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Home My WebLink AboutPP - 17740 SOUTHCENTER PKWY - DAVIDS BRIDAL - PERMITS AND PLANS17740 SOUTHCENTER PKWY ASSOCIATED PERMITS D17-0052 02-F-033 00-S-206 02-S-021 00-F-210 850258 i INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit orf-aa�z PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 206-575-4407 Project: ,� `! 9 � - D et Type of Inspection: Fire Alarm: Audress: " �,/� SL �� Suite #: �rekO Contact Person: Special Instructions: 7 Phone No.: Approved per applicable codes. Corrections required prior to approval. COMMENTS: 51))/1/"Ild (r r(i), qt4' Needs Shift Inspection: Sprinklers: y.e f Fire Alarm: to Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Inspector: pm Sl}-- Date: / j f ij f /7- Hrs.: / $100.00 REINSPECTION FEE REQUIRED. You will receive an invoice from the City of Tukwila Finance Department. Call to schedule a reinspection. Billing Address Attn: Company Name: Address: City: State: Zip: Word/Inspection Record Form.Doc 3/14/14 T.F.D. Form F.P. 113 Project: 793- 795'3 David's Bridal Shop Tenant Improvement 17740 - Southcenter Parkway Tukwila, Washington 98188 Battery Calculation Worksheet This scope of work is a tenant improvement to the fire alarm system. This worksheet is for the new signal expander power supply and the signal devices that it powers. Qty Model # Supervised Current (mA) Alarm Current (mA) 1 SK5495 power supply 75 175 11 AS-24MCW-FR Horn strobe 0 2041 2 RSS-24MCW-FRStrobe 0 100 2 AS -2475C -FW Ceiling horn strobe 0 314 Subtotal 75 2630 Total hours X24X 083 Subtotal 1800 218.3 Safety Factor 10% +180 Total 1980 240.1 Total Current Required 2241.9 mA or 2.24 amps Battery sized used : 2ea 7 amp batteries ZO"d ZIIV-ZLS-£SZ -zu1 1...4�Ze1_3 v1-eaS vOZ=II ZO-IO-.'eW 4o7_02 09:30A seatac electric SEA TAC FILE ELECTRIC, INC. (253) 872-4112 P.02 Project: David's Bridal Shop Tenant Improvement 17740 - Southcenter Parkway Tukwila, Washington 98188 7056 South 220th Street Kent, WA 98032 (253) 872-5553 Fax (253) 872-4112 Battery Calculation Worksheet I his scope of work is a tenant improvement to the fire alarm system. This worksheet is for the new signal expander power supply and the signal devices that it powers. Qty Model # Supervised Current (mA) Alarm Current (mA) 1 SK5495 power supply 75 175 11 AS-24MCW-FR Horn strobe 157 o 1.727 2 RSS-24MCW-FRStrobe O _100 Subtotal 75 2002 Total hours 2E3A X.053 Subtotal 1800 166.166 Safety Factor 10%±isa Total 18$0 182.366 Total Current Required 2162.366 mA or Battery sized used : 2ea 7 amp batteries 2,g. . ATRIOT FIRE PROTECTION DESIGN INFORMATION SHEET NAME KTJ .JT-TVIz LOCATION WINO SoNST1V-PA 1j Pc4/1,V k j BUILDING DATE (0- Z.00 • CONTRACTOR Ph-ItZdT F'UE, Ftal:£Cat, 3 'TOG • CALCULATED BY CLSW1r CAUL/ CONSTRUCTION: • 0 COMBUSTIBLE 0 -NON-COMBUSTIBLE OCCUPANCY SYSTEM NO # •- CONTRACT NO Ci --S14-0 DRAWING NO F17 -I CEILING HEIGHT re`Ow FT ISYSTEM DESIGN I pit, NFPA ❑ NFPA • OTHER 13: 231 0 LT. HAZ. ORD. HAZ. 0 NFPA 231C: FIGURE (Specify) GP. 0 1 • 2 0 EX.'HAZ. ; CURVE tig- RULING •11/54'a% '0MADE BY �I� XAS DATE AREA OF SPRINKLER OPERATION . DENSITY AREA PER SPRINKLER HOSE ALLOWANCE GPM: INSIDE HOSE ALLOWANCE GPM: OUTSIDE RACK SPRINKLER ALLOWANCE "3o0 4 V WET 0 DRY SYSTEM TYPE -11 ■ DELUGE • PRE -ACTION ?° 4 MAKE SIZE TEMPERATURE SPRINKLER OR NOZZLE 150 tt 4 Ack MODEL FICR-iF'L GOO ytt K -FACTOR S tr . RATING 155`' CALCULATION SUMMARY GPM REQUIRED 6'H .1 PSI REQUIRED 38. C., AT BASE "C FACTOR USED: OVERHEAD 12u OF RISER UNDERGROUND HU IWATER SUPPLY DATE STATIC RESIDUAL GPM ELEVATION WATER FLOW TEST PUMP DATA TANK OR RESERVOI & TIME PSI FLOWING l -\2 - tis' RATED CAPACITY AT PSI ELEVATION CAPACITY 1146' ELEVATION PSI 14 4586 WELL 4"L•T✓ P F FLOW GPM LOCATION SOURCE OF S hes 4 fNC P.- ViithwAti INFORMATION 1"1••t-Orc;• COMMODITY STORAGE RACK --i-In O O 0 CLASS LOCATION HEIGHT AREA AISLE WID METHOD: SOLID PILED % PALLETIZED RACK % PALLET PALLET - 0 AUT. • C STORAGE a OLID SHELVING 0 ENCAPSULATED 0 NON- ENCAPSULATED • SINGLE ROW • CONVENTIONAL ❑ DOUBLE ROW 0 SLAVE ❑ MULTIPLE ROW • OPEN LONGITU FLUE S�Nd GG"IN INCHES CLEARANCE FROM TOP OF STORAGE TO CEILING Ar— TRANSVERSE FT IN. NTAL BARRIERS PROVIDED . SPOKANE, WA OFFICE TEL (509) 926-3428 FAX (509).926-3708 PATRIFP099CF VANCOUVER, WA OFFICE TEL (360) 699-4403 FAX (360) 699-4485 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 1 Date: 06/01/2000 KRAUSE JOB'TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #1 WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. @ PRESS. @ DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) CITY 145.0 74.0 4586.0 137.5 1364.7 43.1 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE TOTAL HOSE STREAM ALLOWANCE AT SOURCE OTHER HOSE STREAM ALLOWANCES TOTAL DISCHARGE FROM ACTIVE SPRINKLERS NODE ANALYSIS DATA 1364.7 GPM 600.0 GPM 150.0 GPM 614.7 GPM NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) 101 13.0 101A 12.0 102 13.0 102A 12.0 103 13.0 103A 12.0 104 13.0 104A 12.0 105 13.0 105A 12.0 106 13.0 106A 12.0 107 13.0 107A 12.0 108 13.0 108A 12.0 109 13.0 109A 12.0 110 13.0 110A 12.0 111 13.0 111A 12.0 112 13.0 112A 12.0 113 13.0 113A 12.0 114 13.0 114A 12.0 115 13.0 115A 12.0 116 13.0 116A 12.0 117 13.0 117A 12.0 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 13.1 13.2 14.5 14.1 19.5 18.8 19.3 19.1 13.2 13.2 14.5 14.1 19.5 18.8 19.3 19.1 13.2 13.2 14.5 14.1 19.5 18.8 19.3 19.1 13.2 13.2 14.5 14.1 19.5 18.8 19.3 19.2 13.2 13.2 20.4 21.1 24.4 24.6 20.4 21.1 24.4 24.6 20.4 21.1 24.4 24.6 20.4 21.1 24.,4 24.6 20.4 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 JOB'TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #1 NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) 118 13.0 14.5 118A 12.0 K= 5.62 14.1 21.1 119 13.0 - - - - 19.5 - - - 119A 12.0 K= 5.62 18.9 24.4 120 13.0 19.3 - - - 120A 12.0 K= 5.62 19.2 24.6 121 13.0 13.2 - - - 121A 12.0 K= 5.62 13.2 20.4 122 13.0 - - - - 14.5 - - - 122A 12.0 K= 5.62 14.1 21.1 123 13.0 - - - - 19.6 - - - 123A 12.0 K= 5.62 18.9 24.4 124 13.0 - - - - 19.3 - - - 124A 12.0 K= 5.62 19.2 24.6 125 13.0 - - - - 15.7 - - - 125A 12.0 K= 5.62 15.2 21.9 126 13.0 - - - - 17.2 - - - 126A 12.0 K= 5.62 16.7 22.9 127 13.0 - - - - 23.0 - - - 127A 12.0 K= 5.62 22.8 26.8 10 21.0 29.3 11 21.0 29.3 12 21.0 29.3 12A 21.0 29.3 13 21.0 29.3 14 21.0 29.3 15 21.0 29.3 16 21.0 29.4 20 13.0 21.8 21 13.0 21.8 22 13.0 21.9 23 13.0 21.9 24 13.0 21.9 25 13.0 21.9 26 13.0 25.8 TOR 21.0 30.2 BOR 2.0 HOSE STREAM 38.6 150.0 FLG 0.5 39.3 D1 0.0 40.0 D2 0.0 43.0 CITY 0.0 SOURCE 43.1 764.7 Page 2 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 JOB'TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #1 PIPE DATA Page 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) F.L./FT (PSI) Pipe: 1 764.7 10.400 PL 45.00 PF 0.1 CITY 0.0 SRCE 43.1 (N/A) 2.9 140 FTG TG PE 0.0 D2 0.0 0.0 43.0 0.0 0.001 TL 123.00 PV 0.1 Pipe: 2 FIXED PRESSURE LOSS DEVICE D2 0.0 0.0 43.0 0.0 3.0 psi, 764.6 gpm Dl 0.0 0.0 40.0 0.0 Pipe: 3 764.6 10.400 PL 210.00 PF 0.5 D1 0.0 0.0 40.0 0.0 2.9 140 FTG 4ETG PE -0.2 FLG 0.5 0.0 39.3 0.0 0.001 TL 412.00 PV 0.1 Pipe: 3A 764.6 8.071 PL 1.50 PF 0.0 FLG 0.5 0.0 39.3 0.0 4.8 120 FTG ---- PE -0.6 BOR 2.0 H.S. 38.6 150.0 0.005 TL 1.50 PV 0.2 Pipe: 4 614.6 8.071 PL 19.00 PF 0.2 BOR 2.0 H.S. 38.6 150.0 3.9 120 FTG GA PE -8.2 TOR 21.0 0.0 30.2 0.0 0.004 TL 58.00 PV 0.1 Pipe: 5 614.6 8.071 PL 198.00 PF 0.8 TOR 21.0 0.0 30.2 0.0 3.9 120 FTG 2E PE 0.0 16 21.0 0.0 29.4 0.0 0.004 TL 234.00 PV 0.1 Pipe: 6 543.0 8.071 PL 12.00 PF 0.0 16 21.0 0.0 29.4 0.0 3.4 120 FTG ---- PE 0.0 15 21.0 0.0 29.3 0.0 0.003 TL 12.00 PV 0.1 Pipe: 7 452.4 8.071 PL 12.00 PF 0.0 15 21.0 0.0 29.3 0.0 2.8 120 FTG ---- PE 0.0 14 21.0 0.0 29.3 0.0 0.002 TL 12.00 PV 0.1 Pipe: 8 361.9 8.071 PL 12.00 PF 0.0 14 21.0 0.0 29.3 0.0 2.3 120 FTG ---- PE 0.0 13 21.0 0.0 29.3 0.0 0.001 TL 12.00 PV 0.0 Pipe: 9 271.4 8.071 PL 10.00 PF 0.0 13 21.0 0.0 29.3 0.0 1.7 120 FTG ---- PE 0.0 12A 21.0 0.0 29.3 0.0 0.001 TL 10.00 PV 0.0 Pipe: 10 271.4 6.065 PL 2.00 PF 0.0 12A 21.0 0.0 29.3 0.0 3.0 120 FTG ---- PE 0.0 12 21.0 0.0 29.3 0.0 0.003 TL 2.00 PV 0.1 Pipe: 11 180.9 6.065 PL 12.00 PF 0.0 12 21.0 0.0 29.3 0.0 2.0 120 FTG ---- PE 0.0 11 21.0 0.0 29.3 0.0 0.001 TL 12.00 PV 0.0 Pipe: 12 90.5 6.065 PL 8.00 PF 0.0 11 21.0 0.0 29.3 0.0 1.0 120 FTG ---- PE 0.0 10 21.0 0.0 29.3 0.0 0.000 TL 8.00 PV 0.0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 JOB TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #1 PIPE DATA (cont.) PIPE TAG Q(GPM) DIA(IN) LENGTH END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) NODES (FT) (K) (PSI) (GPM) F.L./FT Pipe: 16 26 13 71.7 21.0 0.0 29.4 0.0 15.4 13.0 0.0 25.8 0.0 Pipe 14 90.6 15 21.0 0.0 29.3 0.0 19.4 25 13.0 0.0 21.9 0.0 Pipe: 14 24 Pipe: 13 23 Pipe: 12 22 Pipe: 11 21 15 90.5 21.0 0.0 29.3 0.0 19.4 13.0 0.0 21.9 0.0 16 90.5 21.0 0.0 29.3 0.0 19.4 13.0 0.0 21.9 0.0 17 90.5 21.0 0.0 29.3 0.0 19.4 13.0 0.0 21.9 0.0 18 90.5 21.0 0.0 29.3 0.0 19.4 13.0 0.0 21.8 0.0 Pipe: 19 10 21.0 20 13.0 1.380 PL 10.50 120 FTG ET 0.363 TL 19.50 1.380 PL 10.50 120 FTG ET 0.559 TL 19.50 1.380 PL 10.50 120 FTG ET 0.559 TL 19.50 1.380 PL 10.50 120 FTG ET 0.559 TL 19.50 1.380 PL 10.50 120 FTG ET 0.558 TL 19.50 1.380 PL 10.50 120 FTG ET 0.558 TL 19.50 90.4 1.380 PL 10.50 0.0 29.3 0.0 19.4 120 FTG ET 0.0 21.8 0.0 0.558 TL 19.50 Pipe: 20 24.6 20 13.0 0.0 21.8 0.0 9.1 104 13.0 0.0 19.3 0.0 Pipe: 20 103 21 65.9 13.0 0.0 21.8 0.0 14.1 13.0 0.0 19.5 0.0 1.049 PL 8.50 120 FTG T 0.191 TL 13.50 1.380 PL 1.50 120 FTG T 0.310 TL 7.50 Pipe: 22 41.5 1.049 PL 103 13.0 0.0 19.5 0.0 15.4 120 FTG 102 13.0 0.0 14.5 0.0 0.502 TL Pipe: 23 102 13.0 101 13.0 20.4 1.049 PL 0.0 14.5 0.0 7.6 120 FTG 0.0 13.1 0.0 0.135 TL 10.00 10.00 10.00 10.00 Pipe: 24 24.6 1.049 PL 8.50 21 13.0 0.0 21.8 0.0 9.1 120 FTG T 108 13.0 0.0 19.3 0.0 0.191 TL 13.50 Pipe: 25 65.9 1.380 PL 1.50 21 13.0 0.0 21.8 0.0 14.1 120 FTG T 107 13.0 0.0 19.5 0.0 0.310 TL 7.50 Page 4 PRESS. SUM. (PSI) PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV 7.1 3.5 1.6 10.9 3.5 2.5 10.9 3.5 2.5 10.9 3.5 2.5 10.9 3.5 2.5 10.9 3.5 2.5 10.9 3.5 2.5 2.6 0.0 0.6 2.3 0.0 1.3 5.0 0.0 1.6 1.3 0.0 0.4 2.6 0.0 0.6 2.3 0.0 1.3 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 JOB TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #1 PIPE DATA (cont.) Page 5 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) F.L./FT (PSI) Pipe: 26 41.5 1.049 PL 10.00 PF 5.0 107 13.0 0.0 19.5 0.0 15.4 120 FTG ---- PE 0.0 106 13.0 0.0 14.5 0.0 0.502 TL 10.00 PV 1.6 Pipe: 27 20.4 1.049 PL 10.00 PF 1.3 106 13.0 0.0 14.5 0.0 7.6 120 FTG ---- PE 0.0 105 13.0 0.0 13.2 0.0 0.135 TL 10.00 PV 0.4 Pipe: 28 24.6 1.049 PL 8.50 PF 2.6 22 13.0 0.0 21.9 0.0 9.1 120 FTG T PE 0.0 112 13.0 0.0 19.3 0.0 0.191 TL 13.50 PV 0.6 Pipe: 29 65.9 1.380 PL 1.50 PF 2.3 22 13.0 0.0 21.9 0.0 14.1 120 FTG T PE 0.0 111 13.0 0.0 19.5 0.0 0.311 TL 7.50 PV 1.3 Pipe: 30 41.5 1.049 PL 10.00 PF 5.0 111 13.0 0.0 19.5 0.0 15.4 120 FTG ---- PE 0.0 110 13.0 0.0 14.5 0.0 0.502 TL 10.00 PV 1.6 Pipe: 31 20.4 1.049 PL 10.00 PF 1.4 110 13.0 0.0 14.5 0.0 7.6 120 FTG ---- PE 0.0 109 13.0 0.0 13.2 0.0 0.135 TL 10.00 PV 0.4 Pipe: 32 24.6 1.049 PL 8.50 PF 2.6 23 13.0 0.0 21.9 0.0 9.1 120 FTG T PE 0.0 116 13.0 0.0 19.3 0.0 0.191 TL 13.50 PV 0.6 Pipe: 33 65.9 1.380 PL 1.50 PF 2.3 23 13.0 0.0 21.9 0.0 14.1 120 FTG T PE 0.0 115 13.0 0.0 19.5 0.0 0.311 TL 7.50 PV 1.3 Pipe: 34 41.5 1.049 PL 10.00 PF 5.0 115 13.0 0.0 19.5 0.0 15.4 120 FTG ---- PE 0.0 114 13.0 0.0 14.5 0.0 0.502 TL 10.00 PV 1.6 Pipe: 35 20.4 1.049 PL 10.00 PF 1.4 114 13.0 0.0 14.5 0.0 7.6 120 FTG ---- PE 0.0 113 13.0 0.0 13.2 0.0 0.135 TL 10.00 PV 0.4 Pipe: 36 24.6 1.049 PL 8.50 PF 2.6 24 13.0 0.0 21.9 0.0 9.1 120 FTG T PE 0.0 120 13.0 0.0 19.3 0.0 0.191 TL 13.50 PV 0.6 Pipe: 37 65.9 1.380 PL 1.50 PF 2.3 24 13.0 0.0 21.9 0.0 14.1 120 FTG T PE 0.0 119 13.0 0.0 19.5 0.0 0.311 TL 7.50 PV 1.3 Pipe: 38 41.5 1.049 PL 10.00 PF 5.0 119 13.0 0.0 19.5 0.0 15.4 120 FTG ---- PE 0.0 118 13.0 0.0 14.5 0.0 0.502 TL 10.00 PV 1.6 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 JOB TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #1 PIPE DATA (cont.) PIPE TAG Q(GPM) DIA(IN) LENGTH END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) NODES (FT) (K) (PSI) (GPM) F.L./FT Pipe: 39 20.4 1.049 PL 10.00 118 13.0 0.0 14.5 0.0 7.6 120 FTG ---- 117 13.0 0.0 13.2 0.0 0.135 TL 10.00 Pipe: 40 24.6 25 13.0 0.0 21.9 0.0 9.1 124 13.0 0.0 19.3 0.0 Pipe: 25 123 41 65.9 13.0 0.0 21.9 0.0 14.1 13.0 0.0 19.6 0.0 Pipe: 42 41.5 123 13.0 0.0 19.6 0.0 15.4 122 13.0 0.0 14.5 0.0 Pipe: 43 20.4 122 13.0 0.0 14.5 0.0 7.6 121 13.0 0.0 13.2 0.0 Pipe: 44 71.7 26 13.0 0.0 25.8 0.0 15.4 127 13.0 0.0 23.0 0.0 Pipe: 127 126 45 44.9 13.0 0.0 23.0 0.0 16.7 13.0 0.0 17.2 0.0 Pipe: 46 21.9 126 13.0 0.0 17.2 0.0 8.1 125 13.0 0.0 15.7 0.0 101 101A Pipe: 47 13.0 12.0 1.049 PL 8.50 120 FTG T 0.191 TL 13.50 1.380 PL 1.50 120 FTG T 0.311 TL 7.50 1.049 PL 120 FTG 0.503 TL 1.049 PL 120 FTG 0.135 TL 10.00 10.00 10.00 10.00 1.380 PL 1.50 120 FTG T 0.363 TL 7.50 1.049 PL 120 FTG 0.580 TL 1.049 PL 120 FTG 0.154 TL 10.00 10.00 10.00 10.00 20.4 1.049 PL 1.00 0.0 13.1 0.0 7.6 120 FTG E 5.6 13.2 20.4 0.135 TL 3.00 Pipe: 48 21.1 102 13.0 0.0 14.5 0.0 7.8 102A 12.0 5.6 14.1 21.1 Pipe: 49 24.4 103 13.0 0.0 19.5 0.0 9.1 103A 12.0 5.6 18.8 24.4 Pipe: 50 24.6 104 13.0 0.0 19.3 0.0 9.1 104A 12.0 5.6 19.1 24.6 Pipe: 51 105 13.0 105A 12.0 1.049 PL 1.00 120 FTG T 0.143 TL 6.00 1.049 PL 1.00 120 FTG T 0.188 TL 6.00 1.049 PL 1.00 120 FTG E 0.191 TL 3.00 20.4 1.049 PL 1.00 0.0 13.2 0.0 7.6 120 FTG E 5.6 13.2 20.4 0.135 TL 3.00 Page 6 PRESS. SUM. (PSI) PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV 1.4 0.0 0.4 2.6 0.0 0.6 2.3 0.0 1.3 5.0 0.0 1.6 1.4 0.0 0.4 2.7 0.0 1.6 5.8 0.0 1.9 1.5 0.0 0.4 0.4 0.4 0.4 0.9 0.4 0.4 1.1 0.4 0.6 0.6 0.4 0.6 0.4 0.4 0.4 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 •JOB TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #1 PIPE DATA (cont.) Page 7 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) F.L./FT (PSI) Pipe: 52 21.1 1.049 PL 1.00 PF 0.9 106 13.0 0.0 14.5 0.0 7.8 120 FTG T PE 0.4 106A 12.0 5.6 14.1 21.1 0.143 TL 6.00 PV 0.4 Pipe: 53 24.4 1.049 PL 1.00 PF 1.1 107 13.0 0.0 19.5 0.0 9.1 120 FTG T PE 0.4 107A 12.0 5.6 18.8 24.4 0.188 TL 6.00 PV 0.6 Pipe: 54 24.6 1.049 PL 1.00 PF 0.6 108 13.0 0.0 19.3 0.0 9.1 120 FTG E PE 0.4 108A 12.0 5.6 19.1 24.6 0.191 TL 3.00 PV 0.6 Pipe: 55 20.4 1.049 PL 1.00 PF 0.4 109 13.0 0.0 13.2 0.0 7.6 120 FTG E PE 0.4 109A 12.0 5.6 13.2 20.4 0.135 TL 3.00 PV 0.4 Pipe: 56 21.1 1.049 PL 1.00 PF 0.9 110 13.0 0.0 14.5 0.0 7.8 120 FTG T PE 0.4 110A 12.0 5.6 14.1 21.1 0.144 TL 6.00 PV 0.4 Pipe: 57 24.4 1.049 PL 1.00 PF 1.1 111 13.0 0.0 19.5 0.0 9.1 120 FTG T PE 0.4 111A 12.0 5.6 18.8 24.4 0.188 TL 6.00 PV 0.6 Pipe: 58 24.6 1.049 PL 1.00 PF 0.6 112 13.0 0.0 19.3 0.0 9.1 120 FTG E PE 0.4 112A 12.0 5.6 19.1 24.6 0.191 TL 3.00 PV 0.6 Pipe: 59 20.4 1.049 PL 1.00 PF 0.4 113 13.0 0.0 13.2 0.0 7.6 120 FTG E PE 0.4 113A 12.0 5.6 13.2 20.4 0.135 TL 3.00 PV 0.4 Pipe: 60 21.1 1.049 PL 1.00 PF 0.9 114 13.0 0.0 14.5 0.0 7.8 120 FTG T PE 0.4 114A 12.0 5.6 14.1 21.1 0.144 TL 6.00 PV 0.4 Pipe: 61 24.4 1.049 PL 1.00 PF 1.1 115 13.0 0.0 19.5 0.0 9.1 120 FTG T PE 0.4 115A 12.0 5.6 18.8 24.4 0.188 TL 6.00 PV 0.6 Pipe: 62 24.6 1.049 PL 1.00 PF 0.6 116 13.0 0.0 19.3 0.0 9.1 120 FTG E PE 0.4 116A 12.0 5.6 19.2 24.6 0.191 TL 3.00 PV 0.6 Pipe: 63 20.4 1.049 PL 1.00 PF 0.4 117 13.0 0.0 13.2 0.0 7.6 120 FTG E PE 0.4 117A 12.0 5.6 13.2 20.4 0.135 TL 3.00 PV 0.4 Pipe: 64 21.1 1.049 PL 1.00 PF 0.9 118 13.0 0.0 14.5 0.0 7.8 120 FTG T PE 0.4 118A 12.0 5.6 14.1 21.1 0.144 TL 6.00 PV 0.4 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 JOB 1TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #1 PIPE DATA (cont.) Page 8 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) F.L./FT (PSI) Pipe: 65 24.4 1.049 PL 1.00 PF 1.1 119 13.0 0.0 19.5 0.0 9.1 120 FTG T PE 0.4 119A 12.0 5.6 18.9 24.4 0.188 TL 6.00 PV 0.6 Pipe: 66 24.6 1.049 PL 1.00 PF 0.6 120 13.0 0.0 19.3 0.0 9.1 120 FTG E PE 0.4 120A 12.0 5.6 19.2 24.6 0.191 TL 3.00 PV 0.6 Pipe: 67 20.4 1.049 PL 1.00 PF 0.4 121 13.0 0.0 13.2 0.0 7.6 120 FTG E PE 0.4 121A 12.0 5.6 13.2 20.4 0.135 TL 3.00 PV 0.4 Pipe: 68 21.1 1.049 PL 1.00 PF 0.9 122 13.0 0.0 14.5 0.0 7.8 120 FTG T PE 0.4 122A 12.0 5.6 14.1 21.1 0.144 TL 6.00 PV 0.4 Pipe: 69 24.4 1.049 PL 1.00 PF 1.1 123 13.0 0.0 19.6 0.0 9.1 120 FTG T PE 0.4 123A 12.0 5.6 18.9 24.4 0.188 TL 6.00 PV 0.6 Pipe: 70 24.6 1.049 PL 1.00 PF 0.6 124 13.0 0.0 19.3 0.0 9.1 120 FTG E PE 0.4 124A 12.0 5.6 19.2 24.6 0.191 TL 3.00 PV 0.6 Pipe: 71 21.9 1.049 PL 1.00 PF 0.9 125 13.0 0.0 15.7 0.0 8.1 120 FTG T PE 0.4 125A 12.0 5.6 15.2 21.9 0.154 TL 6.00 PV 0.4 Pipe: 72 22.9 1.049 PL 1.00 PF 1.0 126 13.0 0.0 17.2 0.0 8.5 120 FTG T PE 0.4 126A 12.0 5.6 16.7 22.9 0.168 TL 6.00 PV 0.5 Pipe: 73 26.8 1.049 PL 1.00 PF 0.7 127 13.0 0.0 23.0 0.0 10.0 120 FTG E PE 0.4 127A 12.0 5.6 22.8 26.8 0.224 TL 3.00 PV 0.7 NOTES: (1) Calculations were performed by the HASS 5.8.0 computer program under license no. 4 C1324J granted by HRS Systems, Inc. 2193 Ranchwood Dr., N.E. Atlanta, GA 30345 (2) The system has been balanced to provide an average imbalance at each node of 0.001 gpm and a maximum imbalance at any node of 0.052 gpm. (3) Velocity pressures are printed for information only, and are not used in balancing the system. Maximum water velocity is 19.4 ft/sec at pipe 14. SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 -JOB TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #1 (4) PIPE FITTINGS TABLE Pipe Table Name: STANDARD.PIP Page 9 PAGE: A MATERIAL: S40 HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A D Ell Tee LngEli ChkVly BfyVly GatVly A1mChk DPV1v 1.049 2.00 5.00 2.00 5.00 2.20 1.00 10.00 10.00 1.380 3.00 6.00 2.00 7.00 2.50 1.00 10.00 10.00 6.065 14.00 30.00 9.00 32.00 10.00 3.00 28.00 19.00 8.071 18.00 35.00 13.00 45.00 12.00 4.00 35.00 27.00 PAGE: D MATERIAL: DIRON HWC: 140 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G Ell Tee LngEli ChkVly BfyVly GatViv 10.400 31.00 71.00 23.00 78.00 27.00 7.00 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 •JOB TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #1 WATER SUPPLY CURVE 180+ 165 150 \ \ ' 0\ 135+ \ \\ \ \ P120+ \ R \ E \\ S \ S105+ \ U ' \ R ' \ E ; \\ 90+ \ ( \ P ' \ S ' \ I 75+ * <-74.0 psi @ 4586 gpm ) ; Flow Test Point 60+ 45+ X 30+ LEGEND 15+ X = Required Water Supply 43.14 psi @ 1364.7 gpm 0 = Available Water Supply 137.46 psi @ 1364.7 gpm II II II II II II II it Page 10 0++-+---+----+ + + + + + + 16002400 3200 4000 4800 5600 6400 7200 8000 FLOW (GPM) ATRIOT FIRE PROTECTION 2707 70TH AVENUE EAST • TACOMA, WA 98424 TEL (253) 926.2290 FAX (253) 922-6150 DESIGN INFORMATION SHEET NAME K ``J, I(Wribe LOCATION 111140 SasriKE.Atit. WAN BUILDING DATE co--L-0o CONTRACTOR %I -Mar PX(l.atritA 3.d.1, -�(�(,. CALCULATED BY CA -T141- C.