (50mmt065mm) (33mm±2mm) 3 to 8' 2±1/8" (80mmt0200mm) (5C'mm±2mm) OIREC11ON OF WATERFLOW OwG. #761-.30 DO NOT LEAVE COVER OFF FOR EXTENDED PERIOD OF TIME TH'TEN NUTS ALTERNATELY TO AN EVENTUAL 50fT.-LSS OF TORQUE MOUNT ON PIPE SO ARROW ON SADDLE POINTS IN DIRECTION OF WATERFLOW ROLL PADDLE IN OPPOSITE DIRECTION OF WATERFLOW APPROX. RETARD SETTINGS (IN SECS.) O O 1 A 10-25 B 1 20-40135-55 C I 0 50-70 I C 60-90 FIG. 3 TYPICAL ELECTRICAL CONNECTIONS NCRIIMJ.Y OPEN CONTACTS 2 SETS OF WATERFLOW ZONE EOLR FROM CLOSE ON ALARM ON a FIRE PANEL LQQWJ CDIII ID CD THE MC AND NO MARKINGS POSITIVE OC ON THE SWITCH ARE FOR OR HOT AC AN ALAR,4 CONOmON. THE CONTACTS ARE REVERSED NEGATIVE DC OR NEUTRAL AC WHEN THE DEVICE IS IN THE NORMAL CON1lOft NOTES: The Model VSR-F has two switches, one can be used to operate a central station, pro- prietary or remote signaling unit, while the other contact is used to operate a local audible or visual annunciator. A condition of LPC Approval of this product is that the electri- cal entry must be sealed to exclude moisture. For supervised circuits see Switch Terminal Connec- tions" drawing and caution note (Fig. 1). FIG. 4 To remove knockouts: Place screwdriver at edge of knock- outs, not in the center. APPLICATION WARNING! Due to the possibility of unintended discharges Caused by pressure surges, trapped air, or short retard times, waterfiow switches that are monitoring wet pipe sprinkler systems should not be used as the sole initiating device to discharge AFFF, deluge, or chemical suppression systems. TESTING The frequency of inspection and testing for the model VSR-F and its associated protective monitoring system should be in accordance with applicable NFPA Codes and Standards and/or the authority having jurisdiction (manufacturer recommends quarterly or more frequently). If provided, the inspector's test valve, that is usually ocated at the end of the most remote branch line, should always be used for test purposes. If there are no provisions for testing the operation of the flow detection device on the system, application of the VSR-F is not recommended or advisable. A minimum flow of 10 gpm is required to activate this device. IMPORTANT NOTICE: Please advise the person responsible for testing of the fire protection system that this system must be tested in accordance with the testing instructions. PRINTED IN USA MKT. #8800001 -REVS PAGE 2 OF 2 MFG.#540076 1-7/00 CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. CATEGORY: LISTEE: DESIGN: 7770-0328:010 Page 1 of 1 Valves/Switches Potter, 2081 Craig Rd., St. Louis MO 63146 Contact: Brad Serangeli (314) 878-4321 Supervisory switches listed below to monitor pressure, OS&Y, gate, globe/gate, PIV, tank temperature or water level valves. Refer to listee's data sheet for detailed product description and operational considerations. HLS-B WLS-W WLS-S PS-40A PS-120A OSYSU-2 OSYS-B PMS PTS-B OSYSU-1 GVS PCVS-1 P1 VS-B TTS-S TTS-W PCVS-2 WLS *PTSC INSTALLATION: MARKING: APPROVAL: NOTE: In accordance with listee's printed instructions, applicable codes and ordinances and in a manner acceptable to the authority having jurisdiction. Listee's name, model designation and FM or UL label. Listed as sprinkler system supervisory switches. Formerly 7738-0328:010 'Rev. 05-31-2000 This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsementor recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation tL.__JJ criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. Date Issued: JUNE 20, 2002 Listing Expires June 30, 2003 Authorized By: DIANE K. AREND, Senior Deputy Program Manager POTTER PCVS-11 -2 CONTROL VALVE SUPERVISORY SWITCH PCVS-1 Stock No. 1010107 PCVS-2 Stock No. 1010207 The Model PCVS is a weather proof and tamper resistant switch for monitoring the open position of fire sprinkler control valves of the post indicator, butterfly and other types. Depending on the model, one or two SPOT (Form C) contacts are provided which will operate when the valve position is altered from an open state. The unit mounts in a 1/2° NPT tapped hole in the post indicator or butterfly valve housing. The device is engaged by the indicating assembly of the post indicator or the operating mechanism of the butterfly valve, actuating switch(es) when the valve is fully open. The unit should be installed where it is accessible for service. The cover is held in place by two tamper resistant screws that require UL and CSFM Listed, FM Approved, NYMEA Accepted, CE Marked Dimensions: 4.751 x 2.25W x 7.2H (stem extended) 12.1cm L x 5.7cm W x 18.3cm H Weight: 1.35 lb. (.61 kg.) Enclosure: Cover - Die-cast Finish - Red Spatter Enamel Base - Die Cast Zinc All parts have corrosion resistant finishes. CoverTamper: Tamper Resistant Screws, Optional cover tamper kit available Mounting: 12" NPT Contact Rating: PCVS-1: One set of SPOT (Form C) PCVS-2: Two sets of SPOT (Form C) 15.00 Amps at 125/250VAC 2.50 Amps at 30VDC resistive Environmental Limitations: -40°F to +140°F (-40°C to 60°C) NEMA 4 and NEMA 6P Enclosure (1P67) when used with appropriate watertight conduit fittings. Indoor or Outdoor Use (Not for use in hazardous locations. See bulletin no. 5400694 PIVS-U-EX for hazardous locations.) Conduit Entrances: Two knockouts for 1/2° Conduit provided. Service Use: Automatic Sprinkler NFPA-13 One or two family dwelling NFPA-130 Residential occupancy up to four stories NFPA-13R National Fire Aiarm Code NFPA-72 a special tool to remove. The tool is furnished with each device and should be left with the building owner or responsible party. Replace- ment or additional cover