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APPLICATIONS, CO, MULT DOCS - 08-00413 - BYUI 9th Stake Center - New Building
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Z O n z N 0 0 3 tD 0) O W c. rt O v R �CD ( a � 1 o --' m 0 M m y m -q m ca o 3 C z 3 a � 3 x ,: m 0 CO) m �p y O Z _v H 3 a Z fn o O D� y Q C) C a O 'a C _ - l`� Z q O 0 :1 Qo 9 --:t cD X 70 O N 5 2 3 S E. Z O O 0 � m 3 tD 0) O (A y Q V ( CD C O oiu CL Q "• =r l<N :rH N N 77 CD 5 :: ID „� CD C7 _� W R. (a Q1 CD CD co M Q CD B*q 'a CL W M 0 m H CD < 'Q 20 Q- L 0 CD O W R � g X Q- n� N N N C (� (Q CC) C O Q V 3 = K S °: ( O U3 7 7 = H cn CL .°_» °. 3 = (D y O -t x m 70 W N -+ m ?i ;u n c N ? 5 CO Z CD m r m n -a n s C l? p 1 w � 0'T to �c o � va ti a A H H o W c r v z ci a a 1 1 Z - v m n --1 Z n v 3 C 3 3 0 i t W c r v z ci a a 1 1 Z - v m n --1 Z n v 0 C[ T Y O F Certificate of Occupancy REXBURG . 04 —.— �, America's Family Community City of Rexburg Department of Community Development 19 E. Main St. I Rexburg, ID. 83440 Phone Building Permit No: 0800413 Applicable Edition of Code: International Building Code 2006 Site Address: 289 W 7th S Use and Occupancy: Religious Assembly Type of Construction: Type V, non -rated Design Occupant Load: BYU -Idaho 9th Stake Center Sprinkler System Required: YPS Corporation of the Presiding Bishop of The Name and Address of Owner: Church of Jesus Christ of Latter Day Saints A Utah Corporation Sole 50 East North Temple Street Salt Lake City, Utah 84150 Contractor: Jacobsen Construction Co Inc Special Conditions: Occupancy: Assembly - worship, recreation, or amusement This Certificate, issued pursuant to the requirements of Section 109 of the International Building Code, certifies that, at the time time of issuance, this building or that portion of the building that was inspected on the date listed was found to be in compliance with the requirements of the code for the group and division of occupancy and the use for which the proposed occupancy was classified. Date C.O. - Issued: February 08, 2010 (03:32PM) C.O Issued by: e ( Building Official There shall be no further change in the existing occupancy classification of the building nor shall any structural changes, modifications or additions be made to the building or any portion thereof until the Building Official has reviewed and approved said future changes. Plumbing Inspe Ao r: Fire Inspector: Electrical Inspectors P&Z Administrator • ` ,,_X N LrR C, t t' 1 0 F y a REXBURG " , �;rrcriu>Frm�Cornn;unitp City of Rexburg Department of Community Development 19 E. Main St. / Rexburg, ID. 83440 0 / Fax (2081359 -3024 Building Permit No: 0800413 Applicable Edition of Code: International Building Code 2006 Site Address: 289 W 7th S Use and Occupancy: Religious Assembly Type of Construction: Type V, non -rated Design Occupant Load: BYU -Idaho 9th Stake Center Sprinkler System Required: Yes Name and Address of Owner: Brigham Young University -Idaho 525 S Center St Rexburg, ID 83460 Contractor: Jacobsen Construction Co Inc Special Conditions: Occupancy: Assembly - worship, recreation, or amusement This Certificate, issued pursuant to the requirements of Section 109 of the International Building Code, certifies that, at the time time of issuance, this building or that portion of the building that was inspected on the date listed was found to be in compliance with the requirements of the code for the group and division of occupancy and the use for which the proposed occupancy was classified. Date C.O. Issued: February 08, 2010 (03:32PM) C.O Issued by: Building Official There shall be no further change in the existing occupancy classification of the building nor shall any structural changes, modifications or additions be made to the building or any portion thereof until the Building Official has reviewed and approved said future changes. Plumbing Inspertor; __— Fire Inspector: Electrical Inspector• P &Z Administrator � g ,xa �' . C I T Y 0 I - ` R EXBURG 08 00412 & 08 00413 BYUI 9th Stake Center COMMERCIAL & MULTIFAMILY BUILDING PE Site & Bldg lans 19 E MAIN, REXBURG, ID 83440 g 208 - 359 -3020 X326 PARCEL NUMBER: (We will provide this for you) SUBDIVISION: UNIT# BLOCK# LOT# Is based on the information - must be OWNER NAME. • LDS CNtirlul (C -1-Ve �t x, _ CONTACT PHONE # (208) ;tg8 - 6?50 PROPERTY ADDRESS: o?$9 W 7"' 6e, PHONE #: Home (Zo$) d 84 0 *7 5/ Work (py) 0 75C Cell (* $40 - c to I J OWNER 1VIAILING ADDRESS: 52AD il. rtwl: STATE: 1b ZIP: LU EMAIL w42trr-j G lAstln.A ora FAX -03 - 432 - 9S60 APPLICANT (If other than owner) 5eo7j WE2sgAZ (Applicant if other than owner, a statement authorizing applicant to act as agent for owner must accompany this application.) APPLICANT INFORMATION: ADDRESS 1 jo A K CITY: /o%•r F ,.i r STATE; ZIP !1'311 EMAIL FAX PHONE #: Home Po6) - HOC &294 Work (Uo ss.7- 4 ? Cell (soe CONTRACTOR MAILING ADDRESS: CITY `� STATE ZIP PHONE: Cell# CL1 =U' -6?, York# '?01 Fax# E1VIA IiL �. r A , t IDHEGISTRATION # & EXP. DATE O . R How many buildings are located on this property? ON E Did you recently purchase this property? No Yes (If yes, list previous owner's name) _ Is this a lot split? NO YES (Please bring copy of new legal description of property) PROPOSED USE: RELt4jt"1 (i.e., Single Family Residence, Multi Family, Apartments, Remodel, Garag Commerci Addition, Etc.) — CIRCLE ONE APPLICANT'S SIGNATURE, CERTIFICATION AND AUTHORIZAT er t@ft�rju he y t, at I hace read this application and state that the information herein is correct and I swear that any information which a be n e h , esthe Planning and Zoning Commission or the City Council for the City of Rexburg shall be truthful and correct. I agre c regu ations and Sta (lives relating to the subject matter of this application and hereby authorized representatives of the City to enter upon the above- , d property for inspections purpose ., NOTE: The building official may revoke a permit on approval issued under the provisions of the 2003 International Code i s s f any false state a or reset�taE,on of fact in the application or on the plans on which the permit or approval was based. Permit void if not started within 180 s.l rmit �wo ps 0 dal Signature of Owner /Applicant vQ {{ Do you prefer to be contacted b fIx email or phone? Circle One G'� `�_ _ WARNING - BUILDING PERMIT MUST BE POSTED ON CONSTRU *--- -- Plan fees are non - refundable and are paid in full at the time of application beginning anuawL 2005. City of Rexburg's Acceptance of the plan review fee does not constitute plan approval 'pBuilding Permit Fees are due at time of application ** *"Building Permits are void if your check does not clear� 2 DE CSI --�) 6 4 Building Safety Department ., C 1 `E'1 0 1 City of Rexburg REXBURG 19 E. Moin ionellh @rexburg.org Phone: 208.359.3020 ext 326 ;1,r„rt,� 1'nrrikr 4: <w,rr,r,rrup Rexburg, ID 83440 www.rexburg.org Fax: 208.359.3024 Affidavit of Legal Interest State of Idaho Count off I, 4 Name city 5m 1y/hlijx cyarA- Address IVA* State Being first duly sworn upon oath, depose and say: (If Applicant is also Owner of Record, skip to B) A. That I am the record owner of t e ro erty described on the attached, and I rant my permission to: 2c-aj `r � � �1: Name Address to submit the accompanying application pertaining to that property. B. I agree to indemnify, defend and hold Rexburg City and its employees harmless from any claim or liability resulting from any dispute as to the statements contained herin or as to the ownership of the property which is the subject of the application. Dated this day of , 20 14 Signatu Subscribed and sworn to before me the day and year first above written. JULIE R. VRBA \, `� • ` Notary Public Nota Public of Idaho Residing at: 10. A- S EP — 9 200$ My commission expires: I I' a` CITY OF R - URG Oc t. '23. 2008 11; 34AM No. 7257 P. 2 Building Safety Department o�� � 5 n � CITY OP City of Rexburg REX a 19 E Main janellhWexburg.org Phone: 20eX9.3020' A»u►iulsT�mllyCo�m„eniry Rexbvrg,1083440 www wburg.org Paz: 208.359.3024 '•�° PROPEWIY DRESS Permit# c6 00 L J' SUBDIVISION ) --�) PHASE LOT BLOCK Mechamical Contmetox's Nature 'F• �. usiness Namo ja, t,�Q,C .M ' I CC )•, Address. 1 �5� City 0 State / Cell Phone ( ) Business Phone (J� $&S— 42� Fax ('7�$ Em l Mechanical Eatlmate $ . (Commercial /Mull Family Only) FMTVRHS & APPLI iVCES COUNT (.yixy, c Famyjy Pwc ng on*) Furnace Exhaust or Vest Ducts Furnace /Aix Conditioner Combo Dryer Vents Heat Pump Aix Conditioner Evaporative Cooler Unit Heatet Mange Hood Vents Cook Stove Vents Bath Fan Vents other similar •vexits & ducts: Spacc Heater Decorative gas -fired appliance Incine ator System Boiler Pool Heater Fuel Cyan Pipe Outlets inchu&g stubbed in or future outletzx Inlet Pressure (Meter Supply) PSI Heat (Cire]c all that apply) Ca.s Oil Coal Fireplace Macteic Hydronic _ _ �b X Svc 1 �� / � Sisa of Licensed Cmt t Ucense number Date The C of F.&\- sgl tfm rtbe" !s the saws �r the State o Tdabo Building Safety Department City of Rexburg 'C' r� 19 E Main janellh@rexburg.org Phone: 208.359.3020 x326 Rexburg, ID 83440 www.rexburg.org Fax: 208.359.3024 C IT Y OF MXBURG Americas Family Community OWNER'S NAME Permit #08 00413 PROPERTY ADDRESS r5 x.,03: � Sirtiri BYUI 9th Stake Center SUBDIVISION PHASE LOT BLOCK RequlredLY ELECTRICAL Electrical Contractor's Name �i Qf eR `4 7k tc Business Name ,/ 4c %'+�.c f lac /R is Address R)(1 G.c . City ?A.9-i}a L State 212,or,116 Zip L? 26 % Cell Phone (;Loy?) — ?o; 1 Business Phone (2a0) Fax (,Z o ;') Z 1 - 70% ti Email A4clrPlre -t ixic/0 e.>1rSte y,uv ..Ija 7 Electrical Estimate ( cost of wiring & labor $ .3/:- ou.v * (COMMERCIAL ONLY) (Includes the tort of materials installed regardless of the party supplying it). TYPES OF INSTALLATION (New Residential includes everything contained within the residential structure and attached garage at the same time) RESIDENTIAL ONLY ❑ *Up to 1,500 sq ft - $72 ❑ *1,501 to 2,500 sq ft - $120 ❑ *2,501 to 3,500 sq ft - $168 ❑ *3,501 to 4,500 sq ft - $216 ❑ * *Over 4,500 sq ft - $216 plus $.04 /sq ft: sq ft total ❑ Existing Residential (# of Branch Circuits) - $40 plus $10 per circuit: # of circuits ❑ Multi - Family Only: # of units per building - $120 /bldg + $60 /unit ❑ Services: Alterations /Repairs that require utility disconnection. (Estimate applicable for commercial). ❑ Temporary Construction Service, 200 amp or less, one location (for a period not to exceed 1 year) - $40 ❑ Spa, Hot Tub, Swimming Pool - $40 plus $40 grounding grid where applicable ❑ Electric Central Systems Heating and /or Cooling (when notpad of a new residential construction permit and no additional wiring) - $40 ❑ Modular, Manufactured or Mobile Home - $50 plus $10 per circuit ❑ Other Installations: Wiring not specifically covered by any of the above: Cost of Wiring & Labor $ (Includes the cost of materials installed regardless of the party supplying it). ❑ Pumps (Domestic Water, Irrigation, Sewage): horse power ❑ Requested Inspections (of existing wiring) - $40 /hr (1 hr minim plus $40 /hr thereafter ❑ Temporary Amusement /Industry - $40 plus $10 per ride, concession or generator *Includes a maximum of 3 inspections. Additional inspections charged at requested inspection rate of $40 per hour. ** Includes a maximum of 4 inspections. Additional inspections charged at requested inspection rate of $40 per hour. C -211 le - 12 - 00 Signature of Licensed Contractor License number Date Building Safety Department City of Rexburg 19 E Main lanellh@rexburg.org Phone: 206.359.3020 x326 Rexburg, ID 83440 www.rexburg.org Fax: 208.359.3024 OWNER'S NAME PROPERTY ADDRESS ? f?� (.)ssT 7 SUBDIVISION PHASE LOT BLOCK 0 Q HU Rc f U 0 CITY O F REX Americas Family Community Permit #08 00413 BYUI 9th Stake Center RequiredLff ELECTRICAL Electrical Contractor's Name f /9'Cke2 c tlpr T2 tc Business Name &14,'t. 'F/e, tR tt' Address RM ya. Cell Phone (2oQ) $$— - 2w I Business Phone (2x3) Fax (2o9) 5 1 - 7UI 9 Email �iackP�e�cTirrc�C��sce�e ./,�7` Electrical Estimate (cost of wiring & labor) $ 313 on 6 =' (COMMERCIAL ONLY) ( Includes the colt of materials installed nganlleu of the party rrrppfying it). TYPES OFINSTALLATION (New Residential includes everything contained within the residential structure and attachedgarage at the same dime) RESIDENTIAL ONLY ❑ *Up to 1,500 sq ft - $72 ❑ *1,501 to 2,500 sq ft - $120 ❑ *2,501 to 3,500 sq ft - $168 ❑ *3,501 to 4,500 sq ft - $216 ❑ * *Over 4,500 sq ft - $216 plus $.04 /sq ft: sq ft total • Existing Residential (# of Branch Circuits) - $40 plus $10 per circuit: # of circuits • Multi- Family Only: # of units per building - $120 /bldg + $60 /unit ❑ Services: Alterations /Repairs that requite utility disconnection. (Estimate applicable for commercial). • Temporary Construction Service, 200 amp or less, one location (for a period not to exceed 1 year) - $40 • Spa, Hot Tub, Swimming Pool - $40 plus $40 grounding grid where applicable • Electric Central Systems Heating and /or Cooling (when notpad of a new residential consiructionpennit and no additional wiring) - $40 • Modular, Manufactured or Mobile Home - $50 plus $10 per circuit • Other Installations: Wiring not specifically covered by any of the above: Cost of Il'/irzng e° Labor $ (Includes the cost of materials installed regardless of the parry supplying it). • Pumps (Domestic Water, Irrigation, Sewage): horse power ❑ Requested Inspections (of existing wiring) - $40 /hr (1 hr minimum) plus $40 /hr thereafter ❑ Temporary Amusement /Industry - $40 plus $10 per ride, concession or generator *Includes a maximum of 3 inspections. Additional inspections charged at requested inspection rate of $40 per hour. ** Includes a maximum of 4 inspections. Additional inspections charged at requested inspection rate of $40 per hour. C -211>; AO -17 -09 Signature of Licensed Contractor License number Date • Bureau of Occupational Licenses Department of Self Governing Agencies The person named has met the requirements for licensure and is entitled under the laws and rules of the State of Idaho to operate as a(n) ARCHITECT Tana Cory Chief, B.O.L. Number 04/24/2009 Expires SCOTT L NIELSON P.O. BOX 2212 IDAHO FALLS ID 83403 Your license must be shown on demand. carry this copy display this copy 03/19/2008 4% C100 c�-K? Bureau of Occupational Licenses Department of Self Governing Agencies The person named has met the requirements for licensure and is entitled under the laws and rules of the State of Idaho to operate as a(n) ARCHITECT s� 1 SCd tjNOStA *, " � 1 ID " r Tana Cory AR -1116 04/24/2009 Chief, B.O.L. Number Expires 1 SEP - g 2pOg CITY OF REXBURG EXB Building Safety Department ;p4RURG'O City of Rexburg 'o 19 E. Main jonellh@rexburg.org Phone: 208.359.3020 Rexburg, ID 83440 www.rexburg.org Fax: 208.359.3024 CITY OF REXB V RG Americas Family Community 9 d, �5 qt-jo- --� Remodeling Your Building /Home (need Estimate $ G?SL9 SURFACE SQUARE FOOTAGE: (Shall include the exterior wall measurements of the building) First Floor Area Unfinished Basement area Second floor /loft area Finished basement area Third floor /loft area Garage area Shed or Barn Carport /Deck (30" above grade)Area Water Meter Quantity: Required!► PLUMBING Plumbing Contractor's Name: t6 in a � Business Name: Address City State Zip Contact Phone: ( ) Business Phone: ( ) It FIXTURE COUNT (mclud=roughed frxtures� Clothes Washing Machine Dishwasher Floor Drain Garbage Disposal Hot Tub /Spa Sinks (Lavatories, kitchens, bar, mop) * * * * * * * * * * * ** *Water Meter Size: Sprinklers Tub /Showers Toilet /Urinal Water Heater Water Softener Plumbing Estimate $ (COMMERCIAL /MULTI - FAMILY ONLY) Signature of Licensed Contractor The License Number& Expiration Date s permit fee schedule is the same as required by the State of Idabo Date • ESA December 4, 2008 Nil'. Scott Nielson Nielson Bodily & Associates P.O. Box 2212 990 John Adams Parkway Idaho Calls, Idaho 83403 -2212 Re: LDS BYU -I 9"' Stake Dear `.Scott. 315 VV: CENTER, POCI-ITELL0, 1DP1 O 8320 TrELLP1- ONE - 208 - 233 -0501 FAX - 208 -233 -0529 D. SUD EEKS, PE. R. R10E, P. E. 0800413 BYUI 9th Stake Center The annotation on Sheet G1.1 .indicating the 2006 International. Plumbing Code is incorrect. This should have stated the 2003 Uniform Plumbing Code. The plumbing design of the subject has been clone in accordance with the 2003 Llniforrn Plumbing Code as adopted by the State of Idaho and the City of Rexburg, Feel free to call me .if you have any questions. Sincerely, ENGINEERED SYSTEMS ASSOCIATES, INC. Dwayne S ks �— Id rCITY 0 W Enclosures: C - 5 2008 OF RE XBURG 0 .ItI6'tiCE"tCiT A, * �` e o:�mn!§ . 1 aaoCt.'.11aies, Le. d 1VIF -C - 1ANICAL - ELEC f - ENGINEERIII G o tc4 ADDENDUM Project: BYUI 9 Custom Stake Center Project No.: 500 - 1965 -0801 -0101 Addendum No.: 1 Project Address: 289 West 7'" South, Rexburg, Idaho Date: 29 August 2008 Owner: Corporation of the Presiding Bishop of The Church of Jesus Christ of Latter -day Saints, a Utah corporation sole From (Architect): Nielson Bodily & Associates. P.A. Instructions to Prospective Bidders: This Addendum forms a part of the Contract Documents and modifies the original Bidding Documents and/or prior Addenda as noted below. All conditions, requirements, materials and workmanship are to be as described in the Contract Documents unless specifically stated otherwise. This Addendum consists of 15 page(s) and the attached drawing(s), Sheet(s) , dated BID OPENING 11 September 2008 3:00 p.m. Architects Office 990 John Adams Parkway Idaho Falls, Idaho 1. See attached Sheet E0.3. Utility Extension for electrical changes. 