�> CONSTRUCTION: 0 COMBUSTIBLE OCCUPANCY ttPION-COMBUSTIBLE SYSTEM NO * 1 - CONTRACT NO I7 -514C) DRAWING NO FP -1 CEILING HEIGHT 1Z.'o.. FT SYSTEM DESIGN P4FPA 13: �1J NFPA 231 0 OTHER VI‘SPECIFIC ORD. HAZ. FIGURE GP. 0 1 0 2 0 EX. HAZ. ; CURVE • LT. HAZ. • 0 NFPA 231C: (Specify) RULING e I1/ .O0O MADE BY \I1.R.16. DATE AREA OF SPRINKLER OPERATION . DENSITY AREA PER SPRINKLER HOSE ALLOWANCE GPM: INSIDE HOSE HOSE ALLOWANCE GPM: OUTSIDE RACK SPRINKLER ALLOWANCE *WET 0 DRY SYSTEM TYPE .11 0 DELUGE • PRE -ACTION 112-0 4 MAKE TEMPERATURE SPRINKLER OR NOZZLE 150 11.03.042iF MODEL FIT - 000SIZE IAL'. K -FACTOR S. Z r RATING 155• CALCULATION SUMMARY GPM REQUIRED Sivti •t PSI REQUIRED -5111 AT BASE "C' FACTOR USED: OVERHEAD lt0 OF RISER UNDERGROUND NO WATER SUPPLY DATE STATIC RESIDUAL GPM ELEVATION WATER FLOW TEST PUMP DATA TANK OR RESERVOIR & TIME PSI FLOWING -1-,Z-16'RATED CAPACITY AT PSI ELEVATION CAPACITY 14 S ELEVATION PSI Ty if5$C0 WELL SS F FLOW GPM LOCATION SOURCE OF S now. 4" ,511kC;ts,1Jit1._ eWskt-j INFORMATION W 1S.Q,.TZj COMMODITY STORAGE COMMODITY STORAGE STORAGE CLASS LOCATION HEIGHT AREA AISLE WID METHOD: SOLID PILED % PALLETIZED RACK % °C • SINGLE ROW 0 CONVENTIONAL �,� PALLET 0 AUT Auto STORAGE 0 ENCAPSULATED PALLET OLID SHELVING 0 NON- ,,.,....------ 0 OPEN ENCAPSULATED ❑ DOUBLE ❑ MULTIPLE ROW • SLAVE ROW LONGITU,p.INAL FLUE SPACING -1r! INCHES CLEARANCE FROM TOP OF STORAGE TO CEILING TRANSVERSE FT IN. NTAL BARRIERS PROVIDED . SPOKANE, WA OFFICE TEL (509) 926-3428 FAX (509).926-3708 PATRIFP099CF VANCOUVER WA OFFICE TEL (360) 699.4403 FAX (360) 699-4485 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 1 Date: 06/01/2000 KRAUSES JOB TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #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) CITY 145.0 74.0 4586.0 135.2 1572.1 41.3 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE TOTAL HOSE STREAM ALLOWANCE AT SOURCE OTHER HOSE STREAM ALLOWANCES TOTAL DISCHARGE FROM ACTIVE SPRINKLERS NODE ANALYSIS DATA 1572.1 GPM 600.0 GPM 150.0 GPM 822.1 GPM NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) 101 13.0 101A 12.0 102 13.0 102A 12.0 103 13.0 103A 12.0 104 13.0 104A 12.0 105 13.0 105A 12.0 106 13.0 106A 12.0 107 13.0 107A 12.0 108 13.0 108A 12.0 109 13.0 109A 12.0 109B 12.0 110 13.0 110A 12.0 111 13.0 111A 12.0 112 13.0 112A 12.0 113 13.0 113A 12.0 114 13.0 114A 12.0 115 13.0 115A 12.0 116 13.0 116A 12.0 117 13.0 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 K= 5.62 22.5 22.2 26.5 24.2 - - 23.3 27.1 23.7 - - - 22.7 26.8 20.6 = - - 19.1 24.6 25.0 24.8 28.0 27.0 - - - 25.9 28.6 24.9 - - - 23.9 27.5 23.3 21.3 25.9 21.2 - - - 18.2 24.0 19.3 24.7 21.3 21.1 25.8 22.6 - - - 21.8 26.2 19.5 - - - 18.8 24.4 14.5 - - - 14.1 21.1 13.1 - - - 13.2 20.4 19.4 - - - 19.3 24.7 21.3 20.5 25.5 27.4 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 JOB TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #2 NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) 117A 12.0 K= 5.62 26.3 28.8 118 13.0 23.7 - - - 118A 12.0 K= 5.62 22.8 26.8 119 13.0 17.7 - - - 119A 12.0 K= 5.62 17.1 23.2 120 13.0 - - - - 16.1 120A 12.0 K= 5.62 16.0 22.5 121 13.0 - - - - 21.4 - - - 121A 12.0 K= 5.62 21.2 25.9 122 13.0 - - - - 22.7 - - - 122A 12.0 K= 5.62 21.8 26.2 123 13.0 - - - - 19.6 - - - 123A 12.0 K= 5.62 18.9 24.4 124 13.0 - - - - 14.5 - - 124A 12.0 K= 5.62 14.1 21.1 125 13.0 - - - - 13.2 125A 12.0 K= 5.62 13.2 20.4 126 13.0 - - - - 21.4 - - - 126A 12.0 K= 5.62 21.2 25.9 127 13.0 - - - - 22.7 127A 12.0 K= 5.62 21.8 26.3 128 13.0 - - - - 19.6 - - - 128A 12.0 K= 5.62 18.9 24.4 129 13.0 14.5 129A 12.0 K= 5.62 14.1 21.1 130 13.0 - - - - 13.2 130A 12.0 K= 5.62 13.2 20.4 131 13.0 - - - - 21.7 - - - 131A 12.0 K= 5.62 21.4 26.0 132 13.0 23.8 - - - 132A 12.0 K= 5.62 22.9 26.9 10 21.0 29.4 11 21.0 29.4 12 21.0 29.4 12A 21.0 29.4 13 21.0 29.4 14 21.0 29.5 15 21.0 29.5 16 21.0 29.6 20 13.0 25.0 21 13.0 27.2 22 13.0 23.2 23 13.0 27.7 24 13.0 23.2 25 13.0 23.3 26 13.0 30.8 TOR 21.0 31.0 BOR 2.0 HOSE STREAM 39.7 150.0 FLG 0.5 40.3 D1 0.0 41.2 D2 0.0 41.2 CITY 0.0 SOURCE 41.3 972.1 Page 2 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 JOB TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #2 PIPE DATA Page 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) F.L./FT (PSI) Pipe: 1 972.1 10.400 PL 45.00 PF 0.1 CITY 0.0 SRCE 41.3 (N/A) 3.7 140 FTG G PE 0.0 D2 0.0 0.0 41.2 0.0 0.002 TL 52.00 PV 0.1 Pipe: 2 972.0 10.400 PL 1.00 PF 0.0 D2 0.0 0.0 41.2 0.0 3.7 120 FTG ---- PE 0.0 D1 0.0 0.0 41.2 0.0 0.002 TL 1.00 PV 0.1 Pipe: 3 972.1 10.400 PL 187.00 PF 0.7 D1 0.0 0.0 41.2 0.0 3.7 140 FTG 4ETG PE -0.2 FLG 0.5 0.0 40.3 0.0 0.002 TL 389.00 PV 0.1 Pipe: 3A 972.1 8.071 PL 1.50 PF 0.0 FLG 0.5 0.0 40.3 0.0 6.1 120 FTG ---- PE -0.6 BOR 2.0 H.S. 39.7 150.0 0.008 TL 1.50 PV 0.3 Pipe: 4 822.1 8.071 PL 19.00 PF 0.5 BOR 2.0 H.S. 39.7 150.0 5.2 120 FTG EGA PE -8.2 TOR 21.0 0.0 31.0 0.0 0.006 TL 76.00 PV 0.2 Pipe: 5 822.1 8.071 PL 190.00 PF 1.4 TOR 21.0 0.0 31.0 0.0 5.2 120 FTG 2E PE 0.0 16 21.0 0.0 29.6 0.0 0.006 TL 226.00 PV 0.2 Pipe: 6 769.2 8.071 PL 12.00 PF 0.1 16 21.0 0.0 29.6 0.0 4.8 120 FTG ---- PE 0.0 15 21.0 0.0 29.5 0.0 0.005 TL 12.00 PV 0.2 Pipe: 7 651.1 8.071 PL 12.00 PF 0.0 15 21.0 0.0 29.5 0.0 4.1 120 FTG ---- PE 0.0 14 21.0 0.0 29.5 0.0 0.004 TL 12.00 PV 0.1 Pipe: 8 533.1 8.071 PL 12.00 PF 0.0 14 21.0 0.0 29.5 0.0 3.3 120 FTG ---- PE 0.0 13 21.0 0.0 29.4 0.0 0.003 TL 12.00 PV 0.1 Pipe: 9 381.6 8.071 PL 10.00 PF 0.0 13 21.0 0.0 29.4 0.0 2.4 120 FTG ---- PE 0.0 12A 21.0 0.0 29.4 0.0 0.001 TL 10.00 PV 0.0 Pipe: 10 381.6 6.065 PL 2.00 PF 0.0 12A 21.0 0.0 29.4 0.0 4.2 120 FTG ---- PE 0.0 12 21.0 0.0 29.4 0.0 0.006 TL 2.00 PV 0.1 Pipe: 11 263.7 6.065 PL 12.00 PF 0.0 12 21.0 0.0 29.4 0.0 2.9 120 FTG ---- PE 0.0 11 21.0 0.0 29.4 0.0 0.003 TL 12.00 PV 0.1 Pipe: 12 105.0 6.065 PL 8.00 PF 0.0 11 21.0 0.0 29.4 0.0 1.2 120 FTG ---- PE 0.0 10 21.0 0.0 29.4 0.0 0.001 TL 8.00 PV 0.0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 JOB TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #2 PIPE DATA (cont.) Page 4 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) F.L./FT (PSI) Pipe: 13 52.9 1.610 PL 10.50 PF 2.2 16 21.0 0.0 29.6 0.0 8.3 120 FTG ET PE 3.5 26 13.0 0.0 30.8 0.0 0.098 TL 22.50 PV 0.5 Pipe: 14 118.1 1.610 PL 10.50 PF 9.7 15 21.0 0.0 29.5 0.0 18.6 120 FTG ET PE 3.5 25 13.0 0.0 23.3 0.0 0.432 TL 22.50 PV 2.3 Pipe: 15 118.0 1.610 PL 10.50 PF 9.7 14 21.0 0.0 29.5 0.0 18.6 120 FTG ET PE 3.5 24 13.0 0.0 23.2 0.0 0.431 TL 22.50 PV 2.3 Pipe: 16 151.5 2.067 PL 10.50 PF 5.2 13 21.0 0.0 29.4 0.0 14.5 120 FTG ET PE 3.5 23 13.0 0.0 27.7 0.0 0.203 TL 25.50 PV 1.4 Pipe: 17 117.9 1.610 PL 10.50 PF 9.7 12 21.0 0.0 29.4 0.0 18.6 120 FTG ET PE 3.5 22 13.0 0.0 23.2 0.0 0.430 TL 22.50 PV 2.3 Pipe: 18 158.6 2.067 PL 10.50 PF 5.6 11 21.0 0.0 29.4 0.0 15.2 120 FTG ET PE 3.5 21 13.0 0.0 27.2 0.0 0.221 TL 25.50 PV 1.5 Pipe: 19 105.0 1.610 PL 10.50 PF 7.8 10 21.0 0.0 29.4 0.0 16.5 120 FTG ET PE 3.5 20 13.0 0.0 25.0 0.0 0.347 TL 22.50 PV 1.8 Pipe: 20 53.6 1.049 PL 1.00 PF 0.8 20 13.0 0.0 25.0 0.0 19.9 120 FTG ---- PE 0.0 102 13.0 0.0 24.2 0.0 0.807 TL 1.00 PV 2.7 Pipe: 21 26.5 1.049 PL 8.00 PF 1.8 102 13.0 0.0 24.2 0.0 9.8 120 FTG ---- PE 0.0 101 13.0 0.0 22.5 0.0 0.219 TL 8.00 PV 0.7 Pipe: 22 51.4 1.380 PL 7.00 PF 1.4 20 13.0 0.0 25.0 0.0 11.0 120 FTG ---- PE 0.0 103 13.0 0.0 23.7 0.0 0.196 TL 7.00 PV 0.8 Pipe: 23 24.6 1.049 PL 16.00 PF 3.0 103 13.0 0.0 23.7 0.0 9.1 120 FTG ---- PE 0.0 104 13.0 0.0 20.6 0.0 0.191 TL 16.00 PV 0.6 Pipe: 24 56.6 1.380 PL 1.00 PF 0.2 21 13.0 0.0 27.2 0.0 12.1 120 FTG ---- PE 0.0 106 13.0 0.0 27.0 0.0 0.234 TL 1.00 PV 1.0 Pipe: 25 28.0 1.049 PL 8.00 PF 1.9 106 13.0 0.0 27.0 0.0 10.4 120 FTG ---- PE 0.0 105 13.0 0.0 25.0 0.0 0.242 TL 8.00 PV 0.7 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 JOB TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #2 PIPE DATA (cont.) Page 5 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) F.L./FT (PSI) Pipe: 26 102.1 1.610 PL 7.00 PF 2.3 21 13.0 0.0 27.2 0.0 16.1 120 FTG ---- PE 0.0 107 13.0 0.0 24.9 0.0 0.330 TL 7.00 PV 1.7 Pipe: 27 74.6 1.380 PL 4.00 PF 1.6 107 13.0 0.0 24.9 0.0 16.0 120 FTG ---- PE 0.0 108 13.0 0.0 23.3 0.0 0.391 TL 4.00 PV 1.7 Pipe: 28 48.7 1.380 PL 12.00 PF 2.1 108 13.0 0.0 23.3 0.0 10.4 120 FTG ---- PE 0.0 109 13.0 0.0 21.2 0.0 0.177 TL 12.00 PV 0.7 Pipe: 29 25.8 1.049 PL 9.00 PF 1.9 22 13.0 0.0 23.2 0.0 9.6 120 FTG ---- PE 0.0 110 13.0 0.0 21.3 0.0 0.209 TL 9.00 PV 0.6 Pipe: 30 92.1 1.380 PL 1.00 PF 0.6 22 13.0 0.0 23.2 0.0 19.8 120 FTG ---- PE 0.0 111 13.0 0.0 22.6 0.0 0.577 TL 1.00 PV 2.6 Pipe: 31 65.9 1.380 PL 10.00 PF 3.1 111 13.0 0.0 22.6 0.0 14.1 120 FTG ---- PE 0.0 112 13.0 0.0 19.5 0.0 0.310 TL 10.00 PV 1.3 Pipe: 32 41.5 1.049 PL 10.00 PF 5.0 112 13.0 0.0 19.5 0.0 15.4 120 FTG ---- PE 0.0 113 13.0 0.0 14.5 0.0 0.502 TL 10.00 PV 1.6 Pipe: 33 20.4 1.049 PL 10.00 PF 1.3 113 13.0 0.0 14.5 0.0 7.6 120 FTG ---- PE 0.0 114 13.0 0.0 13.1 0.0 0.135 TL 10.00 PV 0.4 Pipe: 34 50.1 1.049 PL 9.00 PF 6.4 23 13.0 0.0 27.7 0.0 18.6 120 FTG ---- PE 0.0 116 13.0 0.0 21.3 0.0 0.712 TL 9.00 PV 2.3 Pipe: 35 24.7 1.049 PL 8.00 PF 1.9 116 13.0 0.0 21.3 0.0 9.2 120 FTG E PE 0.0 115 13.0 0.0 19.4 0.0 0.192 TL 10.00 PV 0.6 Pipe: 36 101.4 1.610 PL 1.00 PF 0.3 23 13.0 0.0 27.7 0.0 16.0 120 FTG ---- PE 0.0 117 13.0 0.0 27.4 0.0 0.325 TL 1.00 PV 1.7 Pipe: 37 72.6 1.380 PL 10.00 PF 3.7 117 13.0 0.0 27.4 0.0 15.6 120 FTG ---- PE 0.0 118 13.0 0.0 23.7 0.0 0.371 TL 10.00 PV 1.6 Pipe: 38 45.7 1.049 PL 10.00 PF 6.0 118 13.0 0.0 23.7 0.0 17.0 120 FTG ---- PE 0.0 119 13.0 0.0 17.7 0.0 0.601 TL 10.00 PV 1.9 Date: 06/0 JOB TITLE: PIPE DATA SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 1/2000 KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #2 (cont.) PIPE TAG END ELEV. NODES (FT) Pipe: 119 120 Pipe: 24 121 Pipe: 24 122 Pipe: 122 123 Pipe: 123 124 Pipe: 124 125 Pipe: 25 126 Pipe: 25 127 Pipe: 127 128 Pipe: 128 129 Pipe: 129 130 Pipe: 26 132 Q(GPM) DIA(IN) LENGTH NOZ. PT DISC. VEL(FPS) HW(C) (FT) (K) (PSI) (GPM) F.L./FT 39 22.5 1.049 13.0 0.0 17.7 0.0 8.4 120 13.0 0.0 16.1 0.0 0.162 40 25.9 1.049 13.0 0.0 23.2 0.0 9.6 120 13.0 0.0 21.4 0.0 0.209 41 92.2 1.380 13.0 0.0 23.2 0.0 19.8 120 13.0 0.0 22.7 0.0 0.578 42 65.9 1.380 13.0 0.0 22.7 0.0 14.1 120 13.0 0.0 19.6 0.0 0.311 43 41.5 1.049 13.0 0.0 19.6 0.0 15.4 120 13.0 0.0 14.5 0.0 0.503 44 20.4 1.049 13.0 0.0 14.5 0.0 7.6 120 13.0 0.0 13.2 0.0 0.135 45 25.9 1.049 13.0 0.0 23.3 0.0 9.6 120 13.0 0.0 21.4 0.0 0.209 46 92.2 1.380 13.0 0.0 23.3 0.0 19.8 120 13.0 0.0 22.7 0.0 0.579 47 66.0 1.380 13.0 0.0 22.7 0.0 14.2 120 13.0 0.0 19.6 0.0 0.311 48 41.6 1.049 13.0 0.0 19.6 0.0 15.4 120 13.0 0.0 14.5 0.0 0.503 49 20.4 1.049 13.0 0.0 14.5 0.0 7.6 120 13.0 0.0 13.2 0.0 0.135 50 52.9 1.049 13.0 0.0 30.8 0.0 19.6 120 13.0 0.0 23.8 0.0 0.787 Pipe: 51 132 13.0 131 13.0 26.0 1.049 0.0 23.8 0.0 9.7 120 0.0 21.7 0.0 0.212 PL 10.00 FTG ---- TL 10.00 PL 9.00 FTG ---- TL 9.00 PL FTG TL PL FTG TL PL FTG TL PL FTG TL 1.00 1.00 10.00 10.00 10.00 10.00 10.00 10.00 PL 9.00 FTG ---- TL 9.00 PL FTG TL PL FTG TL PL FTG TL PL FTG TL PL FTG TL 1.00 1.00 10.00 10.00 10.00 10.00 10.00 10.00 9.00 9.00 PL 8.00 FTG E TL 10.00 PRESS. SUM. (PSI) PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV 1.6 0.0 0.5 1.9 0.0 0.6 0.6 0.0 2.6 3.1 0.0 1.3 5.0 0.0 1.6 1.4 0.0 0.4 1.9 0.0 0.6 0.6 0.0 2.6 3.1 0.0 1.3 5.0 0.0 1.6 1.4 0.0 0.4 7.1 0.0 2.6 2.1 0.0 0.6 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 JOB TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #2 PIPE DATA (cont.) Page 7 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) F.L./FT (PSI) Pipe: 52 26.5 1.049 PL 1.00 PF 0.7 101 13.0 0.0 22.5 0.0 9.8 120 FTG E PE 0.4 101A 12.0 5.6 22.2 26.5 0.219 TL 3.00 PV 0.7 Pipe: 53 27.1 1.049 PL 1.00 PF 1.4 102 13.0 0.0 24.2 0.0 10.1 120 FTG T PE 0.4 102A 12.0 5.6 23.3 27.1 0.228 TL 6.00 PV 0.7 Pipe: 54 26.8 1.049 PL 1.00 PF 1.3 103 13.0 0.0 23.7 0.0 9.9 120 FTG T PE 0.4 103A 12.0 5.6 22.7 26.8 0.224 TL 6.00 PV 0.7 Pipe: 55 24.6 1.049 PL 3.00 PF 1.9 104 13.0 0.0 20.6 0.0 9.1 120 FTG ET PE 0.4 104A 12.0 5.6 19.1 24.6 0.191 TL 10.00 PV 0.6 Pipe: 56 28.0 1.049 PL 1.00 PF 0.7 105 13.0 0.0 25.0 0.0 10.4 120 FTG E PE 0.4 105A 12.0 5.6 24.8 28.0 0.242 TL 3.00 PV 0.7 Pipe: 57 28.6 1.049 PL 1.00 PF 1.5 106 13.0 0.0 27.0 0.0 10.6 120 FTG T PE 0.4 106A 12.0 5.6 25.9 28.6 0.252 TL 6.00 PV 0.8 Pipe: 58 27.5 1.049 PL 1.00 PF 1.4 107 13.0 0.0 24.9 0.0 10.2 120 FTG T PE 0.4 107A 12.0 5.6 23.9 27.5 0.234 TL 6.00 PV 0.7 Pipe: 59 25.9 1.049 PL 5.00 PF 2.5 108 13.0 0.0 23.3 0.0 9.6 120 FTG ET PE 0.4 108A 12.0 5.6 21.3 25.9 0.210 TL 12.00 PV 0.6 Pipe: 60 24.0 1.049 PL 12.00 PF 3.5 109 13.0 0.0 21.2 0.0 8.9 120 FTG ET PE 0.4 109A 12.0 5.6 18.2 24.0 0.182 TL 19.00 PV 0.5 Pipe: 60A 24.7 1.049 PL 5.00 PF 2.3 109 13.0 0.0 21.2 0.0 9.2 120 FTG ET PE 0.4 109B 12.0 5.6 19.3 24.7 0.192 TL 12.00 PV 0.6 Pipe: 61 25.8 1.049 PL 1.00 PF 0.6 110 13.0 0.0 21.3 0.0 9.6 120 FTG E PE 0.4 110A 12.0 5.6 21.1 25.8 0.209 TL 3.00 PV 0.6 Pipe: 62 26.2 1.049 PL 1.00 PF 1.3 111 13.0 0.0 22.6 0.0 9.7 120 FTG T PE 0.4 111A 12.0 5.6 21.8 26.2 0.215 TL 6.00 PV 0.6 Pipe: 63 24.4 1.049 PL 1.00 PF 1.1 112 13.0 0.0 19.5 0.0 9.1 120 FTG T PE 0.4 112A 12.0 5.6 18.8 24.4 0.188 TL 6.00 PV 0.6 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 JOB TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #2 PIPE DATA (cont.) Page 8 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) F.L./FT (PSI) Pipe: 64 21.1 1.049 PL 1.00 PF 0.9 113 13.0 0.0 14.5 0.0 7.8 120 FTG T PE 0.4 113A 12.0 5.6 14.1 21.1 0.143 TL 6.00 PV 0.4 Pipe: 65 20.4 1.049 PL 1.00 PF 0.4 114 13.0 0.0 13.1 0.0 7.6 120 FTG E PE 0.4 114A 12.0 5.6 13.2 20.4 0.135 TL 3.00 PV 0.4 Pipe: 66 24.7 1.049 PL 1.00 PF 0.6 115 13.0 0.0 19.4 0.0 9.2 120 FTG E PE 0.4 115A 12.0 5.6 19.3 24.7 0.192 TL 3.00 PV 0.6 Pipe: 67 25.5 1.049 PL 1.00 PF 1.2 116 13.0 0.0 21.3 0.0 9.5 120 FTG T PE 0.4 116A 12.0 5.6 20.5 25.5 0.203 TL 6.00 PV 0.6 Pipe: 68 28.8 1.049 PL 1.00 PF 1.5 117 13.0 0.0 27.4 0.0 10.7 120 FTG T PE 0.4 117A 12.0 5.6 26.3 28.8 0.256 TL 6.00 PV 0.8 Pipe: 69 26.8 1.049 PL 1.00 PF 1.3 118 13.0 0.0 23.7 0.0 10.0 120 FTG T PE 0.4 118A 12.0 5.6 22.8 26.8 0.224 TL 6.00 PV 0.7 Pipe: 70 23.2 1.049 PL 1.00 PF 1.0 119 13.0 0.0 17.7 0.0 8.6 120 FTG T PE 0.4 119A 12.0 5.6 17.1 23.2 0.172 TL 6.00 PV 0.5 Pipe: 71 22.5 1.049 PL 1.00 PF 0.5 120 13.0 0.0 16.1 0.0 8.4 120 FTG E PE 0.4 120A 12.0 5.6 16.0 22.5 0.162 TL 3.00 PV 0.5 Pipe: 72 25.9 1.049 PL 1.00 PF 0.6 121 13.0 0.0 21.4 0.0 9.6 120 FTG E PE 0.4 121A 12.0 5.6 21.2 25.9 0.209 TL 3.00 PV 0.6 Pipe: 73 26.2 1.049 PL 1.00 PF 1.3 122 13.0 0.0 22.7 0.0 9.7 120 FTG T PE 0.4 122A 12.0 5.6 21.8 26.2 0.215 TL 6.00 PV 0.6 Pipe: 74 24.4 1.049 PL 1.00 PF 1.1 123 13.0 0.0 19.6 0.0 9.1 120 FTG T PE 0.4 123A 12.0 5.6 18.9 24.4 0.188 TL 6.00 PV 0.6 Pipe: 75 21.1 1.049 PL 1.00 PF 0.9 124 13.0 0.0 14.5 0.0 7.8 120 FTG T PE 0.4 124A 12.0 5.6 14.1 21.1 0.144 TL 6.00 PV 0.4 Pipe: 76 20.4 1.049 PL 1.00 PF 0.4 125 13.0 0.0 13.2 0.0 7.6 120 FTG E PE 0.4 125A 12.0 5.6 13.2 20.4 0.135 TL 3.00 PV 0.4 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 JOB TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #2 PIPE DATA (cont.) PIPE TAG Q(GPM) DIA(IN) LENGTH END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) NODES (FT) (K) (PSI) (GPM) F.L./FT Pipe: 77 126 13.0 126A 12.0 Pipe: 78 127 13.0 127A 12.0 128 128A Pipe: 79 13.0 12.0 Pipe: 80 129 13.0 129A 12.0 Pipe: 81 130 13.0 130A 12.0 131 131A 132 132A Pipe: 82 13.0 12.0 Pipe: 83 13.0 12.0 25.9 1.049 0.0 21.4 0.0 9.6 120 5.6 21.2 25.9 0.209 26.3 1.049 0.0 22.7 0.0 9.7 120 5.6 21.8 26.3 0.215 24.4 1.049 0.0 19.6 0.0 9.1 120 5.6 18.9 24.4 0.188 21.1 1.049 0.0 14.5 0.0 7.8 120 5.6 14.1 21.1 0.144 20.4 1.049 0.0 13.2 0.0 7.6 120 5.6 13.2 20.4 0.135 26.0 1.049 0.0 21.7 0.0 9.7 120 5.6 21.4 26.0 0.212 26.9 1.049 0.0 23.8 0.0 10.0 120 5.6 22.9 26.9 0.225 PL 1.00 FTG E TL 3.00 PL 1.00 FTG T TL 6.00 PL 1.00 FTG T TL 6.00 PL FTG TL PL FTG TL PL FTG TL 1.00 T 6.00 1.00 E 3.00 1.00 E 3.00 PL 1.00 FTG T TL 6.00 NOTES: (1) Calculations were performed by the HASS 5.8.0 computer under license no. 4 C1324J granted by HRS Systems, Inc. 2193 Ranchwood Dr., N.E. Atlanta, GA 30345 Page 9 PRESS. SUM. (PSI) PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV PF PE PV 0.6 0.4 0.6 1.3 0.4 0.6 1.1 0.4 0.6 0.9 0.4 0.4 0.4 0.4 0.4 0.6 0.4 0.6 1.3 0.4 0.7 program The system has been balanced to provide an average imbalance at each node of 0.001 gpm and a maximum imbalance at any node of 0.106 gpm. Velocity pressures are printed for information only, and are not used in balancing the system. Maximum water velocity is 19.9 ft/sec at pipe 20. SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 JOB TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #2 (4) PIPE FITTINGS TABLE Pipe Table Name: STANDARD.PIP PAGE: A Diameter (in) Page 10 MATERIAL: S40 HWC: 120 Equivalent Fitting Lengths in Feet E T L C B G A D Ell Tee LngEll ChkVly BfyVly GatVly AlmChk DPV1v 1.049 2.00 5.00 2.00 5.00 2.20 1.00 10.00 10.00 1.380 3.00 6.00 2.00 7.00 2.50 1.00 10.00 10.00 1.610 4.00 8.00 2.00 9.00 3.20 1.00 10.00 10.00 2.067 5.00 10.00 3.00 11.00 4.50 1.00 10.00 10.00 6.065 14.00 30.00 9.00 32.00 10.00 3.00 28.00 19.00 8.071 18.00 35.00 13.00 45.00 12.00 4.00 35.00 27.00 PAGE: D Diameter (in) MATERIAL: DIRON HWC: 140 Equivalent Fitting Lengths E T L C B Ell Tee LngEll ChkViv BfyVly in Feet G GatVly 10.400 31.00 71.00 23.00 78.00 27.00 7.00 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 06/01/2000 JOB TITLE: KRAUSE'S FURNITURE REMODEL .17/3000, SYSTEM #2 WATER SUPPLY CURVE 180+ 165 150 ' \ 135+ 0\ \\ P120+ \ R I \ E ; \\ S ' \ S105+ \ U ' \ R ' \ E ; \\ 90+ \ ( i \ P ; \ S ' \ I 75+ * <-74.0 psi @ 4586 gpm Flow Test Point 60+ 45+ X 30+ LEGEND X = Required Water Supply 41.33 psi @ 1572.1 gpm 15+ 0 = Available Water Supply 135.20 psi @ 1572.1 gpm 0++-+---+----+ + + + Page 11 + + 16002400 3200 4000 4800 5600 6400 7200 8000 FLOW (GPM) FEDEAL FILESAFETY ISE_ 2032 South "0" Street, Port Angeles, WA 98363 (360) 457-3308 Fax (360) 457-5612 WA St Elect License #FEDERFI186DJ (MI6 KRAUSE'S FURNITURE Southcenter Parkway Tukwila, WA FIRE ALARM SYSTEM EQUIPMENT SUBMITTAL INFORMATION EDWARDS SYSTEMS TECHNOLOGY FIRE ALARM ACCESSORIES Remot- ooster Power Supplies Models: BPS6 and BPS10 Features • Extends power available to Notification Appliance Circuits (NACs). • Available in 10 amp and 6.5 amp versions. • JncJudes four independent 3 amp NACs — two configurable as auxiliary outputs. • Configurable signal rates. • Field selectable input -to -output correlation. • Two inputs allow activation by Signature Series modules or existing NACs. • NACs configure for either four Class B or two Class A circuits. • 110 Vac and 220 Vac versions • On -board status LEDs for easy recognition of wiring faults. Description The Remote Booster Power Supply is a self-contained 24 Vdc power supply designed to