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Eleni Zneimer Lot 5 pages 151-201 LEGAL
0 February 20, 2003 KOECHLEIN CONSULTING ENGINEERS, INC. Job No. 03 -014 Consulting Geotechnical Engineers backfill, should be designed to resist the "active" earth pressure condition. Walls, which are restrained, should be designed to resist the "at rest" earth pressure condition. Basement walls are typically restrained. The following table presents the lateral wall pressures that may be assumed for design. Earth Pressure Condition Equivalent Fluid Pressure' pcf) Active 45 At -rest 60 Passive 300 Notes: 1. Equivalent fluid pressures are for a horizontal backfill condition with no hydrostatic pressures or live loads. 2. A coefficient of friction of 0.4 may be used at the base of footings to resist lateral loads. Special precautions involving increased site loading due to retaining walls and fill must taken for this site. Construction plans for retaining walls and fill must be submitted to our office for evaluation and determination of compliance with the recommendations of this report prior to construction. Backfill placed behind or adjacent to foundation walls and retaining walls should be placed and compacted as recommended in the COMPACTED FILL section of this report. Placement and compaction of the fill must be observed and tested by a representative of our office. 12 O 0 February 20, 2003 KOECHLEIN CONSULTING ENGINEERS, INC. Job No. 03 -014 Consulting Geotechnica! Engineers RETAINING WALLS Due to the slope of the lot, it is possible that retaining walls may be constructed for the proposed project. If retaining walls are to be constructed, in order to reduce the possibility of developing hydrostatic pressures behind retaining walls, a drain should be constructed adjacent to the wall. The drain may consist of a manufactured drain system and gravel. The gravel should have a maximum size of 1.5 inches and have a maximum of 3 percent passing the No. 200 sieve. Washed concrete aggregate will be satisfactory for the drainage layer. The manufactured drain should extend from the bottom of the retaining wall to within 2 feet of subgrade elevation. The water can be drained by a perforated pipe with collection of the water at the bottom of the wall leading to a positive gravity outlet. A typical detail for a retaining wall drain is presented in the Typical Retaining Wall Drain Detail, Fig. 8. SURFACE DRAINAGE Reducing the wetting of structural soils and the potential of developing hydrostatic pressure behind below grade walls can be achieved by carefully planned and maintained surface drainage. We recommend the following precautions be observed during construction and maintained at all times after the residence is completed: 1. Wetting or drying of the open excavation should be minimized during construction. 13 February 20, 2003 KOECHLEIN CONSULTING ENGINEERS, INC. Job No. 03 -014 Consulting Geotechnical Engineers 2. All surface water should be directed away from the top and sides of the excavation during construction. 3. The ground surface surrounding the exterior of the residence should be sloped to drain away from the building in all directions. We recommend a slope of at least 12 inches in the first 10 feet. 4. Backfill, especially around foundation walls, should be placed and compacted as recommended in the COMPACTED FILL section of this report. 5. Surface drainage for this site should be designed by a Professional Civil Engineer. IRRIGATION Sprinkler systems installed next to foundation walls or sidewalks could cause consolidation of backfill below and adjacent to these areas. This can result in heaving of lightly loaded structures over the expansive silty clay or settling of exterior steps, patios and/or sidewalks over backfilled areas. We recommend the following precautions be followed: 1. Xeriscape landscaping should be considered for this site. If a sprinkler system is used do not install a sprinkler system next to foundation walls. The sprinkler system should be at least 10 feet away from the residence and its use should be minimized. 2. Sprinkler heads should be pointed away from the structure or in a manner that does not allow the spray to come within 10 feet of the residence. 3. The landscape around the sprinkler system should be sloped- so that no ponding occurs at the sprinkler heads. 4. If shrubs or flowers are planted next to the residence, these plants should be hand watered. 14 a o February 20, 2003 KOECHLEIN CONSULTING ENGINEERS, INC. Job No. 03 -014 Consulting Geotechnical Engineers 5. Install landscaping geotextile fabrics to inhibit growth of weeds and to allow normal moisture evaporation. We do not recommend the use of a plastic membrane to inhibit the growth of weeds. 6. Control valve boxes, for automatic sprinkler systems, should be at least 10 feet away from the structure and periodically checked for leaks and flooding. COMPACTED FILL Special precautions should be taken involving fill placement on this site. Fill areas should be engineered due to the steepness of the site. We should study construction plans including fill placement prior to construction to determine compliance with our recommendations and to provide additional recommendations, if required, for fill placement. Fill depths, particularly on the downhill side of the residence, should be limited to 2 feet above the natural ground surface and the placement must be approved and observed by a representative of our office. Structural fill for this project may consist of the on -site clayey sand with gravel, cobble and boulders; crushed sandstone; or approved imported granular fill. The imported fill may consist of non - expansive silty or clayey sands or gravels with up to 20 percent passing the No. 200 sieve and a maximum plasticity index of 10. No cobbles,` boulders or sandstone fragments larger than 6 inches should be placed in fill areas. Fill areas should be stripped of all vegetation and topsoil, scarified, and then compacted. Topsoil and the silty clay soil may be used in landscape areas. Fill should be placed in 15 0 0 February 20, 2003 KOECHLEIN CONSULTING ENGINEERS, INC Job No. 03 -014 Consulting Geotechnical Engineers thin loose lifts then moisture treated and compacted as shown in the following table. The recommended compaction varies for the given use of the fill. We recommend the contractor and/or owner contact us so that a representative from our office can observe and test the placement and compaction of structural fill. Fill placed below foundations, behind retaining walls, or below slabs -on -grade is considered structural. It has been our experience that without engineering quality control, inappropriate construction techniques can occur which result in poor foundation and slab performance. LIMITATIONS Although the exploratory test pits were located to obtain a reasonably accurate determination of subsurface conditions, variations in the subsurface conditions are always 16 Recommended Compaction Percentage of the Percentage of the Percentage of the Use of Fill Standard Proctor Modified Proctor Optimum Maximum Dry Maximum Dry Moisture Content Density Density ASTM D -698 ASTM D -698)ASTM D -1557)or D- 1557)' Below Structure Foundations 98 95 2 to +2 Below Slabs -On -Grade 95 90 2 to +2 Retaining Wall Backfill 95 90 2 to +2 Utility Trench Backfill 95 90 2 to +2 Backfill (Non- Structural)90 90 2 to +2 Notes: 1. For clay soils the moisture content should be 0 to +2 percent of the optimum moisture content. For granular soils the moisture content should be —2 to +2 of the optimum moisture content. We recommend the contractor and/or owner contact us so that a representative from our office can observe and test the placement and compaction of structural fill. Fill placed below foundations, behind retaining walls, or below slabs -on -grade is considered structural. It has been our experience that without engineering quality control, inappropriate construction techniques can occur which result in poor foundation and slab performance. LIMITATIONS Although the exploratory test pits were located to obtain a reasonably accurate determination of subsurface conditions, variations in the subsurface conditions are always 16 a February 20, 2003 KOECHLEIN CONSULTING ENGINEERS, INC. Job No. 03 -014 Consulting Geotechnical Engineers possible. Any variations that exist beneath the site generally become evident. during excavation for the structure. Therefore, we must be contacted by the contractor and/or owner so that a representative of our office can observe the completed excavations to confirm that the soils are as indicated by the exploratory test pits, and to verify our foundation and floor slab recommendations. In addition, the final construction plans including fill placement should be submitted to our office for study to determine compliance with the recommendations presented in this report or to provide required additional recommendations prior to construction. After our study of the construction plans, we may find it necessary to perform additional investigation in order to further define the depth of the underlying sandstone bedrock surface. The placement and compaction of fill, as well as installation of foundations, should also be observed and tested. The preliminary design criteria and subsurface data presented in this report are valid for 3 years from the date of this report. 17 0 February 20, 2003 KOECHLEIN CONSULTING ENGINEERS, INC Job No. 03 -014 Consulting Geotechnical Engineers We appreciate the opportunity to provide this service. If we can be of further assistance in discussing the contents of this report or in analyses of the proposed structure from a soils and foundation viewpoint, please contact our office. KOECHLEIN CONSULTING ENGINEERS, INC. o' 33822 w cc 9: F Scott B. Myers, P.E. Senior Engineer Reviewed by: William H. Houlette, P.E. Senior Engineer 4 copies sent) M1 -, KOE%-..L.EIN CONSULTING ENGINEERS, INC. Consulting Geotechnical Engineers NOT TO SCALE VICINITY MAP JOB NO. 03 -014 FIG. 1 NOT TO SCALE Z w' c . W J F- KOQHLEIN CONSULTING ENGINEERS, INC. Consulting Geotechnical Engineers TP -3 LOCATIONS OF EXPLORATORY TEST PITS JOB NO. 03 -014 FIG. 2 LOT 5 1 PROPOSED RI III n1mr_ J J M C7 C7 Z H U i X W I I NOT TO SCALE Z w' c . W J F- KOQHLEIN CONSULTING ENGINEERS, INC. Consulting Geotechnical Engineers TP -3 LOCATIONS OF EXPLORATORY TEST PITS JOB NO. 03 -014 FIG. 2 LOT 5 1 PROPOSED RI III n1mr_ KOECh.AN CONSULTING ENGINEERS,INC. Consulting Geotechnical Engineers TP -1 TP -2 TP -3 APP.EL.8270 APP.EL.8259 APP.EL.8268 0 NO 0 WC .7 5 DID 104 5 p o bcSap Q' 10 cz.o a o 10 pbQ saa Q' Pad WC=8 15 200=37 15 F- LU m w LL Z 20 20 2 Z F-m a m w m L25 25 3e] 35 G JOB NO. 03 -014 30 35 m LOGS OF EXPLORATORY TEST PITS FIG. 3 KOECHLEIN CONSULTING ENGINEERS, INC. Consulting Geotechnical Engineers LEGEND: TOPSOIL CLAY, Silty, Sandy, Scattered gravel, Slightly moist, Stiff, Red - brown. SAND, Clayey, Gravelly, With cobble and boulders, Slightly Q moist, Dense to very dense, Red - brown. SANDSTONE, Weathered to non - weathered, Dry, Soft to very hard, Red to olive -tan. TREFUSAL. Indicates practical trackhoe refusal. HAND DRIVE SAMPLE. Indicates 2.0 inch diameter brass liner driven into the soil by a hammer. NBULK SAMPLE. Obtained from auger cuttings. Notes: 1. Exploratory borings were excavated on February 17, 2003 using a trackhoe. 2. No free ground water was encountered at the time of excavating. 3. The Test Pit Logs are subject to the explanations, limitations, and conclusions as contained in this report. 