2. Electrical revisions to be incorporated in the Project Manual. End of Addendum No. 7 SEP - 2 2008 CITY OF REXBURG CON - MIS - 0044 -US Rev. B 13 November 2002 Page 1 of 1 BYU -I 9 TH STAKE REXBURG, IDAHO DIVISION 26, ADDENDUM #1 August 27, 2008 1. General: Attached find sheet E0.3 describing the 15kV utility extension to the project. 2. Specifications: Attached find added sections 260502, 260513, 260550, 261219 and 262200 for work shown on new sheet E0.3. Approved Electrical Installers: The following are approved electrical installers for all work shown on sheet E0.3 and described in associated specification sections. a. Wheeler Electric, Idaho Falls, Idaho. b. Arco Electric, Idaho Falls, Idaho C. Caribou Electric, Jerome, Idaho d. Darnell Weekes Electric, Rexburg, Idaho End of Division 26 Addendum #1. SECTION 26 0502 - ELECTRICAL DEMOLITION REQUIREMENTS PART IGENERAL 1.1 SUMMARY A. Includes But Not Limited To 1. Demolition involving electrical system as described in Contract Documents. B. Related Sections 1. Section 26051 — Common Electrical Requirements 2. New and replacement work specified in appropriate specification Section. PART 3 EXECUTION 3.1 EXAMINATION A. All relocations, reconnections, and removals are not necessarily indicated on Drawings. All such work shall be included without additional cost to Owner. 3.2 PREPARATION A. Disconnect equipment that is to be removed or relocated. Carefully remove, disassemble, or dismantle as required, and store in approved location on site, existing items to be reused in completed work. B. Where affected by demolition or new construction, relocate, extend, or repair raceways, conductors, outlets, and apparatus to allow continued use of electrical system. Use methods and materials as specified for new construction. 3.3 PERFORMANCE A. Perform drilling, cutting, block -offs, and demolition work required for removal of necessary portions of electrical system. Do not cut joists, beams, girders, trusses, or columns without prior written permission from Architect. B. Remove concealed wiring abandoned due to demolition or new construction. Remove circuits, conduits, and conductors that are not to be re -used back to next active fixture, device, or junction box. C. Patch, repair, and finish surfaces affected by electrical demolition work, unless work is specifically called for under other Sections of the specifications. 3.4 CLEANING A. Remove obsolete raceways, conductors, apparatus, and lighting fixtures promptly from site and dispose of legally. END OF SECTION 500 -1965- 0801 -0101 1 260502 BYU -I 9 Custom Stake Center August 2008 Electrical Demolition Requirements SECTION 26 0513- MEDIUM VOLTAGE CABLE PART1 GENERAL 1.01 WORK INCLUDED A. Contractor shall provide and install all new cable and shall perform all terminations, splices, etc. 1.02 RELATED WORK A. This Section shall be used in conjunction with the following other specifications and related Contract Documents to establish the total requirements for wire and cable. 1. Section 26 0501 - Basic Electrical Requirements. 2. Section 26 0553 - Electrical Identification. 3. Section 26 0519 — Wire and Cable B. In the event of conflict regarding wire and cable requirements between this Section and any other section, the provisions of this Section shall govern. PART2 PRODUCTS 2.01 CONDUCTORS ABOVE 600 VOLT A. EPR Insulated Cable: 1. Extrusion: Single -pass, triple- tandem, of conductor screen, insulation, and insulation screen. 2. Type: 15kV, shielded, UL 1072, Type MV -105. 3. Conductors: Copper, concentric lay Class B round stranded in accordance with ASTM B3, ASTM B8, and ASTM B263. 4. Insulation Screen: Thermosetting, semiconducting ethylene - propylene rubber (EPR), extruded directly over insulation in accordance with NEMA WC 8, and AEIC CS 6. 5. Metallic Shield: Uncoated, 5 -mil, copper shielding tape, helically applied. 6. Jacket: Extruded polyvinyl chloride (PVC) compound applied over the metallic shield in accordance with NEMA WC 8. 7. Operating Temperature: 90 degrees C continuous normal operations, 130 degrees C emergency operating conditions, and 250 degrees C short- circuit conditions. 8. Manufacturer: Cable - The cable shall be Okonite, Okoguard - Okosal type MV -90 No. 115- 23 -30XX Series (Size as noted on the plans). Confirm sizes and lengths before ordering the cable. 9. Cable shall carry a two -year warranty after shipment. 10. Test in accordance with NEMA WC 8 and AEIC CS 6 partial discharge level test for EPR insulated cable. 11. Cable shall have a 133 percent insulation level. 2.02 ACCESSORIES FOR CONDUCTORS ABOVE 600 VOLTS A. Electrical Contractor shall include in base bid all for well inserts, elbows, terminations and splice kits, etc. as required B. Termination Kits: 1. Capable of terminating a 15kV, single- conductor, polymeric - insulated shielded cables. 2. Capable of producing a termination with a current rating equal to, or greater than, the cable ampacity, meeting Class 1 requirements of IEEE 48. 3. Capable of accommodating any form of cable shielding or construction without the need for special adapters and/or accessories. 4. Manufacturers: a. Raychem. b. 3M Co. B. Cold Shrinkable Splice Kits: 1. Components necessary to provide insulation, metallic shielding and grounding 500 -1965- 0801 -0101 1 260513 BYU -I 9 Custom Stake Center August 2008 Medium Voltage Cable systems, and overall jacket. 2. Capable of making splices that have a current rating equal to, or greater than the cable ampacity, conforming to IEEE 404. 3. 15 kV class, with compression connector, splice insulating and conducting sleeves, stress- relief materials, shielding braid and mesh, and abrasion- resistant cold shrinkable adhesive -lined rejacketing sleeve to provide a waterproof seal. 4. Manufacturers: a. 3M Co. C. Elbow Connector Systems: 1. Molded, peroxide - cured, EPDM - insulated, 15kV class, 95kV BIL, 200A, 10,000A rms load -break and 600A, 40,000 rms load -break elbows having all copper current - carrying parts in accordance with ANSI 386. 2. Protective Caps: 15kV class, 95kV BIL, 200 and 600 amperes, with molded EPDM insulated body. 3. Insulated Standoff Bushings: 25kV class, 95kV BIL, 200 and 600 amperes, complete with EPDM rubber body, stainless steel eyebolt with brass pressure foot, and stainless steel base bracket. 4. Bushing Inserts: 15kV class, 95kV BIL, load -break with EPDM rubber body and all- copper, current - carrying parts. See plans for size. 5. All elbows (both 200A and 600A) shall be load break. 6. All 200A elbows shall have a test point for testing under load. Supply with protective cap. 7. All 600A elbows shall be supplied with a 200A wall insert test point, with protective cap, install on back of 600A elbows for testing under load. Provide all required components to complete this installation. 8. Manufacturers. a. 3M b. Cooper. D. Cable Lugs: 1. In accordance with NEMA CC 1. 2. Rated 15kV of same material as conductor metal. 3. Manufacturers and Products, Uninsulated Crimp Connectors and Terminators: a. Square D; Versitide. b. Thomas & Betts; Color- Keyed. c. ILSCO. 4. Manufacturers and Products, Uninsulated, Bolted, Two -Way Connectors and Terminators: a. Thomas & Betts; Locktite. b. Brundy; Quiklug. c. ILSCO. 2.03 PULLING COMPOUND A. Nontoxic, noncorrosive, noncombustible, nonflammable, wax -based lubricant; UL listed. B. Suitable for rubber, neoprene, PVC, polyethylene, hypalon, CPE, and lead- covered wire and cable. C. Suitable for zinc - coated steel, aluminum, PVC, bituminized fiber, and fiberglass raceways. D. Manufacturers and Products: 1. Ideal Co.; Yellow 77. 2. Polywater, Inc. 3. Cable Grip Co. PART 3 EXECUTION 3.01 GENERAL A. Conductor installation to be in accordance with NECA 5055. 500 -1965- 0801 -0101 2 260513 BYU -I 9 Custom Stake Center August 2008 Medium Voltage Cable B. Conductor and cable sizing shown is based on copper conductors, unless noted otherwise. C. Do not exceed cable manufacturer's recommendations for maximum pulling tensions and minimum bending radii. D. Tighten screws and terminal bolts in accordance with UL 486A for copper conductors. E. Cable Lugs: Provide with correct number of holes, bolt size, and center -to- center spacing as required by equipment terminals. F. Bundling: Where single conductors and cables in manholes, handholes, vaults, cable trays, and other indicated locations are not wrapped together by some other means, bundle conductors from each conduit throughout their exposed length with cable ties placed at intervals not exceeding 18 inches on center. G. Ream, remove burrs, and clear interior of installed conduit before pulling wires or cables. H. Concrete - Encased Raceway Installation: Prior to installation of conductors, pull through each raceway a mandrel approximately 1/4 inch smaller than raceway inside diameter. 3.02 CONDUCTORS ABOVE 600 VOLTS A. Do not splice unless specifically indicated or approved by the Owner's Representative. B. Make joints and terminations with splice and termination kits, in accordance with kit manufacturer's instructions. C. Install splices or terminations as continuous operation in accessible locations under clean, dry conditions. D. Single Conductor Cable Terminations: Provide cold shrinkable stress control and outer nontracking insulation tubings, high relative permittivity stress relief mastic for insulation shield cutback treatment, and a heat - activated sealant for environmental sealing. E. Install terminals or connectors acceptable for type of conductor material used. F. Provide shield termination and grounding for all terminations. G. Provide necessary mounting hardware, covers, and connectors. I. Where elbow connectors are specified, install in accordance with manufacturer's instructions. J. Field Test Cable: DO NOT apply a High Potential "Acceptance Test" to existing cables. K. Do not drag along the ground. L. Provide and install all grounding per manufacturer and NEC. 3.03 HIGH VOLTAGE CABLE FIELD TESTING A. Perform the following field test on the new 15kV cable: 1. Perform high potential tests on 15kV cable after installation per IEEE test duration per Owner. 2. Perform tests in the presence of the Owner. Test each length of each phase cable in the system, after installation, with splices and terminations in place but disconnected from equipment. 3. Furnish necessary test equipment, experienced testing personnel, and necessary electric power. 4. Perform high - potential test in accordance with ICEA S -66 -524 and S -68 -516, and NEMA WC7 and WC8. a. Use do test voltage of 55kV for 15kV (133 percent insulation) cable applied for 15 minutes. 500- 1965- 0801 -0101 3 260513 BYU -I 9 Custom Stake Center August 2008 Medium Voltage Cable b. The voltage may be increased continuously, apply the test voltage at a uniform rate, increasing to maximum voltage in not less than 10 seconds or more than 60 seconds. If applied in steps, increase the test voltage from one step to the next in approximately five to eight equal steps. Make the duration of each step long enough for the absorption current to attain reasonable stabilization (1 minute). Record current and voltage readings at the end of each step and prepare a written copy of the test data for submission to the Owner and include in the Operations and Maintenance Manual. Immediately following these tests, ground the conductor to drain any charge to earth. Repair or replace cables not passing test. Repaired cables must pass same test. 3.04 QUALITY ASSURANCE A. All splices and terminations of conductors above 600 volts shall be performed by qualified splicers with not less than 5 years experience. Submit a resume of proposed splicers to Owner's Representative. All cable splicers shall receive the approval of the Owner's Representative before any splice or termination is made. END OF SECTION 500- 1965- 0801 -0101 4 260513 BYU -I 9 Custom Stake Center August 2008 Medium Voltage Cable SECTION 26 0550 — LADDER TYPE CABLE TRAYS PART 1 GENERAL 1.01 SECTION INCLUDES A. The work covered under this section consists of the furnishing of all necessary labor, supervision, materials, equipment, tests and services to install complete cable tray systems as shown on the drawings. B. Cable tray systems are defined to include, but are not limited to straight sections of ladder type cable trays, bends, tees, elbows, drop -outs, supports and accessories. 1.02 REFERENCES A. ANSI/NFPA 70 - National Electrical Code B. ASTM Al23 - Specification for Zinc (Hot - Galvanized) Coatings on Products Fabricated from Rolled, Pressed, and Forged Steel Shapes, Plates, Bars, and Strip C. ASTM A653 - Specification for Steel Sheet, Zinc - Coated (Galvanized) by the Hot -Dip Process, Structural (Physical) Quality D. ASTM A 10 11 - Specification for Steel, Sheet and Strip, Hot - Rolled, Carbon, Structural, High- Strength Low -Alloy and High Strength Low Alloy with Improved Formability (Formerly ASTMA570 &A607) E. ASTM A1008 — Specification for Steel, Sheet, Cold- Rolled, Carbon, Structural, High- Strength Low -Alloy and High- Strength Low -Alloy with Improved Formability (FormerlyASTMA611) F. ASTM B633 - Specification for Electrodeposited Coatings of Zinc on Iron and Steel G. NEMA VE 1 -1998 - Metallic Cable Tray Systems H. NEMA VE 2 -2000 - Cable Tray Installation Guidelines 1.03 DRAWINGS A. Specifications and drawings are for assistance and guidance, but exact routing, locations, distances and levels will be governed by actual field conditions. Contractor is directed to make field surveys as part of his work prior to submitting system layout drawings. B. Cable tray size is estimated only. Electrical Contractor shall provide tray as required based on actual cable counts. Submit anticipated cable counts and size with shop drawings. 1.04 SUBMITTALS A. Submittal Drawings: Submit drawings of cable tray and accessories including clamps, brackets, hanger rods, splice plate connectors, expansion joint assemblies, and fittings, showing accurately scaled components. B. Product Data: Submit manufacturer's data on cable tray including, but not limited to, types, materials, finishes, rung spacings, inside depths and fitting radii. For side rails and rungs, submit cross sectional properties including Section Modulus (Sx) and Moment of Inertia (Ix). 1.05 QUALITY ASSURANCE A. Manufacturers: Firms regularly engaged in manufacture of cable trays and fittings of types and capacities required, whose products have been in satisfactory use in similar service for not less than 5 years. B. NEMA Compliance: Comply with NEMA Standards Publication Number VE1, "Cable Tray Systems ". C. NEC Compliance: Comply with NEC, as applicable to construction and installation of cable tray and cable channel systems (Article 318, NEC). 500- 1965- 0801 -0101 1 260550 BYU -I 9 Custom Stake Center August 2008 Ladder Type Cable Trays D. UL Compliance: Provide products that are UL- classified and labeled. E. NFPA Compliance: Comply with NFPA 70B, "Recommended Practice for Electrical Equipment Maintenance" pertaining to installation of cable tray systems. 1.06 DELIVERY, STORAGE AND HANDLING A. Deliver cable tray systems and components carefully to avoid breakage, denting and scoring finishes. Do not install damaged equipment. B. Store cable trays and accessories in original cartons and in clean dry space; protect from weather and construction traffic. Wet materials should be unpacked and dried before storage. PART 2 PRODUCTS 2.01 ACCEPTABLE MANUFACTURERS A. Manufacturer: Subject to compliance with these specifications, cable tray and cable channel systems shall be such as manufactured by Cooper B -Line, Inc. 2.02 CABLE TRAY SECTIONS AND COMPONENTS A. General: Except as otherwise indicated, provide metal cable trays, of types, classes and sizes indicated; with splice plates, bolts, nuts and washers for connecting units. Construct units with rounded edges and smooth surfaces; in compliance with applicable standards; and with the following additional construction features. B. Materials and Finish: Material and finish specifications for each tray type are as follows: Aluminum: Straight section and fitting side rails and rungs shall be extruded from Aluminum Association Alloy 6063. All fabricated parts shall be made from Aluminum Association Alloy 5052. 