augment fire alarm audible and visual power requirements. The booster contains all of the necessary circuits to monitor and charge batteries, control and supervise four Class B or two Class A NAC circuits and monitor two controlling inputs from external sources. Simple switch selection provides a wide variety of opera- tional configurations. Each remote booster power supply is supplied with its own enclosure providing ample space for additional interface modules and battery compartment. The Remote Booster Power Supply is available in either a 6.5 or 10 amp version @ 24 Vdc. Application The Remote Booster Power Supply provides additional power for audible and visual devices when constrained by system capacity or site application. Fault conditions detected by the BPS will open the main panel's NAC. This initiates a trouble condition and eliminates the need to wire a separate trouble contact back to the control panel. During alarm condition, detected faults are overridden and the main panel's default configuration is continuous 24 Vdc on all NACs typically used to drive visual devices. The BPS's default output configuration is continuous 24 Vdc on all NACs. This output is typically used to drive visual devices. BPS notification appliance circuits easily configure for any one of three signaling rates: 120 SPM; 3-3-3 temporal; or, continuous. This makes the BPS ideal for applications requiring signaling rates not available from the main panel. It also allows independent setup of a notification appliance circuit without interfering with the main panel and its initiating circuits. In addition to the three generated signal rates, the BPS can also be configured to follow the signal rate of the main panel's notification appliance circuit. This allows seamless expansion of existing NACs. The BPS includes seven on -board LED indicators: one for each resident NAC; one for battery supervision; one for ground fault; and, one for ac power. The trouble contact has a sixteen second delay when an ac power failure or brownout condition is detected. This reduces the reporting of troubles during short duration ac brownouts. NAC configuration options include: ac power fail delay (16 seconds or 6 hours); sensing input to NAC output correla- tions; and, auxiliary outputs. NAC 3 and 4 are configurable as auxiliary outputs. Auxiliary outputs can be always on, or off after 30 seconds without ac power. Jumpers configure the BPS for Class A or Class B wiring. EDWARDS SYSTEMS TECHNOLOGY SARASOTA, FLA 941-739-4200 Fax 941-727-0740 CHESHIRE, CT. 203-699-3000 Fax: 203-250-1931 OWEN SOUND, CANADA 519-376-2430 Fax: 519-372.1581 INTERNATIONAL. CANADA 905-270-1711 Fax:905-270-9553 PITTSFIELD, ME. 207-487-3104 85005-0107 1 of 4 Iss. 1 Ordering Information Catalog Numbe� Description Shipping Wt. lb (kg) BPS6 6.5 Amp Booster Power Supply 13 (5.9) BPS6220 6.5 Amp Booster Power Supply (220V) BPS6C 6.5 Amp Booster Power Supply (ULC Version) BPS10 10 Amp Booster Power Supply BPS10220 10 Amp Booster Power Supply (220V) BPS10C 10 Amp Booster Power Supply (ULC Version) Related Equipment 12V6A5 6.5 Amp Hour Battery, two required 3.4 (1.6) 12V10A 10 Amp Hour Battery, two required 9.5 (4.3) Specifications Catalog Number 6.5 amp Booster 10 amp Booster AC Line Voltage 120VAC or 220-240VAC 50/60Hz 250 watts 120VAC or 220-240VAC 50/60Hz 375 watts Notification Appliance Power 3.0A max. per circuit @ 24Vdc nominal 6.5A max total all NACs 3.0A max. per circuit @ 24Vdc nominal 10A max total all NACs Auxiliary Outputs Two configurable outputs replace NACs 3 and/or 4. NAC 3 and/or 4 are configurable as auxiliary outputs. Input Current (from an existing NAC) 3mA © 12Vdc, 6mA @ 24Vdc Signature Mounting Space Accomodates three two -gang modules. Maximum Battery Size 10 Amp Hours (2 of 12V10A) Terminal Wire Gauge 18-12 AWG Relative Humidity 0 to 93% non condensing Temperature Rating 32° to 120°F (0° to 49°C) NAC Wiring Styles Class A or Class B Output Signal Rates Continuous, 120 SPM, 3-3-3 temporal, or follow installed panel's NAC. Agency Listings UL Engineering Specification Supply where needed EST BPS series Booster Power Supplies as an extension of Notification Appliance Circuits. The extension shall be in the form of a stand alone booster power supply. The supply must incorporate its own standby batteries. Batteries must be sized for <24>, <60> hours of standby followed by <5>, <30> minutes of alarm. It must be possible to support up to 10 amp hour batteries. The booster supply must incorporate four independent supervised Notification Appliance Circuits. It shall be possi- ble to configure the NACs to follow the main panel's NAC or activate from intelligent Signature Series modules. The booster NACs must be configurable to operate independ- ently at any one of the following rates: continuous; 120 SPM; or, 3-3-3 temporal. Fault conditions on the booster shall not impede alarm activation of host NAC circuits. 85005-0107 2 of 4 Iss 1 Typical Wiring Single booster anywhere on a notification appliance circuit Existing NAC end -of -line resistors are not required to be installed at the booster's terminals. This allows multiple boosters to be driven from a single NAC circuit without the need for special configurations. Multiple boosters cascaded from a single notification appliance circuit NAC Circuit Fire Alarm Control Panel rue, -03 CONI V ion a 5 - Booster Booster Power Supply To next signaling )'device, booster. or COL resistor > MAC output #1 NAC output #2 ) NAC output #3 NAC output #4 To next signaling ).device, booster. or EOL resistor rn > NAC output #1 ) NAC output #2 _ > MAC output #3 NAC output #4 Booster Power Supply To next signaling >device, booster or EOL resistor ) MAC output #1 ) NAC output a2 MAC output #3 ) NAC output #4 Booster Power Supply Multiple notification appliance circuits branched from a single control panel To next signaling modules per booster NAC. NAC Circuit NAC Circuit Fire Alarm Control Panel NAC Circuit NAC Circuit Fire Alarm Control Panel v v g) %' N > To next signaling device, booster, or > EOL resistor > > C C C Booster Power Supply > NAC output #1 > NAC output #2 > NAC output #3 > NAC output #4 Multiple Signature modules branching a single notification appliance circuit Booster Power Supply Main Board NAC1+ NAC2+ NAC3+ NAC4 r, P1 IN 61 Sense 1 COM OUT teams+ !NMI Sense 2 COM: OUT NOi Trouble COM Battery NC NAC Circuit EOL 15K From existing fire alarm panel notification circuit or CC1 module NOTES: L1\ Used for another Class B NAC circuit. Up to 10 CC1 or UM .-�-� dee, booster, or EOvicL resu:tor at )NAC output #1 NAC output #2 ) NAC output #3 ) NAC output #4 Booster Power Supply N N S ;3- o 0 c Booster Power Supply To next signaling device, booster, or EOL resistor NAC output #1 NAC output #2 NAC output #3." `— MAC output #4 All 5 outputs activate when — .vnut NAC #1 activates ,cased on programming) To next signaling All 5 outputs activate when device, booster, or — input MAC #2 activates EOL resistor (based on programming) NAC Output at a 0 Booster Power Supply ) MAC output ri NAC -_ .4 Yfif NAC output #4�_ *Out to EOL ► or next device NAC Circuit 1 CC Modulo + - +- o+o-+ 8765 432 Data out to next device Data n from previous device or Signature controller NAC Circuit EOL 47 K 1.5 amps total CC Module +_+_ 0+7+_ 8765 4321 Data out to next device Data in from previous devise or Signature controller A4,1,0 typical wiring diagrams on the next page.. 85005-0107 3ot4lss.1 Typical Wiring (continued) Signature module used to activate the booster This configuration eliminates the necessity of separate 24V sources. Signature modules may also be used to divide the booster's 3 amp output circuits into smaller current loads. Booster Power Supply Main Board Notification Notification Appliance Circuit (NAC) ON NOTES: /.1:1 Used for another Class B NAC circuit Data in from previous _J Loi NAC4 is configured as an auxiliary output. device or Signature nDext doer to Controller CC1 wiring must be wrthln 3 feet of the Booster wiring and in conduit or mounted within the Booster's enclosure 4 Any Booster trouble will cause the CC1 supervision to report a trouble to the main fire panel. Multiple Signature modules as booster inputs Configure the outputs where zoning is required. Booster Power Supply Main Board Up to 10 CC1 or UM modules per booster NAC. Installation and Mounting Dimensions 1700" (432 cm) 3 375" (8.6 cm 3.i0" (8.9 gm) • 17.00" (43.2 cm) 13.00" (33.02 cm) ) Top View 13.00" (33.02 cm) f 7.00" (17.78 cm) Front View All knockouts for 3/4" conduit (1.9 cn'. , fi NAC1+. NAC2+. NAC3+ NAC4+r2 Pt IN: Sense 1 COM: OUT IN: Sense 2 COM: OUT: NO Trouble COM. Bane NC r,. Notification .prance Circuit (NAC) -+ Y /1 NOTES: Used for another Class 8 NAC circuit 2 Any Booster trouble will cause the CC t supervision to report a trouble to the main fire panel Modules must be wired and programmed on the Signature controller for proper operation CC1 Module +-+- 0 0 .47.1.5 4321 rtt. Riser in 12 - 24 Vdc Assembly CC1 + - + - Module O 0 7..45 432.x........ Riser out to next device or nser supervisory device Route AC supply flf� through these It • • tits only (non -power limited) Notes: 1 Maintain 1/4 in. (6 mm) spacing between power limned and non -power limited wiring or use type FPL. FPLR, or FPLP cable per NEC. Supervised when not Configured as auxiliary power Non -supervised when configured as auxiliary power Source must be power limited 85005-0107 4 of 4 Iss. 1 x Ia Our IMenlgn to keep rile product Inlormalgn cumenl and accurate We can not COR, specax ■pplcal.ons a anticipate s1 requirements Al specifications Cr. stblect to change wan. ora notice For more information or questions reltlire t0 Pus Specification Sreel. contact EST O 1999 EST Printed in U S.A EDWARDS SYSTEMS TECHNOLOGY INTELLIGENT ANALOG DEVICES Intelligent Photoelectric Smoke Detector Model SIGA-PS Features • INTEGRAL MICROPROCESSOR • NON-VOLATILE MEMORY • AUTOMATIC DEVICE MAPPING • ELECTRONIC ADDRESSING • ENVIRONMENTAL COMPENSATION • INTELLIGENT DETECTOR • WIDE 0.67% TO 3.77%/FT. SENSITIVITY RANGE • PRE -ALARM SENSITIVITY SETTING • IDENTIFICATION OF DIRTY OR DEFECTIVE DETECTORS • AUTOMATIC DAY/NIGHT SENSITIVITY ADJUSTMENT • TWIN RED/GREEN STATUS LEDS • STANDARD, RELAY, and FAULT ISOLATOR MOUNTING BASES • DESIGNED AND MANUFACTURED TO ISO 9001 STANDARDS Description EST's Signature Series Model SIGA-PS Intelligent Photoelec- tric Smoke Detector gathers analog information from its smoke sensing element and converts it into digital signals The detector's on -board microprocessor measures and analyzes these signals. It compares the information to historical readings and time patterns to make an alarm decision. Digital filters remove signal patterns that are not typical of fires. Unwanted alarms are nearly eliminated. The microprocessor in each detector provides four additional benefits - Self -diagnostics and History Log, Automatic Device Mapping, Stand-alone Operation and Fast, Stable Communication. Self -diagnostics and History Log - Each Signature Series detector constantly runs self -checks to provide important maintenance information. The results of the self -check are automatically updated and permanently stored in the detector's non-volatile memory. This information is accessi- ble for review any time at the control panel, PC, or by using the SIGA-PRO Signature Program/Service Tool. The information stored in the detector's memory includes: - detector type, serial number, and address. - date of manufacture, hours of operation, and last maintenance date. -current detector sensitivity values and the extent of environmental compensation. - original detector sensitivity values upon manufacturing. - number of recorded alarms and troubles. - time and date of last alarm. - analog signal patterns just before the last alarm, - Up to 32 possible trouble codes which may be used to specifically diagnose faults. In the unlikely event that an unwanted alarm does take place, the history file can be called up to help isolate the problem and prevent it from happening again. Automatic Device Mapping - The loop controller learns where each device's serial number address is installed relative to other devices on the circuit. The "mapping" feature provides supervision of each device's installed location to prevent a detector from being reinstalled (after cleaning etc.) in a different location from where it was originally. The history log for the detector at its original location remains relevant and intact. The Signature Series Data Entry Program also uses the mapping feature. With interactive menus and graphic support, the wired circuits between each device can be examined. Layout or "as -built" drawing information showing wire branches (T -taps), device types and their address are stored on disk for printing hard copy. This takes the "mystery" out of the installation. The preparation of "as -built" drawings is fast and efficient. Device mapping allows the Signature loop controller to discover: - unexpected additional device addresses. - missing device auuresses. - changes to the wiring in the circuit. EDWARDS SYSTEMS TECHNOLOGY SARASOTA, FLA. 941-739-4200 Fax: 941-727-0740 CHESHIRE, CT 203.699-3000 Fax:203.250-1931 OWEN SOUND, CANADA 519-376-2430 Fax: 519-372-1581 INTERNATIONAL:CANADA 905-270-1711 Fax: 905-270-9553 PITTSFIELD, ME 207-487-3104 85001-0269 1 of 4 ISS 2 Stand-alone Operation - A decentralized alarm decision by the detector is guaranteed. On -board intelligence permits the detector to operate in stand-alone mode. If loop controller CPU communications fail for more than 4 seconds, all devices on that circuit go into stand-alone mode. The circuit acts like a conventional alarm receiving circuit. Each detec- tor on the circuit continues to collect and analyze information from its surroundings. The detector alarms if the preset smoke obscuration level is reached. If the detector is mounted to a relay base, the relay operates. Fast Stable Communication - On -board intelligence means less information needs to be sent between the detector and the loop controller. Other than regular supervisory polling response, the detector only needs to communicate with the loop controller when it has something new to report. This provides very fast response time and allows a lower baud rate (speed) to be used for communication on the loop. The lower baud rate offers several advantages including: - less sensitivity to circuit wire characteristics. - less sensitivity to noise glitches on the cable. - less emitted noise from the analog wiring. - twisted or shielded wiring is not required. Electronic Addressing - The loop controller electronically addresses each detector, saving valuable time during system commissioning. Setting complicated switches or dials is not required. Each detector has its own unique serial number stored in its "on -board memory". The loop controller identi- fies each device on the circuit and assigns a "soft" address to that device's serial number. If desired, detectors can be addressed using the SIGA-PRO Signature Program/Service Tool. Environmental Compensation - Detection sensitivity is almost independent of its installed environment and its physical condition. Environmental compensation meat the sensing element adapts to long-term changes caused by dirt, humidity, aging etc. It even compensates for small amounts of normal ambient smoke. Approximately six times an hour the detector adjusts and updates the sensitivity (% obscuration) baseline for its sensing element. Approxi- mately once every hour this information is written to its permanent memory. The detector's "learned" baseline is not lost, even when the detector is removed for cleaning. The detector's sensitivity setting selected by the installer floats up or down to remain constant relative to the changing baseline. This is called differential sensing. Sensitivity Range - The SIGA-PS Photoelectric Detector has a sensitivity range or window of 0.67% to 3.77%. The installer selects the detector's ALARM sensitivity level from five available settings within the range. Pre -Alarm - Pre -alarm warnings may alert local staff to a possible fire condition allowing them to investigate before entering into a full alarm condition which requires building evacuation. The wide sensitivity range permits the use of early warning pre -alarm values. The pre-alarr- is 75% of the alarm setting. Automatic Day/Night Sensitivity Selection - Signature Series detectors may be programmed for different sensitivi- ties during day and night periods. This allows the detector to be more sensitive during unoccupied periods when lower ambient background conditions are expected. Stability - The SIGA-PS detector's sensitivity remains stable in wind velocities up to 5,000 ft/min (25.3 Msec). Ambient temperature has very little affect on the detector. The be installed in rooms with ambient tempera- tures up to 120°F (49°C). Status LEDs - Twin LEDs are visible from any direction. A flashing GREEN led shows normal system polling from the loop controller. A flashing RED led means the detector is in alarm state. Both leds on steady shows alarm state - stand- alone mode. Normal green led activity is not distracting to building occupants, but can be quickly spotted by a mainte- nance technician. Quality and Reliability - EST detectors are manufactured in North America to strict international ISO 9001 standards. All electronics utilize surface mount technology (SMT) for smaller size and greater immunity to RF noise. A conformal coating is used for humidity and corrosion resistance. All critical contacts are gold plated. Installation Signature Series detectors mount to North American 1 -gang boxes, 3-1/2" or 4" octagon boxes, and to 4" square electrical boxes 1-1/2" (38 mm) deep. They mount to European BESA and 1 -gang boxes with 60.3 mm fixing centers. 4.4' (112mm) Testing & Maintenance Each detector automatically identifies when it is dirty or defective and causes a "dirty detector" message. The detector's sensitivity measurement can also be transmitted to the loop controller. A sensitivity report can be printed to satisfy NFPA sensitivity measurements which must be conducted at the end of the first year and every two years thereafter. The user-friendly maintenance program shows the current state of each detector and other pertinent messages. Single detectors may be turned off temporarily from the control panel. Availability of maintenance features is dependent on the fire alarm system used. Scheduled maintenance (Regu- lar or Selected) for proper detector operation should be planned to meet the requirements of the Authority Having Jurisdiction (AHJ). Refer to current NFPA 72 and ULC CAN/ ULC 536 standards. Compatibility The SIGA-PS detectors are compatible only with EST's Signature Loop Controller. 