screws and hex keys are available. See ordering information. OPTIONAL COVER TAMPER SWITCH: A field installable cover tamper switch is available as an option which may be used to indicate removal of the cover. See ordering information. TESTING: The PCVS and its associated protective monitoring system should be tested in accordance with applicable NFPA codes and standards and/or the authority having jurisdiction (manufacturer recommends quarterly or more frequently). ORDERING INFORMATION MODEL DESCRIPTION STOCK NO. PCVS-1 Potter Control Valve Switch (single switch) 1010107 PCVS-2 Potter Control Valve Switch (double switch) 1010207 -- Cover Screw 5490344 -- Hex Key for Cover Screws and Installation Adjustments 5250062 PBK-S Pratt Butterfly Valve Kit (Up to 12°) 0090133 PBK-L Pratt Butterfly Valve Kit (14" and Up) 0090132 PVK Pratt Valve Kit 1000060 -- Optional Cover Tamper Switch Kit 0090131 For pressure reducer type valve installation kits (if required) contact valve manufacturer Potter Electric Signal Company . 2081 Craig Road, St. Louis, MO, 63146-4161 • Phone: 800-325-3936/Canada 888-882-1833° www.pottersignaI.com PRINTED IN USA MKT. #8820001 - REV Q PAGE 1 OF 4 9199 (R)POTTER DIMENSIONS 4.7 3.62 DWG. #980-2 U PCVS-1, -2 CONTROL VALVE SUPERVISORY SWITCH PARTS 0 GROUND SCREW TRIP ROD LOCKING SCREW SoG<Er HEAD SCREW NIPPLE LOCGIUT _- TRIP ROD FIG. 2 KNOCKOUTS FOR ELECTRICAL CONNECTIONS 0 FIG. I 310 &2D 8.20 I 10 .81 I I I 0 ROD RETRACTED AND BREAKAWAY a p12 SECTiON REUO\W ê I TYPICAL INSTALLATIONS ON POST INDICATOR VALVE HOUSINGS (SEE FIGS. 3 THRU 6) Referto Fig. 2 for the location of parts described in the following instructions, open end of the nipple to the target assembly. Subtract 1/2" from this NOTE: If the sprinkler system is in service the owner or authorized measurement. representative should be notified, before any work is done on the system, that the valve controlling the water supply to the system maybe closed for periods of time during the installation and testing of this device, resulting in all or portions of the system being inoperative during these periods. If the system is not in service and valve is closed, be sure that opening the valve will not allow any unwanted waterflow due to openings in the system, such as heads off, broken or incomplete piping, etc. Position the valve to fully open ("OPEN" should appear in the window of the housing). Partially close the valve while observing the direction that the target assembly moves. Reopen the valve. If the valve housing is predrilled with a 1/2" NPT for installation of a monitoring switch, remove the 1/2" plug and fully open the valve. Make sure that"OPEN"appears in the window of the housing. GO TO STEP NO.6. Remove the head and target assembly (consultation with valve manufac- turer is recommended). If the target assembly moved up as the valve was closed, measure the distance from the bottom of the head to the lower part of the target assembly that will contact the trip rod of the PCVS (see Fig. 3). This is usually a plate or bar on the target assembly, on a side adjacent to the "OPEN/SHUT" plates. Subtract 1/8" from the measurement. If the target moved down as the valve was closed, measure the distance from the bottom of the head to the upper portion of the target assembly that will contact the trip rod of the PCVS (see Fig. 4). Add 1/8" to this measurement. Mark the housing at the proper location. Using a 23/32" drill bit, drill and then tap a 1/2" NPT in the housing on the side that coincides with the portion of the target assembly that will engage the trip rod of the PCVS. Replace the head and target assembly. Loosen the socket head screw that holds the nipple in the PCVS and remove the nipple. Screw the locknut that is provided onto the nipple. Screw the nipple into the 1/2" NPT hole in the valve housing - hand tighten. Tighten the locknut against the valve housing to secure the nipple firmly in place. Insert a scale or probe thru the nipple to measure the distance from the NOTE: In some cases, it may be necessary to attach an angle bracket to the target assembly to engage the PCVS trip rod. Using the special tool provided, loosen the two coverscrews and remove the cover from the PCVS. Loosen the locking screw that holds the trip rod in place and adjust the rod length, from the end of the collar to the end of the rod, using the dimension determined in Step 9. Tighten the locking screwto hold the rod in place. NOTE: If trip rod length is excessive, loosen the locking screw and remove the trip rod from the trip ever. Using pliers, break off the one (1) inch long notched section (see Fig. 7). Reinstall trip rod and repeat Step 11 procedure. Partially close the valve (3 to 4 revolutions of the handle/hand wheel). Slide the PCVS unit as far as possible onto the nipple, observing which direction the rod will move when the valve is closed. Orient the device to actuate the switches when the valve is open. Tighten the socket head screw in the collar. Carefully open the valve to the fully open position. As the target moves to the open position it should engage the trip rod and actuate the switch(es). There should be a minimum overtravel of 1/2 revolution of the handle/hand wheel after the switch(es) actuate (a continuity meter connected to each set of contacts is one method that could be used to determine this). Slowly close the valve. The switch must operate during the first two revolutions of the handle/hand wheel orduring 1/5 of the travel distance of the valve control apparatus from its normal condition. NOTE: Small adjustments of the