2.03 TYPE OF TRAY SYSTEM Ladder type trays shall consist of two longitudinal members (side rails) with transverse members (rungs) welded to the side rails. Rungs shall be spaced 9 inches on center. Spacing in radiused fittings shall be 9 inches and measured at the center of the tray's width. Rungs shall have a minimum cable - bearing surface of 7/8 inch with radiused edges. No portion of the rungs shall protrude below the bottom plane of the side rails. B. Tray Sizes shall have 6 inch minimum usable load depth, or as noted on the drawing. C. Straight tray sections shall have side rails fabricated as I- Beams. All straight sections shall be supplied in standard 10, 12, 20, or 24 foot lengths as desired by contractor, except where shorter lengths are permitted to facilitate tray assembly lengths as shown on drawings. D. Tray widths shall be 36 inches or as shown on drawings. E. All fittings must have a minimum radius of 24 inches. F. Splice plates shall be the bolted type made as indicated below for each tray type. The resistance of fixed splice connections between adjacent sections of tray shall not exceed .00033 ohms. Splice plate construction shall be such that a splice may be located anywhere within the support span without diminishing rated loading capacity of the cable tray. Aluminum Tray - Splice plates shall be made of 6063 -T6 aluminum, using four square neck carriage bolts and serrated flange locknuts. Hardware shall be zinc plated in accordance with ASTM B633, SCI. If aluminum cable tray is to be used outdoors then hardware shall be Type 316 stainless. G. Cable Tray Supports: Shall be placed so that the support spans do not exceed maximum span indicated on drawings. Supports shall be constructed from 12 gauge steel formed shape channel members 1 -5/8 inch by 1 -5/8 inch with necessary hardware such as Trapeze Support Kits (9G- 55XX -22SH) as manufactured by Cooper B -Line, 500- 1965- 0801 -0101 2 260550 BYU -I 9 Custom Stake Center August 2008 Ladder Type Cable Trays Inc. Cable trays installed adjacent to walls shall be supported on wall mounted brackets such as B409 as manufactured by Cooper B -Line, Inc. H. Trapeze hangers and center -hung supports shall be supported by 1/2 inch (minimum) diameter rods. I. Barrier Strips: Shall be placed as specified on drawings and be fastened into the tray with self - drilling screws. Accessories - special accessories shall be furnished as required to protect, support, and install a cable tray system. Accessories shall consist of but are not limited to; section splice plates, expansion plates, blind -end plates, specially designed ladder dropouts, barriers, etc. PART 3 EXECUTION 3.01 INSTALLATION A. Install cable trays as indicated: Installation shall be in accordance with equipment manufacturer's instructions, and with recognized industry practices to ensure that cable tray equipment comply with requirements of NEC and applicable portions of NFPA 70B. Reference NEMA -VE2 for general cable tray installation guidelines. B. Coordinate cable tray with other electrical work as necessary to properly integrate installation of cable tray work with other work. C. Provide sufficient space encompassing cable trays to permit access for installing and maintaining cables. D. Cable tray fitting supports shall be located such that they meet the strength requirements of straight sections. Install fitting supports per NEMA VE -2 guidelines, or in accordance with manufacturer's instructions. E. Install with minimum of 12" clear space above each tray. 3.02 TESTING A. Test cable trays to ensure electrical continuity of bonding and grounding connections, and to demonstrate compliance with specified maximum grounding resistance. See NFPA 70B, Chapter 18, for testing and test methods. B. Manufacturer shall provide test reports witnessed by an independent testing laboratory of the "worst case" loading conditions outlined in this specification and performed in accordance with the latest revision of NEMA VE -1; including test reports verifying rung load capacity in accordance with NEMA VE -1 Section 5.4. END OF SECTION 500- 1965- 0801 -0101 3 260550 BYU -I 9 Custom Stake Center August 2008 Ladder Type Cable Trays SECTION 26 1219 — LIQUID- FILLED TRANSFORMERS PART 1 GENERAL 1.01 SECTION INCLUDES A. Liquid - filled pad - mounted transformers. 1.02 REFERENCES A. ANSI C37.47 - Specifications for Distribution Fuse Disconnecting Switches, Fuse Supports, and Current- Limiting Fuses. B. IEEE C57.12.00 - Standard General Requirements for Liquid - Immersed Distribution, Power, and Regulating Transformers (ANSI). C. ANSI C57.12.22 - Requirements for Pad - Mounted, Compartmental -Type, Self- Cooled, Three -Phase Distribution Transformers with High Voltage Bushings; 2,500 kVA and Smaller: High Voltage, 34,500 GrdY /19,920 Volts and Below; Low Voltage, 480 Volts and Below - Requirements. D. ANSI C57.12.26 - Standard for Transformers - Pad - Mounted, Compartmental -Type, Self- Cooled, Three -Phase Distribution Transformers for use with Separable Insulated High Voltage Connectors: High Voltage, 34,500 GrdY /19,920 Volts and Below; 2,500 kVA and Smaller. E. ANSI C57.12.28 - Switchgear and Transformers, Pad - Mounted Equipment - Enclosure Integrity. F. ANSI C57.12.50 - Requirements for Ventilated Dry-Type Distribution Transformers, 1 -500 kVA Single -Phase and 15 -500 kVA Three - Phase, with High Voltage 601 - 34,500 Volts, Low Voltage 120 -600 Volts. G. IEEE C57.12.51 - Requirements for Ventilated Dry-Type Power Transformers, 501 kVA and Larger Three -Phase, with High Voltage 601- 34,500 Volts, Low Voltage 208Y/120 -4,160 Volts. G. IEEE C57.12.90 - Standard Test Code for Liquid- Immersed Distribution Power, and Regulating Transformers and Guide for Short- Circuit Testing of Distribution and Power Transformers (ANSI). 1. IEEE C57.12.91 - Test Code for Dry-Type Distribution and Power Transformers. J. IEEE C57.13 - Requirements for Instrument Transformers. K. ANSI/IEEE 386 - Separable Insulated Connector Systems for Power Distribution Systems Above 600 V. K. ASTM D877 - Test Method for Dielectric Breakdown Voltage of Insulating Liquids Using Disk Electrodes. L. NEMA AB 1 - Molded Case Circuit Breakers. L. CAN /CSA- C88 -M90 - Electrical Power Systems and Equipment. 1.03 SUBMITTALS A. Submit shop drawings indicating outline dimensions, connection and support points, weight, specified ratings and materials. B. Submit product data indicating standard model design tests and options. C. Submit manufacturer's installation instructions. 1.04 OPERATION AND MAINTENANCE DATA A. Submit operation and maintenance data under. B. Include procedures for sampling and maintaining fluid, cleaning unit, and replacing components. 1.05 QUALITY ASSURANCE A. Manufacturer: Company specializing in distribution transformers with 5 years documented experience. 1.06 TRANSFORMERS 500- 1965- 0801 -0101 1 261219 BYU -I 9 Custom Stake Center August 2008 Liquid Filled Transformers A. Provide and install two transformers as specified herein: 1. 12.47kV Delta — 120/208v. Wye 300 kVA (Quantity one) PART 2 PRODUCT 2.01 MANUFACTURERS A. Square D Company, Westinghouse, General Electric, Pennsylvania Transformers. 2.02 FLUID - FILLED PAD - MOUNTED TRANSFORMERS A. The transformer(s) shall be compartment type, self - cooled, for mounting on a pad and shall comply with the latest applicable standards. B. The average temperature rise of the windings, measured by the resistance method, shall be 65° C when the transformer is operated at rated kVA output in a 40° C ambient. The transformer shall be capable of being operated at rated load in a 30° C average, 40° C maximum ambient, as defined by ANSI C57.12.00 without loss of service life expectancy. C. Coolant and insulating fluid shall be inhibited mineral oil. D. The high and low voltage compartments shall be located side by side, separated by a steel barrier. When facing the transformer, the low voltage compartments shall be on the right. Terminal compartments shall be full height, air - filled, with individual doors. The high voltage door fastenings shall not be accessible until the low voltage door has been opened. E. The following accessories shall be provided as standard on all transformers: 1. Nameplate in low voltage compartment, 1 inch upper filter press and filling plug, 1 inch drain plug. 2. Drain plug provided on 75 -500 kVA. F. The transformer shall be rated kVA per drawings self cooled (OA). Primary voltage 12.47kV delta. Secondary voltage 480/277 wye, 4 -wire, 60 Hz with two 2 -1/2% full capacity above normal and two 2 -1/2% below normal taps. Manufacturer's standard impedance, f7 -1/2 %. Basic impulse level of the primary winding shall as specified in ANSI C57.12.00 for comparable kV class. G. The transformer shall be of sealed -tank construction or sufficient strength to withstand a pressure of 7 psi without permanent distortion. The cover shall be welded and the fastenings tamper - resistant. The transformer shall remain effectively sealed for a top oil temperature range of -5° C to 105° C. When required, cooling panels will be provided on the back and sides of the tank. Lifting eyes and packing pads will be provided. H. Coils shall be wound with copper conductors. I. Core and coil assembly shall be the five- legged wound core type, using high grade, grain- oriented silicon steel laminations carefully annealed after fabrication to restore high magnetic permeability. Magnetic flux is to be kept well below the saturation point. J. The high voltage terminations and equipment shall be dead front and conform to ANSI C57.12.26. K. Dead front bushings shall be either universal wells or one -piece integrated for use with separable connectors. Bushings shall be externally clamped and front removable. L. The low voltage bushings shall be molded epoxy, and provided with blade -type spade terminals with NEMA standard hole spacing arranged for vertical take -off. The low voltage neutral shall be an insulated bushing, grounded to the tank by a removable ground strap. M. Select one of the following options for fusible protection: 1. Provide Bay -O -Net oil immersed current limiting fuses that are externally replaceable with a hot -stick without opening the transformer tank. N. 15kV connection to transformer shall be with 200A load break elbows. O. Surge Protection - Provide three 15 kV distribution class lightning arresters for surge protection. Arresters are to be mounted in the high voltage compartment. P. Accessories 1. 1 inch drain valve with sampling device, 75 -500 kVA only standard on units above 500 kVA. 500 -1965- 0801 -0101 2 261219 BYU -I 9 Custom Stake Center August 2008 Liquid Filled Transformers 2. Dial type thermometer. 3. Magnetic liquid -level gauge. 4. Pressure vacuum gauge. 5. Pressure relief valve. 6. Automatic pressure relief device (self resealing with indicator). 7. Mounting provisions for low voltage current transformers and potential transformers. 8. Sudden pressure relay. 9. 3p. gang operated, switch on ITV side of transformer. 10. One removable fiberglass operating handle. Q. Testing - Tests shall be conducted in accordance with the provisions of ANSI C57.12.90 and shall include, as a minimum, the following tests: 1. Ratio 2. Polarity 3. Phase Rotation 4. No -Load Loss 5. Excitation Current 6. Impedance Voltage 7. Load Loss 8. Applied Potential 9. Induced Potential 10. QA Impulse Test 11. Provide a factory performed fluid test to establish a contaminant base line. PART 3 EXECUTION 3.01 EXAMINATION A. Verify that pads are ready to receive work. B. Verify field measurements are as instructed by manufacturer. C. Verify that required utilities are available, in proper location and ready for use. B. Beginning of installation means installer accepts conditions. 3.02 INSTALLATION A. Install in accordance with manufacturer's instructions. B. Install safety labels to NEMA 260. 3.03 FIELD QUALITY CONTROL A. Test dielectric liquid to ASTM D877, using 25,000 volts minimum breakdown voltage, after installation and before energization from system. B. Test transformer to ANSI /IEEE C57.12.90. B. Test transformer to ANSI /IEEE C57.12.91. 3.04 ADJUSTING A. Adjust primary taps so that secondary voltage is within 2 1/2% of rated voltage. END OF SECTION 500 -1965- 0801 -0101 3 26 1219 BYU -I 9 Custom Stake Center August 2008 Liquid Filled Transformers SECTION 26 2200 - DRY TYPE TRANSFORMERS PART1 GENERAL 1.01 WORK INCLUDED A. Dry type two winding transformer. Size as per plan. 1.02 RELATED WORK A. This Section shall be used in conjunction with the following other specifications and related Contract Documents to establish the total requirements for secondary grounding. 1. Section 26 0501 - Basic Electrical Requirements. B. In the event of conflict regarding dry type transformer requirements between this Section and any other section, the provisions of this Section shall govern. 1.03 DELIVERY, STORAGE, AND HANDLING A. Store in warm, dry location with uniform temperature. Cover ventilating openings to keep out dust. B. Handle transformers using only lifting eyes and brackets provided for that purpose. Protect units against entrance of rain, sleet, or snow it handled in inclement weather. 1.04 SUBMITTAL A. Provide a separate set of shop drawings for each transformer supplied. PART2 PRODUCTS 2.01 ACCEPTABLE MANUFACTURERS - DRY TYPE TWO WINDING TRANSFORMERS A. General Electric Company B. Square D Company (Sorgel) C. ITE D. Federal Pacific 2.02 DRY TYPE TWO WINDING TRANSFORMERS A. Dry Type Transformers: NEMA ST 20; factory- assembled, air cooled dry type transformers. B. Insulation system and average winding temperature rise for rated kVA as follows: Ratim Class Rise (degree C) 16 -500 220 150 C. Case temperature shall not exceed 35 degrees C rise above ambient at its warmest point. D. Winding Taps, Transformers 15 kVA and Larger: NEMA ST 20. Two 5 percent taps above and below full rated voltage. E. Transformers 75 kVA and larger, provide an impedance of 4.5 percent minimum. F. Sound Levels: NEMA ST 20. G. Sound Levels: Maximum sound levels are as follows: kVA Sound Ratina Level 500- 1965- 0801 -0101 1 262200 BYU -I 9 Custom Stake Center August 2008 Dry Type Transformers 1 -5 30 db 6 -25 40 db 26 -150 42 db 151 -225 43 db 226 -300 47 db 301 -500 51 db H. Basic Impulse Level: 10 kV I. Ground core and coil assembly to enclosure by means of a visible flexible copper grounding strap. J. Mounting: Transformers 75 kVA and less shall be suitable for wall, floor, or trapeze mounting; transformers larger than 25 kVA shall be suitable for floor or trapeze mounting. K. Coil Conductors: Continuous windings with terminations brazed or welded. L. Enclosure: NEMA ST 20; Type 1. Provide lifting eyes or brackets. M. Isolate core and coil from enclosure using vibration - absorbing mounts. N. Nameplate: Include transformer connection data and overload capacity based on rated allowable temperature rise. END OF SECTION 500- 1965- 0801 -0101 2 262200 BYU -I 9 Custom Stake Center August 2008 Dry Type Transformers ADDENDUM Project: BYUI 9 Custom Stake Center Project No.: 500 - 1965 -0801 -0101 Addendum No.: 2 Project Address: 289 West f South. Rexburg, Idaho Date: September 3. 2008 Owner: Corporation of the Presiding Bishop of The Church of Jesus Christ of Latter -day Saints, a Utah corporation sole From (Architect): Nielson Bodily &Associates. P.A_ Instructions to Prospective Bidders: This Addendum fonns a part of the Contract Documents and modifies the original Bidding Documents and/or prior Addenda as noted below. All conditions, requirements, materials and workmanship are to be as described in the Contract Documents unless specifically stated otherwise. This Addendum consists of 43 page(s) and the attached drawing(s), Sheet(s) E4.1 E4.2, E4.3, T1.1, T1.2. T1.3, dated September 2. 2008. BID OPENING 11 September2008 3 - 00 p.m. Rexburg FM Office Conference Room 631 North Second East Rexburg, Idaho 1. Sheet Gl. ^ O F R a. Detail F & U, Note 1. Change 12 inch compacted granular fill note to 14 inches n l II. b. Detail S. Section cut line should read T /G1.3. 2. Sheet G1 A. a. Detail K Change 12 inch compacted granular fill note to 14 inch granular fill. b. Detail M. Fence to outside of concrete pad dimension to be 8 inches, see attached Sketch AD2.1. 3. Sheets A1.5, A2.1, A2.2. Call outs to rain gutters and downspouts should reference to H/G1.4. 4. Sheet A1.5. Lightning cable call out should reference to CMA. 5. Sheet A5.1. Delete ceiling type C5 from Storage 118. 6. Sheet A6.2. RG a. Section A. Change 4' -3 Y7 dimension for sacrament prep and music storage to 5' -1 '/7 . 7. Electrical Room 180. Delete Door 180. 8. See the attached sketch SK #2 for a floor plan modification making the fire riser room larger. 9. Brick colors have not yet been selected for this project and may not be until after bidding. The contractor shall utilize the following unit costs in bidding the project: Norman Brick $490 per thousand, Modular Brick $465 per thousand 10. The contractor shall bid 'Maple color as a base price for the Arris Craft stone. Any deviation from that color at the time of actual selection will be adjusted based on color price difference documentation provided by the installer 11. Asphalt paving shall be bid at $100.00 per ton. The Contractor shall be responsible to estimate quantities needed to prepare the bid. At the time of asphalt paving installation actual costs shall be documented by the Contractor to the Architect by invoice and a change order will be provided to adjust the final payment to the contractor based on the variance of the actual asphalt price from the bid price. 