4. Laboratory Test Results: WC - Indicates natural moisture ( %1 DD - Indicates dry density (pcf) 200 - Indicates percent passing the No. 200 sieve ( %) 5. Approximate elevations are based on stepped off locations of the test pits in the field and the existing topographic map of the subdivision, provided by Cottle Graybeal Yaw Architects. LEGEND OF EXPLORATORY TEST PITS JOB NO. 03 -014 FIG. 4 KOECHLEIN CONSULTING ENGINEERS 12 in 3/6 in. #d #10 0 #30 #d0 #60 #100 #1a0 9200 100 0 90 10 80 20 70 30 z_m n60 cq Q 40 m z a 50 50 x z m w D4060 z w m a 30 70 20 80 10 90 p 100 200 100 10 1 0.1 0.01 0.001 DIAMETER OF PARTICLE IN MM 3"GRAVEL SAND SILT CLAY Sample of SAND, Clayey, Gravelly GRAVEL 13 % SAND 50 % Source TP -1 Sample No. Elev. /Depth 15.0 feet SILT & CLAY 37 % LIQUID LIMIT % PLASTICITY INDEX % Sample of Source GRAVEL % SAND % SILT & CLAY _ % LIQUID LIMIT % PLASTICITY INDEX % Sample No. Elev. /Depth GRADATION TEST RESULTS Job No. 03 -014 FIG. 5 1 KOECHLEIN CONSULTING ENGINEERS 0 1 I WATER ADDED I 2 3 C C 4 NU Na 5 6 7 8 9 1010 II 20 Pressure, p, ksf Sample of CLAY, Silty Natural Dry Unit Weight= 103.6 (pcf) Source TP -1 Sample No. Elev. /Depth 4.0 feet Natural Moisture Content= 7 % SWELL- CONSOLIDATION TEST RESULTS Job No. 03 -014 FIG. 6 u KOt%_HLEIN CONSULTING ENGINEERS, INC. Consulting Geotechnical Engineers CLAYEY BACKFILL 10 1 1 I la I - II I COMPACTED BACKFILL EDGE OF EXCAVATION EXCAVATE AS PER OSHA REGULATIONS) FILTER FABRIC GRAVEL 12 " PERFORATED PIPE J NOTES: MANUFACTURED WALL DRAIN BELOW GRADE WALL WATERPROOFING PLASTIC SHEETING 12" MIN. 1. DRAIN SHOULD BE AT LEAST 12 INCHES BELOW TOP OF FOOTING AT THE HIGHEST POINT AND SLOPE DOWNWARD TO A POSITIVE GRAVITY OUTLET OR TO A SUMP WHERE WATER CAN BE REMOVED BY PUMPING. 2. EXCAVATIONS ADJACENT TO FOOTINGS SHOULD BE CUT AT A 1 TO 1 (HORIZONTAL TO VERTICAL) OR FLATTER SLOPE FROM THE BOTTOM OF THE FOOTINGS. EXCAVATIONS ADJACENT TO FOOTINGS SHOULD NOT BE CUT VERTICALLY. 3. THE DRAIN SHOULD BE LAID ON A SLOPE RANGING BETWEEN 1/8 INCH AND 1/4 INCH DROP PER FOOT OF DRAIN. 4. GRAVEL SPECIFICATIONS: WASHED 1.5 INCH TO NO. 4 GRAVEL WITH LESS THAN 3% PASSING THE NO. 200 SIEVE. 5. THE BELOW GRADE CONCRETE FOUNDATION WALLS SHOULD BE PROTECTED FROM MOISTURE INFILTRATION BY APPLYING A SPRAYED ON MASTIC WATERPROOFING OR AN EQUIVALENT PROTECTION METHOD. TYPICAL WALL DRAIN DETAIL JOB NO. 03 -014 FIG. 7 KOECHLEIN CONSULTING ENGINEERS, INC. Consulting Geotechnical Engineers CLAYEY BACKFILL ( 10 — MANUFACTURED III -II WALL DRAIN11 I - Iliill COMPACTED BACKFILL RETAINING WALL N EDGE OF EXCAVATION EXCAVATE AS PER OSHA REGULATIONS) WATERPROOFING FILTER FABPIC --- 11 I PERFORATED PIPE NOTES: 1. DRAIN SHOULD BE SLOPED DOWNWARD TO A POSITIVE GRAVITY OUTLET OR TO A SUMP WHERE WATER CAN BE REMOVED BY PUMPING. 2. THE DRAIN SHOULD BE LAID ON A SLOPE RANGING BETWEEN 1/8 INCH AND 1/4 INCH DROP PER FOOT OF DRAIN_ 3. GRAVEL SPECIFICATIONS: WASHED 1.5 INCH TO NO. 4 GRAVEL WITH LESS THAN 3% PASSING THE NO. 200 SIEVE. 4. THE BELOW GRADE CONCRETE FOUNDATION WALLS SHOULD BE PROTECTED_ FROM MOISTURE INFILTRATION BY APPLYING A SPRAYED ON MASTIC WATERPROOFING OR AN EQUIVALENT PROTECTION METHOD. TYPICAL RETAINING WALL DRAIN DETAIL JOB NO. 03 -014 FIG. 8 W H C N Q O O 0 m U d a) i N 0 Z U Z W w Z_ 0 z W cD z J z O U Z W J U W O Y O O O Z co O a L O CIO Q z wA.C/) O z w Z v1C/)OC) Q'N c xUW 0 W Q H w w z Q a w oc o z o 0 Q C/ r-a C N Q O O 0 m U d a) i N 0 Z U Z W w Z_ 0 z W cD z J z O U Z W J U W O Y O O O Z co O 7- 27- 04;11:16AM;SPERSERG if ASSOC. O ;9708457339 # 1/ 3 SPERBERG & ASSOCIATES PC tic ATTORNEYS AND COUNSELORS AT LAW &"' WELLS FARGO CENTER, SUITE 205 70 BENCHMARK ROAD P. O. BOX 3420 AVON, CO 81620 Robert L. Sperberg, Esq r_perberg0colomtnlaw. com TELEPHONE: 970 - 845 -0200 FAX: 970- 845 -7339 IL Kelly C. Paulsen, Paralegal kpaulsen@colomtnlaw.com Kathleen A. Morse, Paralegal lanorseCacolomtnlaw. com FACSIMILE TRANSMISSION To: Charlie Davis Original VIA Mail: no Company: Town of Vail: Building Department Fax No.: 479 -2452 1From: Crystal Albans Secretary Total No. of Pages, including Cover page: 3 Date: July 27, 2004 Re: Brandt access to Lot 5 across Lot 6; Eleni Zneimer Subdivision This facsimile transmission is intended for the sole use of the individual or entity to which it is addressed, and may contain information that is privileged, confidential and/or exempt from disclosure under applicable law. You are hereby notified that any dissemination, distribution or duplication of this transmission by someone other than the intended recipient or designated agent of the intended recipient is strictly prohibited. If you have received this transmission in error, please notify us immediately by collect call to (970) 845 -0200, and send the original transmission to us at the above address by return mail. Thank you in advance. 7- 27- 04;11:16AM;SPERBERG AND ASSOC. h SPERBERC & ASSOCIATES PC ak)VWJ aad aamelora all Yaw July 27, 2004 ROBERT L. SPERBERG VIA E -MAIL KELLY C. PAULSEN Chip Coppola, Esq. PARALEGAL 7132 Havenwood Castle Rock, CO 80108 9708457339 # 2/ 3 Re: Brandt access to Lot 5 across Lot 6; Eleni Zneimer Subdivision. Dear Chip: I received your response to my earlier e-mail, and do not understand your reference to an "extension" fee. Buffehr Creek Partners did not ask for an WELLS FARGO extension fee in its offer to permit the Brandts continued use of the access SUITE 205 across Lot 6. Assuming that you meant that the "extension" fee, in lieu of 70 BENCHMARK RD accepting the five provisions of my offer of July 20, 2004, was all that the P.O. Box 3420 Brandts should contribute for an extension, that proposal is totallyAVON, COLORADO 81 620 unacceptable to Buffehr Creek Partners. As it stands now, Shaeffer Construction Company is trespassing on Buffehr Creek Partners' property every time it uses the access to Lot 5 across Lot 6, and Buffehr Creek expects to hold Shaeffer responsible for such trespass. This letter is our final demand to cease the trespass before we take positive action for damages and an injunction against farther trespass. 970-845 -0200 On another subject, Buffehr Creek Partners has learned that Shaeffer 970 -845 -7339 FAX Construction's request for an extension dated July 6, 2004 was due to expanded boulder work for landscaping and not for the home itself. Now it appears that they are beginning to soil nail in a manner that will encroach into the utility easement at the West side of the Brandts' property, under Lot 4 to the North and possibly into USFS land to the West. Although the Declaration for the property requires that the Brandts get approval for such action, no such approval has been sought nor has any such approval been sought from the Town of Vail, the utility companies involved or the USFS (if nails will actually encroach on its property). It is our further understanding that the Town of Vail has not received any plan revision submittals regarding the expanded boulder work and/or soil nailing. 7- 27- 04;11:16AM;SPERBERG / D ASSOC. Is ;9708457339 # 3/ 3 hN All Please be advised that the Brandts do not have permission to install any soil nails under or upon Lot 4. Further, the Town of Vail Planning Department stipulated in discussions with the Brandts' architect that any landscaping on the surface area within the boundaries of Lot 4 is at the Brandts' risk and can be removed by the owner of Lot 4 at any time in the future if that landscape encroachment is needed for access or construction on Lot 4, or for general landscaping of Lot 4. Any further trespass by the Brandts upon Lot 6 or Lot 4 will be willful and with full knowledge of Buffehr Creek Partners' objection and prohibition of such activities. Thus, in any action against the Brandts or Shaeffer Construction Company, Buffehr Creek Partners will seek exemplary damages and award of its attorney's fees and costs. Please advise me immediately if the Brandts desire to pursue any further negotiation with Buffehr Creek Partners before we take action. Thank you in advance for your anticipated cooperation and professional courtesy. Very truly yours, s/ Robert L. Sperberg Robert L. Sperberg Cc: Shaeffer Construction Company (by facsimile copy). Town of Vail Planning Department, Building Department and Public Works Department FAX N0, 971 91208 P. 01 TOR PERMIT APPLI+C.A,.TIONEB 0 3 Jurisdictiou VEC OGI Plication f;t Permit 9 Addi l 3/ 6) fC.Llt<r'C. fling A:ddre , : ;s: 'L_ °' >' itftll " ;Oia't'r"i9d:erL': ~ryrILC F' /,rl.i c7 "Z c:i,r'1G' ilia; Acidro ; ;s:Y7hCi1J >, /ill / "i f'.lJ r_ ty ;Iss of Work: UNew Instalkition Major ,Iteration Nr !INL LLATloy Fl ? FS: Passenger or freight elevator, escalator. moving walk: Up to and including. S50,000.00 of valuation - S350.00 Over 550,000,00 of valuation - S350.00 plus 56.00 for cich S 1,000.00 or ft thcreof over S50.000.00 Pumt Nvaitcr or privnre residence elevator: Up to and including $20,000.00 of valuation - S350,00 Cycr S20,000.00 or Valuation - S2:0.0D plus S".00 for each 31,000.00 or fr_ction thcreof over 530,000.00 Si 4natytre of co:trrrtctar or autitoriz,: -! aizcnt (T)a:c)k,,1N FFF.S Nes for major nlwrations shall be as set forth in Tablc 3 -A of the Uniform Administmi've Code or Tablc No, I -A of the Uniform Building Code. Si ;n7rur, of o% m Dan:) VALUATION _ //_ -), Tr' raf T4"Date laid Receipt 7,' s NOT t!rtby cenify that I hAve read 106 cx:tmi: cd tbiSt ticarimi nod kttoty il same to be tr a ar,d corl All visioai of laws anal ordinwccs rovr..ning this type of rk will be ccon plic,tl with wh- TTI spccificd hcr.in or not, n 1Ya11Tin;, a a I7nmh does .iut peesume to give authnriry iolatC Or CA,7e rtle l }f(5k15161'tS of any outer sratc or local uli i3trmcdon or ilia: periorrnance of corttrii'u en. c A1,1p c Aion Pp66sed by; _ Approved by: PLtrA l rtvi iv Approved by: Date: F'lrvotor Phin "e•view and Field inspectiom will be conducted by the Northwest Colorado Council of Gover'rttmn(s. 1: will ba forty ;irded to PAVCCOG for review and approval. Schedule Inspections by t ".t)Ittact'il] the 141VC:COCY Flevator inspector at (9 0) •168-0295 x 108, Please make checki payable to NMICCOG- FEB -07 -2005 MON 09:15 AM NWC0 05-23-2005 ln8peC Re Re ng Page 27 114:48 om _ rel - eftv Requested Inspect Date: Tuesday, May 24, 2005 Instedon GCO tolAddress: 1722 BUFFEHR CREEK RD VAIL 1722 Buffohr Creek Road F 1 Ad EG"101 Type: S-ELEC Sub =: NSFR Stabs: ISSUED Const "TW*: Occupancy: Insp Area: GCD Scott & Claudine Brandt Phone: 303-864 -9016 Applicant R & A ENTERPRISES OF CARBONDALE Phone: (970) 946-6600 Conftctor: R & A ENTERPRISES OF CARBONDALE Phone: (970) 945-6500 Description. WRING OF Now single family with EHU and 3-car garage Reau item: 190 ELEC-Final Requestor: R & A ENTERPRISES OF CARBONDALE Comments: PM Assigned TO: Action: WWA Exp: 2.. (A 4' S Hlstory Am i10 ELEC-Temp. Power Item: 120 ELEC-Rough Approved 11105104 inspector: 99 comment Item: 130 ELECCondult Item: 140 ELFC4Asc. 96/22104 1 clor: eg Convusirt Pvc r: eg012MEE comment now Service Item: 190 ELEC-Flnel i Reque,slod T(me: 01:30 PM w *AW,on*: 1970) 946-6500 -or- 379- 2968 Entered By: DGOLDEN K Action: APPR APPROVED D ZA. cS Action: APCR APPROVEIYCORRECTMN REM Action: APPR APPROVED REPT131 Run Id: 3226 0 TOWN OF VAIL FIRE DEPARTMENT VAIL FIRE DEPARTMENT 75 S. FRONTAGE ROAD VAIL, CO 81657 970 - 479 -2135 NOTE: THIS PERMIT MUST BE POSTED ON JOBSITE AT ALL TIMES ALARM PERMIT Permit #: A04 -0047 Job Address: 1722 BUFFEHR CREEK RD VAIL Status ...:ISSUED Location.....: 1722 Buffehr Creek Road Applied..:07/23/2004 Parcel No...: 210312210006 Issued . .:08/27/2004 Project No 'TM S-D (-70 Expires . .:02/23/2005 OWNER Scott & Claudine Brandt 07/23/2004 Phone: 303 - 864 -9016 Will Call --------- > 1200 N Lafayette St Payments ------------------ >388.75 Denver, CO BALANCE DUE--- - - - - -> x*: r*« r**:** a* x: s** r* x**r**** x+**.