target position may be necessary (consultation with valve manufacturer is recommended). Complete the required electrical wiring, connections and tests. Thevalve should be operated through the entire cycle offullyclosed and fully open to determine the integrity of the PCVS installation and the signaling system. Check that all electrical and mechanical connections are secure. When the installation and testing are complete, return valve to its proper position. Alternative installation for other post indicatorvalve housing shown in Fig. 5 and 6. PRINTED IN USA MKT. #8820001 - REV 0 PAGE 2 OF 4 9199 POTTER PCVS-t CONTROL VALVE SUPERVISORY SWITCH FIG. 3 FIG. 4 FIG. 5 FIG. 6 UE1AJ. PLATE REPLACES LDCKNUT TARGET GLASS UMOVES 0 STEEL UP AS T.WPER TTPPING BLOCK - VALVE ui. SMCH REPLACES Ii IS SHUT PEN • PEN OPEN TAMPER MARKER UT 0 TARGET OPEN MOVESTA4P vES II srcH DOWN AS SHUT H TARGET VALVE MARKER AEJI8LY 11 CONDUIT T GET DOW IS 4L1T 11000 MOVVALVE ES IS SHUT N AS UP AS VALVE DWG. #980-30 Is SHUT Notes: Subject to the approval of the "authority having jurisdiction" the alternate method of installation shown in Fig. 5 may be used. In this method, one of the glass windows of the housing is replaced with a 1/4' thick metal plate that is cut to fit in place of the glass and drilled and tapped to receive the 1/2" NPT pipe nipple. In some cases it may be necessary to attach an angle bracket to the target assembly to engage the PCVS trip rod. If the target is stationary and a hood arrangement is used, such as is shown in Fig. 6, the hood must be drilled with a 23/32" drill and tapped with a 1/2' NPT. The center line of this hole should be 1/8' below the portion of target assembly that strikes the PCVS trip rod. The 113/8" dimension shown is for a 010w Valve. Flexible conduit must be used for this type of installation. TYPICAL INSTALLATION ON A BUTTERFLY VALVE (SEE FIGS. 9 AND 10) Refer to Fig. 2 for location of parts described in the following instructions: NOTE: In some cases it maybe necessary to remove the gearbox cover 81. Remove the 1/2" NPT plug from the gear operator case. to ensure correct operation (consultation with the valve manufacturer is BZ Loosen the setscrew that holds the nipple in the PCVS and remove the nipple. recommended). B9. Carefully open the valve to its full open position, as the boss on thegear Screw the locknut that is provided onto the nipple, hub moves to the open position it must engage the PCVS trip rod and Screwthe nipple into the l/2"NPT hole in the gear operator- hand tighten. actuate the switch(es). There should be a minimum overtravel or Tighten the locknut against the case, to secure the nipple firmly in place. revolution of the crank or hand wheel after the switch(es) actuate (a Partially close the valve (3 or 4 revolutions of the hand wheel or crank). continuity meter connected to each set of contacts is one method that 86. Using the special tool provided, loosen the two cover screws and remove could be used to determine this). the cover from the PCVS. NOTE: Slight adjustment of gear stops may be necessary to prevent 137. Loosen the locking screw that holds the trip rod in place. Estimate trip rod overtravet of the trip rod (consultation with valve manufacture is recom- length required and extend slightly past that point. Slide the PCVS unit mended). as far as possible onto the nipple, observing which direction the rod will 1310. Carefully close the valve. The switch(es) mustoperate during the firsttwo move when the valve is closed. Orient the device to actuate switches revolutions of the crank or hand wheel orduring 1/5 of the travel distance when valve is open. of the valve control apparatus from its normal condition. NOTE: If trip rod length is excessive, loosen the locking screw and 811. Complete the required electrical wiring, connectionsand tests. Thevalve remove the trip rod from the trip lever. Using pliers, break off the one (1) should be operated through the entire cycle offully closed and fullyopen inch long notched section (see Fig. 7). Reinstall trip rod and repeat Step to determine the integrity of the PCVS installation and signaling system. B7 procedure. Check that all electrical and mechanical connections are secure. 88. Remove device from nipple and withdraw trip rod 1/32" (this dimension 1312. When the installation and testing are complete, return valve to its proper is important). Tighten the locking screw to hold the rod in place. Re-install position. the device on the nipple. Tighten the screw in the collar against the nipple. FIG. 7 BREAKING EXCESSIVE ROD LENGTH SWITCH TERMINAL CONNECTIONS CLAMPING PLATE TERMINAL FIG. 8 WA OW-3 CAUTION: An uninsulated section of a single conductor should not be looped around the terminal and serve as two separate connections. The wire must be severed, G 3-43 thereby providing supervision of the connection in the event that the wire becomes dislodged from underthe terminal. PRINTED IN USA MKT. #8820001 . REV 0 PAGE 3 OF 4 9/99 (R)POTTER PCVS-1, -2 CONTROL VALVE SUPERVISORY SWITCH ITT GRINNELL/KENNEDY INDICATING BUTTERFLY VALVE FIG. 8 DRESSER INDICATING BUTTERFLY VALVE FIG. 10 TYPICAL PRESSURE REDUCER TYPE VALVE INSTALLATION FIG. 11 COLLAR CKNUT NIPPLE Pcvs DWG. #980-10 This figure shows the Model PCVS mounted onthe valve yoke, with a bracket supplied by the valve manufacturer, to supervise a pressure reducer type valve. Note: This application is subjectto the approval of the authority having jurisdiction. BK- PRATT IBV BUTTERFLY PVK- PRATT PIVA POST VALVE KIT INDICATOR VALVE KIT FIG 12 (STOCK NO. 1000060) FIG. 13 P MODEL