85001-0269 2 of 4 Iss. 2 Application Although photoelectric detectors have a wide range of fire sensing capabilities they are best suited for detecting slow, smoldering fires. The table below shows six standard test fires used to rate the sensitivity of smoke and heat detectors. The table indicates that no single sensing element is suited for all test fires. EST recommends that this detector be installed according to latest recognized edition of national and local fire alarm codes. Test Fire Type of Detector SIGA-IS Ion SIGA-PS Photo SIGA-HRS and SIGA-HFS Rate -of -Rise/Fixed Temp. SIGA-PHS Photo/Heat 3D SIGA-IPHS lon/Photo/Heat 4D Open Wood optimum unsuitable optimum very suitable optimum Wood Pyrolysis suitable optimum unsuitable optimum optimum Smouldering Cotton very suitable optimum unsuitable optimum optimum Poly Urethane Foam very suitable very suitable suitable very suitable optimum n-Heptane optimum very suitable very suitable optimum optimum Liquid Fire without Smoke unsuitable unsuitable optimum very suitable very suitable Typical Wiring The detector mounting bases accept #18 AWG (0.75mm2), #16 (1.0mm2), and #14 AWG (1.5mm2) wire sizes. Note: Sizes #16 AWG (1.0mm2) and #18 AWG (0.75mm2) are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. Standard Detector Base, SIGA-SB, SIGA-SB4 DATA IN (-) Max. Resistance per Wire Must NOT Exceed 1013 Term 2 3 4 4 5 6 7 Description - Not Used DATA IN/OUT (+) Not Used DATA IN (-) Remote LED (-) Remote LED (+) Not Used DATA OUT (-) DATA OUT (-) DATA IN (+) From Signature Controller or Previous Device DATA OUT (+) To Next Device Isolator Detector Base, SIGA-IB, SIGA-IB4 DATA IN (- Term Description 1 Not Used 2 DATA IN/OUT (+) 3 DATA IN (-) 4 Not Used 5 Not Used 6 DATA OUT (-) 7 Not Used DATA OUT (-) DATA IN (+) From Signature Controller or Previous Device DATA OUT (+) To Next Device Warnings & Cautions This detector will not operate without electrical power. As fires frequently cause power interruption, we suggest you discuss further safeguards with your fire protection specialist. Relay Detector Base, SIGA-RB, SIGA-RB4 Normally- Normally - Closed Open DATA IN (-) Term Description 1 Normally -Closed 2 DATA IN/OUT (+) 3 Common 4 DATA IN (-) 5 Not Used 6 Normally -Open 7 DATA OUT (-) CONTACT RATING 1.0 Amp CP 30 VDC (Pilot Duty) DATA OUT (-) DATA IN (+) From Signature Controller or Previous Device Tamper -Resist Lever Arm , - Break off to disable - (Located on Base) Access Slot for Tamper -Resist Mechanism DATA OUT (+) To Next Device This detector will NOT sense fires that start in areas where smoke cannot reach the detector. Smoke from fires in walls, roofs, or on the opposite side of closed doors may not reach the detector to alarm it. 85001-0269 3 of 4 Iss. 2 Accessories All detector mounting bases have wiring terminals that are accessible from the "room -side" after mounting the base to the electrical box. The bases mount to North American 1 -gang boxes and to 3-1/2" or 4" octagon boxes, 1-1/2" (38 mm) deep. They also mount to European BESA and 1 -gang boxes with 60.3 mm fixing centers. The SIGA-SB4, SIGA-RB4, and SIGA-IB4 mount to North American 4" sq. electrical boxes in addition to the above boxes. They include the SIGA-TS Trim Skirt which is used to cover the "mounting ears" on the base. Removing a detector from its base (except isolator base) does not affect other devices operating on the same circuit. Standard Base SIGA-SB, SIGA-SB4 - This is the basic mounting base for EST Signature Series detectors. The SIGA-LED Remote LED is supported by the Standard Base. Relay Base SIGA-RB, SIGA-RB4 - This base includes a relay. Normally open or closed operation is selected during installation. The dry contact is rated for 1 amp @ 30 Vdc (pilot duty). The relay's position is supervised to avoid accidentally jarring it out of position. The relay base does not support the SIGA-LED Remote LED. The relay is controlled by the detector and operates as follows: - at system power -up or reset, the relay is de -energized. - when a detector is installed in the base with the power on, the relay energizes for 4 seconds, then de -energizes when a detector is removed from a base with the power on, the relay is de -energized. when the detector enters the alarm state, the relay is energized. Isolator Base SIGA-IB, SIGA-184 - This base includes a built-in line fault isolator. A detector must be installed for it to operate. The integral isolator relay is controlled by the detector or the loop controller. A maximum of 96 isolator bases can be installed on one circuit. The isolator base does not support the SIGA-LED Remote LED. The isolator operates as follows: - a short on the line causes all isolators to open within 23 msec. - at 10 msec intervals, beginning nearest the loop controller, the isolators close to provide the next isolator down the line with power. - when the isolator next to the short closes, it reopens within 10msec. In Class A operation, the process repeats beginning on the other side of the loop controller. Ordering Information Table Catalog N SIGA-PS Accessories SIGA.SB I Intelligent Ph g otoelectnc Detector UUULC Listed Remote LED SIGA-LED - The remote LED connects to the SIGA-SB or SIGA-SB4 Standard Base only. It features a North American size 1 -gang plastic faceplate with a white finish and red alarm LED. SIGA-TS Trim Skirt - Supplied with 4" bases, it can also be ordered separately to use with the other bases to help hide surface imperfections not covered by the smaller bases. Specifications Table Catalog Number Sensing Element Storage and Operating Environment Sensitivity Range User Selected Alam) Sensitivity Settings Pre -alarm Sensitivity Operating Voltage Operating Current Construction & Finish Compatible Mounting Bases LED Operation Compatibility Address Requirements Agency Listings SIGA-PS Photoelectric . Light Scattering Principle Air Velocity Range 0 to 5,000 ft/min (0 to 25.39 m/s) Operating Temperature. 32°F to 120°F (0°C to 49°C) Storage Temperature: -4°F to 140°F (•20°Cto 60°C) Humidity: 0 to 93% RH, Non -Condensing ULI/ULC - 0.67% to 3.77% obscuration/toot Most Sensitive: 1.0%Itt. More Sensitive: 2.0%/ft. Normal: 2.5%/ft. Less Sensitive: 3.0°i°/ft. Least Sensitive: 3.5%/ft. 75% of Alarm Sensitivity Setting 15.2 to 19.95 Vdc (19 Vdc nominal) Quiescent: 45pA @ 19 V Alarm: 45pA © 19 V Emergency Stand-alone Alarm Mode: 18mA Pulse Current: 100 pA (100 msec) During Communication: 9 mA maximum High Impact Engineering Polymer - White SIGA-SB, SIGA-S134 Standard Base, SIGA-RB, SIGA-RB4 Relay Base, SIGA-IB, SIGA-I134 Isolator Base On -board Green LED - Flashes when polled On -board Red LED - Flashes when in alarm Both LEDs - Glow steady when in alarm (stand-alone) Compatible Remote Red LED (model SIGA-LED) Flashes when in alarm Use With: SIGNATURE Loop Controller Uses 1 Device Address UL, ULC Description SIGA-SB4 SIGA-RB SIGA-RB4 SIGA-IB SIGA-IB4 SIGA-LED SIGA-TS Detector Mounting Base • Standard 4' Detector Mounting base c/w SIGA-TS Trim Skirt Detector Mounting Base w/Relay 4' Detector Mounting Base w/Relay c/w SIGA-TS Tnm Detector Mounting Base w/Fault Isolator 4' Detector Mounting Base w/ Fault Isolator c/w SIGA- Remote Alarm LED Trim Skirt (supplied with 4' bases) 85001-0269 4 Of 4 ISS 2 h ,s our intention to keep the product information current and accurate We can nq cover specanc applications or anticipate as requirements Alf specifications are 1,114410 to ctan9e weh out notice For more iniormatnn or questions relative io thrs Specification Sheet contact EST ©1996 EST PrintedInUSA Carton Dims. Inches Ship Wt. (mm) 5 (127)w x 3.6 lbs (kg) (91)h x 5 (127)d .5 (.23) 6 (152)w x 1 (25)h x 6 (152)d .2 (.09) Skin TS Trim Skirt 3.8 (97)w x 2.8 (71)h x 6 (152)d 6 (152)w x 1 (25)h x 6 (152)d .2 (.09) .1 (.04) 85001-0269 4 Of 4 ISS 2 h ,s our intention to keep the product information current and accurate We can nq cover specanc applications or anticipate as requirements Alf specifications are 1,114410 to ctan9e weh out notice For more iniormatnn or questions relative io thrs Specification Sheet contact EST ©1996 EST PrintedInUSA EDWARDS SYSTEMS TECHNOLOGY INTELLIGENT ANALOG DEVICES Intelligent Duct Smoke Detector Housing - Model SIGA-DH Features • SUITABLE FOR HIGH AIR VELOCITY DUCT APPLICATIONS - Up to 4000 ft/min. (20.3 m/sec.) with Photoelectric Detector. • STANDARD SIGNATURE SERIES DETECTORS Designed for use with standard 4D, 3D, and Photoelectric Signature Series smoke detectors. Does not require "special" duct smoke heads. • STANDARD, RELAY OR ISOLATOR DETECTOR BASE Detector "plugs -in" to base then easily installs into housing. • INSTALL IN DUCTS UP TO 10 FT. (3.05 M) WIDE • REMOTE LED AND TEST STATION - ACCESSORIES • DESIGNED AND MANUFACTURED TO ISO 9001 STANDARDS Description The SIGA-DH Duct Smoke Detector Housing is specially engineered to exploit all the capabilities of Signature Series intelligent photoelectric and multisensor smoke detectors. EST Signature Series detectors gather analog information from each of their one or more sensing elements and converts it into digital signals. The detector's onboard microprocessor measures and analyzes these signals. It compares them to historical readings, time patterns and known characteristics to make an alarm decision. Digital filters and complex Algorithms are applied for optimum detector accuracy. Unwanted alarms are nearly eliminated. Each duct housing is packaged with detailed installation instructions, gaskets and a self-adhesive drilling template for locating and mounting the detector. The large access door is completely removable to allow fast detector installation and field wiring connections. The 16 gauge steel housing is finished in red baked enamel for easy identification. Five 1 - gang knockouts on the housing provide a convenient location for mounting intelligent Signature Series modules. The SIGA-DH Duct Housing comes with a 6 inch (150 mm) exhaust tube. Air sampling tubes are available in lengths from 8 inches (200 mm) to 10 feet (3048 mm) and must be ordered separately. Compatible smoke detectors, mounting bases, and accessories are listed in the Ordering Information. Refer to individual device catalog literature pages for more detail. Intelligent Duct Smoke Detectors Compatible Signature Series detectors include the SIGA- IPHS 4D Multisensor Smoke Detector with THREE INTEGRATED SENSING TECHNOLOGIIES. It combines Ionization, Photoelectric and Heat sensors and processes and analyzes information from each sensor separately using dynamic filters. Also compatible are the SIGA-PHS 3D Multisensor Detector and the SIGA-PS Photoelectric Detector. The installer selects the alarm sensitivity level from the detector's wide 0.67 to 3.7% sensitivity range window. Five settings are available from within the range. Environmental Compensation Detection sensitivity for Signature Series detectors is almost independent of their installed environment and their physical condition. Each sensing element adapts to long-term changes caused by dirt, humidity, aging etc. Every 8.6 minutes the detector adjusts and updates the sensitivity (% obscuration) ambient baseline for its smoke sensing element. Every 68 minutes this information is written to its permanent memory. The detector's alarm sensitivity setting selected by the installer floats up or down to remain constant relative to the changing baseline. This is called environmental compensation. Identification of Dirty or Defective Detectors Each detector automatically identifies when it is polluted and causes a "dirty detector" message. The detector's sensitivity measurement can also be transmitted to the loop controller. This measurement satisfies NFPA sensitivity measurement EDWARDS SYSTEMS TECHNOLOGY SARASOTA, FLA. 941-739-4200 Fax: 941 _ CHESHIRE, CT. 203-6993000 Fax. 203-250-1931 OWEN SOUND, CANADA 519-376-2430 Fax. 519-372-1581 INTERNATIONAL CANADA 905-270.1711 Fax: 905-270-9553 PITTSFIELD, ME.207-487-3104 85001-0325 1 014 Iss. 1 requirements. The detector's internal components are self - supervised. Up to 32 trouble codes are generated and displayed for diagnostics. Non -Volatile Memory Signature Series smoke detectors permanently store a serial number, type of device and job number. Automatic updates of historic information including hours of operation, last maintenance date, number of alarms and troubles, time and date of last alarm are available. In the unlikely event that an unwanted alarm does take place, the history file can be called up to help isolate the problem and prevent it from happening again. Electronic Addressing & Device Mapping The Signature loop controller automatically addresses each detector to save valuable time during system commissioning. Setting complicated switches or dials on each intelligent device is not required. If desired, the detectors can be custom addressed using the Signature Series Data Entry Program. The wired circuits between each device can be examined using the data entry program along with the self -mapping feature built into all Signature Series devices. With its graphic support, layout or "as -built" drawing information showing wire branches (T -taps), device types and their address are stored on disk for printing hard copy. This takes the 'mystery' out of the installation. The preparation of "as - built" drawings is fast and efficient. Device mapping also allows the Signature loop controller to discover: - unexpected additional device addresses. - missing device addresses. - changes to the wiring in the data loop. Stand -Alone Operation On -board intelligence permits Signature devices to operate in stand-alone mode. Should loop controller CPU communications fail for more than 4 seconds, all devices on that circuit (loop) go into stand-alone mode. The loop acts like a conventional alarm receiving circuit. Each detector on the loop continues to collect and analyze information from its surroundings. The detector alarms if the preset smoke obscuration level is reached and causes a loop alarm. If the detector is mounted to a relay base, the relay operates. Quality and Reliability EST detectors are designed and manufactured in North America to ISO 9001 standards. All electronics utilize surface mount technology (SMT) for smaller size and greater immunity to RF noise. A conformal coating is used for corrosion resistance and all critical contacts are gold plated. Signature Duct Detector Accessories Duct Detector Air Sampling Tubes One air sampling inlet tube must be ordered for each duct smoke detector housing. Refer to Ordering Information for available lengths. Detector Mounting Bases One detector mounting base must be ordered for each duct smoke housing. Removing a detector from its base (except isolator base) does not affect other devices operating on the same data loop. Available bases are: Standard Base SIGA-SB - This is the basic mounting base. , The SIGA-LED Remote LED js supported by the Standard Base. Relay Base SIGA-RB - This base includes a relay. Normally open or closed operation is selected during installation. The dry contact is rated for 1 amp @ 30 Vdc (pilot duty). The relay's position is supervised to avoid accidentally jarring it out of position. The Relay Base does not support the SIGA- LED Remote LED. Relay bases are not affected or activated by the SIGA-DTS Duct Test Station. The relay is controlled by the detector and operates as follows: - at system power -up or reset, the relay is de -energized - when a detector is installed in the base with the power on, the relay energizes for 4 seconds, then de -energizes. - when a detector is removed from a base with the power on, the relay is de -energized. - when the detector enters the alarm state, the relay is energized. Isolator Base SIGA-IB - This base includes a built-in line fault isolator. A detector must be installed for it to operate. The integral isolator relay is controlled by the detector or the loop controller. A maximum of 96 isolator bases can be installed on one loop. The Isolator Base does not support the SIGA-LED Remote LED. Alarm LED Indicator The SIGA-LED Alarm Indicator is suitable for use with the SIGA-SB detector base only. A maximum of 1 can be operated for each detector. It features a red LED on a 1 - gang plastic plate and can be installed remote or directly on the SIGA-DH Duct Housing. Duct Test Station The SIGA-DTS Duct Test Station uses a key switch along with an integral intelligent input module mounted on a 2 - gang plastic plate. It is supplied with 2 keys and features a red alarm led. When the key is turned to the "TEST" position, the led lights and the integral module remotely inputs a duct detector test alarm. The actions and sequences programmed at the control panel to activate dampers and other smoke control measures, are easily tested. Detector relay bases are not affected or activated. Resetting the control panel clears the test and returns the system to normal. The key cannot be removed when in the "TEST" position. The Duct Test Station mounts to standard 2" deep North American 2 -gang and 4" square electric boxes and European 100 mm square boxes. Air Velocity Test Kit The 6263 -SG Air Velocity Test Kit is specially designed to interface to the SIGA-DH Duct Housing. It is used to test or confirm the air velocity in HVAC ducts where the duct housing is installed. 85001-0325 2of4lss 1 Specifications SIGA-DH Duct Housing (NOTE: The SIGA-DH Duct Housing is NOT WEATHERPROOF or DUST TIGHT.) � ,,,..,,,J,,,,,., � :.,.. k.VU11tl111YV A 7" k 3nm)H x 5" (127mm)D Material and Finish 16 Gauge Cold Rolled Steel, Red - Baked Enamel Conduit Knockouts Combination 1/2" 4" Agency Approvals UL, ULC, ME FM Compatible Smoke Detectors SIGA-PS SIGA-PHS SIGA-IPHS Air Velocity Range 300 to 4000 ft/min. (1.5 to 20.3 msec) ft/mn. 300 to 1000 m/sec) (1.5 to 5.0 sec) Smoke Sensing Element(s) Photoelectric - Light Scattering Principle Photoelectric Light Scattering Principle Heat - 135°F (57°C) Fixed Temperature Ionization - Unipolar Photoelectric - Light Scattering Principle Heat Alarms at 65°F (35°C) change in ambient temp. Operating Environment Temperature: 32 to 120°F (0 to 49°C) Humidity: 0 to 93% RH, non -condensing Temperature: 32 to 100°F (0 to 38°C) Humidity: 0 to 93% RH, non - condensing Storage Environment Temperature: -4 to 140°F (-20 to 60°C); Humidity: 0 to 93% RH, non -condensing ULI/ULC Sensitivity Range 0.67% to 3.77% obscuration/foot (305mm) 0.67% to 3.70% obscuration/foot (305mm) User Selected Alarm Sensitivity Settings Least Sensitive: 3.5%; Less Sensitive: 3.0%; Normal: 2.5%. More Sensitive: 2.0%; Most Sensitive: 1.0% Pre -alarm Sensitivity 75% of Alarm Sensitivity Setting • Electrical and Physical Characteristics refer to individual detector catalog sheets Compatible Mounting Bases SIGA-SB Standard Base, SIGA-RB Relay Base, SIGA-IB Isolator Base Compatible Remote LED SIGA-LED (led flashes when in alarm) Controller Compatibility SIGNATURE Loop Controller Addressing Restrictions Uses 1 Input Device Address SIGA-DTS Duct Test Station Operating Current Standby = 250uA; Activated = 400uA Operating Voltage 15.2 to 19.95 Vdc (19 Vdc nominal) Replacement Key p/n - P-037449 Storage and Operating Temperature 32 to 120°F (0 to 49°C) Onboard LED Operation Red LED - flashes when in alarm or test state Mounting North American electric box: 2" deep 2 -gang or 4" square ; European electric box: 100 mm square Construction & Finish High Impact Engineered Plastic 2 -gang front plate - White Addressing Restrictions Uses 1 Module Address Application Notes The SIGA-DH Duct Smoke Detector Housing requires a clear, flat, accessible area on the duct of at least 7-3/8" (188mm) W x 7" (175mm) H. The duct housing must be installed on ducts at least 8" (200mm) wide. To avoid the effects of stratification, install the detector housing a minimum of six (6) duct widths beyond any bends in the duct. Duct detectors are usually installed on the "supply" duct after the air filters; or in the "return" air stream prior to being diluted by outside air. Sample tube length must span the entire width of the air duct and the tube can be easily cut to any length. Inlet tubes longer than 3 ft.