***** 0.00 a : * * *rr ::•a * * +st « * * * *s * * « * 80218 License: Item: 05600 FIRE DEPARTMENT CONTRACTOR SUPERIOR ALARM AND ELECTRON107 /23/2004 Phone: 970 - 926 -8788 08/26/2004 mvaughan P.O. BOX 2568 EDWARDS,CO. 81632 License: 429 -S APPLICANT SUPERIOR ALARM AND ELECTRONI07 /23/2004 Phone: 970 - 926 - 8788 P.O. BOX 2568 EDWARDS,CO. 81632 License: 429 -S Desciption: INSTALLATION OF MONITORED FIRE SYSTEM IN NEW CONSTRUCTION Valuation: $4,100.00 r* rssr*: s* s* ra** * * * * * * * *r *:srrx : * * * * * : * *s * * **FEE SUMMARY **»* a***** a*********** r *rxx *r * * * * * * * * * * * * * * * * * * * * * * »* Electrical --------- >0.00 Total Calculated Fees - ->388.75 DRB Fee --------- >0.00 Additional Fees ---------- >0.00 Investigation ---- >0.00 Total Permit Fee--- - - - - ->388.75 Will Call --------- >3.00 Payments ------------------ >388.75 TOTAL FEES- $388.75 r***r x** s*• x• x* r** rrs* r* rxsx* k********• e* x* xx** xx** xs: swxs** r*** x*** BALANCE DUE--- - - - - -> x*: r*« r**:** a* x: s** r* x**r**** x+**.***** 0.00 a : * * *rr ::•a * * +st « * * * *s * * « * Approvals: Item: 05600 FIRE DEPARTMENT 08/26/2004 mvaughan Action: AP CONDITIONS OF APPROVAL DECLARATIONS I hereby acknowledge that I have read this application, filled out in full the information required, completed an accurate plot plan, and state that all the information as required is correct. I agree to comply with the information and plot plan, to comply with all Town ordinances and state laws, and to build this structure according to the towns zoning and subdivision codes, design review approved, Uniform Building Code and other ordinances of the Town applicable thereto. REQUESTS FOR INSPECTION SHALL BE MADE TWENTY -FOUR HOURS IN ADYOCE BY TELEPHONE AT 479 -2135 FROM 8:00 AM - 5 PM. OF OWNER OR CONTRACTOR FOR HIMSELF AND OWNER TOWN OF VAIL, COLORADO Statement Statement Number:8040006519 Amount: $388.75 08/27/200410:43 AM Payment Method:Check Init: DDG Notation: Superior Alarm & electronics 3677 Permit No:A04 -0047 Type: ALARM PERMIT Parcel No:210312210006 Site Address:1722 BUFFEHR CREEK RD VAIL Location:1722 Buffehr Creek Road Total Fees:388.75 This Payment:388.75 Total ALL Pmts:388.75 Balance:0.00 ACCOUNT ITEM LIST: Account Code Description Current Pmts BP 00100003111100 FIRE ALARM PERMIT FEES 153.75 PF 00100003112300 PLAN CHECK FEES 232.00 WC 00100003112800 WILL CALL INSPECTION FEE 3.00 Pr APPLICATION 'VILL NOT BE ACCEPTED IF INCOMPLEI )R UNSIGO - 0170 Project #: O i Building Permit #: 00x- 0211 Alarm Permit #: 970 - 479 -2135 (Inspections) TOWN OF & TOW OF VAIL FIRE ALARM PERMIT APPLICATION Co ercial & Resi ential Fire Alarm shop drawings are required at time of 75 S. Frontage Rd. a ti ittal a in e i or ed on the Vail, Colorado 81657 p f ._Apple O ed wit t this owion. Contact Eagle County Assessors Office at 970 -328 -8640 or visit www. eaq /e- county com for Parcel # Parcel # (Required if no bldg. Permit # is provided above) Job Name: g r A 14 n Job Address: Legal Description Lot: Block: Nk Filing: NA IQ Subdivision: 1eiI Z 'yyr 5Uhc1. Owners Name: t l Address:La etkC St 211 U - t ;4' Phone: Engineer: Address:Phone: Detailed Location of work: (i.e., floor, unit #, bldg. #) Detailed description of work: I K s It"0A/ M n uIV rOL Fi rt 51, , 1t r" I m Ww Co v S fiYu c tl Work Class: New M Addition ( ) Remodel ( ) Repair ( ) Retro -fit ( ) Other ( ) Type of Bldg.: Single - family (X) Two - family ( ) Multi- family ( ) Commercial ( ) Restaurant ( ) Other ( ) No. of Existing Dwelling Units in this building: 1[ — No — .of Accommodation Units in this building: Does a Fire Alarm Exist: Yes( ) No ( Does a Fire Sprinkler System Exist: Yes( ) No( ) COMPLETE VALUATIONS FOR ALARM PERMIT (Labor & Materials) Fire Alarm: $ -// / o 0 , oo CONTRACTOR INFORMATION Fire Alarm Contractor: 9k PP_" or P ( 17)1 LI? rs Town of Vail g. o.: Z - Contact and Phone #'s: A cc / c? u4 C Contractor Signature: Q OFFICE USE Vd as SubmItted o Appsvved as Noted 17 N'I Tide: J t 3 200dl RECE! `.1 ML 23 C: /eve. yone /forms /alrmperm C 0 yj 0 z caE N O 0 , 0 a O O S m 2 4 G1m ccofmm N 3 ci n K K F.K CCD m n.C N 3 y n n n O o 2 m 0 6;m =d n m O N N N N CD CL D p co O CD Cl O NcmmznaiCDs(J)CL m mD v mrr mrmm v'00 D N O r N CD a; o SOD Np N 0) c o JapN O V W y Z NO3 N cn 0117 3 N O O o CA O 4 O On 3 o O 0) W D 3 om< CO CL 3 o U N O v n O N y I 3 CL Av a CD O O I PO ODON O x O p 0 m Q 3 y Oi C y aa3 co CL v, I 0cn CL ga 3 coa 3 v a QNO X co K)m W 0 0 00 X00 cn OD r%) x N0 WOOOO,pCD o O I 1 A o a II C.aDo a 3 CD CL a y 3 o 3 a C D v v x R.o CL m nOD 0 N 7 p1 W O O O O O O W W CYO O NO WW COCCO QD OD OOOtO W N 00000 TOWN OF VAIL FIRE DEPARTMENT PROCESS FOR COMMERCIAL & RESIDENTIAL FIRE ALARM SYSTEMS Commercial and Residential Fire Alarm shop drawing requirements at time of submittal must include the following: A Colorado Registered Engineer's stamp. Device locations on reflected ceiling plans. Typical device wiring diagrams. r Battery calculations. A list of specific device model numbers. Equipment cut sheets of each type of device. i The number of each type of device. Information indicating the specific zones. Circuit diagrams. Point to point wiring diagram. Wiring type, size, and number of conductors. The source of AC power circuits. Fire alarm panel locations. Knox Box location. Information indicating monitoring method and monitoring agency. Information regarding property managers and contact numbers. Owner's primary residence location and contact numbers. Instructions for fire alarm system operations and any pertinentT code numbers for proper operations. This check list has been provided to ensure that our review process may be handled in a timely manner. I have read and understand the above listed submittal requirements: Project name: -H Contractor Signature: Date Signed: — Z-- z — ° c 08 8® D0= Mme LLDm 0 m CO -R °- s Q M W b D , m O N a A O N N? 5 , -- . m 0 N O-4 A, o 2° cn maya2 D -- •D SOT V 3 ?! TD NTD O rn a -gym -U3 OQT3Ta ii n m nD C D D C) C N d a a m r s 3 3 n V a a = r D n v m - n o d ° "3 % n3 g m3 ° o VI • O$ g 0 C m c pT.C) 0 -n 20 5 Z 2 91 '= W 9 CL m o "n T83 3 m VcAd Sod w a N' a d s a m mr g g s N mNp CL 6 c z o o< BRAD°= i 1 a 3 N f I z 1 m-i-wm x O 70lommSDD= D y m Z m9Dc7m Z f9 po'Diim z o c 3d20ZoQ - Omol o 9 OD- -•OO D = 1 Dm T O y mNOmcn lP M)Z m m mD n OI MXO Dl D O 1, D N m Lm z Dm C DOD -' m0bNzmm ' N Ohm - wz 00 a F 00 -4 OZ0 p T MK x 1 m m a7. mmz rr T cm , any p0U) .J mc) m Dm O y w N' m d N vQ0O D rim wO7 `G N Ou(o Dn 0m ( cO Z ox mDo C) 1 m y O N 0 0 9n-1 N C Q D m m y p0pmz nr mmo Km I O 0 zC D O0iiLconmmm2 I iL 0 0 --SAO n n 0 w > > p m r In m m m z <OmCn n 3 a m N w iD 0 f • O Z < - u C i C) mo 2 ( mD maOFx o'. z' O n H J (n z m m T D m m N z Z m C O m m m 000 n o n D D 01 ODOOMMOZKml z m S z zmC) Cm rrnm m m1 Nr m00 n z Oo Z D D m D Dr Installation Insti .fiction for Power Supervision Module IS Power Supervision Unit 204 - 6V Power Supervision Unit 204 - 12/24V Operating Voltage 5.1 - 15 VDC 204 -6V Operating Current 33 mA @ 6 VDC; 66 mA @ 12 VDC Model 445AT Model 445,AT Contact Rating (resistive) 2 A @ 26 VDC or 115 VAC INSTALLATION INSTRUCTIONS 1. Connect brown initiating leads as indicated such that the end of line alarm alarm last see wiring diagram)4. Mount detector according to manufacturers installation contact Power contact Power detector first Sentrol, Inc. Corporate Headquarters: Sentrol. Inc. reserves the right toESL12345SWLevetonDrivechangespeciticationswithoutnotice. Tualatin, OR 97062 U.S. & Canada: 800- 547 -2556 01994 Sentrol, Inc. A P R O D U C T OF S E N T R O L. INC 503 - 692 -4052 Technical Support: 800- 648 -7424 S Printed on recycled paper E- 983 -10192 10258 REV .e detector LISTED 4 3 2 1 4 3 2 1 CONTROLUNIT POWER rod SUPERVISION UNITSEE ELECTRICAL SPECS) powerCircuit —oXyrT brown 10 — nitiatinycircwt END OF LINEDEVICE first detector LISTEDCONTROLUNIT powercircuit —/ alarm initiofv>8clrcurl lust detector LISTEDCONTROLUNIT Dc pcW Heal senInirbl Ci ' s IN RICAL END OF LINEDEVICE Model 4150 \ and 445CT atarr —_contact power Moser 445CS \ I'd "SCST a,, m coot «t power Oh - + 2 Z POWERON11111mal f11 1 1 ft11L SEE ELECTRICAL SPECS) 1 1 1 • END OF FINEDEVICE ELECTRICAL SPECIFICATIONS Power Supervision Unit 204 - 6V Power Supervision Unit 204 - 12/24V Operating Voltage 5.1 - 15 VDC Operating Voltage 8.5 - 33 VDC Operating Current 33 mA @ 6 VDC; 66 mA @ 12 VDC Operating Current 14 mA @ 12 VDC; 28 mA @ 24 VDC Contact Rating (resistive) 2A @ 26 VDC or 115 VAC Contact Rating (resistive) 2 A @ 26 VDC or 115 VAC INSTALLATION INSTRUCTIONS 1. Connect brown initiating leads as indicated such that the end of line 3. Neatly dress wires and power supervision unit into device is connected in series with the power supervising contact.junction box. see wiring diagram)4. Mount detector according to manufacturers installation 2. Connect appropriate control leads as shown. Red incoming and red instructions. from module to terminal 1. Black incoming and black from module to terminal 2. Sentrol, Inc. Corporate Headquarters: Sentrol. Inc. reserves the right toESL12345SWLevetonDrivechangespeciticationswithoutnotice. Tualatin, OR 97062 U.S. & Canada: 800- 547 -2556 01994 Sentrol, Inc. A P R O D U C T OF S E N T R O L. INC 503 - 692 -4052 Technical Support: 800- 648 -7424 S Printed on recycled paper E- 983 -10192 10258 REV .e 204- 12/24V 0 'e — \V ,"', INSTALLATION AND MAINTENAL —, -c INSTRUCTIONS PA400 * PS121.0 PS12M, PS24LO *, and PS24M* Electronic Mini - Sounders and Optional Strobes ULC models add suffix "A"; available in 24VOC only. Add suffix "R" for red models; "W" for white models; "B" for Beige model. PA400, add suffix "F" to models with fire printed on front. SysrEm 4 ,SEJV,50R A Division of Pittway 3825 Ohio Avenue, St. Charles, Illinois 60174 1- 800- SENSOR2, FAX: 630 - 377 -6495 Specifications PA400 Sounder Operating Voltage: Current Drain: Temperature Range: Sound Output: PSI 2/24 Strobe 9.6VDC (absolute min.) to 33VDC (absolute max.) 12 mA at 12 volts 15 mA at 24 volts 10 0C to +60 "C (14 "F to 140 "F) 0 °C to 49 °C (32 °F to 1.20 °F) with strobe added Greater than 90 dBA measured in anechoic room at 10 feet, 24 volts. See Figure 1 for other volfages: 82 d1 Xmintnlum nien rPtl in`UL reVMtaT= room 75 dBA minimum with strobe) Figure 1: Figure 2: Vw" F eox R — wx E I nc temperature Range: 0 °C to 49 °C (32 °F to 120 "F) Under no circumstances can the PS24 voltage exceed 33VDC or be less than 18VDC. Under no circumstances can the PS12 voltage exceed 18.7VDC or be less than 9.6VDC. To calculate battery requirements, use current values shown above. However, note that there is an in -rush current associated with strobe power -up. The information in Figures 3 and 4 is useful when selecting fuse values. As Figure 3 shows, 12V strobe in -rush current typically peaks at 3A and drops to nominal in 600p5. In a 24V strobe (Figure 4), in -rush current typically peaks at 7.OA and drops to nominal in 800pS. Figure 3. 12 volt strobe in -rush current: 1 Aidiv 200N6/ div General Information The National Fire Protection Association has published codes, standards, and recommended practices for the installation and use of the above appliances. Therefore, the installer must be fa- miliar with these requirements, witli local codes, and any special requirements of the authority having jurisdiction. Model PA400 The PA40OW (white), PA40OR (red), and IIA400B (beige) Piezo Alert electronic sounder and optional supplementary signal strobes are intended to be connected to the alarm indicating cir- cuit of a UL- listed 12 or 24 VDC fire alarm control panel. The models PSI 2 and PS24 optional strobe additions to the IIA400 re- Figure 4. 