12. In chair storage rooms 118 and 181 the outside oomer of the underside of the stairway structure shall be protected with a 2"x 2' x 1/8' galvanized steel angle. 13 See the attached sketch AD2.1 for and increase in size of the sateQite antennae enclosure. 14. Sheet A ,4 Pocket walls for the folding partitions - wails shall extend to the underside of the truss and (3) 2x4 cross braces shall be added to carry the folding partition header. 15. Sheet A 3.4 Detail D: At the 2x6 joists at mid height in this detail pocket every third joist into the wall along side the 11 718' stud and securely nail. Provide 2x6 blocking at each 1 joist mentioned above. 2x6 joists shall be at 12' o.a Provide a continuous 2x6 ledger under these joists nailed to the 11 718` studs with 3 16d nails at each stud. Install inverted joist hangers at each joist where it attaches to the wall. 16. See the attached sketch SK #1 indicating a distance from the plumbing wall for the floor drains to be located. 17. Sheet G1.5 Floor Plan, the drinking fountain indicated is owner furnished and contractor installed. 18. Included herewith please find the Storm Water Pollution Protection Plan for use by the Contractor during construction. (Copies issued to the General Contractors only.) 19. Carpet manufacturer has not yet been selected. 20. See the attached drawings SK*3, E2.1 and E3.1 for floor plan revisions at the coats 127 Storage 215 and Custodian 128 area. 21. A Glass -Fiber Reinforced Steeple as manufactured by Unlimited Designs Salt take City, Utah is approved for bidding on this project See the attached specifications Section 10 7431 GLASS -FIBER REINFORCED STEEPLE. 22. Vinyl Wall Covering shall be Koroseai `Segovia` or equal approved prior to bidding. Color still to be determined. 23. See the attached Specifications pertaining to the sound system a. Section 26 0523 Control Voltage Electrical Cables b. Section 27 4117 Satellite and TV System CON - MIS - 0044 -US Rev. B 13 November 2002 Page 1 of 2 r a VY It 0 SEP - 5 2008 LO c. Section 27 5117 Sound System 24. Finishes for the new Media Closet 216 shall be carpet flooring and base, te)dured and painted walls and ceiling. A door and hardware shall also be added for this room. The doors and hardware shall be the same as was formerly called out for door 215. (50C) 25. Door 215 shall be changed to a single door frame type 1. Door hardware shall consist of hinges, latch set and sound seals. Electrical: 1. Attached are additional specifications sections relating to the electrical service. This building will be serviced by the high voltage system for the BYU -Idaho campus. Sheet E 0.3 and a list of approved Electrical Installers who are qualified to perform work on the High Voltage System were issued on Addendum no. 1 a. Section 261219 — Liquid Filled Transformers b. Section 25 0550 — Ladder Type Cable Trays c. Section 26 0513 — Medium Voltage Cable d. Section 26 0502 — Electrical Demolition Requirements 2. Approved Electrical Contractors for the building portion of the contract Sound System: 1. Enclosed please find the following revised Sound System drawings to replace those originally issued with the Bidding Documents: E4.1, E42, E4.3, T1.1, T1.2, T1.3. Structural: 1. Enclosed please find the following Structural Sketches SA2.1_, SA2.2., SA2.3., and SA2.4 to be incorporated into the Bid Documents. Mechanical 1. See attached mechanical changes. End of Addendum No. 2 CON -MIS 4X044 -US Rev. B 13 November 2002 Page 2 of 2 SECTION 26 0523 CONTROL - VOLTAGE ELECTRICAL CABLES PART 1 - GENERAL 1.1 SUMMARY A. Includes But Not Limited To: 1. Furnish and install control - voltage electrical cables as described in Contract Documents. 2. Furnish and install building telephone / data system cables as described in Contract Documents. B. Related Sections: 1. Section 01 1000: Owner will terminate building telephone cables at terminal board. 2. Section 23 0933: Cables for Temperature Control System. 3. Section 26 0501: Common Electrical Requirements. 4. Section 28 3123: Cables for Fire Detection System. 1.2 DEFINITIONS A. Control Voltage: 70 Volts and under. PART 2- PRODUCTS 2.1 COMPONENTS A. Building Telephone / Data System Cables. 1. CAT 5E, 24 AWG, solid bare copper, four pair, UTP. 2. Sheath Colors: a. Telephone: White. b. Data: Blue. 3. Meet requirements of EIA / TIA 568 Standard. B. Category Four Approved Manufacturers. See Section 01 6200 for definitions of Categories. 1. Alpha Wire Co, Elizabeth, NJ www.alphawire.com. 2. Belden Wire & Cable Co, Richmond, IN www.belden.com. 3. Liberty Wire & Cable, Colorado Springs, CO www.libertyeable.com. 4. West Penn Wire Corp, Washington, PA www.westpenn- cdt.com. PART 3 - EXECUTION 3.1 INSTALLATION A. General: 1. Cables shall be continuous and without splices from terminal board to outlet. 2. Run cables in inaccessible, concealed spaces in raceway. Cables in accessible, unfinished areas may be run exposed without raceway, 3. Run exposed cables parallel to or at right angles to building structure lines. Do not run exposed cables on floors or in such a way that they obstruct access to, operation of, or servicing of equipment. Keep cables 6 inches minimum from hot water pipes. 500 - 1965- 0801 -0101 1 Section 26 0523 BYUI 9 Custom Stake Center August 2008 Control - Voltage Electrical Cables a. Support cables every 3 feet with permanent clips, straps, staples, or tie wraps approved for application and which will not cause cables to be pinched or deformed. b. Securely attach clips and straps with nails or screws. Do not use wire or tape to support cables. 4. Bundle only cables of same systems together. 5. Pulling Conductors: a. Do not pull conductors into conduit until raceway system is complete and cabinets and outlet boxes are free of foreign matter and moisture. b. Do not use heavy mechanical means for pulling conductors. c. Use only listed wire pulling lubricants. B. Telephone / Data System Cables: 1. Install cable from terminal board to each telephone and data outlet unless indicated otherwise on Drawings. 2. Leave adequate slack cable at terminal board and outlets for termination of each cable run. C. Sound And Video Systems Cables: 1. Label cables at each end with cable markers for use of sound system and video system installers. 2. Run separate insulated No. 6 grounding conductor from each equipment cabinet to electrical panel. Do not use intermediate connections or splices. 3. Protrude cables 18 inches 450 mm from wall or ceiling at all outlets and speaker locations. Extend cables and grounding conductors to twice vertical length of cabinet at each cabinet location. 4. For cables not installed in metallic raceway, do not run cables within 10 inches of line voltage conductors / raceways. Also, maintain 10 inches minimum between following exposed cable groups: a. Microphone cables. b. CAT -5, sound system control, telephone, video, or ATC cables. c. Loudspeaker cables. END OF SECTION 500 - 1965- 0801 -0101 2 Section 26 0523 BYUI 9 Custom Stake Center August 2008 Control - Voltage Electrical Cables SECTION 27 4117 SATELLITE AND TV SYSTEM PART 1 - GENERAL 1.1 SUMMARY A. Includes But Not Limited To: 1. Furnish and install complete and operational satellite and TV system as described in Contract Documents. 2. Assist Sound / Acoustical Consultant with final inspection of system and provide necessary test equipment. Correct problems found at time of final inspection of system. B. Related Sections: 1. Section 03 3053: Installation of concrete base and pipe for satellite dish antenna. 2. Division 26: a. Raceways, equipment and control cabinets, fittings, and cables. b. Power to equipment location. 3. Instructions to Owner by Sound / Acoustical Consultant. 4. Sound / Acoustical Consultant will perform final inspection and instruct local leaders in operation of system. 1.2 SYSTEM DESCRIPTION A. Performance Requirements: 1. Satellite and TV system refers to satellite dish, low noise block down converter (LNB), receiver, modulators, line amplifiers, splitters, taps, and ancillary equipment necessary for successful reception and distribution of video and audio signals from selected satellite. 2. Intent of this specification is that receiving system will receive broadcasts from satellite currently in use by Church and provide video, audio, and modulated TV signals distributed properly throughout system. 1.3 SUBMITTALS A. Quality Assurance / Control: Itemized list of equipment to be supplied. B. Closeout: 1. Operations And Maintenance Data: a. Equipment manufacturer's manuals and warranty information. b. Include following items supplied by Sound / Acoustical Consultant at time of final inspection: 1) System operation and maintenance instructions. 2) List of equipment provided, including portable equipment, showing make, model, and serial number. 2. Leave clear plastic sheet protector in rear of equipment cabinet with system drawings and documentation. 1.4 WARRANTY A. Provide complete warranty repair or replacement for one year at no cost to Owner, except in case of obvious abuse. If failure causes system to be inoperative or unusable for its intended purpose, Installer, when notified of problem before Wednesday, shall repair system so it will be operational and usable by following Sunday. If defective components cannot be repaired in time, furnish and install temporary loaner equipment as required. 500 - 1965- 0801 -0101 1 Section 27 4117 BYUI 9 Custom Stake Center August 2008 Satellite And TV System PART 2- PRODUCTS 2.1 MANUFACTURERS A. Category Four Approved Components as shown on Drawings from following manufacturers. See Section 016000 for definitions of Categories. 1. Anderson Manufacturing, Idaho Falls, ID (800) 635 -6106 or (208) 523 -6460. 2. Atlas Sound, Ennis, TX www.atiassound.com. 3. Belden Wire & Cable Co, Richmond, IN www.belden.com. 4. Blonder Tongue Laboratories Inc, Old Bridge, NJ www.blondertongue.com. 5. California Amplifier, Camarillo, CA www.calamp.com. 6. Channel Master Inc, Smithfield, NC www.channelmaster.com. 7. EFI Electronics, Salt Lake City, UT www.efinet.com. 8. EMTECH Electronics Inc, Lindon, UT www.emtechelectronics.com. 9. HellermannTyton, Milwaukee, WI www.hellermann.tyton.com. 10. Holland Electronics, Ventura CA www.hollandelectronics.com. 11. Hubbell Inc, Orange, CT www.hubbell - wiring.com. 12. Leviton Manufacturing Co, Little Neck, NY www.leviton.com. 13. Pelco, Clovis, CA www.pelco.com. 14. Pico Macom Inc, Lakeview Terrace, CA www.picomacom.com. 15. Prodelin Corp, Conover, NC www.prodelin.com. 16. PSP Products Inc, West Valley City, UT www.pspproducts.com. 17. Radio Design Labs, Carpenteria, CA www.rdlnet.com. 18. Ramko Research Inc, Rancho Cordova, CA (800) 678 -1357 or (916) 635 -3600. 19. RMS Electronics Inc, Secaucus, NJ (800) 223 -8312 or (201) 288 -8833. 20. Switchcraft, Chicago, IL www.switchcraft.com. 21. Times Fiber Communications, Wallingford, CT www.timesfiber.com. 22. Vicon Industries Inc, Hauppage, NY www.vicon - cctv.com. 23. Wegener Communications, Duluth, GA www.wegener.com. 24. West Penn Wire Corp, Washington, PA www.westpenn - cdt.com. PART 3 - EXECUTION 3.1 INSTALLERS A. Category Four Approved Installers. Specified installers are to both furnish and install components of system specified in this Section. See Section 01 6000 for definitions of Categories. 1. General Communications; ph. 800 -453 -6304 2. Marshall Industries; ph. 800 - 658 -7668 3. Poll Sound; ph. 801 - 261 -2500 3.2 PREPARATION A. Verify compliance of following items before beginning system installation. 1. Assure that antenna clears every obstacle and has clear line -of -sight to United States domestic - arc satellites. If there are obstructions, report to Architect before proceeding. 2. No cables spliced. 3. Specified cables and equipment cabinets are properly installed. 3.3 INSTALLATION A. Satellite Dish: Supply and install as shown on Drawings in conjunction with Manufacturer's instructions. Orient to satellite currently used by Church using L -band spectrum analyzer. 500 - 1965- 0801 -0101 2 Section 27 4117 BYUI 9 Custom Stake Center August 2008 Satellite And TV System B. Equipment Cabinet: 1. Install vent panels at top and bottom of equipment cabinets. In addition, install vent panels above and below satellite receiver and between other components, where possible, for maximum ventilation. 2. Securely fasten equipment plumb and square in place. Utilize all fastening holes in front of cabinet. 3. Securely fasten in place equipment that is not rack mounted, including relays and other small components. Do not use sticky -back tape. 4. Install balancing / isolation transformer when balanced and unbalanced components are connected. 5. Connect powered components to 120 VAC outlets on voltage suppressor power bars. Do not connect to outlets on other components. 6. File smooth exposed rough edges after cutting and drilling. Do not allow sharp screws to protrude from cabinet. 7. Identification: a. Legibly identify user - operated system controls and system input/output jacks using engraved, permanently attached laminated plastic plates or imprinted Lexan labels. Label equipment and controls within equipment cabinets using similar labels or printed labels from a label maker or laser printer. b. Affix label to rack panel in cabinet listing name and telephone number of installer. Appropriate warranty instructions may be included. C. Cables: 1. Leave sufficient service loops of uniform length on cables to allow operation of system with chassis outside cabinet. 2. Make parallel connections or splices on standard barrier terminal blocks using spade lugs, or on equipment terminals using appropriate connection type. 3. Secure cables to equipment cabinet with wire ties to ensure neat installation. Secure wire tie mounts with screw, except where screw would protrude from side of cabinet. Keep speaker cables and video cables separate from other cable types. 4. Ground both ends of each shielded cable within equipment cabinet only. Ground microphone cables only at mixer. 5. Terminate conductors with proper mating connectors. Do not use adapters. Use proper crimp tool as recommended by Connector Manufacturer. Use controlled duty cycle racheting crimp tools of proper size for spade lugs and Molex pins. 6. Label both ends of all cables with the source and destination. Use HellermannTyton Tag 49L -105 or similar label types. a. Example 1: SAT AUD 1 - ENG DA IN. b. Example 2: CH 3 RF OUT - RF COMB IN. 3.4 FIELD QUALITY CONTROL A. Installer Testing: 1. Upon completion of installation and prior to inspection by Sound / Acoustical Consultant, test functions verifying following. Make necessary corrections. a. System is free from hum, noise, ghosting, loose parts and poor construction or soldering. b. Modulated RF signal produces clear, sharp, noise -free picture with good chroma and undistorted, noise free audio. c. Audio to sound system is undistorted and noise free. 2. Complete documentation required by Sound / Acoustical Consultant and submit to consultant within 5 days of Substantial Completion. B. Sound / Acoustical Consultant Inspection: 1. Coordinate final inspection schedule with Sound / Acoustical Consultant two weeks minimum prior to Consultant's final inspection. 2. Have copy of red -lined record documents available at time of inspection. 500 - 1965- 0801 -0101 3 Section 27 4117 BYUI 9 Custom Stake Center August 2008 Satellite And TV System 3. Assist and provide necessary test equipment, including RF Field Strength Meter. Provide color television receiver / monitor or verify that one is available on site for Sound / Acoustical Consultant to inspect and check RF outputs. 4. Correct minor items so Sound / Acoustical Consultant may certify satisfactory completion without a return trip. 5. Pay Consultant's additional fees and expenses if building or system has not been completed properly or sufficiently, requiring Sound / Acoustical Consultant to make subsequent visits to inspect, or certify completion. END OF SECTION 500 - 1965- 0801 -0101 4 Section 27 4117 BYUI 9 Custom Stake Center August 2008 Satellite And TV System SECTION 27 5117 SOUND SYSTEM PART 1 - GENERAL 1.1 SUMMARY A. Includes But Not Limited To: 1. Furnish and install complete and operational sound system as described in Contract Documents. 2. Assist Sound / Acoustical Consultant with final inspection and equalization of system and provide necessary test equipment for sound system and partition noise isolation tests. Correct problems found at time of final inspection of system. B. Related Sections: 1. Section 06 2221: Field- fabricated speaker enclosures with fiberglass insulation. 2. Division 26: a. Raceways, equipment and control cabinets, pre- fabricated speaker enclosures, fittings, and audio cables. b. Power to equipment location and power relay wiring. 3. Sound / Acoustical Consultant will perform final inspection, system balance, equalization, and instruct local leaders in operation of system. 