(900mm) must be supported at both ends. Duct Detectors continually sample air flow in a HVAC duct and initiate an alarm condition whenever smoke is detected. An alarm is activated when the quantity (percent obscuration) of combustion products in that air sample exceeds the detector's sensitivity setting. -Bend or other obstruction 6 Duct widths (minimum) Duct width Duct detector location 85001-0325 3 of 4 Iss. 1 Air velocity in the duct maintains the air flow that enters the detector housing through perforations in the air sampling inlet tube and discharges through the outlet exhaust tube. The detector housing must be installed with its INLET air sampling tube upstream of the EXHAUST tube. Before installing the duct detector housing, test the duct air velocity to verify it is within the limits of the Signature Smoke Detector that is being installed. Also verify that duct air relative humidity is within 0 and 93 percent. WARNING: Duct detectors have specific limitations. Duct Detectors ARE NOT a substitute for an open area smoke detector. Duct Detectors ARE NOT a substitute for early warning detection. Duct Detectors ARE NOT a replacement for a building's regular fire detection system. Smoke Detectors ARE NOT designed to detect toxic gases which can build up to hazardous levels in some fires. These devices WILL NOT operate without electrical power. As fires frequently cause power interruptions, EST suggests you discuss further safeguards with your local fire protection specialist. Typical Wiring The detector mounting bases and test station will accept #18 AWG (0.75mm2), #16 (1.0mm2), and #14 AWG (1.50mm2) wire sizes. Note: #14 AWG (1.5 mm2) is not recommended due to difficulty of installation. See Loop Controller and Detector catalog sheets for detailed wiring requirement specifications. Installation and Mounting EST recommends Duct Detectors always be installed in accordance with the latest recognized editions of local and national fire alarm codes. Ordering Information Catalog Number Description Ship Wt - lb. (kg) SIGA-DH Duct Detector Housing 6.5 (3) 6261-001 8" (200mm) Air Sampling Inlet Tube .25 (.1) 6261-002 24" (600mm) Air Sampling Inlet Tube .5 (.2) 6261-003 42" (1060mm) Air Sampling Inlet Tube 1.6 (.8) 6261-006 78" (1980mm) Air Sampling Inlet Tube 2.2 (1) 6261-010 120" (3048mm) Air Sampling Inlet Tube 4.4 (2) SIGA-IPHS 4D Multisensor Detector .5 (.23) SIGA-PHS 3D Multisensor Detector .5 (.23) SIGA-PS Photoelectric Detector .5 (.23) SIGA-SB Standard Base .2 (.09) SIGA-RB Relay Base .2 (.09) SIGA-IB Isolator Base .2 (.09) SIGA-LED Alarm LED Indicator .2 (.09) SIGA-DTS Duct Test Station ..4 (.18) 6263 -SG Duct Air Velocity Test Kit T T Locating Pin DO NOT BENDI Red exhaust tube connector Exhaust tube (supplied) Orient with slant directed away from airflow Front Cover Adapter Plate Base Smoke chamber Neoprene gasket attached to housing Air sampling tube connector Air inlet sampling tube (Orient with air holes facing airflow) Rubber stopper --must be installed into end of sampling tube 85001-0325 Airflow It IS our intention to keep the product intormatan current and accurate We can not coyer spec/K appkcauons or anticipate all requirements A/ specifications are suLtect to change with. out nonce For more urtom.i,orl Or questions relative to this Spac/canon Sheet, contact EST 4 of 4 Iss. 1 01996 EST Printed in u S A EDWARDS SYSTEMS TECHNOLOGY Manual : II Stations Models SIGA-270, SIGA-270P, SIGA-278 Features • TRADITIONAL FAMILIAR APPEARANCE SIGA-270 models feature our familiar "teardrop" design with simple positive pull action and sturdy die-cast metal body. • ONE STAGE (GA), TWO STAGE (PRE -SIGNAL), AND DOUBLE ACTION MODELS SIGA-270 models are available for one or two stage alarm systems. The single stage double action SIGA-278 features a rugged lexan housing with keyed reset mechanism. • BREAK GLASS OPERATION An "up -front" visible glass rod on the SIGA-270 discourages tampering. • INTELLIGENT DEVICE C/W INTEGRAL MICROPROCESSOR All decisions are made at the station allowing lower communication speed while substantially improving control panel response time. Less sensitive to line noise and loop wiring properties; twisted or shielded wire is not required. • NON-VOLATILE MEMORY Permanently stores serial number, type of device, and job number. Automatically updates historic information including hours of operation, last maintenance date, number of alarms and troubles, and time and date of last alarm. • AUTOMATIC DEVICE MAPPING Each station transmits wiring information to the loop controller regarding its location with respect to other devices on the circuit. • ELECTRONIC ADDRESSING Permanently stores programmable address; there are no switches or dials to set. Addresses are downloaded from a PC, or the SIGA-PRO Signature Program/Service Tool. • STAND-ALONE OPERATION The station inputs an alarm even if the loop controller's polling interrogation stops. • DIAGNOSTIC LEDS Status leds; flashing GREEN shows normal polling; flashing RED shows alarm state. INTELLIGENT ANALOG DEVICES :t. Intelligent Manual Pull Stations • DESIGNED FOR HIGH AMBIENT TEMPERATURE OPERATION Install in ambient temperatures up to 120°F (49°C). • DESIGNED TO ISO 9001 STANDARDS Manufactured to strict international quality standards for highest reliability. Description The SIGA-270 and SIGA-278 series Manual Pull Stations are part of EST's Signature Series system. The SIGA-270 Fire Alarm Manual Pull Stations feature our very familiar "teardrop" shape. They are made from die-cast zinc and finished with red epoxy powder -coat paint complemented by aluminum colored stripes and markings. With positive pull - lever operation, one "pull" on the station handle breaks the glass rod and turns in a positive alarm, ensuring protection plus fool -proof operation. Presignal models (SIGA-270P) are equipped with a general alarm (GA) keyswitch for applications where two stage operation is required. The "up -front" highly visible glass rod discourages tampering. EST's double action single stage SIGA-278 station is a contemporary style manual station made from durable red colored lexan. To initiate an alarm, first lift the upper door marked "LIFT THEN PULL HANDLE", then pull the alarm handle. The integral microprocessor built into each Signature Series station provides four important benefits - Self -diagnostics and History Log, Automatic Device Mapping, Stand-alone Operation and Fast, Stable Communication. EDWARDS SYSTEMS TECHNOLOGY SARASOTA, FLA. 941-739-4200 Fax: 941-727-0740 CHESHIRE, CT. 203-699-3000 Fax: 203-250-1931 OWEN SOUND, CANADA 519-376.2430 Fax: 519-372-1581 INTERNATIONAL: CANADA 905-270-1711 Fax: 905-270-9553 PITTSFIELD, ME. 207-487-3104 85001-0279 1 ol 4 Iss. 3 Self -diagnostics and History Log - Each Signature Series manual station constantly runs self -checks to provide important maintenance information. The results of the self - check are automatically updated and permanently stored in the station's non-volatile memory. This information is accessible for review any time at the control panel, PC, or by using the SIGA-PRO Signature Program/Service Tool. The information stored in the station's memory includes: - station serial number, address, and type. - date of manufacture, hours of operation, and last maintenance date. - number of recorded troubles, alarms, and time and date of last alarm. - Up to 24 possible trouble codes which may be used to specifically die ose faults. Automatic Device Mapping - The loop controller learns where each device's serial number address is installed relative to other devices on the circuit. The loop controller keeps a "map" of the Signature Series devices connected to it. The Signature Series Data Entry Program also uses the mapping feature. With interactive menus and graphic support, the wired circuits between each device can be examined. Layout or "As -Built" drawing information showing wire branches (T -taps), device types and their address are stored on disk for printing hard copy. This takes the "mystery" out of the installation. The preparation of "As -Built" drawings is fast and efficient. Device mapping allows the Signature loop controller to discover: - unexpected additional device addresses. - missing device addresses. - changes to the wiring in the circuit. Stand-alone Operation - A decentralized alarm decision by the manual station is guaranteed. On -board intelligence permits the station to operate in stand-alone mode. If loop controller CPU communications fail for more than 4 seconds, all devices on that circuit go into stand-alone mode. The circuit acts like a conventional alarm receiving circuit. Each station will still transmit an alarm if its operating lever is "pulled". Fast Stable Communication - Built-in intelligence means less information needs to be sent between the station and the loop controller. Other than regular supervisory polling response, the station only needs to communicate with the loop controller when it has something new to report. This provides very fast control panel response time and allows a lower baud rate (speed) to be used for communication on the circuit. The lower baud rate offers several advantages including: - less sensitivity to circuit wire characteristics. - less sensitivity to noise glitches on the cable. - less emitted noise from the analog wiring. - twisted or shielded wiring is not required. Diagnostic LEDs - Twin LEDs provide visual indication of normal and alarm conditions. They are visible only when the station is removed from the mounting box. A flashing GREEN led shows normal system polling from the loop controller. A flashing RED led means the station is in alarm state. Both leds on steady shows alarm state - stand-alone mode. Quality and Reliability - EST modules are manufactured in North America to strict international ISO 9001 standards. All electronics utilize surface mount technology (SMT) for smaller size and greater immunity to RF noise. A conformal coating is used for humidity and corrosion resistance. Compatibility Signature Series manual stations are compatible only with EST's Signature Loop Controller. Installation Single -stage Signature Series fire alarm manual pull stations mount to North American 2-1/2" (64 mm) deep 1 -gang boxes. Two stage presignal (270P) models require 1-1/2" (38 mm) deep 4" square boxes with 1 -gang covers. The terminals are suited for #14 to #18 AWG (1.5 mm2 to 0.75 mm2) wire size. EST recommends that these fire alarm stations be installed according to latest recognized edition of national and local fire alarm codes. Electronic Addressing - The loop controller electronically addresses each manual station, saving valuable time during system commissioning. Setting complicated switches or dials is not required. Each station has its own unique serial number stored in its "on -board memory". The loop controller identifies each device on the loop and assigns a "soft" address to each serial number. If desired, the stations can be addressed using the SIGA-PRO Signature Program/ Service Tool. Figure 1. SIGA-278 installation 85001-0279 2 of 4 Iss. 3 Figure 2. SIGA-270, SIGC-270F, SIGC-270B installation Figure 3. SIGA-270P, SIGC-270PB installation Typical Wiring The fire alarm station's terminal block accepts #18 AWG (0.75mm2), #16 (1.0mm2), and #14 AWG (1.50mm2) wire sizes. Note: Sizes #16 AWG.(1.0mm2) and #18 AWG (0.75mm2) are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. Wiring Notes Refer to Signature Loop Controller manual for maximum wire distance. . All wiring is power limited and supervised. REAR VIEW of SIGA-278 • • • Figure 4. Single Stage Systems REAR VIEW of SIGA-270P. SIGC-270P8 Red LED (Alarm/Active) f DATA iN (4) > 1 DATA IN 0 > TB2 S65 • • • TB I 0 From Signature Controller a Previous Device A Q. 0 Green LED (Normal) *DATA OUT CO} .--es DATA OUT (-) To Next Device Figure 5. Two Stage Systems 85001-0279 3 of 4 Iss. 3 Warnings & Cautions This device will not operate without electrical power. As fires frequently cause power interruption, we suggest you discuss further safeguards with your local fire protection specialist. Application The operating characteristics of the fire alarm stations are determined by their sub -type code or 'Personality Code". NORMALLY -OPEN ALARM - LATCHING (Pesonality Code 1) is assigned by the factory; no user configuration is required. The device is configured for Class B IDC operation. An ALARM signal is sent to the loop controller when the station's pull lever is operated. The alarm condition is latched at the station. Specifications Table Catalog Number Description Testing & Maintenance To test (or reset) the station simply open the station and operate the exposed switch. The SIGA-270 series are opened with a tool; the SIGA-278 requires the key which is supplied with that station. The station's automatic self-diagnosis identifies when it is defective and causes a trouble message. The user-friendly maintenance program shows the current state of each Signature series device and other pertinent messages. Single devices may be deactivated temporarily, from the control panel. Availability of maintenance features is dependent on the fire alarm system used. Scheduled maintenance (Regular or Selected) for proper system operation should be planned to meet the require- ments of the Authority Having Jurisdiction (AHJ). Refer to current NFPA 72 and ULC CAN/ULC 536 standards. SIGA-270 SIGC-270F SIGC-270B SIGA-270P SIGC-270PB SIGA-278 Addressing Requirements Operating Current Single Action - One Stage Uses 1 Module Address Construction & Finish Type Code Standby = 250 A Act p Standby = 396pA Activated = 400pA Operating Voltage Single Action -Two Stage (Presignal) Double Action - One Stage Uses 2 Module Addresses Activated = 680pA Diecast Zinc - Red Epoxy w/Aluminum markings Storage and Operating Environment Environment LED Operation Compatibility Agency Listings Factory Set Uses 1 Module Address Standby = 250pA Activated = 400pA Lexan - Red w/White markings 15.2 to 19.95 Vdc (19 Vdc nominal) Operating Temperature: 32°F to 120°F (0°C to 49°C) Storage Temperature: -4°F to 140°F (-20°C to 60°C) Humidity: 0 to 93% RH On -board Green LED - Flashes when polled On -board Red LED - Flashes when in alarm Both LEDs - Glow steady when in alarm (stand-alone) Use With: Signature Loop Controller UL, ULC (note 1) Note 1: SIGC-270F, SIGC-270B and SIGC-270PB are ULC listed only. Suffix "F' indicates French markings. Suffix "B" indicates English/French bilingual markings. Ordering Information Table Catalog Num SIGA-270 SIGC-270F SIGC-270B SIGA-270P SIGC-270PB SIGA-278 ACCESSORIES 32997 276-K2 27165 270-GLR 276-GLR 27193-11 276B -RSB Description One Stage Fire Alarm Station, English Markings - UUULC Listed One Stage Fire Alarm Station, French Markings - ULC Listed One Stage Fire Alarm Station, French/English Markings - ULC Listed Two Stage (Presignal) Fire Alarm Station, English Markings - UL/ULC Listed Two Stage (Presignal) Fire Alarm Station, French/English Markings - ULC Listed Double Action (One Stage) Fire Alarm Station, English Markings - UUULC Listed GA Key w/Tag - for pre -signal station (CANADA ONLY) GA Key - for pre -signal station (USA ONLY) 12 Glass Rods - for SIGA-270 series (CANADA ONLY) 20 Glass Rods - for SIGA-270 series (USA ONLY) 20 Glass Rods - for SIGA-278 series Surface Mount Box, Red - for SIGA-270 series only Carton Dims - inches (mm) 5 (127)w x 3.6(91)hx 5 (127)d Ship Wt. lbs (kg) 1 (.5) n/a 1 (.05) Surface Mount Box, Red - for SIGA-278 only 85001-0279 4 of 4 Iss. 3 1,76)w x 4.75 (121)h x 2.5 (64)d 1 (.6) It is our intention to keep the product ,ntomason current and accurate. We can not coffer ipecac appkcat.ons or anticipate as requirements Al specifications are subtecl to change with- out notice For more nlonnatnn or questions retetne to this Specification Sheet. contact EST ©1996 EST PrinteclinUSA EDWARDS SYSTEMS TECHNOLOGY NOTIFICATION APPLIANCES Compatibility 9 ESTI EST2 EST3 LSS4 IRC-3/FCC PowerSaver Strobes Models: 202-15PS, -75PS Features • Exclusive Low Current Draw Technology PowerSaver technology lowers in -rush current and reduces operating current, significantly reducing system power supply and battery requirements. • Synchronizing Strobe EST strobes are self -synchronizing: external control modules are not required. Synchronized flash from multiple strobes improves the safety for photosensitive people. Superior Visibility EST strobes have a "distributed" light output pattern and are UL 1971 listed as Signaling Devices for the Hearing Impaired. Field Changeable Lens Markings Lens language or standard "FIRE" marking is easily changed with optional LKW series lens kits. Screw Terminal Wire Connection Large terminals speed installation and accept up to #12 AWG (2.5mm2) wire. Durable Front Plate Rugged front plate is available in red or white Fits 1 -Gang Flush Box Ideal for retrofit and renovation projects. Optional color -matched surface boxes are also available. ■ 20 - 31 Vdc Operating Voltage Range Description EST Strobes are especially designed for use with compatible life safety communication and control equipment to alert the hearing impaired. PowerSaver strobes are available with 15cd and 75cd effective (wall mount) flash intensity. 