24 volt strobe in -rush current: 1 A/div quire a 12 VDC or 24 VDC panel, respectively and are able to op- erate from a full -wave rectified, unfiltered supply. Installation Notes The wiring must be in compliance with all codes and must not be of such length or wire size that would cause the appliance to op- erate outside of its published specifications. The appliances must also be tested after installation in accordance with the control panel manufacturer's test procedure. NOTE: Do not loop wires under terminal screws. Wires connecting the device to the panel must be broken at the device screw terminal in order to maintain electrical supervision. 156- 305 -09 MODEL •----- _..__ ._ PS12LO(W)P PS24LO(W)PS_24M(W)PS24LOA(W)PS24MA(M Panel Voli 12 -17 VDC 12 - -17 VDC 22.5.30 VDC 22.5.30 VDC 22.5.30 VDC 22.5.30 VDC Listed Panel Voltage Max. Current Drain mAq 180 mA 25 mA 75 mA ,50 mA 180 mA Min. Light Output @ 100 "', Viewing Angle 1.5 candela 15 candela 1.5 carxiela 15 candela 1.5 candela 15 candela See F 2) Figure 1: Figure 2: Vw" F eox R — wx E I nc temperature Range: 0 °C to 49 °C (32 °F to 120 "F) Under no circumstances can the PS24 voltage exceed 33VDC or be less than 18VDC. Under no circumstances can the PS12 voltage exceed 18.7VDC or be less than 9.6VDC. To calculate battery requirements, use current values shown above. However, note that there is an in -rush current associated with strobe power -up. The information in Figures 3 and 4 is useful when selecting fuse values. As Figure 3 shows, 12V strobe in -rush current typically peaks at 3A and drops to nominal in 600p5. In a 24V strobe (Figure 4), in -rush current typically peaks at 7.OA and drops to nominal in 800pS. Figure 3. 12 volt strobe in -rush current: 1 Aidiv 200N6/ div General Information The National Fire Protection Association has published codes, standards, and recommended practices for the installation and use of the above appliances. Therefore, the installer must be fa- miliar with these requirements, witli local codes, and any special requirements of the authority having jurisdiction. Model PA400 The PA40OW (white), PA40OR (red), and IIA400B (beige) Piezo Alert electronic sounder and optional supplementary signal strobes are intended to be connected to the alarm indicating cir- cuit of a UL- listed 12 or 24 VDC fire alarm control panel. The models PSI 2 and PS24 optional strobe additions to the IIA400 re- Figure 4. 24 volt strobe in -rush current: 1 A/div quire a 12 VDC or 24 VDC panel, respectively and are able to op- erate from a full -wave rectified, unfiltered supply. Installation Notes The wiring must be in compliance with all codes and must not be of such length or wire size that would cause the appliance to op- erate outside of its published specifications. The appliances must also be tested after installation in accordance with the control panel manufacturer's test procedure. NOTE: Do not loop wires under terminal screws. Wires connecting the device to the panel must be broken at the device screw terminal in order to maintain electrical supervision. 156- 305 -09 O Mounting PA400 Sounders 1. The PA400 is intended for mounting to a standard 2 -1/2" deep single -gang box which allows sufficient clearance for conduit entrance. 2. The PA400 is compatible with DC lime supervision. The Piezo Alert is polarized and has terminals marked with polarity. Ap- ply positive supply voltage to the ( +) terminal and negative supply voltage to the ( -) terminal. (See Figure 5.) 3. Mount the appliance to the electrical outlet box using the two mounting screws supplied. 4. Field repair of the PA400 should not be attempted. Return to factory for repair or replacement. PS 12 or PS24 Strobes These optional strobes are interconnected to the PA400 by tirst re- moving the two mounting screws from the sounder. Use a small screwdriver to punch out the skinned -over areas as indicated in Figure 6. Install the adapter plate on top of the sounder and screw the combined sounder ah&ddapter plate to the electrical outlet box, Make sure field wiring terminals are oriented in the upward position when mounted in the outlet box. Next, slide the strobe directly into the slots in the plates. The positive solder lug may be colored red or marked with a plus sign ( +). This lug must be in the slot closest to the field wiring terminals. Grasp the catch area on each end of the strobe and squeeze while applying inward force. Make sure the strobe catches folly engage the slots in the adapter plate and that no gap appears at the interface between the strobe and adapter plate. Figure 5: + From control panel or previous device` To EOL or Next Device NOTE: Shown with control panel in alarm. Panel polarity reversed in supervisory condition.A78- 1315.00. Figure awaatrw The Limitations of Sounders and Strobes System Sensor's sounder and signal strobe is designed to provide fire and ery, or music appliances that may prevent alert persons from hearing the security hazard warning. alarm. The sounder may not be heard by persons who are hearing im- The strobe is for supplementary signaling use only. paired. The sounder or sounder /strobe combination will not work without The signal strobe may not be seen. The electronic visual warning signal power. The sounder or sounder /strobe gets its power from the fire or se- meets or exceeds current Underwriters laboratories' standard 1638. The curity panel monitoring the alarm system. if power is cut off for any rea- visual warning signal is suitable for direct viewing and must be installed son, the sounder or sounder /strobe combination will not provide the within an area where it can be seen by building occupants. The strobe desired audible or visual warning. must not be installed in direct sunlight or areas of high light intensity The sounder may not be heard. The loudness of the sounder meets or where the visual flash might be disregarded or not seen. The strobe may exceeds current Underwriters Laboratories' standards. however, the not be seen by the visually impaired. sounder may not alert a sound sleeper or one who has recently used drugs The signal strobe may cause seizures. Individuals who have a positive or has been drinking alcoholic beverages. The sounder may not be heard if photic response to visual stimuli with seizures, such as epileptics, should it is placed in an area which is isolated by a closed door, or if it is located avoid prolonged exposure to environments in which strobe signals, in- on a different floor from the person iu hazard or if placed too far away to eluding this strobe, are activated. be heard over the ambient noise such as traffic, air conditioners, Machin- Three-Year United Warranty System Sensor warrants its enclosed sounder /strobe to be free from de- fects in materials and workmanship under normal use and service for a period of three years from date of manufacture. System Sensor makes no other express warranty for this sounder /strobe. No agent, representative, dealer, or employee of the Company has the authority to increase or alter the obligations or limitations of this Warranty. The Company's obligation of this Warranty shall be limited to the repair or replacement of any part of the sounder /strobe which is found to be defective in materials or work- manship under normal use and service during the three year period com- mencing with the date of manufacture. After phoning System Sensor's toll free number 800- SENSOR2 (736 -7672) for a Return Authorization number, send defective units postage prepaid to: System Sensor, Repair Depart- rnent. RA _.___.. 3825 Ohio Avenue, St. Charles, IL 60174. Please include a note describing the malfunction and suspected cause of failure. The Company shall not be obligated to repair or replace units which are found to be defective because of damage, unreasonable use, modifica- tions, or alterations occurring after the date of manufacture. In no case shall the Company be liable for any consequential or incidental damages for breach of this or any other Warranty, expressed or implied whatsoever, even if the loss or damage is caused by the Company's negligence or fault. Some states du not allow the exclusion or limitation of incidental or conse- quential damages, so the above limitation or exclusion may not apply to you. This Warranty gives you specific legal rights, and you may also have other rights which vary from state to state. f_ J 1JC1 0 System Sensor 1998 cSL 429/449 & 428/448 " - ERIES Self- Diagnostic Photoelectric Smoke Detectors Installation Instructions Part Number 14153 California State Fire Marshal Approved MEA (New York City) Approved F L U11E1 429/449 O 428/448 GENERAL DESCRIPTION The ESL 429/449 and 428/448 Series low- profile, self- diagnostic, two - and four -wire smoke detectors work on the light scattering principle. A pulsed infrared light- emitting diode serves as the light source, and a high -speed photo -diode as the sensing element. This design has superior protection against false alarms caused by dust, insects, RF and ambient - light. These Series of smoke detectors are especially suited for residential occupancies, including hotels, motels and dormitories, as well as other commercial and industrial fire - system applications. This Series is designed for 2 -wire and 4 -wire connection, respectively, to 6 -24 V DC fire alarm control panels, UL Listed for commercial or household fire protection. 429 & 428 Series Wiring Diagram Diagram 2 — 429AT 4290, 429CT, model 429CRT Two -Wire Compatibility429CST,429CSST ry notUSad pow er power contacts The ESL 429 Series two -wire, smoke detectors first ++ HH4h + + last offer the widest range of two wire compatibility detector I I I I detector an 08 in the industry. Refer to ESL's Compatibility Index for compatible control panel listings. COMPATIBLE LISTED CONTROL UNIT' fire ((( alarm ) + END OF LINE initiating S DEVICE circuit 449 & 448 Series Wiring Diagram Diagram 3 models 449 8 44\ AT, C, CT, CST, CSST alarm power first detect C0 n t c or LISTEDCONTROLUNIT DC powercircuit fire alarm initialingcircuit model. 449 6 448 CRT, CSRT, CLT, CSLT auaiBary LT, SC contacts 1 low temp output alarm mowerCLT, conlacls model 44ECSH' \ heatsensorcontacts power model 6 448' CSRM lastSR local non -detecl latching heal sensor smoke alarm conlacls contacts A ed POWER black SUPERVISION UNIT brown browr 448CSH and 448CSRH are smoke alarms. Optional Features This Series includes a wide range of options, as shown in the ProductSelectionGuide (Diagram 9) on back page. These options include abuiltinsounder, an auxiliary relay, an integral heat detector, and an isolated heat detector, to meet almost any application. Self- Diagnostics Includes Automatic Sensitivity TestingEachdetectorintheSeries continually monitors its own sensitivity and operational status. Once a day it performs a full diagnostic test thatincludesdynamicallytestingthesensingchamberandinternalelec-tronics. If a detector drifts out of its UL Listed sensitivity range or fails internal diagnostics, the alarm LED will flash once every second toindicatetrouble. This meets NFPA 72 field sensitivity testing require- ments without the need for external meters. NOTE: Connect to a power supply that will not automatically reset. Since the self- diagnostics only indicate trouble after 27 hours, if the power supply automatically resets every 24 hours the self- diagnosticindicationwillneverbesignaled. (The smoke detector will still si o alarm correctly.) INSTALLATIONThisSeriesofdetectors mount to standard single -gang electrical boxes, four -inch octagonal or four -inch square electrical boxes, or onWIREMOLDNo. 