PBK-L Stock No. 0090132 (M DT-4S Actuator) MODEL PBK-M Stock No. 0090146 (MDT-3S Actuator) MODEL PBK-S Stock No. 0090133 (MDT-2S Actuator) Pratt Butterfly Valve Kit as used to mount a PCVS on a Pratt Model IBV Valve. Kits contain: Bracket, nuts and instructions Note: This application is subject to the approval of the authority having jurisdiction. PRINTED IN USA owG. ygt Pratt Valve Kit as used to mount a PCVS on a Pratt Model PIVAVaIve. Kit contains: Instructions, template, screw and nut. Note: This application is subject to the approval of the authority having jurisdiction. MKT. #8820001 - REV 0 9/99 TYPICAL ELECTRICAL CONNECTIONS Please Note: This device should be wired in accordance with the applicable parts of the National Electrical Code, all state and local codes, applicable NFPA Standards and the requirements of the authority having jurisdiction. FIG. 14 LOCAL aricuir TO pOR FOR N. r1D\ N8CAffiG 10 SUPERVISCRY ORcUW I OF J cONTI. PANCL COW 00 OF UPC N.C. <. sre O. 4uD.-t2 Contacts shown in normal (valve open) condition. TYPICAL SWITCH ACTION PUSniON SW #1 SIN 111 ;CK C, Switches Shown in Valve Open Position NG 906 PAGE 4 OF 4 0RCIIZ7 AND LOa<NLJTS PPUD r1H P< hCUP4SNC Krr uAa1IN SCREw CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. 7125-1591:202 Page 1 of 1 CATEGORY: Fire Alarm Devices for the Hearing Impaired LISTEE: Edwards Systems Technology, 6411 Parkland Drive, Sarasota, FL 34243 Contact: Leon Newsome (941) 739-4276 Fax (941) 739-4334 DESIGN: Models "EST" GI-P, G1-H, G1-1-10, GIF-P, GlRF-P, GlF-HO, GlRF-HO electronic horns; Models "EST" GI-HVI5, -HV30, -HV60, -HV-75, G1-HOVI5, -HOV30, -HOV60, -H0V75, -HOVI16, GlF-HOV15, -HOV30, -HOV60, -H0V75, -HOV110, GlRF-HOV15, -HOV30, -HOV60, -H0V75, -HOVI10 horn strobes with or without suffixes -R and -F. Refer to listee's data sheet for additional detailed product description and operational considerations. RATING: Electrical: 24-30 VDC Candela: 15cd, 30cd, 60cd, 75cd, ll0cd INSTALLATION: In accordance with listee's printed installation instructions, applicable codes & ordinances and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name, model number, electrical/candela rating and UL label. APPROVAL: Listed as horns and horn/strobe lights for use with separately listed compatible fire alarm control units. For indoor use and wall mount only. These horns can produce a distinctive temporal code pattern in accordance with NFPA 72, 1999 Edition. NOTE: Formerly 7125-1388:231 11.02-2002 JEW This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. Date Issued: JANUARY 16, 2003 Listing Expires June 30, 2003 Authorized By: DIANE K. A REND, Senior Deputy Program Manager CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. 7125-1591:203 Page 1 of I CATEGORY: Fire Alarm Devices for the Hearing Impaired LISTEE: Edwards Systems Technology, 6411 Parkland Drive, Sarasota, FL 34243 Contact: Leon Newsome (941) 739-427 Fax (941) 739-4334 DESIGN: Models "EST" Gi single gang strobe light, followed by -R, F or none, followed by -V, followed by -15, -30, -60, or -75, or -110, followed by -LG. The suffix F refers to a silk- screened word "FIRE" on the strobe housing (not on the lens). Refer to listee's data sheet for additional detailed product description and operational considerations. RATING: Electrical: 24-30 VDC Candela: 15cd, 30cd, 60cd, 75cd, ll0cd INSTALLATION: In accordance with listee's printed installation instructions, applicable codes & ordinances and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name, model number, electrical/candela rating and UL label. APPROVAL: Listed as strobe lights for use with separately listed compatible fire alarm control units. For indoor use and wall mount only. NOTE: Formerly 7125-1388:232 11-02-2002 JEW II ,b This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. Date Issued: JANUARY 16, 2003 Listing Expires June 30, 2003 Authorized By: DIANE K. AREND, Senior Deputy Program Manager CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. 7300-1591:201 Page 1 of 1 CATEGORY: Misc. Device/Control Unit Accessories LISTEE: Edwards Systems Technology, 6411 Parkland Drive, Sarasota, FL 34243 Contact: Leon Newsome (941) 739-4276 Fax (941) 739-4334 DESIGN: Model "Genesis" "EST" G1M, G1M-RM sync module. Unit is an electronic circuit mounted on a printed wiring board and enclosed in a plastic case. Units are intended for use with listee's Model "EST" Gi series (CSFM Listing No. 7125-1591:203) and Models GIH, G1-P, Gi-HO horns or Models G1-HV and G1-HOV series horn strobes (CSFM Listing No. 7125- 1591:202). Refer to listee's data sheet for additional detailed product description and operational considerations. INSTALLATION: In accordance with listee's printed installation instructions, applicable codes & ordinances and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name, model number, electrical/candela rating and UL label. APPROVAL: Listed as sync module for use with separately listed compatible fire alarm control units. For indoor use only. NOTE: Formerly 7300-1388:230 11-02-2002 This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsernentor recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. Date Issued: JANUARY 16, 2003 Listing Expires June 30, 2003 Authorized By: DIANE K. AREND, Senior Deputy Program Manager S str EDWARDS SYSTEMS TECHNOLOGY - NOTIFICATION APPLIANCES Compatibility 4 ESTI EST'-i Genesis® Horns and Strobes Genesis Series Features I Unique low-profile design - The most compact UL 1971-Listed strobe available - Ultra-slim - protrudes less than one inch from the wall - Attractive