202 Series strobes are self -synchronized to flash at 1 fps across their full operating voltage range. The strobe operates on any existing 2 -wire signal circuit. Separately installed synch control modules are not required. This easily addresses the needs of the small segment of the population who have a condition that may cause them to become disoriented from multiple random flashes of light The flash from EST strobes can be noticed from almost any position in the room, corridor, or large open space. Light disper- sion is controlled with a specially shaped reflector that directs light output below the strobe and straight out to both sides. Lower in -rush and operating current cuts power supply and battery requirements. The strobe is shipped with standard wall mount style "FIRE" lens markings. EST also offers optional LKW series lens marking kits. These simply snap on to the strobe Consult EST for availability of special lens languages or markings. 202 PowerSaver Series strobes are designed for 20 to 31 Vdc operation and must be connected to signal circuits that output a constant (not pulsed) voltage. A diode is used to permit full signal circuit supervision and terminals accept up to #12 AWG (2.5mmz) wire for polarized connections. The housing/front plate is finished in red or white and is made from durable and fire retardant, high impact plastic with a slightly textured surface. Strobes are a part of a full line of ADA/UL 1971/ ULC S526 listed fire alarm audible/visual signals available from EST EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: SARASOTA, FL 941 739 4200 FAX 941 7270740 • CANADA SALES: OWEN SOUND ON 519 376 2430, FAX 519 376 7258 INTERNATIONAL SALES: 905 2701711 FAX 905 270 9553 • CORPORATE HEADQUARTERS: CHESHIRE. CT • U.S. MANUFACTURING: PITTSFIELD ME Issue 1 Literature Sheet #85001-0249 Page 1 of 4 Strobe Application All models are listed to standard UL 1971 - Signaling Devices for the Hearing Impairedand CAN/ULC S526 Standard for Visual Signal iur rue A/arm Systems. Each strobe can provide the "Equivalent Facilitation" allowed under Americans with Disabilities Act Accessibility Guidelines (ADAAG). These guidelines are based on ANSI/NFPA 72 National Fire n t.crrn Code (1996). When applied and installed in accordance with that code, EST strobes meet or exceed the illumination produced by the ADA -specified 75 candela (cd) strobe at 50 feet. However, optimum performance is achieved by providing "Equivalent Facilitation" as allowed by the Americans with Disabilities Act Accessibility Guidelines (ADAAG). Contact EST for exact spacing requirements. Non -Sleeping Rooms and Corridors: EST strobes rated at less than 110 cd per UL1971 are intended for use in non -sleeping areas only. Install them 80" (2.03m) above floor level or within the space between 6" (150mm) to 24" (610mm) below the ceiling, whichever is lower. No point in any space (including corridors) required to have strobes should be more than 50' (15.2m) from the signal (in the horizontal plane). EST's 110 cd strobe should be used in non -sleeping areas only when the room exceeds 40' X 40' (12.2m X 12.2m). In large rooms or spaces (such as auditoriums) that exceed 100' (30.4m) across and without obstructions more than 72" (1.8m) above the finished floor, strobes may be placed around the perimeter, spaced a maximum of 100' (30.4m) apart. This is an alternative to suspending strobes from the ceiling. Non -Sleeping Rooms EST wall mounted strobes' Up to 20' x 20' (6.1 m x 6.1 m) One 15cd strobe Up to 30' x 30' (9.1 m x 9.1 m) One 30cd or two 15cd strobes Up to 40' x 40' (12.2 m x 12.2 m) One 60cd or two 30cd strobes Up to 50' x 50' (15.2 m x 15.2 m) One 110cd or two 60cd strobes Corridors Any length. Maximum width: 20' (6.1m). 15cd strobes spaced @ 100' (30.5m) maximum, with any strobe location, never exceeding 15' (4.5m) from end wall.* ADA suggests using 75cd strobes throughout an area, with spacing that never exceeds 50ft from the strobe to any point in the protected space. Sleeping rooms: EST 110 cd strobes ares 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 Application Notes — USA Strobes must be used to supplement audible signals wherever the average ambient sound level exceeds 105 dBA. Combination audible/visual Signak' m!!st be installed in accordance with NFPA guidelines established for strobes. ADA suggests that the following areas may require visual alarm signals: • rest rooms, meeting rooms, and other general use areas. • lobbies, hallways, 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). Application Notes — CANADA (Based in part on 1995 Canada National Building Code) 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 protec- tive 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 associ- ated with performances could exceed 100 dBA. Strobes shall be installed in a building so that the flash from not less than 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 Application. Page 2 of 4 EDWARDS SYSTEMS TECHNOLOGY Literature Sheet #85001-0249 Issue 1 Specifications Wall mounted strobes 202-15PS O 202-75PS UL 1971 rated output (cd) 15 cd 75 cd _ UL 1638 rated output (cd) ULC S526 rated output (cd) Strobe flash rate Synchronized at one flash per second external control module not required). Strobe operating voltage20 to 31 Vdc (continuous). 20 - 24 FWR (full wave rectified). Operating environment 32-120°F (0-49°C) ambient temperature. 85% relative humidity @ 30°C. Lens markings Supplied with wall mount LKW-1 "FIRE" red letters, vertical both sides. See LKW series for optional markings. Wire connections Terminals - polarized input, #12AWG (2.5 mm2) maximum wire size. Flash tube enclosure Clear LEXAN with snap -on white markings sleeve. Strobe plate finish Textured color -impregnated plastic. Exceeds 94V-0 UL flammability rating. Mounting Indoor only. Flush: one -gang, 1'/2 deep North American electrical box. Surface: EST 27193 series box or 1 -gang Wiremold box. Agency listings UL 1971, UL 1638, ULC S526, CSFM, MEA (All models comply with ADA Code of Federal Regulation Chapter 28 Part 36 Final Rule) - Use the average current rating to establish the maximum number of strobes, wire gauge and standby power requirements. Current Draw Current Type Voltage 15 cd 75 cd Average (RMS) 20 Vdc 78 mA 184 mA 24 Vdc 67 mA 160 mA 31 Vdc 61 mA 133 mA 20VFWR 94mA 266mA 24 V FWR 84 mA 218 mA Peak 20 Vdc 185 mA 319 mA 24 Vdc 175 mA 287 mA 31 Vdc 161 mA 254 mA 20 V FWR 253 mA 668 mA 24 V FWR 239 mA 568 mA Issue 1 EDWARDS SYSTEMS TECHNOLOGY Literature Sheet #85001-0249 Page 3 of 4 Installation and Mounting All models fit to a standard flush mounted, North American one - gang electrical box, 11/2" (38mm) deep minimum. Optional EST color -matched indoor surface -mount boxes are available. Strobes must be connected to signal circuits that output a constant (not MOUNTING PLATE lewei 5• (127 mm) Two pan head slotted screws are provided to secure mounting plate to one -gang electrical box 1 pulsed) voltage. EST recommends that these strobes always be installed in accordance with the latest recognized edition of national and local fire alarm codes FRONT VIEW SIDE VIEW r IE'-- a 4' -� (86 mm) 'FIRE' lens (wall orientation) supplied Other lens markings are available (see below Typical Wiring — 24 Vdc (continu- This unit is designed to be used on signal circuits that output a constant voltage. Do not connect this unit to a coded or pulsating voltage. Electrical supervision requires wire run to be broken at each device. Do not loop signal circuit field wires around the strobe terminals Polarity of signal circuit Shown in supervisory slate On alarm, polarity reverses lI UUULC Listed 24V dc Fire Alarm Control Panel (signal circuit) 1.1 Ordering Information — Strobes Catalog No. scription Ship Wt. 202-15PS AP PowerSaver Strobe - 15cd, red 0.5 (0.2) 202-15PSW PowerSaver Strobe - 15cd, white 202-75PS PowerSaver Strobe - 75cd, red 202-75PSW PowerSaver Strobe - 75cd, white Mounting Accessories 27193-11 Surface mount box, indoor, 1 -gang, red 1 (0.4) 27193-16 Surface mount box, indoor, 1 -gang, white Place an end.ot line resistor on the last device (resisto, supplied won control panel) Ordering Information — Lens Marking Kits LENS MARKING KITS LKW-1 "FIRE", Wall Orientation (supplied) 0.2 (.1) LKW-2 "FEU", Wall Orientation LKW-3 "FIRE/FEU", Wall Orientation LKW-4 "SMOKE", Wall Orientation LKW-5 "HALON", Wall Orientation LKW-6 "CO2", Wall Orientation LKW-7 "EMERGENCY", Wall Orientation LKW-8 "ALARM", Wall Orientation LKW-9 "FUEGO", Wall Orientation O 2000 EST Page 4 of 4 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 Literature Sheet #85001-0249 Printed in U S.A. Issue 1 EDWARDS SYSTEMS TECHNOLOGY TfJ an ITV NOTIFICATION APPLIANCES Compatibility 9 EST1 EST2 EST3 LSS4 IRC-3/FCC PowerSaver Temporal Horns and Horn/Strobes Integrity Family Features • Self -synchronized Output Both horn and strobe output may be synchronized without the use of external control modules. Synchronized flash from multiple strobes improves the safety for photosensitive people • Adjustable Audible Output Select temporal or continuous tones, and High setting for 98 dBA output or Low setting for 94 dBA sound output • Easy Mounting Flush mount to standard North American two -gang or four -inch square electric box. Integrity's universal mount- ing plate allows it to be wired and then left hanging free for easy inspection and testing before it is fastened to the electrical box. ■ True Horn Tone Low pitch growling sound demands attention. ■ Exclusive Low Current Draw Technology PowerSaver technology lowers in -rush current and reduces operating current, significantly reducing system power supply and battery requirements. • Superior Visibility EST strobes have a "distributed" light output pattern and are UL 1971 listed as Signaling Devices for the Hearing Impaired. • Field Changeable Lens Markings Lens language or standard "FIRE" marking is easily changed with optional LKW series lens kits. • 20 - 31 Vdc Operating Voltage Range Description EST's Integrity Series Temporal Horns and Temporal Horn/ Strobes are ideal for life safety applications as an alert and alarm signal, especially for alerting the hearing impaired. The horn emits a piercing low frequency sound that is easily heard above moderate ambient noise levels. Integrity's rugged plastic housing is made from ddi'..hle and fire retardant, high impact plastic with a slightly textured surface Housings are available in red or white. Its ingenious mounting plate firmly holds the device in place with a single screw. This ensures quick and attractive installation. A separate trim plate is not required for flush mounting. Terminals accept up to #12 AWG (2.5mm2) wire for polarized connections. New!cesity 75 MEA Lower in -rush and operating current cuts power supply and battery requirements. HORNS: During installation, the horn is configured for steady or temporal tone signal and either low or high dB output. When temporal output is selected all horns on a common two -wire circuit are self -synchronized (see specifications). External sync - control modules are not required. Integrity Series horns emit a low frequency growling tone that demands attention. Select the high output setting for 98dBA; choose the low output setting for 94dBA. (Average measurement at 10 feet (3.05m) in anechoic chamber.) STROBES: Integrity strobes are especially designed for use with compatible life safety communication and control equipment to alert the hearing impaired. All strobes are self -synchronized to flash at 1 fps across their full operating voltage range. Strobes operate on any existing 2 -wire signal circuit. Separately installed synch control modules are not required. This easily addresses the needs of the small segment of the population who have a condition that may cause them to become disoriented from multiple random flashes of light. The flash from Integrity strobes can be noticed from almost any position in the room, corridor, or large open space. Light disper- sion is controlled with a specially shaped reflector that directs light output below the strobe and straight out to both sides. Strobes are shipped with standard wall mount style "FIRE' lens markings. Optional LKW series lens marking kits are also avail- able. Lens markings simply snap on to the strobe. Consult EST for availability of special lens languages or markings. Integrity PowerSaver strobes are designed for 20 to 31 Vdc operation and speaker/strobes must be connected to signal circuits that output a constant (not pulsed) voltage. A diode is used to permit full signal circuit supervision. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: SARASOTA FL 941 739 4200 FAX 941 727 0740 • ' CANADA SALES: OWEN SOUND ON 519 376 2430 FAX 519 316 7258 INTERNATIONAL SALES: 905 270 1711 FAX 905 2709553 • CORPORATE HEADQUARTERS: CHESHIRE CT • U.S. MANUFACTURING: PITTSFIELD ME Issue 1 Literature Sheet #85001-0273 Page 1 of 4 Horn Application Suggested sound pressure level for each signaling zone used with alert or alarm signals is at least 15dB above the average ambient sound level, or 5dB above the maximum sound level having a duration of at least 60 seconds, whichever is greater, measured 5' (1.5m) above the floor. The average ambient sound level is the RMS, A -weighted sound pressure measured over a 24-hour period. Doubling the distance from the signal to the ear will theoretically result in a 6dB reduction of the received sound pressure level. The actual effect depends on the acoustic properties of materials in the space. A 3dBA difference represents a barely noticeable change in volume. Strobe Application These guidelines are based on ANSI/NFPA 72 National Fire Alarm Code (1996). When applied and installed in accordance with that ".,L i strobes meet or exceed the illumina- tion produced by the ADA -specified 75 candela (cd) strobe at 50 •75 feet. However, optimum -90 performance is achieved 105 95 85 75 d8A 75 85 95 105 by providing "Equivalent —Temporal Horn (dBA) Facilitation" as allowed 757 Series Temporal Horn by the Americans with (High output) Disabilities Act Accessibility Guidelines (ADAAG). Contact EST for exact spacing requirements. Typical Sound Output Distribution dBA measured at 10 ft. in anechoic chamber -60 °utput Angle - Degrees 0 15 -3r -45 01 .7,01a ae*w •tS. 011111/ pi m•esisra 4, l •,s,7 5 90 Non -Sleeping Rooms EST wall mounted strobes* Up to 20' x 20' (6.1 m x 6.1 m) One 15cd strobe Up to 30' x 30' (9.1 m x 9.1 m) One 30cd or two 15cd strobes Up to 40' x 40' (12.2 m x 12.2 m) One 60cd or two 30cd strobes Up to 50' x 50' (15.2 m x 15.2 m) One 110cd or two 60cd strobes Corridors Any length. Maximum width: 20' (6.1m). ADA 15cd strobes spaced @ 100' (30.5m) maximum, with any strot location, never exceeding 15' (4,5m) from end wall.* suggests using 75cd strobes throughout an area, with spacing 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 UL1971 are intended for use in non -sleeping areas only. Install them 80" (2.03m) above floor level or within the space between 6" (150mm) to 24" (610mm) below the ceiling, whichever is lower. No point in any space (including corridors) required to have strobes should be more than 50' (15.2m) from the signal (in the horizontal plane). EST's 110 cd strobe should be used in non -sleeping areas only when the room exceeds 40' X 40' 2m X 12.2m). In large rooms or spaces (such as auditoriums) that exceed 100' (30.4m) across and without obstructions more than 72" (1.8m) above the finished floor, strobes may be placed around the perimeter, spaced a maximum of 100' (30.4m) apart. This is an alternative to suspending strobes from the ceiling. 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 Any size 1 EST wall mounted strobe 10 cd within 16 feet of pillow Application Notes - USA Audible signals should never have a sound level less than 75dBA at 10' (3m) per NFPA 7? Signal' - -2ed 120 dBA per ADA (130dBA per NFPA 72) at the minimum hearing distance to audible appliance. Audible signals shall be installed with the top of the device above the floor not less than 90" (2.3m) and below the finished ceiling at least 6" (150 mm) (per NFPA 72). 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 suggests that the following areas may require visual alarm signals: • rest rooms, meeting rooms, and other general use areas. • lobbies, hallways, 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). Application Notes - CANADA (Based in part on 1995 Canada National Building Code) The fire alarm signal sound pressure level shall not exceed 110dBA 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 10dBA above ambient levels, and never less than 65dBA. 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 87dBA, 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 100dBA. Strobes shall be installed in a building so that the flash from not less than 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 Application. Page 2 of 4 EDWARDS SYSTEMS TECHNOLOGY Literature Sheet 485001-0273 Issue 1 Specifications Integrity Horns and Horn/Strobes Housing Red or white textured, color impregnated engineered plastic. Exceeds 94V-0 UL flammability rating. Mounting (indoor wall mount only) Flush: North -American 2 -gang box, 3" high x 4" wide x 2'/." (69 mm) minimum. Surface: 757A -SB Back box Bi-directional: 757A-BDF Mounting Frame Wire Connections Screw terminals: separate polarized inputs for horn and strobe, #12 AWG (2.5mm2) maximum. Operating environment 32-120°F (0-49°C) ambient temperature. 93% relative humidity @ 40°C. Agency Listings UL 1971, UL 1638, UL 464, ULC S525, ULC S526, CSFM, MEA (All models comply with ADA Code of Federal Regulation Chapter 28 Part 36 Final Rule.) Horns Horn Output* Anechoic: High Setting - 104dBA (peak)/98dBA (avg); Low Setting - 99dBA (peak1/94dBA (avg) Reverberent: High Setting - 85dBA (continuous)/82dBA (temporal) Low - 82dBA (continuous)/75dBA (temporal) Horn pulse rate" Synchronized at temporal rate within 200 milliseconds on common circuit . Horn Current High Output: 40 mA @ 24 Vdc; 55mA @ 24 Vrms FWR Low Output: 20 mA @ 24 Vdc; 28 mA @ 24 Vrms FWR Horn operating voltage 20-31 Vdc continuous (or coded when horn is set on continuous output). PowerSaver Strobes 757H-15PS 757H-75PS UL 1971 rated output (cd) 15 cd 75 cd UL 1638 rated output (cd) ULC S526 rated output (cd) Strobe flash rate Synchronized at one flash per second within 200 milliseconds on common circuit. Strobe operating voltage 20-31Vdc (continuous). 