5739 fixture boxes. These detectors may also be moun ed directly to walls or ceilings here local co es Ictlon perm' First, pull wire through the electrical box and connect to the plug -interminalblocksupplied, one wire per terminal (see Diagrams 1, 2 and 3). Second, dress wiring neatly and snap the terminal block into thebackofthedetector. Note: The detector cover must be closed com- pletely, to su ort the circuit board while installin the terminal block. Now, open the cover and mount the detector, using the mounting holes provided (see Diagram 5). All ESL smoke detectors are shipped with a plastic dust cover for useinareaswhereconstructionison- going. Smoke detectors will not workwiththedustcoverinplace. Remove the dust cover when installation is completed, prior to testing. Smoke Detector Plac ent and Spacing In general ceiling mounted smoke detectors should be located near thecenteroftheroomorhallwheneverpossible, or more than 4 inches (100mm) from any wall. When the detector is wall mounted, the top of the 4 Diagram 4 `(,00 mm, ce ling I acceptable here (too m) ne 7hel. 12 In. 300 mm) lop of delecl _.1 maximum acceptable here 1 I I id.all NOTE: measuremems shown are to the i. closest edge of the detector Note: Measurements shown are to the closest edge of the detector . d be q.ial2.inches (100 -300 mm) from the ceiling (see Diagram 4). Refer to NFPA 72 for further mounting instructions. When more than one detector is required, spacing of 30feet (9.1 meters)may be used as a guide on smooth ceilings (as defined in NFPA 72).Other spacing may be used depending on ceiling height, high airmovement, and other conditions or response requirements. Low Temperature Output Models (CLT, CSLT Models) These models have a separate relay output that will be energized whentheambienttemperaturearoundthedetectorsfallstoapproximately 43 ° F. Note this detector continues to have the sa operatino tempera- ture ranae as standard models 32 °F (0 °C) to 120 °F 50°C . Run 6 conductor fire wire from a combination burglar /fire alarm panel to smokedetector. Connect low temperature relay contact to a separate non -firezoneonacombinationburglar /fire alarm control panel. Warning: Do not connect low temperature output relay to fire alarm zone. Diagram 5 For instructions on removal of terminal block and call technical services at 800 - 648 -7424. 161' I 715.5 cm) ___ 4" square ortestswitchWIREMOLD mounting No.5739) mounting all boxes single gang 4" octagon mounting 0 cover release NOTE: Positive air pressure from wire openings, conduit, mounting boxes,causing air movement throughirregularmountingsurfaces, or plenums proper operation. Seal allandawayfromthedetectormaypreventairflowusingULListedexpandingfoam oropeningscausingunwanted Duxseal. Where NOT To Place DetectorsOneofthemajorcausesofnuisancealarms is improper placement of detectors. Av'' I ^^ pg detect rs too IoSe to kitrhPnc nr wood stoves, where smoke can be generated. Garages and furnace rooms are also ptS6rToca ions, ue to exhaust fumes. Placing detectors too close tobathroomscancauseproblemsfromsteamybathsorshowers. Also donotinstalldetectorswherenormalambienttemperaturecanbeover 100 F (37,8 C), such as attics. Refer to NFPA 72 for more information. Supervision of System Wiring Power wirin in four -wires m is required by NFPA 72 to be SUn pis .d This is accomplished by installing a power supervision relay at the end of the detector power circuit. The contacts of the supervision relay are wired in series with the system's alarm initiating circuit, and areclosedwhenenergized (see Diagram 3). A break in the detector powercircuitoralossofpowerde- energizes the power supervision relay, opening the contacts and causing a trouble annunciation at the fire alarm control unit. ESL Models 204 -6 V and 204 -12/24 V are relays UL Listed for 4 -wirepowersupervision. ESL Model 204 -12/24 V CAN is a relay ULC Listedfor4 -wire power supervision. Models 449/448CTE, 449CSTE, and449CSSTEaresmokedetectorswithabuilt -in end -of -line power supervision relay, and can be used to supervise a circuit in place of apowersupervisionrelay. The 449CTE, 449CSTE, and 449CSSTE willalsoautomaticallysendatroublesignaltothecontrolpanelwheneverthedetectorneedsmaintenance. Proceed with sensitivity testing on all detectors as outlined on next page. RA Testing the Installation After all connections are complete and the wiring is checked for errors, apply power to the system. There should be no alarm. If an alarm is reported, determine if a detector is latched in alarm or if there is a problem with the wiring. All smoke detectors shall be tested at least annually in accordance with NFPA 72. The preferred method for functional testing is with Smoke! in a can', available from ESL. Follow the instructions on the can carefully to ensure proper testing. Other brands of canned smoke are not recommended due to potential for contamination. Other acceptable testing methods are; a smoldering punk stick or a cotton wick. The detector samples for smoke about every 9 seconds, while flashing its LED. If smoke is detected, the sampling increases to every 4.5 seconds. Excessive smoke must be detected in three consecutive samples for the alarm to activate. Therefore, when testing the detector with smoldering punks or cotton wicks, hold the smoke source near the smoke entry and gently direct smoke into the detector for 20 seconds or until alarm is indicated. BE SURE TO PROPERLY EXTINGUISH THE SMOKE SOURCE AFTER TESTING! This is a go /no -go test and is not a reliable indication of detector sensitivity. If it is successful, the LED will remain lit. To reset the detector, operate the system reset switch to remove power from the detectors. Control unit alarm and all auxiliary functions should be verified for a complete test of each detector. Models with heat sensors sample for heat every 3 seconds. Test heat sensors by using a hot air gun. Aim at heat sensor from 6 -10" away. Detector should go into alarm in less than 30 seconds. Be careful not to melt plastics. MAINTENANCE, CLEANING and SENSITIVITY TESTING This series of self- diagnostic smoke detectors is designed for easy field service and maintenance. If a detector drifts beyond its approved sensitivity range for more than 24 hours, or fails internal diagnostic tests, the unit automatically indicates trouble by flashing its LED every second. This meets NFPA 72 field sensitivity testing requirements without the need for eal meters. In accordance with NFPA 72, smoke detector sensitivity should be checked within one year after installation and every alternate year thereafter, in commercial installa- tions, or every three years in residential sites. The replaceable sensing chamber of the 400 series photoelectric detector unsnaps for easy field cleaning and service. Whenever the status LED indicates cleaning is necessary, open the detector cover, unsnap and throw away optical block chamber. Then thoroughly blow off the optical base and snap a new optical block chamber (part #211) back in place. NOTE: Be sure new optical block chamber is seated all the way down. Close detector cover and verify sensitivity with the sensitivity level test (below). Sensitivity Level Test Mode Each detector includes a sensitivity test mode that is activated by holding a magnet near the integral reed switch for more than one second (see Diagram 7). This initiates the self- diagnostic routine and provides visual indication if service is required. The alarm LED provides the indication listed in Diagram 8. After the sequence of blinks, if the sensitivity is found to be within limits and if all other tests pass, the detector will go into alarm until reset by the panel. If the sensitivity is not within limits, or an unserviceable hardware fault has been detected, the alarm LED will continue to flash Diagram 7 To activate sensitivity level test mode, hold magnet on hinge side of detector for more than 1 second. w - magnet (for best results position magnet slightly off center) once per second until the detector is reset by the panel. If sensitivity test indicates an unacceptable level, take action recommended above. If action does not result in acceptable sensitivity, replace unit. Approvals The smoke detector is for use in commercial fire protective signaling systems and in household fire warning systems. (NFPA 72). 429/449 Series Listed by Underwriters Laboratories Inc.; California State Fire Marshal approved (Listing #7272 - 0447 -128); MEA approved (New York City] Listing #MEA 64 -94 -E) Factory Mutual approved. 449CLT /449CSLT Series Listed by Underwriters' Laboratories, Inc. 428/448 Series Listed by Underwriters' Laboratories of Canada (Listing # CS205). Diagram 8 Approximate obscuration ft.) Blinks Indication Action 429/449 428/448 1 Unserviceable hardware fault is detected Reset unit and re -run sensitivity test, if indication remains the same, replace unit. 2.69 3.05 2 The detector is not sensitive enough Clean per instructions. Reset unit and re -run sensitivity test, if indication remains the same, replace unit.2.46 2.75 3 2.23 2.50 4 Detector is within sensitivity limits None 2.00 2.15 5 1.77 1.85 6 1.54 1.50 7 Detector is too sensitive Check to be sure optical block cover is snapped down completely.1 3 1.25 8 Clean per instructions. 1.08 0.90 9 9 Diagram 9 Model Designator Series Designate/ Features 449CS TR Wire Type Power Designator Model D-.gnator Designator Listing 449 UL 448 ULC Features Designator Feature E End- of•Line Power Supervisory and Sensitivity Status Relay H Isolated Fixed Temp. and Rate of Rise Heat Detector R nua,oa,r.. S Built -in Sounder SS Built -in Sounder with Sensitivity Status Output T Integrated Fixed Temp. amRateofRiseHeatDetector ff eT Description Two -wire only Four -wire only 47ModelDesignator Effm Description roved sensitivity range for more than one day. End o1 line resistor is easily connected to terminalBuilt -in end- ol•line relay that also acts as a sensitivity status output. For four wire only. Fail -safe relay trips upon loss of power or n smoke detector is outside the appwithnoextrawiring, or relay contacts can be connected to a separate trouble loop.Isolated fixed 135 °F (57 °C) and rate of rise heat detector, independently trips the LED and alarm relay output. Smoke detector system heat internal sounder lIdeal oa alarm) and activates hotel, rooms wheree smokingg allowed -both single station smoke alarm andovedas Used to activate other devices such as elevator recall, door hag Wet wfin L o isrreverased. services. 65db built -in sounder alarms when smoke is detected or when Power wiring until unity is restored topolarityfsreversed. Also, chirps when unit goes outsResettingdetectorwillsilencechirpforoneday, unt the a built-in sounder alarms when smoke is detected or when po 8 the approved sensitivity range for more than one day. 9 proper sensitivity. rotection. Either heat detector or smoke Integrated fixed 135 ° F (57 °C temperature and rate of rise head detector otters double pdetectorcantripandlatchLDandalarmrelay below 43 °F ± 5 °F ( °C).Non latching, low temperature output for temps aI Specifications Max. Ripple TCp• 2 -Wire 4 -Wire FVolt- Max. Volt. (PK (VModel 429AT,428AT I T Power 20 10% ry 8.5 8.5 33 10 ,E 70 8.5 33 10°k 70 8.5 33 10% 70 8.5 33 70 n s 33 10% 10% 70 8.5 5.1 8.5 I 0 70 10% - 33 l0oh 10% 7 33 10% 70 33 1 23m S3 _ 10% 23m' 33 10% - 70 33 - 10% _ 33 mA 0 204- 12/24V (UL Listed) - -- 8 8.. 