appearance - No visible mounting screws Easy to install - Fits standard one-gang electrical boxes with plenty of room behind the signal for extra wire - no trim plate needed - Optional trim plate accommodates two-gang, octagonal, or four-inch square electrical boxes - Pre-assembled with captive hardware - no loose pieces to worry about - Simple jumper snips set strobe flash and horn pulse rates - #18 to #12 AWG terminals - ideal for long runs or existing wiring Unparalleled performance - Exclusive FullLightO strobe technology produces the industry's most even light distribution - Single high-efficiency microprocessor controls both horn and strobe - Low current draw minimizes system overhead - Independent horn control provided over a single pair of wires - Highly regulated in-rush current allows the maximum number of strobes on a circuit - Precision timing electronics meet tough new synchronizing standards for strobes - 94 dB peak - low multiple low frequency 'growl tone improves wall penetration Description The Genesis line of signals are the smallest, most compact audible-visible emergency signaling devices in the world. About the size of a deck of playing cards, these devices are designed to blend with any decor. Thanks to patented breakthrough technology, EST Genesis strobes do not require bulky specular reflectors. Instead, an exclusive mask-and-cavity design channels and conditions light to produce a highly controllable distribution pattern. Intensive development efforts employing this new technology have given rise to a new benchmark in strobe performance - FullLight® technology. FullLight strobe technology produces a smooth light distribution pattern without the spikes and voids characteristic of specular isp S*. •. •. •S.e.. • • • . ** Pending Pending IVIEA Pending ( ( Pending reflectors. This ensures the entire coverage area receives consistent illumination from the strobe flash. As a result, Genesis strobes with FullLight technology go well beyond the minimum UL-required T' pattern, significantly exceeding UL 1971 light distribution requirements. Although Genesis5 strobes are self-synchronizing to today's standards, when installed with the Genesis5 Signal Master, strobe flashes from devices on the same circuit are synchronized to within 10 milliseconds of each other indefinitely. This exceeds the revised UL standards in effect as of November, 2000 which specify this level of synchronization over only two hours. The Genesis5 Signal Master permits independent horn control over a single pair of wires. This accessory doesn't require a separate electrical box. It simply snaps to the back of the first signal on the circuit. Only one Signal Master is required per circuit. Engineered to emit rapidly alternating frequencies, Genesis5 horns deliver a tone that results in superiorwall penetration and an unmistakable warning of danger. Horn output exceeds the 75 dBA level required by UL for both sleeping and non-sleeping areas. Temporal models are configured for either coded or non- coded signal circuits. Genesis5 strobes and horns are available with textured housings in architecturally neutral white or traditional fire alarm red. They feature an iconographic symbol indicating the purpose of the device. This universal symbol is code-compliant and is easily recognized by all building occupants regardless of what language they speak. One or more patents pending. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: SARASOTA, FL 941-739-4638: FAX 941-727-1214 • CANADA SALES: OWEN SOUND, ON 519-376-2430; FAX 519-376-7258 INTERNATIONAL SALES: 905-270-1711; FAX 905-270-9553 • CORPORATE HEADQUARTERS: CHESHIRE, CT • U.S. MANUFACTURING: PI1TSFIELD, ME Issue 1 Literature Sheet #85001-0529 Page 1 of 6 Application Genesis® strobes are UL 1971-listed for use indoors as wall- mounted public-mode notification appliances for the hearing impaired. Prevailing codes require strobes to be used where ambient noise conditions exceed 105 dBA (87dBA in Canada), where occupants use hearing protection, and in areas of public accommodation as defined in the Americans with Disabilities Act (see application notes — USA). Genesis® horns are self-synchronizing and UL-listed for use in both sleeping and non-sleeping areas. They are intended for indoor wall-mount applications only. Combination horn/strobe signals must be installed in accordance with guidelines estab- lished for strobe devices. Strobe Spacing The following guidelines are based on ANSI/NFPA 72 National Fire Alarm Code (1999). When applied and installed in accor- dance with that code, EST strobes meet or exceed the illumina- tion produced by the ADA-specified 75 candela (cd) strcbe at 50 feet.-However, optimum performance is achieved by providing "Equivalent Facilitation" as allowed by the Americans with Disabilities Act Accessibility Guidelines (ADAAG). Non-Sleeping Rooms EST wall mounted strobes* Up to 20' x 20' (6.1 m 6.1 m) One 15 cd strobe Up to 30'x 30'(9.1 m 9.1 m) One 30 cd or two 15 cd strobes Up to 40' x 40' (12.2 m 12.2 m) One 60 cd or two 30 cd strobes Up to 50'x 50' (15.2 m x 15.2 m) Two 60 cd strobes Corridors Any length. Maximum width: 20' (6.1 m). 