1.2 SYSTEM DESCRIPTION A. Performance Requirements: 1. Installations with equalizers shall meet following performance parameters: a. From 100 Hz to 2 kHz, flat within plus or minus 2 dB. b. Above 2 kHz, slope down along an approximate 3 dB per octave slope to 8 kHz. 2. No noise, hum, RFI pickup or distortion shall be audible under normal operating conditions. 3. Sound systems shall reproduce program material at level of 80 to 85 dBA without audible distortion. 4. All input levels shall be pre -set so system may be operated without going into feedback under normal conditions. 5. Seat -to -seat variations in the 4kHz octave band shall not exceed plus or minus 2 dB in the Chapel or Cultural Center. 6. Sound masking system shall provide adequate speech privacy in Corridor when set between 42 dBA and 46 dBA so conversation in Office at slightly raised voice levels cannot be understood in Corridor. 1.3 SUBMITTALS A. Quality Assurance/ Control: Itemized list of equipment to be supplied. B. Closeout: 1. Operations And Maintenance Data: a. Equipment Manufacturer's manuals and warranty information. b. Include following items supplied by Sound / Acoustical Consultant at time of final inspection: 1) Sound system operation and maintenance instructions. 2) List of equipment provided, including portable equipment, showing make, model, and serial number. 500 - 1965- 0801 -0101 1 Section 27 5117 BYUI 9 Custom Stake Center August 2007 Sound System 1.4 WARRANTY A. Provide complete warranty repair or replacement for one year at no cost to Owner, except in case of obvious abuse. If failure causes Chapel or Cultural Center sound system to be inoperative or unusable for its intended purpose, Installer, when notified of problem before Wednesday, shall repair system so it will be operational and usable by following Sunday. If defective components cannot be repaired in time, furnish and install temporary loaner equipment as required. B. Honor component warranties for term established by Manufacturer, if greater than one year. PART 2- PRODUCTS 2.1 MANUFACTURERS A. Category Four components as shown on Drawings from following Manufacturers. No substitution allowed without approval of written request submitted to Sound / Acoustical Consultant through Architect. See Section 01 6000 for definition of Categories. 1. Atlas Sound, Ennis, TX www.atlassound.com. 2. Audio- Technica US Inc, Stow, OH www.audio- technica.com. 3. Belden Wire & Cable Co, Richmond, IN www.belden.com. 4. COMTEK Inc, Salt Lake City, UT www.comtek.com. 5. Conquest Sound Co, Tinley Park, IL www.conquestsound.com. 6. Crown Audio Inc, Elkhart, IN www.crownaudio.com. 7. EIKI International, Laguna Nigel, CA www.eiki.com. 8. Electro -Voice Inc, Burnsville, MN www.electro- voice.com. 9. EMTECH Electronics Inc, Lindon, UT www.emtechelectronics.com. 10. HellermannTyton, Milwaukee, WI www.hellermann.tyton.com. 11. Hubbell Inc, Orange, CT www.hubbell- wiring.com. 12. IVIE Technologies Inc, Lehi, UT www.ivie.com. 13. JBL Professional, Northridge, CA www.jblpro.com. 14. Leviton Manufacturing Co, Little Neck, NY www.leviton.com. 15. Lowell Manufacturing Co, Pacific, MO www.lowelimfg.com. 16. Neutrik USA Inc, Lakewood, NJ (732) 901 -9488. www.neutrikusa.com. 17. Newark Electronics, Sola and Triad, Chicago, IL www.newark.com. 18. QSC Audio Products, Costa Mesa, CA www.gscaudio.com. 19. Radio Design Labs, Carpenteria, CA www.rdlnet.com. 20. Shure Brothers, Evanston, IL www.shure.com. 21. SoundTech, Mundelein, IL www.soundtech.com. 22. Switchcraft, Chicago, IL www.switchcraft.com. 23. TOA Electronics, South San Francisco, CA www.toaelectronics.com. 24. Wireworks Corp, Hillside, NJ www.wireworks.com. PART 3 - EXECUTION 3.1 INSTALLERS A. Category Four Approved Installers. Specified installers are to both furnish and install components of sound system. See Section 01 6000 for definitions of Categories. 1. General Communications; ph. 800 -453 -6304 2. Marshall Industries; ph. 800 - 658 -7668 3. Poll Sound; ph. 801 - 261 -2500 500 - 1965- 0801 -0101 2 Section 27 5117 BYUI 9 Custom Stake Center August 2007 Sound System 3.2 PREPARATION A. Verify compliance with following items before beginning work of this Section. 1. No cables spliced. 2. Isolated ground run back to electrical panel from all equipment cabinets. 3. Specified conduit, cables, speaker enclosures and equipment cabinets are properly installed. 4. Location and angle of speaker cabinets. B. Ensure that no solid structural or decorative member impedes sound propagation from speakers and that no member with cross section greater than 3/4 inch19 mm is placed in front of speakers. C. Verify installation of fiberglass insulation in field- fabricated speaker enclosures. 3.3 INSTALLATION A. Speakers: 1. Maintain uniform polarity in speakers and wiring. 2. Employ no positive stop in rotation of speaker volume controls. Controls shall be capable of continuous rotations in either direction. 3. Mount transformers with screws securely to speaker brackets or enclosures. Adjust torsion springs as necessary to securely support speaker assembly. 4. Neatly mount speaker grilles, panels, connector plates, control panels, etc., tight, plumb, and square unless indicated otherwise on drawings. 5. Provide brackets, screws, adapters, springs, rack mounting kits, etc, recommended by manufacturer for correct assembly and installation of speaker assemblies and electronic components. 6. Line factory- fabricated speaker back boxes with one inch 25 mm minimum fiberglass if not done by Back box Manufacturer. B. Equipment Cabinet: 1. Install vent panels at top and bottom of equipment cabinets and between components where possible for maximum ventilation. Locate amplifiers at top of cabinet. Locate equalizers below amplifiers, separated by several vent panels. 2. Securely fasten equipment plumb and square in place. Utilize all fastening holes in front of cabinet. 3. Securely fasten in place equipment that is not rack mounted, including relays and other small components. Do not use sticky -back tape. 4. Install balancing / isolation transformer when balanced and unbalanced components are connected. 5. Wire XLR -type connections with pin 2 hot, pin 1 shield. 6. Connect powered components to 120 VAC outlets on voltage suppressor power bars. Do not connect to outlets on other components. 7. Identification: a. Legibly identify user - operated system controls and system input/ output jacks using engraved, permanently attached laminated plastic plates or imprinted Lexan labels. Label equipment and controls within equipment cabinets using similar labels or printed labels from a label maker or laser printer. b. Affix label to rack panel inside cabinet listing name and telephone number of installer. Appropriate warranty instructions may be included. C. Pulpit: 1. Install pulpit microphone pre - amplifier to be accessible below lectern. Do not alter factory supplied microphone cable and connectors. 2. Install pulpit microphone so tip of microphone head is 2 inches 50 mm inside edge of lectern when microphone is tilted down to maximum extent. D. Cables: 500 - 1965- 0801 -0101 3 Section 27 5117 BYUI 9 Custom Stake Center August 2007 Sound System 1. Leave sufficient service loops of uniform length on cables to allow for future equipment replacement. 2. Make parallel connections or splices on standard barrier terminal blocks using spade lugs, or on equipment terminals using appropriate connection type. Do not attach more than three spade lugs under any one screw terminal. 3. Strip wires installed in Euroblock or Phoenix connectors so 1/16 inch 2 mm of wire is exposed outside connector when wire contacts back of connector. Secure wires using screwdriver with blade of same width as screw slot and handle 3/4 inch 19 mm minimum diameter and of length to allow applying sufficient torque to prevent wires from becoming disconnected. 4. Terminate conductors with proper mating connectors. Do not use adapters. Use proper crimp tool as recommended by Connector Manufacturer. Use controlled duty cycle ratcheting crimp tools of proper size for spade lugs and Molex pins. 5. Male CAT -5 connectors shall be grey- smoked or blue- smoked RJ -45's. After installing RJ -45 connectors, test CAT -5 cables for shorts, opens, and cross - pairing with two -piece wire- mapping continuity tester. 6. Secure cables to equipment cabinet with wire ties to ensure neat installation. Secure sticky -back wire tie mounts with screw. Keep speaker cables and video cables separate from other cable types. 7. Ground both ends of each shielded cable within equipment cabinet only. Ground microphone cables only at mixer. 8. Label both ends of cables with source and destination. Use HellermannTyton Tag 49L -105 or similar label types. a. Example 1: PULPIT MIC: MIXER IN 1. b. Example 2: DSP OUT B: CC1 AMP IN. 3.4 FIELD QUALITY CONTROL A. Installer Testing: 1. After completion of installation but before inspection by Sound / Acoustical Consultant, perform following: a. Conduct system tests and make necessary corrections for proper system operation including, but not limited to, following: 1) Output level uniformity. 2) Polarity. 3) Shock, strain excited hum, and oscillation. 4) Clipping, hum, noise, and RFI in all system configurations. 5) Speaker line impedances. 6) Loose parts and poor workmanship or soldering. b. Sweep speaker systems with high -level sine wave or 1/3 octave pink noise source. Correct causes of buzzes or rattles related to speakers or enclosures. Notify Contractor and Sound / Acoustical Consultant of external causes of buzzes or rattles. c. Rough Balance: Balance system well enough that it can be used for meetings before final inspection. 2. Complete documentation required by Sound / Acoustical Consultant and submit to consultant within 5 days of Substantial Completion. B. Sound / Acoustical Consultant Inspection And Equalization: 1. Coordinate final inspection schedule with Sound / Acoustical Consultant two weeks minimum before Consultant's final inspection. 2. Have copy of redlined record documents available at time of inspection. 3. Have loose equipment (microphones, cables, etc.) available at time of inspection. 4. Assist Sound / Acoustical Consultant in final inspection of completed system. 5. Assist Sound / Acoustical Consultant in noise isolation testing of folding partitions and office doors. 6. Provide following test equipment in good working order: a. Laptop computer, 100 MHz Pentium or better, with 16 bit sound card, software, and interfacing adapters for microprocessor controlled equipment in system. b. 1/3 octave real -time audio spectrum analyzer with SPL meter, and precision microphone. 500 - 1965- 0801 -0101 4 Section 27 5117 BYUI 9 Custom Stake Center August 2007 Sound System c. Digitally generated random pink noise generator, 20Hz- 20KHz, minimum 2 hour repetition rate or 10 minutes minimum of equivalent signal recorded on compact disc. d. Direct reading audio impedance meter, minimum 3 frequencies, and 10 percent accuracy. e. Digital Volt- Ohmmeter. f. Audio oscillator, variable frequency, 20Hz- 20KHz. g. Compact disc player, or equal, with pre- recorded speech and music program material. h. Necessary chargers, cables, test leads, adapters, and other accessories for test equipment. i. Tools and spare parts for making adjustments and corrections to system. j. Blank cassette tape for testing cassette recorder. k. CAT -5 / RJ-45 continuity tester similar to Ideal 62 -200 or Amprobe DCT -300. 7. Correct minor items so Sound / Acoustical Consultant may certify satisfactory completion during his visit. END OF SECTION 500 - 1965- 0801 -0101 5 Section 27 5117 BYUI 9 Custom Stake Center August 2007 Sound System LO I 00 4 I 00 L-] In � „0 -,L . o a CU Z ' O U 0 Q n w � o I o CL :� U-. C U. .z Z ' o U s ry CIO „8 -,9L "q- �BYUI 9 CUSTOM STAKE CENTER ) l REVISED CONCRETE PAD, M /GI 4 7777771 >,,>k :.. rA `,Rs'wknru >PR,?�as�9:- # � g a �i vFf .� :N .�'rn K rrr�. �, •, ; �, 2ws,� lh i,,,. Gila «" , . Nielson BOdlly & Associa P. DATE. PROJECT No. / SEPTEMBER 2, 2008 0833-3-1349 j Architects SCALE°'• DRA RING No. M Jahn ddema AV,, PO 1Wz M2, Mao Nk ID 89109 wephm AV/M--em Ar ZW/&T -eyes 114 " 1 ' 0" g AD21 EN N.T.S. I _ARG FIRE RISER ROOM PLAN BYU —IDAHO 9TH CUSTOM STAKE CENTER Nielson Bodily & Associates P.A. Arebitects 990 John Adams Pkwy, PO Box 2212, Idaho Falls, 10 83403 Telephone 2081522 -8779 Fax 2081522 -8785 ENLARGED FM RISER ROOM PLAN SEPTEMBER 2008 SCAM.• N.T.S. PROJECT No. 0833 -3 -1349 DRAWVVG No. SK #2 ENLARGED RESTROOMS AND SERVING AREA PLAN N.T.S. BYU —IDAHO 9TH CUSTOM STAKE CENTER TYPICAL FLOOR DRAIN PLACEMENT Nielson Bodily & Associates P.A. Architects „ 990 John Adams Pkwy, PO Box 2212, Idaho Falls, ID 83403 Telephone 2081522 -8779 Fax 2081522 -8785 SEPTEMBER 2008 SCALE: N.T.S. PROTECT No. 0833 -3 -1349 DRAWING No. SK11 SATELLITE /SOUND EQUIP. CABINET \MP UP COATS COAT RACK SEE R /A7.1 127 8 1/2 12' -5" SEE NOTE MEDIA CLOSET �' 216 STORAGEN 21 5 216 215 -10 1/2 r CORRIDOR T A6.3 1 26 EE C T. ENLARC N.T.S. MEDIA CLOSET BYU —IDAHO 9TH CUSTOM STAKE CENTER Nielson Bodily & Associates P.A. ATCbftecls D 990 John Adams Pkwy, PO Box 2212, Idaho Falls, ID 83403 Telephone 2081522 -8779 Fax 2081522 -8785 ENLARGED MEDIA CLOSET SEPTEMBER 2008 PROJECT No. 0833 -3 -1349 SCALE: N.T.S. DRAW17VG No. SK BYU —I 9TH STAKE Nielson Bodily & Associates P.A. A�ehltects 990 John Adams Pkwy, PO Box 2212, Idaho Falls, ID 83403 Telephone 208/522 -8779 Fax 2081522 -8785 LIGHTING DATE. PROJECT No. 09, 2008 1 0833-3-1349 DRAWING No. 1/8" = 1' -0 "j E3.1 BYU —I 9TH STAKE Nielson Bodily & Associates P.A. _ oe Arebitects 990 John Adams Pkwy, PO Box 2212, Idaho Falls, ID 83403 V Telephone 2081522 -8779 Fax 2081522 -8785 POWER DATE: 09, 2008 SCALE: 1/8" = 1' -0" PROJECT No. 0833-3-1349 E2.1 No. Unlimited Designs Ivy "r�I,.l 780 North 700 West (801) 355-3221-Office Phone Salt Lake City, UT 84116 i,i�; .,;I l (801) 365-3473-Office Fax www. unlimiteddesigns. com SECTION 10 7431 PART 1 - GENERAL 1.1 SUMMARY 1.2 1.3 GLASS - FIBER - REINFORCED STEEPLE A. Includes But Not Limited To: 1. Fumish and install steeple, including design and detail of structural connections necessary to attach steeple to building, as described in Contract Documents. B. Related Sections: 1. Section 26 4100: Lightning protection system. REFERENCES A. American Society For Testing And Materials: 1. ASTM D 570.98, 'Standard Test Method for Water Absorption of Plastics.' 2. ASTM D 635 -03, 'Standard Test Method for Rate of Burning and/or Extent and Time of Burning of Self- Supporting Plastid in a Horizontal Position.' 3. ASTM D 790 -03, 'Standard Test Methods for Flexural Properties of Unreinforeed and Reinforced Plastics and Electrical Insulating Materials.' 4. ASTM D 2583 -95 (2001), 'Standard Test Method for Indentation Hardness of Rigid Plastics by Means of a Barcol Impressor.' 5. ASTM D 3841 -97 (2001), 'Standard Specification for Glass- Fiber- Reinforced Polyester Plastic Panels.' 6. ASTM E 84-01, 'Standard Test Method for Surface Burning Characteristics of Building Materials.' SYSTEM DESCRIPTION A. Design Requirements 1. Design fabrication and fastening systems to withstand 100 mph, Exposure C, winds and Seismic Zone Three requirements, unless local code and conditions require greater. 2. Design items with sufficient strength for handling stresses. B. Performance Requirements: 1, Laminate Standards: a. Meet requirements of MIL- R- 21607D, Grade 1 and MIL- R- 7575C, Grade B. b. Finished laminate shall be as free as commercially practical from defects such as foreign inclusions, dry spots, air bubbles, blisters, pinholes, and delamination. c. Laminate shall have Barcol hardness of 45 to 50 when tested in accordance with ASTM D 2583 on Gel- coated surface and on inner surface. d. Cured and sealed material shall have water absorption of not greater than one -tenth of one percent when tested in accordance with ASTM D 570. e. Cured material shall have minimum tensile strength as indicated below: 1) 3/16 inch: 9,000 psi. 2) 1/4 inch: 12,000 psi. 3) 3/8 inch: 15,000 psi. Proiect Number 1 Section 10 7431 Unlimited Designs 780 North 700 West Salt Lake City, UT 84118 „ (801) 355 - 3221 - Office Phone (801) 355 - 3473 -Office Fax www.unlimiteddesigns.com 4) 5 mm: 62 MPa. 5) 5 mm : 82.7 MPa. 6) 10 mm: 103.4 MPa. f. Cured material shall have minimum flexural strength as indicated below when tested in accordance with ASTM D 790. 1) 3/16 inch: 16,000 psi. 2) 1/4 inch: 19,000 psi. 3) 3/8 inch: 22,000 psi. 4) 5 mm: 110.3 MPa. 5) 6 mm: 131 MPa. 6) 10 mm: 151.7 MPa. g. Flexural Modulus of Elasticity (Tangent) when tested in accordance with ASTM D 790, 1) 3/16 inch: 700,000. 2) 1/4 inch: 800,000. 3) 3/8 inch: 1,000,000. 4) 5 mm: 700,000. 5) 6 mm: 800,000. 6) 10 mm: 1,000,000. 2- Combined Laminate and Gelcoat shall meet requirements of a. Self- extinguishing Tests: (on unfilled 25 percent glass laminates) 1) ASTM D 635, Non- Burning. 2) HLT -16 Rating (Intermittent Flame Test): 100 b. ASTM E 84: 1) Unfilled: 45 2) 3 percent Antimony Oxide (Class II). 