5 204- 12/24V CAN (ULC Usted) panel.429 models draw up to a maximum of 6DM4 alarm current if not limited by p 14mA® 12V 28MA 0 24V DC T4 mA 12V DC 28mA 0 24V DC Alarm Cur. Typ. Ave. P01. Alarm Relay Other Relay 12 -24V) RRCur• Co cts fAlcts Co(tAa) see S0 se S1 fixed temperature - 135 °F, 50 ft. spacing rate of rise - 15 0F /min. & > 105 °F (8.30C /min. & > 40.6 °C) seeS1 2 + 0.50 % /Ft. o2.0 - 0.50 /o /Ft. S1See t 5 °F ( °C)43 °F ( °C) resistive2Ard28VDCor120VAC ( ) S110 0.5 1-0.5 t _15 0 . 5 Detector size .......................... 0.5 5 _0.5 51 e 10 0.5 10 0.5 10 0.5 33 0.5 23 0.5 1 0.5 10 0.5 5 0.5 1 0.5 i 0 Product Data Heat detector specifications ...fixed temperature - 135 °F, 50 ft. spacing rate of rise - 15 0F /min. & > 105 °F (8.30C /min. & > 40.6 °C) Sensitivity 4281448 - minim um ...............2 + 0.50 % /Ft. o2.0 - 0.50 /o /Ft.Low tem specifications .........p fitionsp t 5 °F ( °C)43 °F ( °C) resistive2Ard28VDCor120VAC ( )maximum 429/449 - minimum ...............2.0 + 0.37 /c/Ft. o/Ft. Auxiliary relay contacts ..... Alarm contacts .......................500 mA 0 36 V DC (resistive)cm) x D 1.85 in. (4.69 cm) x 8.8 oz. (025 kg) Wmaximum .............. 32 °F to 120 2.0 - 0.39 F (0 °C to 500C)Detector size ..........................6.1 in. (15.5 detectors are packed in a carton Operating temp ....0 to 95% RH g " " " " Packagingg typ' Y 27 hours after reset (do not connect to powertypicallyOperatinghumidityrange .............85 dB at 10 Ft.Self -diagnosticnostic indication .......g that resets every 24 hours)d r s ecifications ..............supplySounep Color ............................. white cover /white base Field wiring size ......................14 -24 AWG n the Installation Instruct533oions are protected under one or more of the following patents: 5,546,074; 01999 Sentrol. Certain item5,704,41 5,754,701; 5,82 E S t N A PRODUCT OF SENTROL SENTROL 12345 SW Leveton Dr., Tualatin, OR 97062 Tel.: 503.692.4052 Fax: 503.691.756 httpitwww.sentrol.com U.S. & Canada: 600.547.255 Technical Service: 800. 648.742 FaxBack: 1.800.463.249 Sentrel reserves the right to change specifications without notice. 1999 Sentrol E- 3914 -0999 14153 Rev.B Y INSTALLATION AND MAINTENA INSTRUCTIONS SpectrAlert Horns, Strobes, and Horn /Strobes For use with the following models: Horns: 12/24 volt: H12/24, HC12/24 Strobes: 12 volt: S1215, 5121575 24 volt: S2415, S2430, S241575, S2475, S24110 Combo: 12 volt: P1215, P121575 24 volt: P2415, P2430, P241575, P2475, P24110 Add suffix "W" for white models. Add suffix "K" for weatherproof horn and horn/strobe. Add suffix "K" for outdoor strobe only. Add suffix "F" for units marked FUEGO, "EV" for EVAC, or "AG" for AGENT, available on 241575 units only. Specifications L — — 14. SYSTEM SENSOR® A Division of Pittway 3825 Ohio Avenue, St. Charles, Illinois 60174 1- 800- SENSOR2, FAX: 630 - 377 -6495 SPECTR41ert. Voltage Range:DC or Full -Wave Rectified Horn:10.5 to 30 Volts Strobes & Horn /Strobes:12 -volt models - 10.5 to 17 volts; 24 -volt models - 20 to 30 volts with MDL module):12 -volt models - 11 to 17 volts; 24 -volt models - 21 to 30 volts NOTE: Horn and combo units will operate on walk tests with on -time durations of 1 sec. or greater. Flash Rate:1 Flash Per Second Operating Temperature:32° F to 120° F (0° C to 49° C) K Series:Horn and horn /strobe models are indoor listed, having a temperature range of 32° F to 150° F (0° C to 66° C) and are Rainproof per UL50 (NEMA 3R). Strobe only models have a temperature range of -40° F to 158° F ( -40° C to 70° C), and are indoor /outdoor listed per UL1638 and indoor listed per UL1971. The S24110K is rated 60 candela 0 -40° C. S2475K and S241575K are rated 41 candela 0 -40° C. Light Output:Models with 15 only in the model number are listed at 15 candela Models with 1575 are listed at 15 candela per UL 1971 but will provide 75 candela on axis (straight ahead) Models with 30, 75 or 110 are rated for that candela. Sound Output:Sound output levels are established at Underwriters Laboratories in their reverberant room. Always use the sound out- put specified as UL Reverberant Room when comparing products. Listings:UL, FM, CSFM, MEA. K Series models are UL, CSFM, MEA listed only. General Description The SpectrAlert series notification appliances are designed to meet the requirements of most agencies governing these devices, including: NFPA, ADA, The National Fire Alarm Code, UL, FM, CSFM, MEA. Also, check with your local Authority Having Jurisdiction for other codes or standards that may apply. The SpectrAlert series can be installed in systems using 12- or 24 -volt panels having DC or full -wave rectified (FWR) power supplies. The series can also be installed in systems requiring synchronization module MDL required) or systems that do not require synchronization no module required). NOTICE: This manual shall be left with the owner /user of this equipment. Fire Alarm System Considerations Temporal and Non - Temporal Coded Signals: The American National Standards Institute and the National Fire Alarm Code require that all horns used for building evacuation installed after July 1, 1996, must produce Temporal Coded Signals. Signals other than those used for evacuation purposes do not have to pro- duce the Temporal Coded Signal. Temporal coding is accomplished by inter- rupting a steady sound in the following manner: On Off On Off On Off Power Supply Considerations Panels typically supply DC filtered voltage or FWR (full -wave rectified) voltage. The system design engineer must calculate the number of units used in a zone based on the type of panel supply. Be certain the sum of all the device currents do not exceed the current capability of the panel. Calculations are based on using the device current found in the subse- quent charts and must be the current specified for the type of panel power supply used. Wire Sizes The designer must be sure that the last device on the circuit has sufficient voltage to operate the device within its rated voltage. When calculating the voltage available to the last device, it is necessary to consider the volt- age drop due to the resistance of the wire. The thicker the wire, the less the voltage drop. Generally, for purposes of determining the wire size nec- essary for the system, it is best to consider all of the devices as "lumped" on the end of the supply circuit (simulates "worst case "). typical wire size resistance. 18 AWG solid: Approximately 8 ohms /1,000 ft. 16 AWG solid: Approximately 5 ohms /1,000 ft. 14 AWG solid: Approximately 3 ohms /1,000 ft. 12 AWG solid: Approximately 2 ohms /1,000 ft. Example: Assume you have 10 devices on a zone and each requires 50 mA average and 2000 Ft. of 14 AWG wiring (total length= outgoing + re- turn). The voltage at the end of the loop is 0.050 amps per device x 10 devices x 3 ohms/ 1,000 ft. x 2000 ft =3 volts drop. D900 -13 -00 1 tsn uyzs vro cfrA" only' Horn Only: High /Low Temp Tone Volume /Non AVERAGE 12V Models 10.5V 12V CURRENT 17V mA) 24V 20VI Models 30V PEAK 2V Models 10.5V 12V CURRENT 17V mA) 24V 20V Model I 30V IN RUSH 12V M els 10.5V 12V CURRENT 17V mA) 24V 20V Models 30V24V 16 24V 19 24V7 25 Candela DC I FWR I DC I FWR I DC I FWR DC I FWR DC I FWR DC I FWR DC I FWR DC I FWR DC I FWR DC I FWR I DC I FWR I DC FWR DC FWR DC FWR DC FWR DC 1 FWR I DC I FWR I DC I FWR 15 133 159 114 157 181 1128 1501 61 1 431 60 1381 60 460 460 14501460 14201480 11351204 11351208 24 11351 185180 1108 92 124 140 190 97 129 116 152 147 198 15/75 168 182 142 171 99 150 56 65 49 64 44 62 490 520 49 520 460 480 150 199 150 207 150 198 76 104 88 126 180 185 97 135 116 164 147 211 30 NA NA NA NA NA NA 78 84 67 82 58 72 NA NA NA NA NA NA 83 201 163 219 183 216 NA NA NA NA NA NA 97 29 116 152 147 198 75 NA NA NA NA NA NA 145 170 123 159 102 141 NA NA NA NA NA NA 350 440 340 460 330 460 NA NA NA NA NA NA 19040 230 280 290 380 110 NA NA NA NA NA NA 11691220114 0 191 115 174 NA NA NA NA INA I NA 1460156014501570 98 100 14201 620 1 NA I NA JNALNA INA I NA 1190123012201290 12901 370 Horn Only: High /Low Temp Tone Volume /Non AVERAGE CURRENT 12V Models 10.5V I 12V 17V DC FWR DC FWR DC I FWR mA) 24V Mode 1 20V 24V 30V DC I FWR I DC I FWR DC I FWR Electro- High Tamp mech. Non 10 1 11 10 10 14 14 19 21 25 18 29 26 10 16 10 19 14 25 17 29 23 34 30 42 Low Te Non NA NA NA NA NA NA 11 12 13 13 17 15 NA NA NA NA NA NA 12 77 57 19 17 24 II13000 Hz High Te Ilnterrupt. N n 11 13 11 ti 16 18 24 87 71 23 37 95 11 17 11 21 14 28 19 J1614 70 39 35 H7594 f Low Te N n NA NA NA NA NA NA 14 75 60 15 21 19 NA NA NA NA NA NA 13 79 59 21 22 25 Horn /Strobe 15 cd: i High/Low Temp hone Volume /Non AVERAGE CURRENT 10.5V 12V 17V DC FWR DC FWR DC I FWR mA) 4V Models 20V 24V 30V DC I FWR DC I FWR I DC I FWR Electro- High Tem mech. Non 1a3 170 124 167 95 142 69 82 68 78 67 87 143 170 124 167 95 142 67 90 66 94 68 103 Low Tem Y Non NA NA NA NA NA NA 61 73 56 73 55 76 NA NA NA NA NA NA 62 77 57 79 55 85 13000 Hz High Tem interrupt. Non 144 172 125 168 97 144 74 87 71 83 81 95 144 173 125 168 95 146 69 95 70 99 79 H7594LowTemNANANANANANA64756075 65 81 A NA A NA NA NA 63 79 59 81 1 66 87 Horn /Strobe 30 ed: High /Low Temp Tone Volume /Non AVERAGE CURRENT (mA) 24V Models 20V 24V 30V DC FWR DC FWR Dc I FWR Electro- High Temp mech. Non 97 105 92 100 87 98 95 113 90 116 88 114 Low Tern Non 89 96 80 95 75 87 90 98 81 101 75 96 3000 Hz High Temp Interrupt. Non 102 108 95 105 95 105 97 116 941 121 93 117 Low Tern Non 92 1 96 1841 97 79 91 1 91 1 1001 831 103 80 97 Horn /Strobe 75 ed: High/Low Temp Tone Volume Mon AVERAGE CURRENT (mA) 24V Models 20V 24V I 30V Dc FWR I Dc I FWR DC I FWR Electro- High Temp mech. Non 164 191 148 167 131 167 163I 188 146 169 132 169 Low Temp Non 156 182 136 162 119 156 157 182 137 162 119 157 3000 Hz High Temp Interrupt. Non 196 151 172 139 174 164 192 150 175 137 177 Low Tern Non 159 184 140 164 123 160 158,188,139,163,124, 63 83 61 86 162 Horn /Strobe 110 cd:Horn /Strobe 1575 cd: High/Low TempToneVolumeMon AVERAGE CURRENT 12V Models 10.5V 12V 17V DC FWR IX FWR I DC I FWR mA) 24V Models 20V 24V 30V DC I FWR I DC I FWR DC I FWR Electro- High Temp mech. Non 24119311811131647586741)82 145 73 88 193 153 81 113 164 73 94 154 98 74 104 LOW Temp Non NA NA NA NA NA 67 77 62 77 61 77NANANANANANA688163836186 3000 Hz High Tem Interrupt. N n 82 195 152 183 115 166 80 91 77 87 81 95 82 196 152 183 113 168 75 99 76 103 79 107 LOW Tem Non NA NA NA NA NA NA 70 79 66 79 65 81 NA NA NA NA NA NA 69 831 65 85 1 66 87 High/Low Tone Volume AVERAGE CURRENT (mA) V M els 0V 24V 30V FWR Dc FWR DC FWR Electro- High mech. Anechoic dBA @10 ft. /voHs DC 241 165 209 144 200 17 238 163 211 145 2024Non186Low 20 232 153 204 132 189 1 232 154 204 132 190 3000 Hz High Interrupt. 