15 cd strobes spaced at 100' (30.5 m) max. Strobes must be placed within 15' (4.5m)of each end of the corridor. ADA suggests using 75 cd strobes throughout an area, with spacir.g that never exceeds 50ft from the strobe to any point in the protected space. Non-Sleeping Rooms and Corridors: EST strobes rated at less than 110 cd per UL 1971 are intended for use in non-sleeping areas only. Install with the bottom of the device at least 80 inches (2.0 m) and no more than 96 inches (2.4 m) above the finished floor. No point in any space (including corridors) required to have strobes should be more than 50 feet (15.2 m) from the signal (in the horizontal plane). In large rooms or spaces (such as auditoriums) that exceed 100 feet (30.4 m) across and without obstructions more than 72 inches (1.8 m) above the finished floor, strobes may be placed around the perimeter, spaced a maximum of 100 feet (30.4 m) apart. This is an alternative to suspending strobes from the ceiling. For detailed spacing requirements, consult The Handbook of Visible Notification Appliances for Fire Alarm Applications published by EST Press, or contact your local EST representative. Sleeping rooms: EST 110 cd strobes are intended for use in sleeping rooms and should be installed along with a smoke detector. It must be wall mounted at least 80" (2.03m) above floor level, but no closer than 24" (610mm) to the ceiling. The distance from the strobe to the pillow must not exceed 16'(4.8m). Sleeping Rooms EST wall mounted strobe Any size 110 cd within 16 feet of pillow Refer to literature sheets 85001-0249, 85001-0273 and 85001-0381 for product information concerning integrity 110 cd strobes. Horn Application The suggested sound pressure level for each signaling zone used with alert or alarm signals is at least 15 dB above the average ambient sound level, or 5 dB above the maximum sound level having a duration of at least 60 seconds, whichever is greater, measured 5 feet (1.5 m) above the floor. The average ambient sound level is the RMS, A-weighted sound pressure measured over a 24-hour period. Genesis Temporal Horn dBA Output (anechoic, 24V) Doubling the distance from the signal to the ear will theoretically result in a 6 d8 reduction of the received sound pressure level. The actual effect depends on the acoustic properties of materials in the space. A 3 dBA difference represents a barely noticeable change in volume. Application Notes - USA Audible signals in the public mode should never have a sound level less than 75 dBA at 101(3 m) per NFPA 72. Signals cannot exceed 120 dBA per ADA (130 dBA per NFPA 72) at the minimum hearing distance to audible appliance. Strobe and combination horn/strobe devices should be installed with the bottom of the device at least 80 inches (2.0 m) and no more than 96 inches (2.4 m) above the finished floor. Horns should be installed with their tops not less than 6 inches (152 mm) below the ceiling and not less than 90 inches (2.3 m) above the finished floor. Strobes must be used to supplement audible signals wherever the average ambient sound level exceeds 105 dBA. Combination audible/visual signals must be installed in accordance with NFPA guidelines established for strobes. ADA requires visible signals in the following areas: rest rooms, meeting rooms, and other common use areas. sleeping rooms intended for use by persons with hearing impairment (in accordance with Title 1 of ADA). work areas used by a person with a hearing impairment (per Title 1 of ADA). EDWARDS SYSTEMS TECHNOLOGY Page 2 of 6 Literature Sheet #85001-0529 Issue 1 Application Notes - Canada (Based in part on 1995 Canada National Building Code) The fire alarm signal sound pressure level shall not exceed 110 dBA in any normally occupied area. The sound pressure level from an audible signal in a floor area used for occupancies other than residential occupancies shall not be less than 10 dBA above ambient levels, and never less than 65 dBA. In sleeping rooms the sound pressure level from an audible signal shall not be less than 75dBA when any intervening doors between the device and the sleeping room are closed. Audible signal devices shall be installed not less than 1.8 m to the center of the device above the floor (per CAN/ULC S524). The fire alarm audible signal shall be supplemented by fire alarm strobes in any floor area where the ambient noise level exceeds 87 dBA, or where the occupants of the floor area use ear protective devices, are located within an audiometric booth, or are located within sound insulating enclosures. This also applies to assembly occupancies in which music and other sounds associated with performances could exceed 100 dBA Strobes shall be installed in a building so that the flash from one device is visible throughout the floor area or portion thereof in which they are installed. For maximum safety, EST recommends that strobes be installed as per the guidelines shown here under Strobe Spacing. Light Output Profiles 15 cd Horizontal Light Output Profile 15 cd Vertical Light Output Profile 0 - 151,(11,----5.19 .45 2 ED HI -- -110 110 -115 115 .120 -13) - - - 13) -130 130 1%)3) 30 cd Horizontal Light Output Profile 30 cd Vertical Light Output Profile 0 52O 190 - -60 60 -65 65 -70 70 -75 80 -85 85 ---=-----90 90 ..............T=- .95 -100- - - -105 - - -110 - . 95 —\--:. 100 - ..105 - - - - 110 -115 -120 115 -125 125 - F nits 180 60 cd Horizontal Light Output Profile 0 _101 6D -480 E0 _E6 65 45 M .20 so so -95 S5 -105 105 _1iC 110 -i's 115 - N1, 180 60 cd Vertical Light Output Profile 0 ----5-101 _E5 55 -ED EID 4155 4J -90 so -95 -100 1M -101 101 -rO 110 -115 115 12) 13) - 130 13D - 75 cd Horizontal Light Output Profile -Intensity (Cd) -UL Limit (Cd) -60 65 .75 -110 - - 110 -115 115 -13) 13) 180 75 cd Vertical Light Output Profile 0 151Q S 10 _ffi E5 4 70 -75 75 40 80 85 -I Ri . . . 