20 - 24 FWR (full wave rectified). Lens markings Supplied with wall mount LKW-1 "FIRE" red letters, vertical both sides. See LKW series for optional markings. Flash tube enclosure Clear LEXAN with snap -on white markings sleeve. ' Measured at 10 ft (3m) @ 24 Vdc. Subtract 3 dBA for models with strobes " Temporal audible pattern is defined as: y sec ON, %z sec OFF, 3'z sec ON, Yz sec OFF, Y2 sec ON, 1'/z sec OFF, then repeat cycle. '' Use the average current rating to establish the maximum number of strobes, wire gauge and standby power requirements. Current Draw Current Type Voltage 15 cd 75 cd Average IRMS) 20 Vdc 78 mA 184 mA 24 Vdc 67 mA 160 mA 31 Vdc 61 mA 133 mA 20 V FWR 94 mA 266 mA 24 V FWR 84 mA 218 mA Peak 20 Vdc 185 mA 319 mA 24 Vdc 175 mA 287 mA 31 Vdc 161 mA 254 mA 20 V FWR 253 mA 668 mA 24 V FWR 239 mA 568 mA Issue 1 EDWARDS SYSTEMS TECHNOLOGY Literature Sheet #85001-0273 Page 3 of 4 Installation and Mounting All models fit to a standard flush mounted, North -American two -gang electrical box, 2W (69 mm) mini- mum. Optional flush trims are not required. For surface mount, use EST's custom indoor surface boxes painted in color -matched red or white epoxy. EST recommends that fire alarm horn/strobes always be installed in accordance with the latest recognized edition of national and local fire alarm codes. Mounting Plate (provided) #6-32 screws (by others) Housing 5-1/2" (140mm) x 5-1/2" (140mm) x 5/8' (16mm) Single Mounting Screw (provided) Typical Wiring The strobe must be connected to signal circuits which output a constant (not pulsed) voltage. The horn can be connected to continuous voltage circuits. WARNING: These 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. These visual 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 Ordering Information HORN and STROBE ON SAME CIRCUIT FIRST DEVICE North American 2 -gang electric box, 244' (69mm) minimum (Alternative: 4" square box 2-1/8" (54mm) deep) Surface Box - 5-5/8" (143mm) sq. x 3-9/16" (91 mm) deep To UWLC Listed Are Alarm Control Panel Signal Circuit Note 1 To Next Device or EOL Resistor HORN and STROBE ON SEPARATE CIRCUIT To UL/ULC Listed - Are Alarm Control + Panel Signal Circuit Note 1 To UWLC Listed Fire Alarm Control + Panel Signal Circuit To Next Device or EOL Resistor To Next Strobe Device or EOL Resistor Note 1: Polarity of Signal Circuit is shown in supervisory state. Polarity reverses in alarm condition. Catalog Number Description Ship Wt. lb. (kg) Temporal Horns 757 -1A -T Temporal Horn, Red 1.7 (0.8) 757 -1A -TW Temporal Horn, White Temporal Hor obes 757H-15PS emporal Horn/Strobe, 15cd, Red 2.0 (0.9) 757H-15PSW Temporal Horn/Strobe, 15cd, White 757H-75PS Temporal Horn/Strobe, 75cd, Red 757H-75PSW Temporal Horn/Strobe, 75cd, White CatalogShipWt. Number Description b. (kg) Mounting Accessories (indoor only) 757A -SB Surface Box, Red 1.5 1.7) 757A-SBW Surface Box, White 757A-BDF Bi-directional Mounting Frame, Red 4 (1.8) 757A-BDFW Bi-directional Mounting Frame, White Lens Marking Kits (wall mount only) LKW-1 "FIRE" (supplied) 0.2 (.1) LKW-2 "FEU" LKW-3 "FIRE/FEU" LKW-4 "SMOKE" LKW-5 "HALON" LKW-6 "CO2" LKW-7 "EMERGENCY" LKW-8 "ALARM" LKW-9 "FUEGO" EDWARDS SYSTEMS TECHNOLOGY Its 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 O 2000 EST Page 4 of 4 Literature Sheet #85001-0273 Printed in u S A Issue 1 EDWARDS SYSTEMS TECHNOLOGY 757 Series Temporal Horn Integrity Family Features • SYNCHRONIZED TEMPORAL AUDIBLE OUTPUT Select for self -synchronizing temporal signal or steady tone. External "synch -control" module is not required. • .SYNCHRONIZED STROBE FLASH Self -synchronizing flash from multiple strobes improves the safety for photosensitive people. External "synch -control" module is not required. • MOUNTS TO 2 -GANG BOX Flush mount to standard North American 2 -gang or 4 inch square electric box. • ADJUSTABLE HIGH OR LOW dBA OUTPUT Select for 98 dBA or 94 dBA sound output. • TRUE HORN TONE Low pitch "growling" sound demands attention. • ADA/UL1971/ULC LISTED STROBE All strobe models provide "Equivalent Facilitation" allowed under ADA Accessibility Guidelines, satisfy NFPA codes and are UL1971 listed as Signaling Devices for the Hearing Impaired. • EASY INSTALLATION A universal mounting plate allows Integrity to be wired then left hanging "free" to allow easy V.I. and testing before it is fastened to electrical box. • SCREW TERMINAL WIRE CONNECTION Large terminals speed installation and accept up to #12 AWG (2.5mm2) wire. • FIELD CHANGEABLE LENS MARKINGS Standard "FIRE" strobe marking/language is easily changed with optional snap -on Lens Kits. • UL/ULC RATED OUTDOOR OPTION Description EST's 757 Integrity Series Temporal Horn and Temporal Horn/ Strobe are perfect for life safety applications as an alert and alarm signal, especially to notify the hearing impaired. The horn emits a piercing low frequency sound that is easily heard above moderate ambient noise levels. Integrity's rugged plastic housing is available with a red or white textured finish. With its ingenious mounting sub -plate, the horn is firmly held in place with a single screw ensuring a quick, attractive installation. A separate trim plate is not required for flush mounting. Separate terminals to accept up to #12 AWG FIRE ALARM SIGNALI Self -Synchronizing Design Temporal Output NG APPLIANCES N'S ; UL 1971 Listed (2.5mm2) wire are provided for field connection of the strobe and horn. Matching Integrity Speakers, Chimes, and Strobe combinations are also available. HORN: During installation, the horn is configured for steady or temporal tone signal and either low or high dB output. When temporal output is selected all horns on a common 2 -wire circuit are self -synchronized (see specifications). External "sync - control" modules are not required. Integrity Series horns emit a low frequency "growling" tone to really demand attention. Select 'high'output for 98 dBA: choose low' output for 94 dBA. (Average measurement at 10 feet (3.05 M) in anechoic chamber.) STROBE: EST strobes are self -synchronized to flash at 1 fps across their full operating voltage range. The strobe operates on any existing 2 -wire signal circuit. Separately installed "sync - control" modules are not required. A very small portion of the population have a condition which may cause them to become disoriented from multiple random flashes of light. This risk is minimized with Integrity's strobe. The flash from EST strobes can be noticed from almost any position in the room, corridor, or large open space. The output is controlled using a specially shaped reflector to disperse the light in all viewing directions. EST strobes are UL1971 listed with both wall and ceiling cd intensity ratings (see Specifications). This is useful in areas where the Authority Having Jurisdiction (AHJ) permits ceiling mount strobes. 757 Series Temporal Horn/Strobes are shipped with wall mount style "FIRE" lens markings. Where ceiling mount, other languages or different lens markings are required, optional LKW and LKC series Lens Marking Kits are offered. Lens marking sleeves snap right over the strobe lens providing quick, easy, change. Consult EST for availability of other languages or special markings. EDWARDS SYSTEMS TECHNOLOGY SARASOTA, FLA. 941-739.4200 Fax: 941-727-0740 CHESHIRE, CT. 203-699-3000 Fax. 203-250.1931 OWEN SOUND. CANADA 519-376-2430 Fax: 519-372-1581 INTERNATIONAL CANADA 905-270-1711 Fax 905-270-9553 PITTSFIELD, ME. 207-487-3104 8 500 1-034 1 1 of 4 Iss. 2 Audible Signal Application Suggested sound pressure levels in each signaling zone for alert or alarm signals are 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' (1.5 m) above the floor. The average ambient sour ,Duel is the RMS, A -weighted sound pressure measured over a 24-hour period. Doubling the distance from the signal to the ear will theoretically cause a 6 dB reduction in the received sound pressure level The actual effect depends on the acoustic properties of materials in the space. A 3 dBA difference is a "just noticeable" change in volume. Typical Sound Output Distribution dBA measured at 10 ft. in anechoic chamber 757 Series Temporal Horn (`HIGH' output) ptitput Angle - Degrees 0 15 -31 `0�r,e:��1**30 -45 �411- iiii0 U. 4 �.f - -60 " IS Wil .0 ` * 75 . 1 4*4 A , 1 , i 4:4010% ..te..::.. �..•..mn■ • -90 105 95 85 75 dBA 75 85 95 105 Temporal Horn (dBA) 0 Visible Signal Application These guidelines are based on ANSI/NFPA 72 National Fire Alarm Code (1993). When applied and installed in accordance with that code, EST strobes meet or exceed the illumination produced by the ADA specified 75 candela (cd) strobe at 50 feet. However, optimum performance is obtained by providing "Equivalent Facilitation" as allowed by the Americans with Disabilities Act Accessibility Guidelines [ADA(AG)]. Contact EST for exact spacing requirements. Non -Sleeping Rooms Use ONE Wall Mounted - EST Model: Up to 20' x 20' (6.1 x 6.1m) 757-5A 15 cd @ 70 mA or 757-7A" 15/75 cd 0 105 mA Up to 30' x 30' (9.1 x 9.1m) 757-3A 30 cd 0 105 mA Up to 50'x50' (15.2 x 15.2m) 757-8A 110 cd @ 219 mA Corridors Any Length x Max. 20' (6.1 m) Wide Wall Mounted - EST Model: 757-5A or 757-7A" spaced 0 100' (30.5 m) never exceeding 15) (4.5 m) from end wall ' Model 757-7A is rated at 15 cd wall or ceilingmount) per per UL1971, and 75 cd per UL1638 thereby meeting ADA on axis only requirements of 75 cd. Non -Sleeping Rooms and Corridors: EST strobes rated at less than 110 cd per UL1971 are intended for use in non - sleeping areas only. Install them 80" (2.03 m) above floor level OR within the space between 6" (150 mm) to 24" (610 mm) below the ceiling, whichever is lower. No point in any space (including corridors) required to have strobes shall be more than 50' (15.2 m) from the signal (in the horizontal plane). The 110 cd strobe should be used in non -sleeping areas only when the room exceeds 40' x 40' (12.2 m x 12.2 m). In large rooms or spaces (such as auditoriums) that exceed 100' (30.4 m) across and without obstructions more than 72" (1.8 m) above the finished floor, strobes may be placed around the perimeter, spaced a maximum of 100' (30.4 m) apart, in lieu of suspending them from the ceiling. Sleeping Rooms: EST model 757-8A is rated at 110 cd. It is intended for use in sleeping rooms and should be installed along with a smoke detector. It must be wall mounted at least (Sleeping Rooms Use ONE Wall Mounted - EST Model: Any 757-8A 110 cd 0 219 mA 80" (2.03 m) above floor level, but no closer than 24" (610 mm) to the ceiling. The distance from the strobe to the pillow must not exceed 16' (4.8 m). Application Notes - USA In any case, audible signals cannot have a sound level less than 75 dBA at 10' (3m) per NFPA 72 and cannot exceed 120 dBA per ADA (130 dBA per NFPA 72) at the minimum hearing distance to audible appliance. Audible signals shall be installed with the top of the device above the floor not less than 90" (2.3 m) and below the finished ceilings at least 6" (150 mm) (per NFPA 72). Strobes must be used to supplement audible signals wherever the average ambient sound level exceeds 105 dBA. Combination AudibleNisible signals must be installed per NFPA guidelines established for strobes. ADA suggests that the following areas may require Visual Alarm Signals: • rest rooms, meeting rooms, and other general usage areas. ■ lobbies, hallways, and other common use areas. • sleeping rooms intended for use by persons with hearing impairments. ■ work areas used by a person with a hearing impairment (per Title 1 of ADA). 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 be not less than 10 dBA above the ambient noise, and never less than 65 dBA. The sound pressure level in sleeping rooms from an audible signal shall not be less than 75 dBA 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 not less than 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 guide- lines shown here under Strobe Application. 85001-0341 2 of 4 Iss. 2 Specifications Standalone Synchronization Characteristics (note 5) Strobe flash at 1 per second within 200 milliseconds on common circuit Horn pulses at temporal rate within 200 milliseconds on common circuit Operating Volts Strobe: 20-24 Vdc Continuous; Horn: 20-24 Vdc Continuous Horn Output (note 1) Anechoic: High Setting - 104 dBA (peak)/98 dBA (avg); Low Setting - 99 dBA (peak)/94 dBA (avg) Reverberent: High Setting - 85 dBA (continuous)/82 dBA (temporal); Low Setting - 82 dBA (continuous)/75 dBA (temporal) Horn Current High Output: 40 mA @ 24 Vdc; 55mA @ 24 Vrms FWR; Low Output: 20 mA @ 24 Vdc; 28 mA @ 24 Vrms FWR Rated Strobe Output - candela (cd) 757-5A- 757-7A- 757-3A- 757 -8A - UL 1971 15 cd wall mount only 15 cd wall 15 cd ceiling 30 cd wall 15 cd ceiling 110 cd wall 60 cd ceiling UL 1638 not UL 1638 rated 75 cd 30 cd 120 cd ULC S526 15 cd 75 cd 30 cd 120 cd Average Strobe Current (note 2) 24Vdc: 70mA 20Vdc: 80mA 24Vdc: 105mA 20Vdc: 125mA 24Vdc: 105mA 20Vdc: 125mA 24Vdc: 219mA 20Vdc: 272mA Peak Strobe Current (note 2) 20Vdc: 208mA 20Vdc: 208mA 20Vdc: 208mA 20Vdc: 352mA Average Strobe Current (note 3) 24Vdc: 84mA 20Vdc: 99mA 24Vdc: 168mA 20Vdc:204mA 24Vdc: 168mA 20Vdc: 204mA 24Vdc: 325mA 20Vdc: 355mA Peak Strobe Current (note 3) 20Vdc: 360mA 20Vdc: 594mA 20Vdc: 594mA 20Vdc: 876mA Strobe Marking Supplied with LKW-1 'FIRE' red letters, vertical both sides (Wall Mount) - see LKW and LKC series for ceiling style and optional markings. Flash Tube Enclosure Clear LEXAN with white marking sleeve Housing Textured, color impregnated engineered plastics - exceeds 94V-0 UL flammability rating Wire Connections Terminals - separate, polarized inputs for Horn & Strobe, #12 AWG (2.5mm2) maximum INDOOR Operating Environment 93% @ 40_C relative humidity; 32-120_F (0-49_C) ambient temperature OUTDOOR Operating Environment (must use weatherproof box) 98% @ 40_C relative humidity; -35-150°F (-31-66°C) ambient temperature (757-7A: rated at 50 cd 0 -35°C per UU@ -40°C per ULC) (757-8A: rated at 100 cd 0 -35°C per UU@ -40°C per ULC) Mounting - INDOOR Flush: North -American 2 -gang box, 3' high x 4' wide x P (69 mm) minimum Surface: 757A -SB Back box Bi-directional: 757A-BDF Mounting Frame Mounting - OUTDOOR Agency Listings Surface: 757A -WB Weatherproof Box UL 1971, UL 1638, UL 464, ULC S526, ULC S525 (All models comply with ADA Code of Federal Regulation Chapter 28 Part 36 Final Rule) Note 1 - Measured at 10 ft (3m) @ 24 Vdc. Subtract 3 dBA for models with strobes Note 2 - Connected to FILTERED dc source. Note 3 - Connected to UNFILTERED (Full Wave Rectified) dc source. Note 4 - Use the average current rating to establish the maximum number of strobes, wire gauge and standby power requirements. Note 5 - Temporal audible pattern is defined as: Y2 sec ON, 34 sec OFF, Y2 sec ON, Y2 sec OFF, Y2 sec ON, 11 sec OFF, then repeat cycle. Light Output Patterns '5A' Series Strobe Horizontal Output degrees 0 -15 11111Ii 30 -30 45 ��qq�� 45 t41t 90 30 20 10 cd 10 20 30 SA Pomp ed ism Ulm.. '5A' Series Strobe Vertical Output -60 -45 01smuL 10 2 v nkat 7A' Series Strobe Horizontal Output degrees 0 -60 Vita � -30 -45 -7 -9 30 100 50 cd 50 1:37Aw.ny.a 16wU1. nth 711' Series Strobe Vertical Output 5 '3A' Series Strobe Horizontal Output degrees X530 OilIV/ 30 45 60 60� 90 60 100 -90-75 see rxhemp al 100 Ft6°4530 ®1r.0 u"nr f 15 a 3 05 111` X45 90' 5 90 60 40 20 cd 20 40 60 EMM 11w.p. 0e Wed 111. min '8A' Series Strobe Horizontal Output degrees 0 -45 �ellIV/�� 045 `60i5 90 200 100 cd 100 200 11:311M "woo a0 11000UL Mn '8A' Series Strobe Vertical Output -90-75150 M Mnp.m 45 110.2 1.11 100 1f4' 4 ..30 50 15 SD'_ 50 15 10 150 6 on 45 85001-0341 3 of 4 Iss. 2 Installation and Mounting All models fit to a standard flush mounted, North -American 2 -gang electrical box, 23/4" (69 mm) minimum. Optional flush trims are not required. For surface mount, use EST's custom indoor and outdoor surface boxes painted in Cislor-matched red or white epoxy. EST recommends that Mounting Plate (provided) fire" alarm horn/strobes always be installed in accordance with the latest recognized edition of national and local fire alarm codes. North American 2 -gang electric box, 234' (69mm) minimum (Alternative: 4' square box 2-1/8' (54mm) deep) \Single Mounting Screw (provided) #6-32 screws (by others) Housing 5-1/2' (140mm) x 5-1/2' (140mm) x 5/8' (16mm) Typical Wiring The strobe must be connected to signal circuits which output a constant (not pulsed) voltage. The horn can be connected to continuous voltage circuits. Ordering Information HORN and STROBE ON SAME CIRCUIT To UUULC Listed Fre Alarm Control Panel Signal Circuit FIRST DEVICE Surface Box - 5-5/8' (143mm) sq. x 3-9/16' (91mm) deep To Next Device or EOL Resistor HORN and STROBE ON SEPARATE CIRCUIT To UUULC Listed -< Fire Alarm Control 4. Panel Signal Circuit Note 1 To UL/ULC Listed "< Fire Alarm Control +< Panel Signal Circuit To Next Device or EOL Resistor To Next Strobe Device or EOL Resistor >+ Note 1: Polarity of Signal Circuit Is shown In supervisory state. Polarity reverses in alarm condition. Catalog Number Description 'Ship Wt. lb. (kg) TEMPORAL HORNS 757 -1A -T" 'Temporal Horn, Red I 1.7(.8) TEMPORAL HORN/STROBES 757 -5A -T" Temporal Horn/Strobe, 15cd, Red 2(.9) 757 -7A -T' Te ral Horn/Strobe, 15/75cd, Red 757-3A-T'poral Horn/Strobe, 30cd, Red 757 -8A -T' emporal Hom/Strobe, 110cd, Red WARNING: These 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. These visual signal appliances' flash intensity may not be adequate to alert or waken occu- pants 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. MOUNTING ACCESSORIES 757A -SB" Surface Box, Red, Indoor 1 5(7) 757A -WB" Weatherproof Box, Red, Surface 1.5(.7) 757A-BDF" Bi-directional Frame, Red 4(1.8) LENS MARKING KITS (see note 1) LKW-1 "FIRE", Wall Orientation (supplied) 0.1 (.05) LKW-1R "FIRE", Wall Orientation, RED LKW-2 "FEU", Wall Orientation LKW-3 "FIRE/FEU", Wall Orientation LKW-4 "SMOKE", Wall Orientation LKW-5 "HALON", Wall Orientation LKW-6 "CO2", Wall Orientation LKW-7 "EMERGENCY", Wall Orientation LKW-8 "ALARM", Wall Orientation LKW-9 "FUEGO", Wall Orientation ' Add Suffix "W' to catalog no. for WHITE. (e.g. 757 -7A -TW) Note 1 - Change "W" to "C" for CEILING mount. (e.g. LKC-1) II rs out intention to keep the product rrdormation current and accurate We can not co er &pectic applrcalrons or erectale all requirements AC specdcatans are sublecl to change weh out notice For more information or questions relative to this 85001.0341 Spedcatron Sheet, contact EST 4 Of 4 ISS. 2 0 1997 EST Printed m U S A • EPS BATTERY CALCULATION Standby(C) Hours= Description BOOSTER POWER 24 NOTIFICATION APPLIANCES NOTIFICATION APPLIANCES NOTIFICATION APPLIANCES NOTIFICATION APPLIANCES Miscellaneous Miscellaneous Miscellaneous Miscellaneous Alarm(D) Minutes= 5 PROJ: Krause's Store 64 BOOSTER Qty Standby Total Standby Alarm Total Alarm (mA) (mA) (mA) (mA) 1 70 16 16 16 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0.05 4 0 1 11 0 70 190 190 0 43 0 0 92 0 0 76 0 0 0 0 0 0 0 0 10 0 0 10 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0.05 0 280 0 90 2629 2.5 0 0 0 0 0 0 0 0 0 70 Total(B)= 3189 Total(A)= Battery Capacity= 1.2x (AxC)+((.0167xD)xB) divided by 1000 70 125 90 239 2.34 7.0 a.h. 2 Aeak e. A The drawings affixed hereto have been reviewed and accepted as meeting or xceeding minimum requirementseof the Fire City of Tukwila Fire Dept., eau of Prevention. Additions or revisions to these drawings after this date shall eof be a construed as being pP CITY OF TUILA BUREAU OF FIRE PR slOweammikoatft tri le- Irb BY WASHINGTON SURVEYING & RATING BUinrltii SEATTLE. WASH. i 1962. As m:etmg rr:quirements of This tsureau tor classit,.,- howe er, system changes or additions as recommended un tee attached sheet(s) will result in improved rates. Acceptance applies to plans as submitted and for construction and occupancy shown thereon. finishe 1. ; installation subject to inspection for final acceptance. All comments. approvals and acceptances relate exclusively to relatwt 4i;, insur-mrc ;^t,s. They are nottta effect of i...,. r,on 'i.. t., . - i, r ,; ,,vhRther "dug be e'' har i co �iiry fur persona care" ha.: ��, c• . xi ;�.:-.; �.;�.. , .,;,, ,,,.., .injury or dr,m�L`,: to ur��oerty It is racogne'eri taat.imiards',which'sate 'rrgigadt'in In,, 4"' /or v4/f.L F d./4/.211. 