15 3) 5 percent Antimony Oxide (Class q: 15 c. Up to 3 percent by weight of thixotropic agent may be added to resin for viscosity control. 3. Structural Requirements: a_ Provide steel framing and design connections necessary to fasten fiberglass spire to building. b. Apply lateral and vertical structural loads only at points shown on Structural Drawings. 1.4 1.5 SUBM17TALS A. Shop Drawings: 1. As required for proper handling and erection. 2. Show design load parameters, dimensions, adjacent construction, materials, thicknesses, core material thicknesses, fabrication details, required clearances, field jointing, tolerances, colors, finishes, method of support, integration of components, and anchorages 3. Stamped by licensed structural engineer. B. Quality Assurance / Control: 1. Fiberglass Manufacturer's erection instructions and drawings. QUALITY ASSURANCE A. Regulatory Requirements: Fiberglass fabrications shall be Class A fire rated and so labeled. B. Qualifications: Manufacturing Company specializing in architectural fiberglass and plastic fabrication with ten years experience. Proiect Number 2 Section 10 7431 Unlimited Designs (801) 355 -3221- Office Phone 780 North 700 West (801)356 -3473-Office Fax Salt Lake City, UT 84116 www.unlimiteddesigns.com 1.6 DELIVERY, STORAGE, AND HANDLING A. Protect components during shipment by means of crates or padding so they arrive at project undamaged. Unload and inspect components for imperfections or for damage incurred during shipping and transit procedures. Replace damaged components at no additional cost to Owner. B. Maintain protection during storage on site before installation. 1.7 SEQUENCING A. Coordination: Coordinate delivery and installation with Owner. 1.8 WARRANTY A. Provide manufacturer's written 20 year guarantee for material, workmanship, and installation. PART 2 - PRODUCTS 2.1 MATERIALS A Resins: 1. Base resin for laminate shall be Brominated or Chlorinated polyester formulated by resin manufacturer and shall not be modified by Fabricator except as specified. Physical Characteristics of Laminate Resin: a. Viscosity, Gardner -Holt at 77 deg F 25 deg C: 4.0 + 0.1 stokes b. Viscosity, Brookfield 77 deg F 25 deg C: 6 poises c. Specific Gravity at 77 deg F 25 deg C: 1.30 d. Pounds per Gallon (Approx): 10.8 e. Acid Number, base resin: Less than 30 2. Base resin for gelcoat shall be one - to-one isophthalic polyester resin formulated by resin manufacturer and shall not be modified by Fabricator except as specified. Gelcoat resin shall provide optimum weathering properties and shall meet requirements of MIL- R- 21607D, Grade B. Laminate: I. Laminate shall consist of gel- coated surface, and successive layers of mat and woven cloth and roving to build laminate thickness of 3/16 inch 5 mm minimum. Minimum thickness of laminate at point of connection to tower shall be 114 inch 6 mm. 2. Where separate layers such as mat are used, lap layers 4 inches 100 mm minimum. Stagger laps as much as possible. 3. Non -mold surface shall be smooth with no glass exposed. 4. Connecting flange shall be integral part of complete laminate and not secondarily bonded. 5. Laminate shall consist of outer weather resistant surface and interior layer. a. Outer surface (Gel -Coat) shall be free of cracks and crazing with smooth finish. b. Provide between 0.010 and 0.020 inch 0.3 mm and 0.5 mm of reinforced resin rich surface. This surface shall be reinforced with glass surfacing mat or synthetic fibers (dynel). C_ Gel -Coat: I. Gel -Coat, including veil, shall be 15 mils maximum. 2. Base resin used in manufacture of gel -coat shall meet or exceed MIL-R- 216078 Grade A. project Number 3 Section 10 7431 Unlimited Designs 780 North 700 West (801) 355- 3221 - Office Phone (801) 355 - 3473 -Office Fax Salt Lake City, UT 84116 www.unlimheddesigns.com 3. Finish gel -coat shall be light stabilized (1.2 percent Tinuvin 'P' or equal based on weight of resin) for optimum ultraviolet resistance. D. Reinforcement: 1. Surfacing veil and gel -coat shall be at least 10 mils thick in uniform thicknesses. 2. Chopper strand mat (no chopper gun allowed) shall be Type E glass, 2 oz per sq ft with silane finish and styrene soluble binder. 3. Woven roving (18 oz 60 end maximum) shall be Type E glass with R methacrylate chromic chloride or silane type finish. 4. Do not use successive layers of roving -on- roving. First layer against veil shall not be roving. 5. Minimum glass content shall be 55 percent to 65 percent by weight. E. Lightning Rod And Cable: UL approved for intended use. F. Category Four Approved Fabricator. See Section 016200 for definitions of Categories. 1. Unlimited Design, Salt Lake City, UT (801) 355 -3221 www.unlimitedesign.com. 2.2 FABRICATION A. Fabricate fiberglass panels in accordance with ASTM D 3841, except where more stringent requirements are specified in this Section. S. Exposed surfaces shall be 15 mils minimum gel -coat thickness. C. Fabricate steeple with specified core material in thickness determined by Fabricator's engineering to meet wind load requirements and to insure oil canning does not occur. D. Seal surfaces on reverse side of finished surfaces with resin or gel -coat material. E. Provide stiffener legs, blind fasteners, and foam insulation coat. 2.3 SOURCE QUALITY CONTROL A. Inspections: 1. Owner reserves right to inspect Fabricator's facilities before and after awarding of Contract. Owner will have right to reject products because of workmanship, dimensional deviations, and quality below that specified at any time. 2. Be fully cured at time of shipping. 3. Contain no visual cracks, resin voids, foreign inclusions, or surface wrinkles that would impair serviceability or aesthetics, as determined by Owner. 4. Contain no color variations or shadowing of selected color resulting from pigmentation. PART 3 - EXECUTION 3.1 EXAMINATION A. Verify substrates and structural framing are ready to receive work and dimensions are as shown on shop drawings. Proiect Number 4 Section 10 7431 H 1 Unlimited Designs �"'�.) (801) 355 - 3221 -Office Phone 780 North 700 West (801) 355 - 3473 - Office Fax Salt Lake City, UT 84116 l T www.unlimiteddesigns.com B. Before steeple placement, have support framing inspected by licensed structural engineer acceptable to Owner to insure supporting elements are properly installed. Report problems with installation of supporting elements to Owner in writing before installing steeple. 3.2 INSTALLATION A. Install steeple in accordance with Manufacturer's recommendations and erection drawings. B. Installation Tolerances: 1. Maximum Variation From Vertical: 1/8 inch in 20 feet. 2. Maximum Variation In Position_ Centered on ridge within 1/8 inch, within 1/2 inch along ridge. C. Seal joints between steeple and other substrates with sealants recommended by Steeple Fabricator. 3.3 FIELD QUALITY CONTROL A. Manufacturer's Field Service 1 . Fiberglass Manufacturer shall: a. Inspect beginning placement of various fiberglass sections. b. Inspect intermittent placement fiberglass elements. c. Inspect at completion of work of this Section. 3.4 ADJUSTING A. Remove installed steeple that has wrinkled or oil canning appearance, repair or replace and reinstall at no additional cost to Owner. 3.5 CLEANING A. Clean fabrications of foreign material using cleaning methods recommended in writing by Steeple Fabricator. 3.6 PROTECTION A. Protect steeple after installation, as recommended by Steeple Fabricator, until completion of Project END OF SECTION Proiect Number 6 Section 10 7431 SECTION 26 0502 - ELECTRICAL DEMOLITION REQUIREMENTS PART 1 GENERAL 1.1 SUMMARY A. Includes But Not Limited To 1. Demolition involving electrical system as described in Contract Documents. B. Related Sections 1. Section 26051 — Common Electrical Requirements 2. New and replacement work specified in appropriate specification Section. PART 3 EXECUTION 3.1 EXAMINATION A. All relocations, reconnections, and removals are not necessarily indicated on Drawings. All such work shall be included without additional cost to Owner. 3.2 PREPARATION A. Disconnect equipment that is to be removed or relocated. Carefully remove, disassemble, or dismantle as required, and store in approved location on site, existing items to be reused in completed work. B. Where affected by demolition or new construction, relocate, extend, or repair raceways, conductors, outlets, and apparatus to allow continued use of electrical system. Use methods and materials as specified for new construction. 3.3 PERFORMANCE A. Perform drilling, cutting, block -offs, and demolition work required for removal of necessary portions of electrical system. Do not cut joists, beams, girders, trusses, or columns without prior written permission from Architect. B. Remove concealed wiring abandoned due to demolition or new construction. Remove circuits, conduits, and conductors that are not to be re-used back to next active fixture, device, or junction box. C. Patch, repair, and finish surfaces affected by electrical demolition work, unless work is specifically called for under other Sections of the specifications. 3.4 CLEANING A. Remove obsolete raceways, conductors, apparatus, and lighting fixtures promptly from site and dispose of legally. END OF SECTION 500 -1965- 0801 -0101 1 260502 BYU -I 9 Custom Stake Center August 2008 Electrical Demolition Requirements SECTION 26 0513- MEDIUM VOLTAGE CABLE PART1 GENERAL 1.01 WORK INCLUDED A. Contractor shall provide and install all new cable and shall perform all terminations, splices, etc. 1.02 RELATED WORK A. This Section shall be used in conjunction with the following other specifications and related Contract Documents to establish the total requirements for wire and cable. 1. Section 26 0501 - Basic Electrical Requirements. 2. Section 26 0553 - Electrical Identification. 3. Section 26 0519 — Wire and Cable B. In the event of conflict regarding wire and cable requirements between this Section and any other section, the provisions of this Section shall govern. PART PRODUCTS 2.01 CONDUCTORS ABOVE 600 VOLT A. EPR Insulated Cable: 1. Extrusion: Single -pass, triple- tandem, of conductor screen, insulation, and insulation screen. 2. Type: 15kV, shielded, UL 1072, Type MV -105. 3. Conductors: Copper, concentric lay Class B round stranded in accordance with ASTM B3, ASTM B8, and ASTM B263. 4. Insulation Screen: Thermosetting, semiconducting ethylene - propylene rubber (EPR), extruded directly over insulation in accordance with NEMA WC 8, and AEIC CS 6. 5. Metallic Shield: Uncoated, 5 -mil, copper shielding tape, helically applied. 6. Jacket: Extruded polyvinyl chloride (PVC) compound applied over the metallic shield in accordance with NEMA WC 8. 7. Operating Temperature: 90 degrees C continuous normal operations, 130 degrees C emergency operating conditions, and 250 degrees C short- circuit conditions. 8. Manufacturer: Cable - The cable shall be Okonite, Okoguard - Okosal type MV -90 No. 115- 23 -30XX Series (Size as noted on the plans). Confirm sizes and lengths before ordering the cable. 9. Cable shall carry a two -year warranty after shipment. 10. Test in accordance with NEMA WC 8 and AEIC CS 6 partial discharge level test for EPR insulated cable. 11. Cable shall have a 133 percent insulation level. 2.02 ACCESSORIES FOR CONDUCTORS ABOVE 600 VOLTS A. Electrical Contractor shall include in base bid all for well inserts, elbows, terminations and splice kits, etc. as required B. Termination Kits: 1. Capable of terminating a 15kV, single- conductor, polymeric - insulated shielded cables. 2. Capable of producing a termination with a current rating equal to, or greater than, the cable ampacity, meeting Class 1 requirements of IEEE 48. 3. Capable of accommodating any form of cable shielding or construction without the need for special adapters and/or accessories. 4. Manufacturers: a. Raychem. b. 3M Co. B. Cold Shrinkable Splice Kits: 1. Components necessary to provide insulation, metallic shielding and grounding 500 -1965- 0801 -0101 1 260513 BYU -I 9 Custom Stake Center August 2008 Medium Voltage Cable systems, and overall jacket. 2. Capable of making splices that have a current rating equal to, or greater than the cable ampacity, conforming to IEEE 404. 3. 15 kV class, with compression connector, splice insulating and conducting sleeves, stress - relief materials, shielding braid and mesh, and abrasion- resistant cold shrinkable adhesive -lined rejacketing sleeve to provide a waterproof seal. 4. Manufacturers: a. 3M Co. C. Elbow Connector Systems: 1. Molded, peroxide- cured, EPDM - insulated, 15kV class, 95kV BIL, 200A, 10,000A rms load -break and 600A, 40,000 rms load -break elbows having all copper current - carrying parts in accordance with ANSI 386. 2. Protective Caps: 15kV class, 95kV BIL, 200 and 600 amperes, with molded EPDM insulated body. 3. Insulated Standoff Bushings: 25kV class, 95kV BIL, 200 and 600 amperes, complete with EPDM rubber body, stainless steel eyebolt with brass pressure foot, and stainless steel base bracket. 4. Bushing Inserts: 15kV class, 95kV BIL, load -break with EPDM rubber body and all- copper, current - carrying parts. See plans for size. 5. All elbows (both 200A and 600A) shall be load break. 6. All 200A elbows shall have a test point for testing under load. Supply with protective cap. 7. All 600A elbows shall be supplied with a 200A wall insert test point, with protective cap, install on back of 600A elbows for testing under load. Provide all required components to complete this installation. 8. Manufacturers. a. 3M b. Cooper. D. Cable Lugs: 1. In accordance with NEMA CC 1. 2. Rated 15kV of same material as conductor metal. 3. Manufacturers and Products, Uninsulated Crimp Connectors and Terminators: a. Square D; Versitide. b. Thomas & Betts; Color- Keyed. c. ILSCO. 4. Manufacturers and Products, Uninsulated, Bolted, Two -Way Connectors and Terminators: a. Thomas & Betts; Locktite. b. Brundy; Quiklug. c. ILSCO. 2.03 PULLING COMPOUND A. Nontoxic, noncorrosive, noncombustible, nonflammable, wax -based lubricant; UL listed. B. Suitable for rubber, neoprene, PVC, polyethylene, hypalon, CPE, and lead- covered wire and cable. C. Suitable for zinc - coated steel, aluminum, PVC, bituminized fiber, and fiberglass raceways. D. Manufacturers and Products: 1. Ideal Co.; Yellow 77. 2. Polywater, Inc. 3. Cable Grip Co. PART 3 EXECUTION 3.01 GENERAL A. Conductor installation to be in accordance with NECA 5055. 500- 1965- 0801 -0101 2 260513 BYU -I 9 Custom Stake Center August 2008 Medium Voltage Cable B. Conductor and cable sizing shown is based on copper conductors, unless noted otherwise. C. Do not exceed cable manufacturer's recommendations for maximum pulling tensions and minimum bending radii. D. Tighten screws and terminal bolts in accordance with UL 486A for copper conductors. E. Cable Lugs: Provide with correct number of holes, bolt size, and center -to- center spacing as required by equipment terminals. F. Bundling: Where single conductors and cables in manholes, handholes, vaults, cable trays, and other indicated locations are not wrapped together by some other means, bundle conductors from each conduit throughout their exposed length with cable ties placed at intervals not exceeding 18 inches on center. G. Ream, remove burrs, and clear interior of installed conduit before pulling wires or cables. H. Concrete - Encased Raceway Installation: Prior to installation of conductors, pull through each raceway a mandrel approximately 1/4 inch smaller than raceway inside diameter. 3.02 CONDUCTORS ABOVE 600 VOLTS A. Do not splice unless specifically indicated or approved by the Owner's Representative. B. Make joints and terminations with splice and termination kits, in accordance with kit manufacturer's instructions. C. Install splices or terminations as continuous operation in accessible locations under clean, dry conditions. D. Single Conductor Cable Terminations: Provide cold shrinkable stress control and outer nontracking insulation tubings, high relative permittivity stress relief mastic for insulation shield cutback treatment, and a heat - activated sealant for environmental sealing. E. Install terminals or connectors acceptable for type of conductor material used. F. Provide shield termination and grounding for all terminations. G. Provide necessary mounting hardware, covers, and connectors. I. Where elbow connectors are specified, install in accordance with manufacturer's instructions. J. Field Test Cable: DO NOT apply a High Potential "Acceptance Test" to existing cables. K. Do not drag along the ground. L. Provide and install all grounding per manufacturer and NEC. 3.03 HIGH VOLTAGE CABLE FIELD TESTING A. Perform the following field test on the new 15kV cable: 1. Perform high potential tests on 15kV cable after installation per IEEE test duration per Owner. 2. Perform tests in the presence of the Owner. Test each length of each phase cable in the system, after installation, with splices and terminations in place but disconnected from equipment. 