3 246 168 214 152 207 8 242 1 67 217 10 210 Low 3 234 157 206 136 193 2 232 156 205 137 195 Sound Output Guide UL Reverberant Room dBAQ volts DC Anechoic dBA @10 ft. /voHs DC 11 12 17 2.Q 24 30 10.5 12 17 20 24 30 Temporal Low Volume Electromechanical NA NA NA 75 75 79 NA NA NA 94 96 96 98 983000HzInterruptedNANANA757979NANANA94 High Volume Electromechanical 75 75 79 82 82 82 94 95 98 100 101 102 3000 Hz Interrupted 75 75 79 82 85 85 94 95 98 100 101 102 Non- Low Volume Electromechanical NA NA NA 79 82 85 NA NA NA 94 96 98 Temporal 3000 Hz Interrupted NA NA NA 82 82 85 NA NA NA 94 96 98 High Volume Electromechanical 79 79 85 85 88 88 94 95 98 100 101 102 3000 Hz Interrupted 79 82 85 88 88 88 93 95 98 100 101 102 The same number of devices using 12 AWG wire will produce only 2 volts drop. The same devices using 18 AWG wire will produce 8 volts drop.Consult your panel manufacturer's specifications, as well as SpectrAlert's operating voltage range to determine accept- able voltage drop. Horn Selections Horns are factory set for high volume, temporal code, and electrome- chanical tone. Tones: Two tones may be selected using the jumper plugs located on the printed circuit board. With the jumper offset, the tone is the Electromechanical sound. With the jumper in place, the tone is a 3 kHz sound. Temp /Non -Temp: Temporal coding or Non - Temporal coding can be selected us- ing the jumper plugs located on the printed circuit board. With the jumper offset, the tone pattern is the Temporal Coded Signal. With the jumper in place, the Non - Temporal code continuous) tone is active. High /Low Volume: High or low volume may be selected using the jumper plugs located on the printed circuit board. With the jumper in place, the sound output level is the high level. With the jumper off- set, the sound output level is the low level. The low volume setting must NOT be used when the device is powered from a 12 1 1 NOTE: When powered from FWR supply, tones will be modulated -vo t pane . turned on and off) by 120Hz causing the tones to sound different from NOTE: Always power down devices before setting jumpers.DC power. D900 -13 -00 2 I56 -0982 -016 405 -06 DPDT Relay Module For use as a Universal Switch Device Installation Instructions 1. Connect 405 -06 trip wires to trigger circuit. Observe polarity. (Gray to positive ( +) and White to negative 2. Connect the 405 -06 DPDT relay contacts as required. The first set of contacts are: common red closed white -red open white -blue 3. The second set of contacts are: common black closed white -black open blue 4. When fail safe operation is required, wire the relay in the powered or energized condition. 5. Do not exceed rating of relay. 6. Testing: 405 -06 Test unit in accordance with NFPA 72 Chapter 7 Test Methods and Frequencies, interface equipment. To test the 405 -06, energize the relay coil and confirm the contacts tranfer. NC white -Red CON! Red NO White -Blue NC White -Black COM Black NO Blue L--- ------ -------- ------- ---- - --- -- 2 -----------ESL 405 -06 ZDPDTRelay + E Specifications for 405 -OS & 405 -06 Operating voltage .............................. ............................8.5 3)3VDC Maximum operating current . ...........................34.0 mA at 12 VDC 35.0 mA at 24 VDC Relay contacts ............................ 2 A at 30 VDC, 1 A at 120 VAC Operating temperature .................32° F to 120° F (0° C to 49° C) Operating humidity range .................0 to 85% Non - condensing Dimensions ...... ............................1.8 in. (4.6 cm) x 1.7 in. (4.3 cm) Wire connections ............... 18 AWG stranded, tinned, 18" long ESL A PRODUCT OF SFNTROL SENTROL -CADDX 12345 SW Leveton Dr., Tualatin, OR 97062 Tel.: 503.692.4052 Fax: 503.691.7566 httpJ /www.sentrol.com U.S. & Canada: 800.547.2556 Technical Service: 800.648.7424 FaxBack: 1.800.483.2495 Sentroi -caddx reserves the right to change spedNcations without notice. 2000 Sentroi -Caddx 12859 Rev B 07/00 ESL 405 -05 and 405 -06 Relay Modules Installation Instructions 405 -05 Polarity Reversal Relay Module For use with 4 -Wire Sounder Smoke Detectors and Fire /Burglar Alarm Control Panels Installation Instructions 1. Choose a mounting location in the control panel within reach of the leads provided. Use 50150 water to isopropyl alcohol to clean the mounting surface. After the surface has dried, remove protective covering from the tape. Mount unit as shown on control panel illustration. Route wires to the appropriate terminals as noted below. 2. Connect 405 -05 trigger wires to the fire alarm output terminals. Observe polarity. [Gray wire to positive ( +) and White wire to negative ( -)]. 3. Connect 405 -05 incoming power wires to the smoke detector power source. [White -Red to ( +) and White -Black to ( -)]. 4. Connect 405 -05 outgoing power wires to the smoke detector power in terminals. [Red to ( +) and Black to ( -)]. 5. Connect the smoke detector initiating circuit (alarm loop) to the alarm control. o. CSFM LISTED Testing: 405 -05 1. Test in accordance with NFPA 72 Chapter 7 Test Methods & Frequencies, interfacing equipment. 2. To test the 405 -05 initiate an alarm with smoke or approved test method on any detector connected to the control panel via the 405 relay. In alarm, detectors that have responded to smoke or test will sound in their distinct alarm patterns. 3. Reset the smoke detectors by removing power to the detectors. Note: For two wire smoke detectors, use the ESL 405 -01 or 405 -03 polarity reversal relay module. 6. Maintenance: no maintenance is required. Warning This polarity reversal device may not be compatible with al l power supervision relays. When using ESL 405 Series polarity reversal relays on four wire circuits, use the ESL 204 Series power supervision relay at the end of line. Note: Another option is to use an ESL 449CTE (or CSTE with Sounder) which incorporates an End -of -Line /Sensitivity Status Relay Output. This polarity reversal device cannot be connected to any coded annunciator. ESL 405-05 Polarity Reversal Relay Module Burglar / Fire ESL 405 -05 Alarm Control Polarity Reversal Relay White ESL 400 Series Smoke Alarm Detectors Output + G ray with Sounders White /Black ESL 204- 12/24V Black Power Supervision RelayPower Supply W ite /Red Red Alarm Loop End of Line Device J O U i qql- N vJ W 00a0 O U 4 r1 c U o M E-+ W G C!' 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CD • c n a a C" Cn CD0CDmso. W y A A CD a G • = , •t CD o aQ p i W C wSll CD CD cw U5 0 w ?: co n ° ° •, rD n O. , ' C .. A aQ a CD -1 ° b' ° CS n ry . p N OR " 'C • CAD p Q. CD cn (D CD 0 CD CD CD CD R CD CD CD o ' c°D C° CD b a m o .. o •o o n n n d o a ~^ p v, O O CD CD vCD °Ori n G CL o 0 >v cD O C CD CD CA) CL r* 2) J CL C CD B J O rA O 3 i.i V ' STA-50P/VISTA-50PUL ADEMCO's VISTA -50P Control Panel provides the flexibility of up to eight independent partitions with the economy of a single control. FEATURES: I Dependable features to meet your most demanding installations: Nine hardwired zones standard Keypad macro features Expandable to 87 total zones Master console option for viewing all Eight partitions standard partitions at a glance 75 user codes work in all partitions Common lobby logic Seven authority levels Fast downloading 224 event memory log /printer option Supports up to 16 relays and /or X -10 Four trigger outputs Quick start programming 5800 wireless compatibility False alarm features Supports two -wire multiplex UL Commercial Burglary listed Scheduling of events (real time clock) VISTA - 50PUL) End users will appreciate the easy -to -use convenience and control featuresoftheVISTA -5op: Wireless remote controls (featuring single button system operation): 5804 - Four - Button Wireless Key 5804BD - Bi- Directional Four - Button Wireless Key with system status feedback Single or dual- button wireless personal panic: 5802MN - 5802MN2 Home control features activate lights, appliances, garage doors, and numerous other devices The VISTA Interactive Phone Module (VIP) gives the end user control of their system from any touchtone phone. The 4286 VIP responds in English, with a vocabulary of over 100 words Full English display keypads for clear understanding of system status and zone locations Timed event applications: Opens garage doors and turns on lights Provides" lived-in look" while away from home Ability to limit access to parts of the home at certain times TIT i ADEMCO GROUP VISTA- 50P/V1STA-.qnPm n SPECIFICATIONS Electrical: Aux power 12 VDC, 750mA max 16.5 VAC /40 VA transformer Alarm output 12 VDC, 1.7 Amps max For UL installations, combined Aux and alarm output cannot exceed 750mA Output Control: Supports up to four relay boards Part No. 4204) Each board supports four relays for a total of 16 Optional X -10 interface (Part No. 4300) maybeusedtocontrolX -10 receiving devices Each X -10 receiver address counts as one relay when computing total relays Real time clock can be used for relay /X -10 control Zones: Nine hardwired zones Selectable response on zone 9: 10msec or 500msec Assignable to any partition 14 zone types to choose from Programmable swinger suppression Communications Touchtone or pulse Formats supported: ADEMCO Contact ID, ADEMCO 4 + 2 Express, ADEMCO low speed 3 +1, 4+ 1 and 4 +2 reporting Reporting capabilities: Split, Dual. Split /Dual Low battery reports 1 1.2 -1 1.6 VDC Expanded reporting Up to four digit PABX codes supported True dial tone detection Double pole line seizure AC loss and restoral reporting supported ORDERING: Part No. Description VISTA -50P Control Panel UVIS5oP /D 2/02 Supported Devices Hardwired Expansion Devices: 4208U Eight -Zone Expansion Module Keypads 6139 Custom English (required for Programming) -100mA 6128 Fixed English LCD - 30mA Voice Module 4286 VIP- 160mA Two -wire Smoke Detectors Duct Detectors Serial Printer Polling Loop Devices Key Switch Devices Wireless Receiver Systems: 5800 Series 5881 ENL up to 8 zones -50mA 5881 ENM up to 16 zones.50mA 5881 ENH up to 86 zones -50mA All Receivers Support Diversity reception with two antennea Remote mounting for best location Use of second receiver for maximum coverage or tough installations Unique supervision and low battery indications by point Transmitters: 5800 Series Three volt Duracell lithium batteries One mile range Tamper standard Agency Listings: UL Residential Fire and Burglary and CSFM UL Commercial Burglary (VISTA- 50PUL) 165 Eileen Way, Syosset, NY 11191 Copyright ©2002 Pittway Corporation AOEMCO is an IS09001 Registered Company ADEMCO GROUP MAR - 8-2004 07:22A FROM: Mar -05 -04 01:53pm From -TOWN OF VAIL C UNITY DEVELORENT T0: 4792452 9704792452 T -490 TOWN OF VAIL DEPARTMENT OF COMMUNITY D13VELOP --MENT75S. FRONTAGE ROAD VAIL, CO 81657 9 - -2138 NOTE: THIS PERMIT MST BE POSTED ON JOBSITE AT ALL TIMES ELECTRICAL PER.MTT IKill CONTRACTOR APPLICANT Desciption: Valuation: Job Address: 1701 BUF.FERR CREEK RD VAILLocarion...... 1722 Buffchr Creek RoadParcelNo...: 2103121215005 Project No : BRANDT, SCOTT A_ & 1200 LAFAYETTE ST DENVER CO 60218 License: EXCELL ELECTRIC PO BOX 1325 Eagle, Colorado 81631 License: 323 -E Excell Electric CLAUDINE 02/02/2004 03/05/2004 03/05/2004 License: Electrical wiring for a new single family residence20.000.00 Phone: P:1 P.0021002 F -064 Permit 4. E04 -0010 Status ... ;ISSUED Applied ..:02i02/2004 Issued, .:02/04/2004 Expires . .:08/02/2004 Phone: (970) 524 -1272 Phone: 970 - 524 -1272 RYRRESRSSsTRfyrRR.. N.. isiiiiiiiii .IrA..RRSRiiixiisiElectrrical—__>3225.00 FEE SUMMARY iii i*.. f..•... TOW Calcwated FCN- r. fiaf xi ........rsa.ssxisisiiiiaii yt; lnvcy29gazion—_>Additional Fccf 0.0g Wi1J Call -- - -y 00 lo ml Pcrmil Fec —.•>228,003 _ OC Paymens S228, r. 6i2Yiiti•.f1.r .yT WssiiiEiS3EE7l. 6At_ANCF DUE —0.00 Approvals:fs.. rsiiiiliYiiEffsRY1 ......YriiiEtsssRlVf........ip;.E.................. 44.4 Item: 06000 ELECTRICAL DEPARTMENT 02/02/2404 JS Action: AP Ltem: 05600 FIRE DSpgRTMFNT rrlsisf .i.......... I..ss.R1A ......... . rriRitiss. f........ IlrYSissiis .s.a....•rsrssiitGiiiis.. .... i3214iik2s. . .....2is.e wl,.,rRrisYS: Cond : 12 CONDITION'S OF PPROV_AL ..... BLDG.): FIELD INSPECTIONS ARE REQUIRED TO CHECK FOR CODE COMPLIANCEr• AR. I..... RiiGisriis\ R.. M.... Y' Yt\ 71ss R........ Y. Y. VXNXq AR R..........mwvw.....r.......... Ak..i.. .................... DECLARATIONS herehv sc1cR „sledge that i have read this application, filled out iu full the information required, completed an accurate plot plwl.utd state that all the information as required is correct. I agree to comply with the information and plot plan, to cam lv with allTownordinancesandstatelaws, and io build ibis structure according to the towns zoning and subdivision codes, &si ' reviewipproved, Uniform Building Code and other ordinances of the Town applicable thereto. rQIJESTS FOR WSPECTION SRALL BE MADE l'% "FATJy -FOUR HOURS TNT ADVANCE BY fEUPHONE AT 4792 -2149 OR AT OUR UFF ICE rROM &:DO AM - 4 P.M. 0 4w TOWN OF VAIL, COLORADO StatementStatementNumber: R040005399 Amount: $228.00 02 / 04 /200412:50 PMPaymentMethod: Check Init: DDG Electric 2029 Notation: Excell Permit No: E04 -0010 --- - -'--- Parcel No: 210312215005 Type: ELECTRICAL PERMIT Site Address: 1701 BUFFEHR CREEK RD VAILLocation: 1722 Buffehr Creek Road This Payment: $228.00 Total Fees: $228.00 Total ALL Pmts: $228.00 Balance: $ 0 *00 x **ACCOUNT ITEM LIST: Account Code Description Current Pmts EP 00100003111100 - - --TEMPORARY POWER PERMITSWC00100003112800WILLCALLINSPECTIONFEE 225.00 003. APPLICATION WILL NOT BE ACCEPTED IF INCOMPLETE OR UNSIGNEDRECEIVEDProject #: O , o FEB U Z 2004 Building Permit #: 03 -02cj Electrical Permit #: d _ _ 6_67 TOWN OF 970- 479 -2149 (Inspections) 75 S. Frontage Rd. TOWN OF FAIL ELECTRICAL PERMIT APPLICATION Vail, Colorado 81657 CONTRACTOR INFORMATION Electrical Contractor:' E -Mail Address: trajctor Signature: Town of Vail Reg. No.: Contact and Phone #'s: ' 5',2y - iZ :?2 COMPLETE SQ. FEET FOR NEW PUILDS and VALUATIONS FOR ALL OTHERS (Labor & Materials) AMOUNT OF SQ FT IN STRUCTURE: l =ELECTRICAL VALUATION: $00 Contact Eagle County Assessors Office at 970 - 328 -8640 or visit www eagle county com for Parcel #Parcel # Job Name: Legal Description I Lot: Owners Name Engineer Detailed description of work: Job Address: Block: I Filing: I Subdivision: Address: Z z Phone: Address: Phone: mm. a Work Class: New ()6 Addition( ) Remodel ( ) Repair ( ) Temp Power (Y) Other ( ) Work Type: Interior ( ) Exterior ( ) Both ()4 Does an EH exist at this location: Yes( ) No Type of Bldg.: Single- family ()o Duplex ( ) Multi-family )y ( ) Commercial ( ) Restaurant ( )Other ( ) No. of Existing Dwelling Units in this building: i No. of Accommodation Units in this building:ii Is this permit for a hot tub: Yes ( ) No (X) Does a Fire Alarm Exist: Yes ( ) No Does a Fire Sprinkler System Exist: Yes( ) No XX]C JYC ] jC f • : XJC }: JCYY %Y;FXYYY]: :: :YX OFFICE USE ONLY*** -;--*--**** Z 20L04lV[Other Fees: Date Received: DRB Fees: Accepted - By:Planner Sign-off: C` .fo - $ -3.0 . Vail \data \cdev\ > ORMS\PERMITS \ELECPERM.DOC 07/26/2002 TOWN Amendment to the 1999 N.E.C. Town of Vail Ordinance 10 -1 -6. Overhead services are not allowed in the Town of Vail. Underground services have to be in conduit (PVC) from the transformer to the electric meter, main disconnectswitchandtothefirstelectricaldistributioncircuitbreakerpanel. The main disconnect switch shall be located next to the meter on the exterior wall of the structureructure easil y Lj All underground conduits are required to be inspected before back - filling the trench.In multi - family dwelling units, no electrical wiring or feeder cables shall pass from one unit to another. Commonwallsandspacesareaccepted. NM Cable (Romex) is not allowed in commercial buildings or structures exceeding three (3) stories.No use of aluminum wire smaller than size #8 will be permitted with the Town of Vail. TOWN OF VAIL ELECTRICAL PERMIT GUIDELINES j All installations of exterior hot tubs or spa's require a DRB approval from planning. This application willnotbeacceptedwithoutacopyoftheDRBapprovalformattached (if applicable). If this permit is for installation of an exterior hot tub or spa on a new elevated latfor30" above grade, you must also obtain a building permit P m or deck over Li .If this permit is for installation of an exterior hot tub or spa on any existing deck or elevated platformastructuralengineermustreviewtheexistingconditionandverifythatitwillsupporttheaddedconcentratedload. Please provide a copy of the structural engineers wet stamped letter or drawingwiththisapplication. Lj If this is a remodel in a multi - family building with a homeowners association, a letter of permissionfromtheassociationisrequired. If this permit is for a commercial space, two (2) sets of stamped drawings are required. I have read and understand the above. 1 - Signature 7 -off Date Signed If you have any questions regarding the above information or have additional questionspleasecontacttheTownofVailElectricalInspectorat970 -479 -2147. The inspector can bereachedonTuesday, Thursday and Friday mornings between the hours of 8am and 9am. Youmayalsoleaveavoicemailandtheinspectorwillcallyouback. TOWN OF VAIL DEPARTMENT OF COMMUNITY DEVELOPMENT 75 S. FRONTAGE ROAD VAIL, CO 81657 970 - 479 -2138 NOTE: THIS PERMIT MUST BE POSTED ON JOBSITE AT ALL TIMES ELECTRICAL PERMIT Permit #:E04 -0101 Total Calculated Fees - ->232.00 Electrical --------- > Job Address: 1722 BUFFEHR CREEK RD VAIL Status ...:ISSUED Location.....: 1722 Buffehr Creek Road Applied..:06/11/2004 Parcel No...: 210312210006 Issued .06/16/2004 Total Permit Fee--- - - - - -> Expires 12/13/2004 Project No 6 20 Payments------------ - - - - ->232.00 OWNER Scott & Claudine Brandt 06/11/2004 Phone: 303 - 864 9016 1200 N Lafayette St TOTAL FEES - ->232.00 Denver, CO 0.00 80218 License: CONTRACTOR R & A ENTERPRISES OF CARBOND06 /11/2004 Phone: (970)945 -6500 5317 CR 154, Suite 201 Glenwood Springs, Colorado 81601 License: 339 -E APPLICANT R & A ENTERPRISES OF CARBOND06 /11/2004 Phone: (970)945 -6500 5317 CR 154, Suite 201 Glenwood Springs, Colorado 81601 License: 339 -E Desciption: WIRING OF New single family with EHU and 3 -car garage Valuation: $70,000.00 FEE SUMMARY ############################# # # # # # # # # # # # # # # # # * # # # # # # # # # # # # ## Total Calculated Fees - ->232.00 Electrical --------- >229.00 DRB Fee --------- >0.00 Additional Fees ---------- >0.00 0.00 Total Permit Fee--- - - - - ->232.00 Investigation ---- > Payments------------ - - - - ->232.00 Will Call --------- >3-00 TOTAL FEES - ->232.00 BALANCE DUE--- - - - - ->0.00 Approvals:Item: 06000 ELECTRICAL DEPARTMENT 06/11/2004 JS Action: AP Item: 05600 FIRE DEPARTMENT CONDITIONS OF APPROVAL Cond: 12 BLDG.): FIELD INSPECTIONS ARE REQUIRED TO CHECK FOR CODE COMPLIANCE. DECLARATIONS I hereby acknowledge that 1 have read this application, filled out in full the information required, completed an accurate plot plan,and state that all the information as required is correct. I agree to comply with the information and plot plan, to comply with allTownordinancesandstatelaws, and to build this structure according to the towns zoning and subdivision codes, design review approved, Uniform Building Code and other ordinances of the Town applicable thereto. REQUESTS FOR INSPECTION SHALL BE MADE TWENTY -FOUR HOURS IN ADVANCE BY SIGNATURE OF E 149 OR AT OUR OFFICE FROM 8:00 AM _ 4 pM FOR HIMSELF AND -OWNF Ll TOWN OF VAIL, COLORADO x * * * * * * * * * * * * * * * * * * * * * * * * * * * ** * * * * * * * * x * * * * * * * * * * * * * * * * ** * * * ** * * * ** * * * * * ** * StatementStatementNumber: R040006038 Amount: $232.00 06 /16/200402:52 PMPaymentMethod: Check Init: DDG Enterprises 8581 Notation: R & A Permit No: E04 -0101 Type: ELECTRICAL PERMITParcelNo: 210312210006 Site Address: 1722 BUFFEHR CREEK RD VAIL Location: 1722 Buffehr Creek Road Total Fees: $232.00ThisPayment: $232.00 Total ALL Pmts:232.00 Balance: $0.00 ACCOUNT ITEM LIST: Account Code Description Current Pmts EP 00100003111100 TEMPORARY POWER PERMITS 229.00WC00100003112800WILLCALLINSPECTIONFEE3.00 APPLICATION 4. -L NOT BE ACCEPTED IF INCOMPLETE OR UNSIGNE Project #: 1L65-Building Permit #: — Electrical Permit #: TVWNOFYAI, 970- 479 -2149 (Inspections) 75 S. Frontage Rd. Vail, Colorado 81657 Ele Contractor: K i t main Address. Contractor Signatur F CONTRACTOR INFORMATION Town of Vail Reg. No.: PLICAT Contact and Phone #'s: Ct 1.y Cfl 9'10.l . COMPLETE SQ. FEET FOR NEW BUILDS and VALUATIONS FOR ALL OTHERS Labor Materials) AMOUNT OF SQ FT IN STRUCTURE: C)C)ELECTRICAL VALUATION: $ Contact Eagle Coun Assessors Office at 970- 328 - 8640 or visit www, ea /e -coup , co Parcel # mfor Parcel # Job Name: - I 1 LegaIDescription Lot: Block:Filing:Owners Name: cc„1d+ Address: Engineer IQ Address: Detailed description of work: CorStrucl fir w 7 Ifs Work Class: New (X) Addition( ) Work Type: Interior ( ) Exterior Type of Bldg.: Single - family'( -) Duplex No. of Existing Dwelling Units in this buil( Is th; Job Address: J Subdivision: Pho r er ne: Phone: ee Remodel( ) Repair ( ) Temp Power ( ) Other Both — Yes-( ( )Does an EHU exist at this location: ) No Multi- family ( ) Commercial Restaurant ( ) Other( ) Jing: I No. of Accommodation Units in this building: Is ermit for a hot tub: Yes No Does a Fire Alarm Exist: Yes( ) No N Does a Fire Sprinkler System Exist: Yes ( ) No i; is it ie r.xr,r,+;xg is c F is k do 'r :Fx;Exxtxr. is it xxxrrr FOR CE USEiOFFICE ONLY* xxxYx,:: xrxxr *xxx,x,,:*z Other ees: _ REC J U N 1:1 2004F DRB Fees: Plan en rSio Vai I\ data \cdev \FORMS \PERMITS \ELECPERM. DOC Date 17/74 /'1 Al OWN Amendment to the 1999 N.E.C. Town of Vail Ordinance 10 -1 -6. Overhead services are not allowed in the Town of Vail. Underground services have to be in conduit (PVC) from the transformer to the electric meter, main disconnectswitchandtothefirstelectricaldistributioncircuitbreakerpanel. The main disconnect switch shall be located next to the meter on the exterior wall of the structure easilyaccessible. All underground conduits are required to be inspected before back - filling the trench.J In multi - family dwelling units, no electrical wiring or feeder cables shall pass from one unit to another. Commonwallsandspacesareaccepted. NM Cable (Romex) is not allowed in commercial buildings or structures exceeding three (3) stories.No use of aluminum wire smaller than size #8 will be permitted with the Town of Vail. TOWN OF VAIL ELECTRICAL PERMIT GUIDELINES All installations of exterior hot tubs or spa's require a DRB approval from planning. This application willnotbeacceptedwithoutacopyoftheDRBapprovalformattached (if applicable). o If this permit is for installation of an exterior hot tub or spa on a new elevated platform or deck over30" above grade, you must also obtain a building permit. If this permit is for installation of an exterior hot tub or spa on any existing deck or elevated platform,a structural engineer must review the existing condition and verify that it will support the addedconcentratedload. Please provide a copy of the structural engineers wet stamped letter or drawingwiththisapplication. Li If this is a remodel in a multi- family building with a homeowners association, a letter of permissionfromtheassociationisrequired. If this permit is for a commercial space, two (2) sets of stamped drawings are required. I have read nd erstand the above. Signature 64ae C) Si gned If you have any questions regarding the above information or have additional questions,please contact the Town of Vail Electrical Inspector at 970 - 479 -2147. The inspector can bereachedonTuesday, Thursday and Friday mornings between the hours of 8am and 9am. Youmayalsoleaveavoicemailandtheinspectorwillcallyouback.