30 CZIO.rav LO/?r-/ G'/711 77 f WfL.A -YJr LU 1 .5J/T /2/).:7L Oh! 71) det/L.Y FLC09_, PLAK1 100 SCA C ' Yet /=ice /cliV izricera. ‘5,9V-‘26. 77i/r 0 L)/W 2 f 14/15412C4 /MA it4 5/a/ 120 VAC DEDICATED PWR DO NOT SHARE NEUTRAL 7173 2H2 STORAGE CLOSET 'I --Z1 V TO JUNCTION BOX IN FRONT OF SHOE PAViLUON Z1 H2 0 H2 t I I �t H2 0 0• H2 Z Z1 Z1 Z1 0 2H2 110 CV X X U. X 0 SHOWROOM Z1 H2 SALES OFFICE Z1 H1 10 Is H BRFA ROOM H1 10 o' MEN'S H H' 0 N'S 1 H t ---- N U. 0 Z1 FIRF ALARM PLAN SCALE: 1/8" = 1'-0" OEMCE EGEN DCNRCE DESCMPTICN MOUNTIND I BPS t I BOOSTER POWER SUPPLY M012E4 SCA DPS SEE MANUFACTURERS DATA Qs SMOKE DETECTOR MCDEL MCA PS E.3' ODTODDN '.S^ OUR SMOKE DETECTOR, DUCT MODE, SCA PS SEE MANUFACTURERS DATA CV 6 EXISTING SMOKE DETECTOR, DUCTSEE EDS,. MANUFACTURERS DATA 0 3 I MANUAL PULL STATION EDA 270 SINGLE DAN* MUD RING I5 S 4 FIRE ALARM STROBE MDDEU zDz-+xs NaL StE DANo MUD RIND S 1 FIRE ALARM HORN WITH STROBE MODES 737M -I x5 A' SQUARE z 1 A DEEP MINIMUM o F II FIRE ALARM HORN WITH STROBE MODEL: 231 -SA -T A. SQUARE 1 ve• DEEP MNiMUM 1 JUNCTION BOX 3r on.,AS NEEDED 2 END OF LINE AS NEEDED E+ LAST DEMDE 6 HVAC DT OTHERS \\ // X WIRE SCHEDULE CKT N COND. COLOR/ IDENTIFICATION FUNCTION WIRE TYPE 2 2 YLW+, ORG— CLASS 8, T—TAPPABLE INTELLIGENT DATA LOOP. (SIGNALING LINE CKT) 18 OR 16 AWG SOL CU OR BUNCH—TINNED (BONDED) STRANDED COPPER H(X) 2 RED+, BLK— STYLE Y (CLASS B) VIS 14 AWG SOL OR STR TAG BY CKT f SIGNAL CKT GENERAL NOTES 1) DO NOT LOCATE ANY SMOKE OR HEAT DETECTOR WITHIN 3FT OF A SUPPLY (HOT) AIR VENT REGARDLESS OF LOCATION SHOWN ON DWGS. 2) WE RECOMMEND THESE MOUNTING HEIGHTS FOR WAC 5130/ADA COMPLIANCE — VERIFY WITH ARCHITECT: MANUAL PULL STATIONS = +48" AFF TO TOP OF DEVICE ALL INDOOR VISUAL/AUDIO SIGNALS = +BO" AFF TO BOTTOM OF DEVICE 3) COORDINATE FAN SHUT DOWN AND ELEV RECALL REQUIREMENTS 4) COORDINATE ALL SPRINKLER DEVICES WITH OTHER TRADES I ADDRESSABLE LOOP (CKT 21) NOTES THE YLW & ORG PAIR OF WIRES TO ALL EST SIGNATURE TYPE DEVICES IS DATA & 24 VOC POWER. IT IS NOT SHIELDED. IT IS POLARITY CRITICAL & THE DEVICES MUST BE WIRED PROPERLY FOR "IN" & -OUT', AS, PER CUT SHEETS. THIS CKT HAS NO END OF LINE AND IS OCCASIONALLY SHOWN "T—TAPPED". HOWEVER, FOR MOST SHORT DROPS TO DEVICES THIS CKT IS TO BE LOOPED. MAIN TRUNK Z(X) LOOP AT DEVICE (X) Z(X) FACTORY INDICATES 63 MAX T—TAPS PER LOOP INCLUDING SEPARATED HOMERUNS AT FACP. THIS LIMIT IS IMPOSED AS SOFTWARE BUILDS AN ACTUAL INTERNAL MAP OF DEVICES. OBVIOUSLY THIS CKT MUST ALSO BE. FREE OF SHORTS, GROUND FAULTS & MISWIRED DEVICES. DEVICES THEMSELVES DO NOT HAVE THEIR ADDRESS SET ON THEM, BUT ARE CORRELATED TO A BAR CODE STICKER SERIAL NUMBER ON DEVICE & PROGRAMMED IN SOFTWARE. STICKERS ARE TO BE KEPT ON A CLEAN SET OF THESE DRAWINGS. ACCEPTED A Without Comments 0 As Noted In Red 0 Per The Attached Letter These plans have been reviewed by The Tukwila Fire Prevention Bureau for conformance with current city standards. Acceptance is subject to errors and omissions which do not authorize violations of adopted standards and ordinances. The responsibility for the =adequacy of design rsa.s totally with the designer. Additions, deletions or revisions' these drawings after this date will void this acceptance and will require a resubmittal of revised drawings for subsequent approval. Final acceptance is subject to field test and inspection by The Tukwila Fire Prevention Bureau. Date: :,\„113�©b Byld �n 5�� NOTICE A completed, signed, Tukwila Fire Department Pre-test Certificate must be presented to the Inspector prior to commencement of Acceptance Testing of any Fire Alarm and Detection Systems. Failure of test will result in $40 Re - Inspection Fee and termination of the testing. TUKWILA FIRE DEPARTMENT Please call: 575.4407 and give this job No. t�z10 and exact address for shut. down or restoration approval. JUN 12.2000 ISSUED FOR APPROVAL 6-9-00 ISSUE COMMENTS DATE DRAFTSMAN DAN SHARPE DESIGNER, CHRIS GOLIAN I APPROVAL, SCALE, 1/8' = I'-0' - I C1'9 E R,g� Strength and Wisdom • ��w Over Two Decades r � of Service ` A's AFS' KRAUSE'S FURNITURE - SOUTHCENTER - STORE 64 117740 SOUTH CENTER PARKWAY TUKWILA, WASHINGTON 98188 SHEET NUMBER 1113-1 SHEET 1 OF 1 REF DWG A-2 E'er teitt5 11Hlh AtEek t(r La El i w�� a ',ZfeJKiER PLA.rnJ t/.,", It o. e. ' FAO t.Icr.1 feailrr z-WNi h„a a I TE. LAND ernes • APPROVED WASHINGTON SURVEYING & RATING BUREAU SEATTLE. WASH. JUl 24 1985 tem ehanges or additions ast recommended on the attached As meeting requirements of this Bureau fur massihcatron as spnnslnea however, sYs submitted result n improved ratan. panctanca appher to plans as submitted and for consiruch� ^ (or a1Pan pt n thereon. Ermshed Rht t ��n lili�i acceptances mate tee. tvee tent o retorote e beacon true dee'- nceont�: a and Way upon the q_insurente �cs on oihwhe hfor pper not Icare" njury or bare damazexh property. It iressect to recognposshie ized that liability hazaards whit met Sault in loss still exist • TUKWILq F aEPAR nd se call:.57b 440Olt7T MENr No.8• and address down orexactretora orart n PProvashu� ?pc-- FILE per FILE ACCEPTED *WITHOUT COMMENTS. Q AS NOTED IN RED 0 PER THE ATTACHED LETTER The drawings affixed hereto have been! reviewed and accepted by the City of Tukwila Fire Dept. Additions, deletions j or revisions to these drawings after this date will void this acceptance and will require a resubmittal of revised drawings. Final acceptance is subject to field - inspection by a representative of this department '" DATE: BY: AO ' CITY OF TUKWILA 575-4407 JOHN J. ABEL FIRE PRO TI CTION 4932 PIONEER RD BOTHEL WA 98012 481-7669 i -F;1_7_7(-1J2JAR� t'U'f;.tJt1L)P '•., 4. � ; ri L.£eJT Parzs.:,JA' ;' PR'.24r4.1A-f R.A2 "u u t — DATE: "1- Ito 1 DRAWN: &,.;:r i SHEET I OF I J EX. 6TP, 86. CL6. *7-.5" A.�. IMINNIE hure il Igo i II '- — — 4 O—� (4 ACT. CL6. HT.4 10'-6' A.FF. CURTAIN rtALL O IO�TA.FF, EX. 6TP. CO. O —6 EX. 6YP. CO. P.>-- 0 0 0 h LINE or EXISTINS - STOP ABOVE CEI i 16 TO REMAIN ACT. CLE. HT.O C'RTARI HALL -CP —ion' AF.r: . i ACT. CL6. HT.* 17/ -o A.E.l . U (4 ACT. CL6. HT.* ACT. CLC. HT,• ACT. CL6. HL• C(CT. GL6. HT.O N1 ACT, CLC. Hr. 13=o°A.R. .1�-0 1GF.. T5ry A.P.E. [1 n loot (VESTIBULE C.L.C112. • h' -O' A.F2.F. 60'-0' 15ie " 5/8' FIRE PROTEGTION PLAN °GALE. EX. 6TP. EP. CL6. I) -C.,11.ca-H.a,tr 44 T ti CY•S:.uL I'L IL Z 5000 r....L .J FIG. 58 711READFU SIDE 14FAM BRACKET 3,,. 8+n44. l; r Rad . 04. A•n I/T 1,,,, r.,.,u. c,.L.:xa F.eu,ea'- N• I.J <,d •.8,..0'4 44d1x 1,.d to ..pilon Mp^I Lca,am4.nx,n• 1,.d 4.x. (carat.. Unq.x M,y,, *Loos ..1.434 colly slued,.a. Loch a{.., Loy* Fan'...,4.4.4 1.. arks* (4.111 nooed hd..A •wept l,/' L I/2' lam*. 444 fn N i FA .17 lir' du. r I.".a[ 2112' int' pre+ r.w.n i!T hrxen' Apn,..', lloran,'.n too.... a Xi 4 C44/44/4/.34.44.4.. /*Loco*ta,.d and F«wry.lx.xl op.,/ Apnw41 d.auy., 1,a. .UL a,dl N or.du.r 14 58+x..4,92 ,e/443•44//• 44/4/44/4 1 •1151 lirlu:exny nnlnd w. ka,N,,1. !d.9w,. to a. so 2' pp W 4,,4110 our,: taro.. $0.4 . 11.4 .un (4,..G•4.x.<d 0.1.. 2, 1yvn a ..o and 4.d, 1/!0.64 21: q "/2' I .' 33/61' Ua' r1/IP i IA' 11/T FN T L.,... 11.4a..e.,L.tA mac... sr...,2-,,.n. Fx.,Sr. Beau L.sL,..*L1 j <3..d" A.F.F Na. Aeeomsr.c. C.,a,-,t. /2-J4<I.F. / F...,, s.: c4 FLoe4- `L,L.,'e A,.4 LJ. ro Ala.a Le..r acv S✓s....e 129(T Yr)` d<. /...1,.e A. Wats r.sucA r. P ..r..c o r SELYIDAI A(o YL( bLS.a<.L PLA ....rv•. /2 440. (-1,L. 13u s.F M0tL,c,.LS [4t 64 FA.. APP.L evals i, Yu 8s S..annn+eu Az S t.vrl /. [ 1/.. t.4 In LE Pill__ /29 • LoS.n 0+.J. C l.,..,cLr.LcA /<-S 1 . i S.I. A/- Cods 1J 5 TYPICAL ArrUCATIONS FOR FIG. 53 1111fEAUEU 5114E DEMI 11RAcI (r Shown I len I k,.gma.p to 4' Pyre loth Leg Bolt Shv..n I',,e 1140441 w u 2' P,p• .111/ Da.. kN,., V '1en07dd:juot197ossal 70 UMOp •togs .4 SSSJpPE 308)15 pus 1 Z Of of slip anl8 pue 9 :Iii °scald ay _30 2113 V1IMNf11 01 S 70 Z t •a}ea neaing uolluanald all3 ellm)lnl 841 uolloadsul pue !sal play of loafgns s!aoueldeoOOletuSi C.sdzluanbasgnsJelsoulmeip paslnal40lepwgnsad ;1, •: pua J =_ _a S, l plop Illm 538P 8141 e<a:ii >11a1 to su°galap `suoll)PPV' ?; u;l . 44(0;cl'2)00.4 nclsap to Aoenbepe sa4::euPo Pus splepuels '910u Cil g: -..Nm sUoISSlwo 510;:e 54 131:`gns -. aoue;daaet{ 'splepuels rue; ;cl ca dol neaing uoguaneld ayl .iq Farnalna5 uaeo 81,84 sueld 58°141 p84081ly a4l lad Pets ul Pal°N sV SIUBLUwo3 lno4UM Cl31d233tV 0 LOCATION FLAN "XUC6'7Sg2�! 1. 5tsL1n ?+s'.� n -412 {iCTYS' f 41 I f , » 1 n,t,�'`ill_ , }f.f( t r_ � _�9t2flh ---'<ri----_S • mitt • CROWN FRE PROTECTION INCORPORATED P.O. BOX 12113 MILL CREEK, m9 133011.31 9541)2-0113 fit (2175) 481-7(62 FROJEGT DANED7 RIDAL PARKr1AY SUPERGEN I -ER 11140 SCUTHC.ENTER TUKY4ILA, WA JAN 222 6? -lb D11F. F.p7 14; A1i1 tl AII. Ain,. Lk F/( EXISTING A/S s 6 _ IA�a- _is -a. i 1-0 r (e.Y.JRA4LA.1iLY 1...:.: k E+wR ARE; t �-/ I IDESiCNED PER R.: R.8.A4'.+GDS T-4rcis EETRI1.. 32L':.iv"A S'S TM -111 " Im IDEEW.3 C EASE C.P. xsER (NXE BTR:' GCM a. };F FJ---_ _-� I�^ 17,, 11; t O\ 8-6_. ,off.. j.- IYA. __1D-0 s• ..-. `1 �.. pfila � 1 {f - rap s-10__1 1�-,-� ta-a ® • I0 -n . i _ 1 -070n -s •- 1-0 fi -/� 1 ,1:P4,ucAE Y -1}b is tl .d:: 4 4.. - _____-_ Ur"LTNEn PER 14SR8 SAN„APCV I 1-0 jrra R ,Ara Tz s0ci14, M 12 AND d 8, E Or w -'',..7.f. 81R Y i = O {�--- ` _24 f- 'f`J ran _ J i 1 10-0 I. ▪ • .._10-0 10-0 NEW GYP. BD. CLG. ® 8'-0' A.F.F. NEW SUSPENDED ACOUSTICAL CEIUNG AT 12'-0" A.F.F. IVa C>'�'f--�l,' 7 1/4 W110 . 8-10 4Yl' i5.-10-0 -®-- -`_1Q70_,- 1-0 I\ I t 1D-0 esommimmt ikk10-0 1-0 I f o. 10-0. ®_ 10-0 CIO 8-6 T • t �f i t4 10,0 11-0 -r 1E1_ 7 1 1 1--". 10 f 9 ZI ExJSTBta 8 WIN -0- �1u 10-0 1-0 Ex61ING 0 RAN 30 4' 30 -4• FIRE SPRINKLER PLAN SCI: t/8•=r-Ir 30' 4' L 30' 4' FLOW TEST WOOD JOIST CR BEAM r 7-)-'7-,- 7 7-- 7-.-7-- -7. T i THREADED ROD RING HANGER ' <CONCRETE/WC ELCO HANGER PTFE HANGER DETAIL GENERAL NOTES 1. TYPICAL CEILING HEIGHT TO BE 12'-0' 2. TYPICAL UNE ELEVATION TO BE 13'-0" 3. TYPICAL HANGER TO ELCO 2E710. 4. TYPICAL DROP TO BE 1(O-4)ADN. 5. BATHROOM CROPS TO BE 1(2-4)ADN. STATIC RESIDUAL FLOW SOURCE LOCATION DATE SA ❑ ACCEPTED Without Comments As Noted In Red Per The Attached Letter These plans have been reviewed by The Tukwila Fire Prevention Bureau for conformance with current city standards. Acceptance is subject to errors and omissions which do not authorize violations of adopted standards and ordinances. The responsibility for the adequacy of design rests totally with the designer. . Additions, deletions or revisions to these drawings after Ehiti date will void this acceptance and will require a jesilbmittdtof Fevised drawings for subsequent approval. Final acceptance is subject to field test and inspection by The Tukwila Fire Prevention Bureau. Date: ('f ZL 0O By: \1 it TUKWILA FIRE DEPARTMENT Please call: 575.4407 and give this job NOT TO SCAO•�- and exact address for sh down or restoration approval E SCOPE OF WORK ADO FIRE SPRINKLER HEADS FOR NEW ACOUSTICL CEILING. AREA OF WORK S 145 74 4586 W.S.R.B. S 170TH & SOUTHCENTER PARKWAY 7-12-95 KEY PLAN Ce JUN 7 Zoon HANGER LEGEND - A "U" HOOK B COACH SCREW ROD D BM. CLAMP w/ "STRAP E EYELET F FLUSH SHELL 0 CEILING FLANGE H SIDE BEAM BRACKET K SHORT CUP M ALL THREAD ROD N TOGGLE NUT P POWDER DRIVEN STUD R EXPANSION BOLT S PIPE SPIKE T U X Y Z 3/8 ELCO ZE710 STATE CERTIFICATION S ibiL �Pn1 t'4 NiW i2 - WAY EARTNOUAKE BRACE 4 - WAY EARTHQUAKE BRACE SPRINKLER LEGEND SPRINKLER -- ORIFICE SIZES AND TYPE A3 7 1 SPRAY 8 i6 � SPRAY C l u I.: 0 /2` LJ 3/4. 8 ÷ SIOEWALL DRY TYPE TEMP RATING (1 STRUCTURE TO CENTER LINE OF PIPE IN INESES FITTING LEGEND P PIPE -0 -LET f - PLAIN END PIT PETTING 0 16S' -e- 212• 286' 330' 5Go. I/O" • • 1/2- APPROVAL REQUIRED SN GROOVED SHAPED NIPPLE W.S.R.B. TSR THREADED SHAPED NIPPLE TUKWILA FIRE DEPT. SPRINKLER HEADS USED SYR MANUF MODEL TYPE TNREAD ORRICE SEE SIZE , TEMPI OTT 0 wulaf F1FR/F2 OR 53? TOTAL I tO QUALITY CONT Rtk BY _. - - - - - -- DATA APPROVED FOR FABRICATION BY DATE GENERAL NOTES 1. ALL MATERIAL AND COUIPMENT TO 6E NEW AND UL LISTED OR FM APPROVED. 2. PIPING DIMENSIONS ARE CENTER TO CENTER EXCEPT RISERS AND D'MENSIONS SHOWN THUSLY (I-6) WHICH ARE END TO END. 3. EARTNOUAKE BRACING SHALL RE PROVIDED IN ACCORDANCE WITS NEPA PAMPHLET NO. I3, APPLICABLE EDITION 4. PIPE HANGERS AND METHOD OF HANGING TO RE R1 ACCORDANCE WITH NEPA PAMPHLET NO. 13, APPLICABLE EDITION. 5. PIPING SHALL BE IN ACCORDANCE WITH NEPA PAMPHLET N0. 13, APPLICABLE COTTON 6. JOINING OF PIPE AND FITTINGS. TNREADED N WELDED, SHALL BE RE ACCORDANCE WITH NEPA PANPNLET h0. 13, APPLICABLE EDITION. T. OWNER TO PRO'OOE ADEQUATE HEAT IN AREAS PROTECTED BY A WET PIPE SPRINKLER SYSTEM TO PREVENT WATER IN PIPES FROM FREEZING. B. ALL WIRING Or ELECTRICAL DEVICES (IF REQUIRED) TO BE PROVIDED BY OTHERS 9.. PAINTING OF PIPE & EQUIPMENT (IF REQUIRED) TO BE PROVIDED BY OTHERS 1Q. PURRING OF PIPE & EQUIPMENT (IF REQUIRED) TO BE PROVIDED AT OTHERS DESIGN CRITERIA 1. DESIGN PER NFPA13, ORDINARY HAZARD PIPE NOTES 1. ALL SCREWED PIPING TO BE SCH-40. REVISIONS NO I DATE RN I DESCRIPTION CONTRACT WITH: MITCHELL CONTRACTORS 19505 VASHON HWY SW - VASHON, WA 98070 _ PROJECT NAME: - KRAUSE'S FURNITURE - PARKWAY SUPERCENTER 117740 SOUTHCENTER PARKWAY TUKWILA, WA 98188 - JERRY - 206-571-3474 ATMOT FIRE PROTECTION 2707 70TH AVENUE EAST TACOMA. WA 98424 - TEL (253) 926-2290 FAX (253) 922-6150 DESIGNER - CI -NT CARR SHEET DATE 8-2-00 JOB NO. - 12-5140 1 or 1 FP -1 - \ IIC-9 7/8" • () 0 _;•-• I ' . 1 = .--:-. ----., - - I r i 1 i'[ % ...: - T VI • •c/ c.1 C ( ' A) 89--11 5/8" FIRE ALARM LAYOUT SCALE: 1/B' = T -TAP INTO EXISTING FACE CIRCUIT EOL POWER SUPPLY C- ▪ TO I c.OVAC DEDICATED UNSWITChED CIRCUIT FIRE ALARM RISER DIAGRAM NO SCALE EQUIPMENT LEGEND OTY. MODEL DESCRIPTION SACK.130X =I I $X54S5 SIGNAL EXPANDER POWER SUPPLY PROVIDED O . 3 5IGA-270 PULL STATION 4" SQUARE X 2-1/8' DEEP 110 -CI) 01 1 I # AS:24MCW FR HORN STROBE 4" SQUARE X 2-1/o" DEEP VI i4G 0 . 0 2 R.55-1..el...=6* FR STRODE 4" SQUARE X 2 -1/8" DEEP I ADDRESSABLE OUTPUT MCDULE 4-I I/16"X 4-11/16" X 4" DEEP AOLII SYSTEM INSTALLA-flON NOTES: I) All work is to conform to National Electric Code standards. 2) Wiring method is'to be open cabling ,oept where it :5 exposed and below seven feet - then it is to be in concuit. 3) All junction boxes, covers, and back boxes are to be painted red. 4) Pull stations are to be mounted at 48" to above the floor. 5) All indoor horns, strobes, horn strobes, aria mini horn strobes are to be mounted 80" above the floor or 6" below tie ceiling, whichever is lower. C) Smoke detectors shall be installed in accoraance with the following: A) 30' inches away form any xi- handling 5r5terrl diffmter 5) Not in close proximity to any fluoresciit light fixtures Exterior bell / strobe shall be mounted on the top 2/3 of the outside wall of the building, as high as possible for maximum visibility from the fire department access roadway. 8) All fire alarm wiring penetrating any fire ratid barrier shall be sealed with material which will prevent passage of flame and hot gases. WIRE LEGEND A lb AWG, 2 CONDUCTOR TELE' SNIELEI D FIRE AxOF • 14 AWG, 2 CONDUCTOR 'FELE FIRE WI E FILE ACCEPTED o Virthr,ut Cdrnments (ES"' As Noted In Red o Per The Attached Letter These plans have bass reviewed by The Tudwila Fire Prevention Bureau for conIon-rian,se with current city Standards. Acceptance is 51:0;e0. Is snore and omissions which ee not authorise vi,:iistions ct erIer.qed standards and ord:q:.nqas. The respcssitsiqw for tne adequacy of design rests totally with the detiioher. Additions, deletions or revisions to these drawings after this date will void this acceptance and will require a " resubmittal of revised drawings tor subsequent approval. Final acceptance is subject to field test and inspection by The Tukwila Fire Prevention Bureau. • Date' 2-7- ,0 Z- By. ft- TUKWILA FIRE DEPArITMs.tfi, Please call: 575.4407 and give this job No. ca 033 and exact address for shut. down or restoration aodroVek z w5 — na 9 cr1 MICHAEL PA5ICH TOM JORDAN 9 tncx 0 Ei 5., L.: 1..- .)' COI— CO 0 0 N t.LI CL ='4 Y CO w :..- CC 0 Z < a M Z 0 PHONE (253) 872-5553 cv Os Ul cv SHEET NUMBER FA -1 U _LL-1"-As-lEIED 1-ttS - 4 2002 X, - ( FIRE ALARM LAYOUT SCALE 118' = 1 -0" T -TAP INTO EXISTING FACE' CIRCUIT EOL POWER SUPPLY TO I2OVAC DEDICATED UNSWITCHED CIRCUIT FIRE ALARM RISER NO SCALE EQUIPMENT LEGEND DIAGRAM QTY MODEL DESCRIPTION BACKBOX P s I 5495 SIGNAL EXPANDER POW[ SUPPLY PROVIDED Q 3 SIGA-270 PULL STATION QQ 15 # A5-24MCW-PR HORN STROBE • 2 RS5-12 I 575W -FR STROBE 1 ADDRESSABLE OUTPUT MODULE i 4" SQUARE X 2-D8 DEEP 4" SQUARE X 2- I /8 DEEP 4" SQUARE X 2-1/8" DEEP 4-I I/16"X4-I I/16"X4"DEEP SYSTEM INSTALLATION NOTES: I) All work is to conform to National Electric Code standards 2) Wiring method is to be open cabling except where it is exposed and below seven feet - then it is to be in conduit 3) All junction boxes covers and back box(.a are to be panted red 4) Pull stations are to be mounted at 48 to (54" above the floor 5) All indoor horns strobes horn strobes and mini horn strobes are to be mounted 80 above the floor or 6 below the ceiling whichever is lower 6) Smoke detectors shall be installed in accordance wth the following A) 36' i^c5es away form a^y a r ha^d� ^a s,stem d aser 5) Not in close proximity to any fluoreserent light fixtures 7) Exter,or hull / strobe shall be mounted on he top 2/3 of the outside wall of the building a5 high as possible for maximum visibility trom the fire department access roadway 8) All fire alarm wiring penetrating any fire rued barrier shall be sealed with material which will prevent passage of flame and hot gases WIRE LEGEND A I8 AWG 2 CONDUCTOR'FPLP' S) ELDED E'RE WIRE { B I4 AWG 2 CONDUCTOR'FPLP' FIRE WIRE w I- O 2 0 w O m 2 r H m c/D O 0 N N O w D MICHAEL PA51CH so no O TOM JORDAN CHECKED BY N O 0 N 0 U Q SLI co ELECTRIC PHONE (253) 872 5553 7056 SOUTH 220TH S FAX (253) 872-4112 KENT, WA 98032 SHEET NUMBER FA -1