3. Furnish necessary test equipment, experienced testing personnel, and necessary electric power. 4. Perform high - potential test in accordance with ICEA S -66 -524 and S -68 -516, and NEMA WC7 and WC8. a. Use do test voltage of 55kV for 15kV (133 percent insulation) cable applied for 15 minutes. 500- 1965- 0801 -0101 3 260513 BYU -I 9 Custom Stake Center August 2008 Medium Voltage Cable b. The voltage may be increased continuously, apply the test voltage at a uniform rate, increasing to maximum voltage in not less than 10 seconds or more than 60 seconds. If applied in steps, increase the test voltage from one step to the next in approximately five to eight equal steps. Make the duration of each step long enough for the absorption current to attain reasonable stabilization (1 minute). Record current and voltage readings at the end of each step and prepare a written copy of the test data for submission to the Owner and include in the Operations and Maintenance Manual. Immediately following these tests, ground the conductor to drain any charge to earth. Repair or replace cables not passing test. Repaired cables must pass same test. 3.04 QUALITY ASSURANCE A. All splices and terminations of conductors above 600 volts shall be performed by qualified splicers with not less than 5 years experience. Submit a resume of proposed splicers to Owner's Representative. All cable splicers shall receive the approval of the Owner's Representative before any splice or termination is made. END OF SECTION 500- 1965- 0801 -0101 4 260513 BYU -I 9 Custom Stake Center August 2008 Medium Voltage Cable SECTION 26 0550 — LADDER TYPE CABLE TRAYS PART 1 GENERAL 1.01 SECTION INCLUDES A. The work covered under this section consists of the furnishing of all necessary labor, supervision, materials, equipment, tests and services to install complete cable tray systems as shown on the drawings. B. Cable tray systems are defined to include, but are not limited to straight sections of ladder type cable trays, bends, tees, elbows, drop -outs, supports and accessories. 1.02 REFERENCES A. ANSI/NFPA 70 - National Electrical Code B. ASTM Al23 - Specification for Zinc (Hot - Galvanized) Coatings on Products Fabricated from Rolled, Pressed, and Forged Steel Shapes, Plates, Bars, and Strip C. ASTM A653 - Specification for Steel Sheet, Zinc - Coated (Galvanized) by the Hot -Dip Process, Structural (Physical) Quality D. ASTM A1011 - Specification for Steel, Sheet and Strip, Hot - Rolled, Carbon, Structural, High- Strength Low -Alloy and High Strength Low Alloy with Improved Formability (Formerly ASTMA570 &A607) E. ASTM A1008 — Specification for Steel, Sheet, Cold- Rolled, Carbon, Structural, High - Strength Low -Alloy and High- Strength Low -Alloy with Improved Formability (FormerlyASTMA611) F. ASTM B633 - Specification for Electrodeposited Coatings of Zinc on Iron and Steel G. NEMA VE 1 -1998 - Metallic Cable Tray Systems H. NEMA VE 2 -2000 - Cable Tray Installation Guidelines 1.03 DRAWINGS A. Specifications and drawings are for assistance and guidance, but exact routing, locations, distances and levels will be governed by actual field conditions. Contractor is directed to make field surveys as part of his work prior to submitting system layout drawings. B. Cable tray size is estimated only. Electrical Contractor shall provide tray as required based on actual cable counts. Submit anticipated cable counts and size with shop drawings. 1.04 SUBMITTALS A. Submittal Drawings: Submit drawings of cable tray and accessories including clamps, brackets, hanger rods, splice plate connectors, expansion joint assemblies, and fittings, showing accurately scaled components. B. Product Data: Submit manufacturer's data on cable tray including, but not limited to, types, materials, finishes, rung spacings, inside depths and fitting radii. For side rails and rungs, submit cross sectional properties including Section Modulus (Sx) and Moment of Inertia (Ix). 1.05 QUALITY ASSURANCE A. Manufacturers: Firms regularly engaged in manufacture of cable trays and fittings of types and capacities required, whose products have been in satisfactory use in similar service for not less than 5 years. B. NEMA Compliance: Comply with NEMA Standards Publication Number VE1, "Cable Tray Systems ". C. NEC Compliance: Comply with NEC, as applicable to construction and installation of cable tray and cable channel systems (Article 318, NEC). 500 - 1965- 0801 -0101 1 260550 BYU -I 9 Custom Stake Center August 2008 Ladder Type Cable Trays D. UL Compliance: Provide products that are UL- classified and labeled. NFPA Compliance: Comply with NFPA 70B, "Recommended Practice for Electrical Equipment Maintenance" pertaining to installation of cable tray systems. 1.06 DELIVERY, STORAGE AND HANDLING A. Deliver cable tray systems and components carefully to avoid breakage, denting and scoring finishes. Do not install damaged equipment. B. Store cable trays and accessories in original cartons and in clean dry space; protect from weather and construction traffic. Wet materials should be unpacked and dried before storage. PART 2 PRODUCTS 2.01 ACCEPTABLE MANUFACTURERS A. Manufacturer: Subject to compliance with these specifications, cable tray and cable channel systems shall be such as manufactured by Cooper B -Line, Inc. 2.02 CABLE TRAY SECTIONS AND COMPONENTS A. General: Except as otherwise indicated, provide metal cable trays, of types, classes and sizes indicated; with splice plates, bolts, nuts and washers for connecting units. Construct units with rounded edges and smooth surfaces; in compliance with applicable standards; and with the following additional construction features. B. Materials and Finish: Material and finish specifications for each tray type are as follows: Aluminum: Straight section and fitting side rails and rungs shall be extruded from Aluminum Association Alloy 6063. All fabricated parts shall be made from Aluminum Association Alloy 5052. 2.03 TYPE OF TRAY SYSTEM Ladder type trays shall consist of two longitudinal members (side rails) with transverse members (rungs) welded to the side rails. Rungs shall be spaced 9 inches on center. Spacing in radiused fittings shall be 9 inches and measured at the center of the tray's width. Rungs shall have a minimum cable - bearing surface of 7/8 inch with radiused edges. No portion of the rungs shall protrude below the bottom plane of the side rails. B. Tray Sizes shall have 6 inch minimum usable load depth, or as noted on the drawing. C. Straight tray sections shall have side rails fabricated as I- Beams. All straight sections shall be supplied in standard 10, 12, 20, or 24 foot lengths as desired by contractor, except where shorter lengths are permitted to facilitate tray assembly lengths as shown on drawings. D. Tray widths shall be 36 inches or as shown on drawings. E. All fittings must have a minimum radius of 24 inches. F. Splice plates shall be the bolted type made as indicated below for each tray type. The resistance of fixed splice connections between adjacent sections of tray shall not exceed .00033 ohms. Splice plate construction shall be such that a splice may be located anywhere within the support span without diminishing rated loading capacity of the cable tray. Aluminum Tray - Splice plates shall be made of 6063 -T6 aluminum, using four square neck carriage bolts and serrated flange locknuts. Hardware shall be zinc plated in accordance with ASTM B633, SCL If aluminum cable tray is to be used outdoors then hardware shall be Type 316 stainless. G. Cable Tray Supports: Shall be placed so that the support spans do not exceed maximum span indicated on drawings. Supports shall be constructed from 12 gauge steel formed shape channel members 1 -5/8 inch by 1 -5/8 inch with necessary hardware such as Trapeze Support Kits (9G- 55XX -22SH) as manufactured by Cooper B -Line, 500- 1965- 0801 -0101 2 260550 BYU -I 9 Custom Stake Center August 2008 Ladder Type Cable Trays Inc. Cable trays installed adjacent to walls shall be supported on wall mounted brackets such as B409 as manufactured by Cooper B -Line, Inc. H. Trapeze hangers and center -hung supports shall be supported by 1/2 inch (minimum) diameter rods. I. Barrier Strips: Shall be placed as specified on drawings and be fastened into the tray with self - drilling screws. J. Accessories - special accessories shall be furnished as required to protect, support, and install a cable tray system. Accessories shall consist of but are not limited to; section splice plates, expansion plates, blind -end plates, specially designed ladder dropouts, barriers, etc. PART 3 EXECUTION 3.01 INSTALLATION A. Install cable trays as indicated: Installation shall be in accordance with equipment manufacturer's instructions, and with recognized industry practices to ensure that cable tray equipment comply with requirements of NEC and applicable portions ofNFPA 70B. Reference NEMA -VE2 for general cable tray installation guidelines. B. Coordinate cable tray with other electrical work as necessary to properly integrate installation of cable tray work with other work. C. Provide sufficient space encompassing cable trays to permit access for installing and maintaining cables. D. Cable tray fitting supports shall be located such that they meet the strength requirements of straight sections. Install fitting supports per NEMA VE -2 guidelines, or in accordance with manufacturer's instructions. E. Install with minimum of 12" clear space above each tray. 3.02 TESTING A. Test cable trays to ensure electrical continuity of bonding and grounding connections, and to demonstrate compliance with specified maximum grounding resistance. See NFPA 70B, Chapter 18, for testing and test methods. B. Manufacturer shall provide test reports witnessed by an independent testing laboratory of the "worst case" loading conditions outlined in this specification and performed in accordance with the latest revision of NEMA VE -1; including test reports verifying rung load capacity in accordance with NEMA VE -1 Section 5.4. END OF SECTION 500 -1965- 0801 -0101 3 260550 BYU -I 9 Custom Stake Center August 2008 Ladder Type Cable Trays W 4 SECTION 26 1219 — LIQUID- FILLED TRANSFORMERS PART 1 GENERAL 1.01 SECTION INCLUDES A. Liquid - filled pad- mounted transformers. 1.02 REFERENCES A. ANSI C37.47 - Specifications for Distribution Fuse Disconnecting Switches, Fuse Supports, and Current- Limiting Fuses. B. IEEE C57.12.00 - Standard General Requirements for Liquid- Immersed Distribution, Power, and Regulating Transformers (ANSI). C. ANSI C57.12.22 - Requirements for Pad - Mounted, Compartmental -Type, Self- Cooled, Three -Phase Distribution Transformers with High Voltage Bushings; 2,500 kVA and Smaller: High Voltage, 34,500 GrdY /19,920 Volts and Below; Low Voltage, 480 Volts and Below - Requirements. D. ANSI C57.12.26 - Standard for Transformers - Pad - Mounted, Compartmental -Type, Self- Cooled, Three -Phase Distribution Transformers for use with Separable Insulated High Voltage Connectors: High Voltage, 34,500 GrdY /19,920 Volts and Below; 2,500 kVA and Smaller. E. ANSI C57.12.28 - Switchgear and Transformers, Pad - Mounted Equipment - Enclosure Integrity. F. ANSI C57.12.50 - Requirements for Ventilated Dry-Type Distribution Transformers, 1 -500 kVA Single -Phase and 15 -500 kVA Three - Phase, with High Voltage 601- 34,500 Volts, Low Voltage 120 -600 Volts. G. IEEE C57.12.51 - Requirements for Ventilated Dry-Type Power Transformers, 501 kVA and Larger Three - Phase, with High Voltage 601 - 34,500 Volts, Low Voltage 208Y/120 -4,160 Volts. G. IEEE C57.12.90 - Standard Test Code for Liquid- Immersed Distribution Power, and Regulating Transformers and Guide for Short- Circuit Testing of Distribution and Power Transformers (ANSI). 1. IEEE C57.12.91 - Test Code for Dry-Type Distribution and Power Transformers. J. IEEE C57.13 - Requirements for Instrument Transformers. K. ANSUIEEE 386 - Separable Insulated Connector Systems for Power Distribution Systems Above 600 V. K. ASTM D877 - Test Method for Dielectric Breakdown Voltage of Insulating Liquids Using Disk Electrodes. L. NEMA AB -Molded Case Circuit Breakers. L. CAN /CSA- C88 -M90 - Electrical Power Systems and Equipment. 1.03 SUBMITTALS A. Submit shop drawings indicating outline dimensions, connection and support points, weight, specified ratings and materials. B. Submit product data indicating standard model design tests and options. C. Submit manufacturer's installation instructions. 1.04 OPERATION AND MAINTENANCE DATA A. Submit operation and maintenance data under. B. Include procedures for sampling and maintaining fluid, cleaning unit, and replacing components. 1.05 QUALITY ASSURANCE A. Manufacturer: Company specializing in distribution transformers with 5 years documented experience. 1.06 TRANSFORMERS 500 -1965- 0801 -0101 1 26 1219 BYU -I 9 Custom Stake Center August 2008 Liquid Filled Transformers A. Provide and install two transformers as specified herein: 1. 12.47kV Delta— 120/208v. Wye 300 kVA (Quantity one) PART 2 PRODUCT 2.01 MANUFACTURERS A. Square D Company, Westinghouse, General Electric, Pennsylvania Transformers. 2.02 FLUID - FILLED PAD - MOUNTED TRANSFORMERS A. The transformer(s) shall be compartment type, self - cooled, for mounting on a pad and shall comply with the latest applicable standards. B. The average temperature rise of the windings, measured by the resistance method, shall be 65° C when the transformer is operated at rated kVA output in a 40° C ambient. The transformer shall be capable of being operated at rated load in a 30° C average, 40° C maximum ambient, as defined by ANSI C57.12.00 without loss of service life expectancy. C. Coolant and insulating fluid shall be inhibited mineral oil. D. The high and low voltage compartments shall be located side by side, separated by a steel barrier. When facing the transformer, the low voltage compartments shall be on the right. Terminal compartments shall be full height, air - filled, with individual doors. The high voltage door fastenings shall not be accessible until the low voltage door has been opened. E. The following accessories shall be provided as standard on all transformers: 1. Nameplate in low voltage compartment, 1 inch upper filter press and filling plug, 1 inch drain plug. 2. Drain plug provided on 75 -500 kVA. F. The transformer shall be rated kVA per drawings self cooled (OA). Primary voltage 12.47kV delta. Secondary voltage 480/277 wye, 4 -wire, 60 Hz with two 2 -1/2% full capacity above normal and two 2 -1/2% below normal taps. Manufacturer's standard impedance, f7 -1/2 %. Basic impulse level of the primary winding shall as specified in ANSI C57.12.00 for comparable kV class. G. The transformer shall be of sealed -tank construction or sufficient strength to withstand a pressure of 7 psi without permanent distortion. The cover shall be welded and the fastenings tamper - resistant. The transformer shall remain effectively sealed for a top oil temperature range of -5° C to 105° C. When required, cooling panels will be provided on the back and sides of the tank. Lifting eyes and packing pads will be provided. H. Coils shall be wound with copper conductors. I. Core and coil assembly shall be the five- legged wound core type, using high grade, grain- oriented silicon steel laminations carefully annealed after fabrication to restore high magnetic permeability. Magnetic flux is to be kept well below the saturation point. J. The high voltage terminations and equipment shall be dead front and conform to ANSI C57.12.26. K. Dead front bushings shall be either universal wells or one -piece integrated for use with separable connectors. Bushings shall be externally clamped and front removable. L. The low voltage bushings shall be molded epoxy, and provided with blade -type spade terminals with NEMA standard hole spacing arranged for vertical take -off. The low voltage neutral shall be an insulated bushing, grounded to the tank by a removable ground strap. M. Select one of the following options for fusible protection: 1. Provide Bay -O -Net oil immersed current limiting fuses that are externally replaceable with a hot -stick without opening the transformer tank. N. 15kV connection to transformer shall be with 200A load break elbows. O. Surge Protection - Provide three 15 kV distribution class lightning arresters for surge protection. Arresters are to be mounted in the high voltage compartment. P. Accessories 1. 1 inch drain valve with sampling device, 75 -500 kVA only standard on units above 500 kVA. 500 - 1965 - 0801 -0101 2 26 1219 BYU -I 9 Custom Stake Center August 2008 Liquid Filled Transformers • 2. Dial type thermometer. 3. Magnetic liquid -level gauge. 4. Pressure vacuum gauge. 5. Pressure relief valve. 6. Automatic pressure relief device (self resealing with indicator). 7. Mounting provisions for low voltage current transformers and potential transformers. 8. Sudden pressure relay. 9. 3p. gang operated, switch on HV side of transformer. 