90 -110 110 -115 115 -' 120 173 183 EDWARDS SYSTEMS TECHNOLOGY Issue 1 Literature Sheet #85001-0529 Page 3 of 6 nstallation ienesis® horns and strobes mount to any tandard one-gang surface or flush electrical ox. Matching optional trim plates accommo- ate one-gang, two-gang, four-inch square, or tctagonal boxes, and European 100mm square. \ll Genesis® signals come pre-assembled 'iith captive mounting screws for easy Genesis Horn/Strobe nstallation. Two tabs at the top of the signal with optional trim plate inlock the cover to reveal the mounting iardware. The shallow depth of Genesis® devices leaves ample oom behind the signal for extra wiring. Once installed with the :over in place, no mounting screws are visible. 9e1d Configuration Temporal horn and horn/strobe models are factory set to sound in three-pulse temporal pattern. Units may be configured for use vith coded systems by snipping the circuit board as shown. This esults in a steady output that can be turned on and off as the ,ystem applies and removes power to the signal circuit. To change horn from To change strobe from temporal to steady steady to temporal cut from circle Ji cut from circle JZ to edge of circuit board to edge of circuit board Note: use temporal strobe configuration for private mode applications only. Genesis" strobe-only and combination temporal horn/strobe models may be configured for temporal flash. This battery-saving feature is intended for private mode signaling only. To set the device for temporal flash, snip the circuit board as shown. Non-temporal, horn-only models sound a steady tone. For field- selectable steady or temporal output, use a temporal horn. Wiring :ield wiring is connected to Genesis® signals with terminals that accommodate #18 to #12 AWG wiring. Horns, strobes, and :ombination horn/strobes are interconnected with a single pair of ,vires as shown below. G Polarity alarm c next device end of line device Note: Strobes must have continuous voltage. Signal Master Connection The Genesis® Signal Master is a dual-purpose module that provides independent control for connected 4 horns over a single pair of wires, and precision synchronization for connected strobes. Only one Signal Master is required per circuit. The Signal Master snaps to the hack of the Genesis® signal as shown. The unit controls all downstream devices. To control all Install the Genesis Signal Master by sliding the spade connectors devices on a NAC, install the into the terminals on the back of Signal Master on the device the signal. closest to the control panel. The Signal Master provides two methods of horn control: tradi- tional NAC signal silence; or, normally-closed contact. Both methods may be used to silence horns without turning off strobes on the same circuit. Connect field wiring as shown at right. Horn control with synchronization using two NACs Or,,;, SignS Mast., NAC I Strobe Input (Continuous To next or end of line H voltage only) device NAC 2 Horn Input Signal Master is not for use with Class A circuits Horn control with synchronization using NAC 1 Strobe Input one NAC and one dry contact (continuous Signature voltage only) Data Loop To next device or end of line H T device SIGA-CRIMCR Signal Master is not for use with Class A circuits If horns and strobes are on the same NAC, attach wiring from the control panel to the bottom two terminals of the Signal Master and add a jumper to the top two terminals. Using this arrangement, horn silence will also turn off all connected strobes. Horn control with synchronization using one NAC S,n,,slq'. Mason ___ To next device LV + or end of line NAC HK device + + - - - Horn Input Signal Master is not for use with Class A circuits When connected using any of the methods described above, the Signal Master provides precision synchronization of less than 10 milliseconds over a two hour period for all downstream strobes. This exceeds UL requirements in effect as of November, 2000. ( EDWARDS SYSTEMS TECHNOLOGY Page 4 of 6 Literature Sheet #85001-0529 Issue 1 Specifications Strobe only I Temporal Horn/Strobe I Temporal Horn only I Horn only - Housing Red or white textured UV stabilized, color impregnated engineered plastic. Exceeds 94V-0 UL flammability rating. Mounting Flush mount: 2½ inch (64 mm) deep one-gang box (indoor wall mount only) Surface mount: Wiremold or equivalent surface-mount box With optional trim plate: one-gang, two-gang, four-inch square, or octagonal box Wire Connections Two screw terminals: single input for both horn and strobe #18 to #12 AWG (2.5m M2) wire size Operating environment 32-120°F (0-49°C) ambient temperature. 93% relative humidity Pending Agency UL 1971, UL 1638, UL 464, ULC S525, ULC S526, CSFM, MEA, FM, CE Listings/Approvals (All models comply with ADA Code of Federal Regulation Chapter 28 Part 36 Final Rule.) 20-31Vdc 20 - 31 Vdc continuous; or 20-24 Vdc FWR 20 -31 Vdc or Operating Voltage 20 - 24 Vdc FWR (full wave rectified). (continuous or coded 20-24 Vdc FWR when horn is set (continuous or coded) on continuous output) Strobes UL 1971 rated output (cd) 15 cd; 30 cd; 60 cd; or, 75 cd UL 1638 rated output (cd) ULC S526 rated output (cd) Self-synchronized: one flash per second. within 200 milliseconds over 30 minutes on common circuit. N/A Strobe flash rate With optional Signal Master: one flash per second within 10 milliseconds indefinitely. Temporal setting (private mode only): synchronized to temporal output of horns on the same circuit. Flash tube enclosure Clear LEXAN Strobe Current See table below Horns Anechoic @ 24 Vdc: 94 dB (peak); 88 dBA Anechoic: Horn Output* Anechoic @ 24 Vdc FWR: 98 dB (peak); 91 dBA 87 dBA (average); Reverberent @ 24 Vdc: 83 dBA (continuous); Reverberent: 77 dBA N/A 78 dBA (temporal) Horn pulse rate** Synchronized at temporal rate within Continuous only 200 milliseconds on common circuit Horn Current (typical) 15mA@24Vdc; 25mA@24Vdc; 10 mA@24Vdc 30 mA @ 24 Vdc FWR I 30 mA @ 24 Vdc FWR * Measured at 10 ft (3m) ** Temporal audible pattern is defined as: ½ sec ON, ½ sec OFF, 1/2 sec ON, ½ sec OFF, ½ sec ON, 1112 sec OFF, then repeat cycle. Genesis® Strobe Current Draw Current __e Voltage 20 Vdc l cd 68 mA 30 cd 120 mA 60 cd 171 mA 75 cd 196 mA 24 Vdc 58 mA 100 mA 141 mA 158 mA Mean 31 Vdc 48 mA 78 mA 109 mA 123 mA 20 Vdc FWR 60 mA 103 mA 148 mA 171 mA 24 Vdc FWR 50 mA 92 mA 117 mA 136 mA 20 Vdc 76 mA 137 mA 180 mA 210 mA 24 Vdc 66 mA 117 mA 149 mA 170 mA RMS 31 Vdc 54 mA 91 mA 116 mA 133 mA 20 Vdc FWR 99 mA 151 mA 240 mA 272 mA 24 Vdc FWR 88 mA 149 mA 202 mA 227 mA Use the mean (typical) current rating to establish the maximum number of strobes, wire gauge and standby power requirements. EDWARDS SYSTEMS TECHNOLOGY Issue 1 Literature Sheet #85001-0529 Page 5 of 6 Ordering Information Catalog Number . Descrip tion TShip Wt. lbs (kg) White Finish Red Finish Temporal Horn/Strobes G1-HV15 G1R-HV15 Genesis® Combination Temporal Horn/Strobe (15 cd output) G1-HV30 G1R-HV30 Genesis® Combination Temporal Horn/Strobe (30 cd output) 0.25 G1-HV60 G1R-HV60 Genesis® Combination Temporal Horn/Strobe (60 cd output) (0.11) G1-HV75 G1R-HV75 Genesis® Combination Temporal Horn/Strobe (75 cd output) Strobes G1-V15 G1R-V15 Genesis® Strobe (15 cd output) G 143 G1R-V30 Genesis® Strobe (30 cd output) 0.25 G 146 G1R-V60 Genesis® Strobe (60 cd output) (0.11) G1-V75 G1R-V75 Genesis® Strobe (75 cd output) Horns G1-H G1R-H Genesis® Temporal Horn 0.25 G1-P G1R-P Genesis® Horn (Steady) (0.11) Accessories G1M Genesis® Signal Master 0.1 (0.5) G1T GiRT Genesis® Trim Plate (for two-gang or 4" square boxes) 0.15 (0.7) 27193-16 27193-11 One-gang surface mount box 1(0.4) WARNING: These devices will not operate without electrical power. As fires frequently cause power interruptions, we suggest you discuss further safe- guards with your local fire protection specialist. These visible signal appliances' flash intensity may not be adequate to alert or waken occupants in the protected area. Research indicates that the intensity of strobe needed to awaken 90% of sleeping persons is approximately 100 cd. EST recommends that strobes in sleeping rooms be 110 cd minimum. Refer to literature sheets 85001-0249, 85001-0273 and 85001-0381 for product information concerning Integrity 110 cd strobes. EDWARDS SYSTEMS TECHNOLOGY It is our intention to keep the product information current and accurate. We can not cover specific applications or anticipate all requirements. All specifications are subject to change without notice. For more information or questions relative to this Specification Sheet, contact EST. © 2000 EST Printed in U.S.A. Page 6 of 6 Literature Sheet #85001-0529 Issue 1 CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No: CATEGORY: LISTEE: DESIGN: INSTALLATION: MARKING APPROVAL 7161-0972:100 Page 1 of 1 Cables-Fire Protective Signaling Atlas Wire & Cable, 133 S. Van Norman Rd., Montebello CA 90640 Contact: Tony Sanders (213) 723-2401 Model FPL, FLPR and FPLP power limited fire protective signaling cables. Conductors: Two or more conductors Insulation: Solid SRPVC, North America Plastics, Grade "NORPLAS" 21570 and/or Gitto/Global Corp, garde GA-8705-03P, Synergistics, Grade 1360-1021-PID. Shield: Polyester film bonded to a aluminum foil; serving, wrap or braid of aluminum wire or of metal-coated or uncoated copper wire (optional). Jacket: PVC, North American Plastics, Grade "NORPLAS' 882A or Gitto/Global Corp., Grade GA-8705-03, or Senergistics, Grade 1690-1060 PJD. Refer to listee's data sheet for detailed product description and operational considerations. In accordance with listee's printed installation instructions, applicable codes & ordinances, NEC Article 760, and in a manner acceptable to the authority having jurisdiction. Listee's name, Type "FPL", "FPLR", "FPLP', and UL label. Listed as power-limited fire protective signaling cables. *Rev. 04-29-97 This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. Date Issued: JUNE 12, 2002 Listing Expires June 30, 2003 Authorized By: DIANE K. AREND, Senior Deputy Program Manager I (~ Underwriters O L) Listed Tvne CMR-FPLR Laboratories lnc.® UL PAGE Series 202 - L1 Fire Protective Solid bate copper conductors. C3 60° C PVC insulation. Cl Color Code see Table V O State of California State Fire Marshal Approval Number 7161-0972-100. Manufactured in accordance with UL Subject - 1424 and the N.E.C. Article 760 Sections 760-61 & 760-71.. #22 AWG SOLID CABLED AND JACKETED 202-22-1-4J 4 .150 16 Red 202-22-1-6J 6 .168 21 Red 202-22-1-8J 8 .187 27 Red 202-22-1-10J 10 .205 33 Red 202-22-1.12J 12 .220 39 Red 202-22-1-16J 16 .248 50 Red 202-22.1-20J 20 1 .273 62 Red xqj fl F.11 I'PY+' 202-18-1-2J 2 .141 14 Black, Red 202-18-1-4J 4 .165 26 Black, Red, White 202-18-1-6J 6 .187 38 Red, White 202-18-1.8J 8 .211 50 Red 202.18-1-10J 10 .233 62 Red 202-18-1-12J 12 .252 74 Red 202-18-1-16J 16 .316 105 Red #16 rwi SOLID TCABLED t AND JACKETED 202-16-1-2J 2 .170 22 Red 202-16-1-4J 4 .200 40 Red /14 iWLc1 SOLID TN:1IP AND JACKETED 202-14.1-2J 2 .208 35 Red 202-14-1-4J 4 .246 65 Red AWG SOLID CABLED AND JACKETED 202-12-1-2J 2 .242 51 Red NON-CABLED APPLICATIONS, ORDER 205 SERIES. -. WIRE & CABLE CORP. 133 Suuth' Van Nnn.tn Rd. • Mornehelk CA 90640 .• (800) 423-4659 • (800) 352-4335 (CA) • Fax (562) 692-9203 ................................................. . . ...................I N .