10. One removable fiberglass operating handle. Q. Testing - Tests shall be conducted in accordance with the provisions of ANSI C57.12.90 and shall include, as a minimum, the following tests: 1. Ratio 2. Polarity 3. Phase Rotation 4. No -Load Loss 5. Excitation Current 6. Impedance Voltage 7. Load Loss 8. Applied Potential 9. Induced Potential 10. QA Impulse Test 11. Provide a factory performed fluid test to establish a contaminant base line. PART 3 EXECUTION 3.01 EXAMINATION A. Verify that pads are ready to receive work. B. Verify field measurements are as instructed by manufacturer. C. Verify that required utilities are available, in proper location and ready for use. B. Beginning of installation means installer accepts conditions. 3.02 INSTALLATION A. Install in accordance with manufacturer's instructions. B. Install safety labels to NEMA 260. 3.03 FIELD QUALITY CONTROL A. Test dielectric liquid to ASTM D877, using 25,000 volts minimum breakdown voltage, after installation and before energization from system. B. Test transformer to ANSI /IEEE C57.12.90. B. Test transformer to ANSI/IEEE C57.12.91. 3.04 ADJUSTING A. Adjust primary taps so that secondary voltage is within 2 1/2% of rated voltage. END OF SECTION 500 -1965- 0801 -0101 3 26 1219 BYU -I 9 Custom Stake Center August 2008 Liquid Filled Transformers SECTION 26 2200 - DRY TYPE TRANSFORMERS PART1 GENERAL 1.01 WORK INCLUDED A. Dry type two winding transformer. Size as per plan. 1.02 RELATED WORK A. This Section shall be used in conjunction with the following other specifications and related Contract Documents to establish the total requirements for secondary grounding. 1. Section 26 0501 - Basic Electrical Requirements. B. In the event of conflict regarding dry type transformer requirements between this Section and any other section, the provisions of this Section shall govern. 1.03 DELIVERY, STORAGE, AND HANDLING A. Store in warm, dry location with uniform temperature. Cover ventilating openings to keep out dust. B. Handle transformers using only lifting eyes and brackets provided for that purpose. Protect units against entrance of rain, sleet, or snow it handled in inclement weather. 1.04 SUBMITTAL A. Provide a separate set of shop drawings for each transformer supplied. PART PRODUCTS 2.01 ACCEPTABLE MANUFACTURERS - DRY TYPE TWO WINDING TRANSFORMERS A. General Electric Company B. Square D Company (Sorgel) C. ITE D. Federal Pacific 2.02 DRY TYPE TWO WINDING TRANSFORMERS A. Dry Type Transformers: NEMA ST 20; factory- assembled, air cooled dry type transformers. B. Insulation system and average winding temperature rise for rated kVA as follows: Rating Class Rise (de rg ee C) 16 -500 220 150 C. Case temperature shall not exceed 35 degrees C rise above ambient at its warmest point. D. Winding Taps, Transformers 15 kVA and Larger: NEMA ST 20. Two 5 percent taps above and below full rated voltage. E. Transformers 75 kVA and larger, provide an impedance of 4.5 percent minimum. F. Sound Levels: NEMA ST 20. G. Sound Levels: Maximum sound levels are as follows: kVA Sound Rating Level 500- 1965- 0801 -0101 1 262200 BYU -I 9 Custom Stake Center August 2008 Dry Type Transformers 1 -5 30 db 6 -25 40 db 26 -150 42 db 151 -225 43 db 226 -300 47 db 301 -500 51 db H. Basic Impulse Level: 10 kV I. Ground core and coil assembly to enclosure by means of a visible flexible copper grounding strap. J. Mounting: Transformers 75 kVA and less shall be suitable for wall, floor, or trapeze mounting; transformers larger than 25 kVA shall be suitable for floor or trapeze mounting. K. Coil Conductors: Continuous windings with terminations brazed or welded. L. Enclosure: NEMA ST 20; Type 1. Provide lifting eyes or brackets. M. Isolate core and coil from enclosure using vibration - absorbing mounts. N. Nameplate: Include transformer connection data and overload capacity based on rated allowable temperature rise. END OF SECTION 500- 1965- 0801 -0101 BYU -I 9 Custom Stake Center 2 August 2008 262200 Dry Type Transformers lb F CU'§T MEDIA GOATS 11 STORAG 216 I I - 21J CUOSET GORRIDO - 04 „ 126 13' -0 -- I --- 1---- - - - - -- - - - - -- 1 1 8" 129 ROOM M N 21 FO 18' -7'I 7" SA2.1 32' -8" ROOM 124 4" CONCRETE SLAB W/ #4 AT 18" O.C. EACH WAY OVER COMPACTED FILL T.O. SLAB = 100' -0" (FIELD VERIFY WITH ARCH) „ _ G /S2.2 L 1.3 FUS - � - - - - 2 COATS 2.0 F r WF2.0 L Q S1.3 - - - - - - - - - - - - - - - - MEDIA STORAG WF2.0 216 �_ T -- - WF2.0 7 1 H L F5.0 CORRID M F5.0 F6.0 C2 S1.3 SIM 4.5 S1 .3 r - - - -------------------- - - - - -- - - -- - -WF2.0 -- - -� - - -- 5 1 1 PHD2 S1.3 S1.4 OM ° I I SHEARWALL "A" K 129 I ( SEE DETAIL D /S2.5 S 1.3 I I I I ROOM ROOM X 125 S 1 .3 1 I WF2.0 FOYE 123 STRUCTURAL ADDENDUM #2 J zManampim US= ILE mMxorwa IMMIM A Bxuz MsID� S1.2 �„� SA2.2 - 17 F=Qm 8�I3,200E of I II I !i DRAG T ii G /S2.2 (2) T(1j AND DOUBLE TR -7 DRAG TRUSS R S2.3 C O FF TS M ' F� C2. C2� GL II STORAGE 7 11 215 c2 I II II v S2.4 II. - - - 14 � I I- PLYWOOD FLOOR SHEATHING (TYP) W/ 10d CHAPEL. " O.C. AT PANEL EDGES AND 12" O.C. IN WOOD FRAMING BELOW, TYP X CORRDINATE LOCATION W/ TY S2.3 P ARCH /ELEC SHEETS cl- I1 II II 3 II I II II I II II II I II II II II M I II IA II � 11 T 11 I I II II - II I 11� = 1 8 II I II 1 II 1... 1 L 4 _ 7 1 4 W5 1 W5 II TY 4 3 II 1 pw (:D � W2 I I I II II II II LI W2 04 W _1 - - - I I' O W _ 4O t A C S2.3 S2.3 S2.3 S2.2 9 1/2" TJI 110 AT 16" O.C. 11 7/8" 12 STRUCTURAL ADDENDUM #2 SEEP ►.. TM EW IRMA ara BYM 9TH STAKE ost roAxornus DMIU i IF7 SEP -03 -2008 03:49PM FROM- ENGINEERED SYSTEMS 208 - 233 -0529 ADDENDUM NO.2 BYU -I 9TN STAKE CENTER September 3, 2008 T -392 P.001/002 F -332 Specification 1. Section 22 0501, 3.1. The following Contractors are approved to bid this projecL a. Matthews Plumbing - (208) 589 -8395 2. Section 22 0501, 3.1. The following Contractors are approved to bid this project, a. MI Mechanical (801) 292 -8844 Dra� w_ ing 1_ Sheer M1.1. See revised sketch Add 2, M.1 for additional exhaust fart and grille in new Media Closet 21 t5. Prior Approvals 22 3530 High Efficiency Boilers: Hydrorherm, Smith, Llars_ 22 1321 Snowmelr Piping Specialties: Flexcon, Miljoco, Gerand Engineering. 22 1323 Snowmelt Piping Systems: Watts Radient. END OF ADDENDUM Addendum g2/Page 1 SEP -03 -2008 03:49PM a Q zz o �> y Om < O C7 C) N rX Q m rn V) T O 2 m O o � m � m M Ul D a C3 y> m i \ r m O N FROM- ENGINEERED SYSTEMS 208 - 233 -0529 CA M C-1 F �m �o< -= v 1 m 0 V ir NNIIIII IN T _Q N � oau 2 Fm z 5R C3 C) siz �yVF A O N T -392 P- 002/002 F -332 o_ D G N o o rn z o �a N m C CA A U)C M a m y M i A O 208 - 233 -0529 CA M C-1 F �m �o< -= v 1 m 0 V ir NNIIIII IN T _Q N � oau 2 Fm z 5R C3 C) siz �yVF A O N T -392 P- 002/002 F -332 qPn ? OR - 4- ?l PM - P- \Current \2837.BYU Idaho Ninth Stake \BYU9 E4.1.dwa OF A, o L. 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rr- r X N D D D D D N D D O (n (n K (n K X m = m m m 0 m 0 0 000 X n m M M c OCK n 0 m m z m z Z -D m v \ N r N -i -- i K C M - I -u A N z Iv z Z N Z Z D D CD -I n (A r- O D m C r D - i Z 0 - 0 - 0 CO � -< -r 4 2n m - u 0 m 0 Cn CA mi CO (n 0 0 O zm O O 7D ❑o ® v 03 o� D z 7 (n (n U Cn D 07 O O (n O K U (n �u D D - u m O r m D m - 0 m D n m O I D D m Z z Z r i C) D C� = m ° C T� T (n ° ° N O D� D 0 r -� r to m m < O � F- r-0 Om X 0 ;u co (n 0 0 o m e D m) m x C cn Z m D z z D Orn < -{ F D < m 0Z -� -{ r 0 ;:0 < D 0 O CD m< m z Z C _ O X r m O G7 p u no m m m" mrn > D �7 �7 rq D _ z Z Z D z P m n n = z = X D m ° C C) D moo o zo Z" C C) D -{ z m z D rn + m m o m o ° C) z z O D 0 0 X i a' -' n z m rz C � O D c cn z � � m m CC) � C O z 03 ° 0 m rn cn O x m r C/')i D D D D D D D D O � � O Z = -u z Zm zm z O r�m O r� m O r� 07 O r�m O r CO m x ;a � x M m m x 0J m m x co m m x C0 m m ;;u cc) m m O Lo U-) `4O rn(nr mCnr m(nr m(nr m(nr (n D< D< D< D D 0 -i 0 D 0 -{ D D x C7 D D x- C7 m m 0 m 0 m 0 m Z Z 0 Z Z Z C7 m a m 0 m o m D m D m D m D m D m 0 0 0 u -0 N z - z 00 - 0 N Z CO -p x z - u x z 10 C3) IQ O Q7 CD 0J m CD CD CD 41 GO I Z Z�7 j Z U� G7 Z N Z -P < < < < 0 .p m W O N N 0 u O D O I 0') C0 0 m U) m(A m (n m � r j j� cn m� - P 0 m D m n v z r r0 r 0 °r cn Dp Dm °� °�(a GO m C m C m C C C) Z O Z n Z CP �7 N I < Z CD I C -< < < D CO C7 -< CD m < < 0 n C7 Z C) Z C7 Z Z C) Z n C) O< O D to D (n D U) O O O O O r D r D r D � z z z z z r r r - > C/') (n (A (f) r r r D C C C c C m m m r r r r r r x D D D D D z z z z z -4 -4 D F9 I 0 F C z VI I I mm Z �0 �z OC (n m 0 m r m O z m I (n n Cn CP -A W N I� T 1 00 N I 10 1 IX m 1 �I G)OC/) Om D cu D - u O 000m - Z znCn = M n = 71 D 0 p m M -- O r m c m Z ' zv� OJ r- 0) OC �ZO - 0 Z Z MD m 00 m rn 0z m r --n m = _ v) i p r m -{ 0� zD o C O D z 0 D�7 D z C) D z = m r O O m ZCn 0 (n r v to D p O O m ` l D y O Z �7 O --1 ::F = Z z= F co O m z z D C D Z X - u - 0 C) 0 z rn O 0 CD m D = (n O 0 0 z 0 = Z m mo z° � m ---A D 0 � O C/) W D° D m Z - C m m _ n Drn = m 0 rr nn V/ m x 0 -< N D O 0J m K Z D D r 0 m _ Z CD D 0 z ° O Z 0 _i Z z O m m m z m C7 C O n z � cc z o W O D n - u m O z n m p z C7 m C) z m ° -:j O c D =,i z m m - v, c O Z z _ Z O D z z O C C � (n - I O m C = O X S m -D C m 0 D z O r cn n r= m 0 O n O cn Z O D m O 0 y K m m- Cl) z m C C/) °� O c,a z 0 r 0 n z o \ D (n D � Z -It -rni z m C C) o D n O z ° > m O m 0 z O z m D (n 0 � O 0 m ° O = C r Z _ N zz r ° C Z O = Z -i D - i Cl) C m Z r r m (n U) ovuW �c�noo��000�oo 0 0 z C4 --1 O K CA z CA D O W K (P N D (A m O W D (A D CA D C14 D (A D CW D C14 0 X 0 0 z z° 0 0 + rn\ C \ m O m ---1 n 0 M 0 m 0 m 0 M 0 rn 0 m 0 O FA M C ZJ m O m z N Z M r - i m r m r m r m r - m r m r - m x mm - I m O m --I --- i � 0 m m m m m m m m m m m m m m m u 00 m-0 x - I m m m 0-u -� - 0 O O O C) - 0 - a p 0 0 = r ° - 0 0 ° ° m ° -I D D Co m (n = ° m m D m (n r (n ° l7 �7 ° �J ° D 0 O m z r m Z rn p 0 -I p p O z --j O O �l O O n O n O O z O z Z O° G7 D C D D m C D D C D C D C D O D 0 Z 0 O m � ° U7 �= m O r r- � X DJ r r r CO r CU r w r r r r ° m � m X� j O G r x m au cn m �u m O m O r i O m o m o m O m O C-) D O m 0 O r G7 = z C O C C C C O C O �7 D - D G7 m Z r m 0 D O 0 ---j D -i G7 -� G7 - G7 ) D ---j D G7z Z D G7rn �G7C OZ = D m z mD m D mD M m D G7 O z z ° 0 0 D D = G7 m 0 -r O Z (o C _ D D Z = co G7 O W = _ _ = 07 = CJ n O 0a O CD m m z G m m 0 = z� m 0 m CU r�r � m CD L-1 0 m 0 O X X O 0 G7 - u 0J G7 X --, OX O X G7 XX Q XX 0 XX 0 X G7 X 0 0 O C K r 0 D 0 (f) 0 O ° 0 0 0 OC O z C/') = m� C D -� C O O O C C m z - D z < z = �J - i z= z z Z z z z m m m X m m (n o m m m m m ° z ° ° Z y 0 zG? rr- r X N D D D D D N D D O (n (n K (n K X m = m m m 0 m 0 0 000 X n m M M c OCK n 0 m m z m z Z -D m v \ N r N -i -- i K C M - I -u A N z Iv z Z N Z Z D D CD -I n (A r- O D m C r D - i Z 0 - 0 - 0 CO � -< -r 4 2n m - u 0 m 0 Cn CA mi CO (n 0 0 O zm O O 7D ❑o ® v 03 o� D z 7 (n (n U Cn D 07 O O (n O K U (n �u D D - u m O r m D m - 0 m D n m O I D D m Z z Z r i C) D C� = m ° C T� T (n ° ° N O D� D 0 r -� r to m m < O � F- r-0 Om X 0 ;u co (n 0 0 o m e D m) m x C cn Z m D z z D Orn < -{ F D < m 0Z -� -{ r 0 ;:0 < D 0 O CD m< m z Z C _ O X r m O G7 p u no m m m" mrn > D �7 �7 rq D _ z Z Z D z P m n n = z = X D m ° C C) D moo o zo Z" C C) D -{ z m z D rn + m m o m o ° C) z z O D 0 0 X i a' -' n z m rz C � O D c cn z � � m m CC) � C O z 03 ° 0 m rn cn O x m r C/')i D D D D D D D D O � � O Z = -u z Zm zm z O r�m O r� m O r� 07 O r�m O r CO m x ;a � x M m m x 0J m m x co m m x C0 m m ;;u cc) m m O Lo U-) `4O rn(nr mCnr m(nr m(nr m(nr (n D< D< D< D D 0 -i 0 D 0 -{ D D x C7 D D x- C7 m m 0 m 0 m 0 m Z Z 0 Z Z Z C7 m a m 0 m o m D m D m D m D m D m 0 0 0 u -0 N z - z 00 - 0 N Z CO -p x z - u x z 10 C3) IQ O Q7 CD 0J m CD CD CD 41 GO I Z Z�7 j Z U� G7 Z N Z -P < < < < 0 .p m W O N N 0 u O D O I 0') C0 0 m U) m(A m (n m � r j j� cn m� - P 0 m D m n v z r r0 r 0 °r cn Dp Dm °� °�(a GO m C m C m C C C) Z O Z n Z CP �7 N I < Z CD I C -< < < D CO C7 -< CD m < < 0 n C7 Z C) Z C7 Z Z C) Z n C) O< O D to D (n D U) O O O O O r D r D r D � z z z z z r r r - > C/') (n (A (f) r r r D C C C c C m m m r r r r r r x D D D D D z z z z z -4 -4 D F9 I 0 F C z VI I I mm Z �0 �z OC (n m 0 m r m O z m a I (n n Cn CCO� I OO° I 0 0° I� I 1 00 N I 10 1 IX m 1 r ° G)OC/) C D cu D Z cn D � - Z znCn = M n = u -U > m ° Z nZD O M -- O r m c m Z ' zv� OJ r- 0) m rn �>� m 0 c Z I ° O a I (n n Cn CCO� COO m Z D 0 0 mDO_i UD 0 z Om I co I 0�'< 160 0m° 00) I ----1 0 1n m 1 r ° I O IN I to 0 ,I z 0 z I IX D c �7 Cl") � (J)DZ n zc- Cb CCO� z -z m Z D 0 0 mDO_i F Om �r0 �D 0m° 00) DZ z:70 m 1 r ° ;7 -u --1 0 o 0 nDn 0 ,I z 0 z O m 0 0 0 D c �7 Cl") � I r C-- 7 no A. 10 DAA Irinhi. Nt.. FI. CF..1..,\ QVI In T1 1 4,.,- Sep. 2, 08 - 4:17 PM - P: \Current \2837.BYU Idoho Ninth Stake \BYU9_T1.2.dwq C C C C D D U) F -1 r F - I -I ITI rn D IIIII C C C C�� Z m �IIIIIIII D��� D D D D r D �, _ � Iillllllllll D D D 0 M c� C� n n m m m m n 0 - i Co � _ � � _ �_ n O m cn IIIIIIIII m z z z z z m z� (� Cn f � Cn 0 0= � � to (n n O C z O (I III IIIII II (I D O n -I rrI -I -i -I m rn m M m C z= m 0 0�� m 0 0 0 rn ,U F9 ;;U = m O�� m =__ 0 Fq l i 0 O 0 n m z C 0 0 0� 111111 D NN N N o m m m O O O O J N N O�D Q0 CD O M� M M M M Cn Cn Ui -Q N O O D r CO m J Oo -P C0 m Ul CA w Cn m J m U o� P � O � p� Csl � P � P CA D Z X cb m m N I F D A c 0 O � UJ (n O 00 O � m o N ° D --A �1 z z n 00 sindNi �1 ° D ° N ,CD Uj m F _ C ° F z - U U) Z O0 z D Sl ndl n0 rn F I C O O O — { U) C Z7 = � C FT-1 m O O -- A E z z C:: m m O 0 C C_ m _ � OF ° L. N S� y0 m P z z � � _ (A AR11116 z z 8/15/08 -1 C_7 F� FA LLS O O S ED ARG — 00 00 o O O n co `Z D n N 0 < � C C n G mm m m G 000 °° C C n ° n O K x < r O D D Z O C m m C7 O rn = m z z mm z mC z r r r � w m m z G7 O m C' Z m D Z rn I I F --4 .� D i D D Z Z < -4 I �7 I I ( ° m � z ° °° --1 z OJ O O �U = c) n m Z C)� - �7 C rn D _ O z n D __ -I m O rn m z z z -i _ Z M Cn Cn > � F —{ D O == Ko0m n O v z — U) O c m D D N m C z m z m r 0= F9 m 0 cn 0 co vin - -U F- O cn z < v a m ;D DD � \ ( D V) D ---I n O< z D w N D z� N 0� � D O D m D� I�l (0 X x D D ° D - n 0 = �� Z 0) D N N D N D o O n � n �W M D Z z nm =D n D D N r� — m ci O O -I 0ND Dz i v oz�� Z _ zD�m .. c m m (n n I Cn DznCA m � M D -I 0 m m D W � = z m n _ G� D D - I�TI � r cnn IT T J C (�zOr'1 � n m -i c- r w �J D �m0 -� N v D :;U co - o O � I co — — — — — — ::2- — O O C v 0 0 * z 0 rn� �� C m m 0� -� P m � z Cn °n On C) c= < ' O --A n C ' U c= m 0 r o O zo \ Om _ C8 OD rn CD m -I (n m T1 N - Q G) rn (A WWWWWQ? �0 > > PI T z Cn m� 00 O N n c O O O G < O O O rn O 0 O 0 � n DD � CC z D rn r T�1 = Z K K: 0 r /V 0 ( X� z j n (n o n g (n 02 n 0 n C/) (n C7 (_n Cn O M < O 0 O O O < O (n O n O O O < O (A O K: K_ � � � � �_ K_ r D � Cn O C� O O O r _K C7 (_n O K_ n c_c O K_ o + D z m x -1 � _ V) O z G 0 m O D Z W r O z < O m D m lu D < z m G7 m O z m G7 m D O z < 0 m C < m C C C < C m (U r C C C r n x - i = I n � O n � � n � -i = < C m Z m n Z < G7 m n x Z G G- m n V rTl n I O X r i m z -< r m z m m r m r D m r m r m m r rn m m m i m O -0 O O - o O a - 0 O K m O 0 r �l r O r m O _� -1 < c j - C-) - 0 G� rn D r - 0 O r - U 0 Z1 � 0 - a m r r`i Z _U S r = O m = O S O c� r �7 D M < m _ O D y = o D O -U rn n D. Tl r D D O O C r D D \° r n O r D m r D r D n r C) n cn r 0 n (n O C - n Z T Z Z (7 n 0 r 0 D D r z r D Z Z r D z Z 0 D -I Z . z -I Z r z D z m Z --A z z -{ z Z m C 0 m = m m = z M m m m G� m rn m m m Z r D -I < G I -i m 0mi m m z _i �J rn C 0 m m \ m a ;;U m -c n m 0 -c n D n z n O 0 z z z z Z O C7 y cn U) __ m O __ = m ni - O _ O _ 0 m = O = O _ = O 0 -1 O z N D n O= 0 m = O 0z z rn = C - U - _ — m �,) m D m - i G) = �_ - 1 O S = n O z r G7 = n G7 _ m G7 = r G) r G� r -U z Z O z n D z r i Z m Z m G7 C 0 C 0 C - T - I O O _ - D n - O ;;0 ;;0 m O _ � _ 0 0 n m D -U m r D n a: K c 0m \ z X O \ m K o rn z --q i m 0 v 0 � 0 C r 0 C r ;;U m - m O K m O -i m O z K: O O m O m �7 I 0 C n C C m C m r � z m � co O O n O n 0 n z� I = n - 0 = = n 0 n 0 D n n m m D m D m O x z � 0 > D C r- - i r- r Z (/i -1 O C O z o - 0 r - c - a D m m z m m m m n c - Z m < � rn Z < C m n O - ° z - < Z - < z r - Z Z -i < O Z W �U o n CD Z F n z < z (i O O z D O O O r- � m m O O O — — — — — — — z z n a m z z z o zz y K m z o z z r W r x m c O — m - U) D D D D D D D D D D D O -' -� N N N � N � N N N N N ;7 : D CJ S z 00 = < < < _ < S m K: = m K S C m � m K z C m K m K m K D -i - 0 n �U O C D O C ZU m D cn r C= m r m n a7 O = m m = m = C m K D n C CA m C C m m m m C c m C M C -i co -i D ;U - i OJ - i D - i -i r O z m 0 O m 0 C m ni O z C K K C K a7 -i n n CU n n n m n W m n CU m n 0 m n U0 m n 0 m n m n D (n 0 o O � O � m O n CD --1 m -i m of -i rn W m n m M r Z7 = n �a m Z1 I n m r cn m r = m r r = m r r = n = m r r = n = = U) C o m I z ( 0 -i CO O C Om Co m n = n = m r n = m r r = - i D r Z D i _ I _ I r O _ I r O O O = D O = D K m c- 0 C � -c O m r n K I m m < n -� I < r K O r O �7 n m O m r m r m r n (n n n 0 n 0 n M C) n I Z I CD = N z O= D O I CO O U in O (n Z cn n rn CA m m X m X m m X I m I i I I I m r 1 00 ° o o n Z n J n o O0 ;; n I n 1 n 1 r I Sri X D �ml r r < r < kJ m < cn Zz: D W m m r r m O D CD 0 O 0 O O O C O C N 0 D r 1 o 0 Cn z 0 z z z z Z n cn Z D (n O O 0 z Z D 0 m ---4 m Cn n D n K r = D � n r m = r mm m < N \ m m m (n r r r l J D D D O m Z _� _� n �] mo r mm r r 0 O rr � VJ W m 0 E 1 ❑D D min � D ci m. — z C 01 r O r .A O " r O r O -P - 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