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Specifications (4) Form 2a Project Name: Fanno Creek Place Bldg A Page: SUMMARY Project 1. Project Name Fanno Creek Place Bldg A 2. Project Address Upper boones Ferry Road 3. City/Town Tigard 5. County I Washington j 4. Building, Gross Area (ft2) 73,350 6. No. of Floors I 3 7. Construction Site Elevation Above 2,000 ft? ❑ YES I NO Attached Chapter Type ID Description Attach Forms and Building Envelope Form 3a Building Envelope - General I Worksheets 3b Prescriptive Path - All Climate Zones El * CodeComp Report for Simplified r a 1 • ❑ * In lieu of 3b * Floppy disc with .occ CodeComp file `. -. R (`m 1 Check boxes to Worksheet 3a Wall U- factor — 17 indicate attached 3b Roof U- factor ❑ forms and 3c Floor U- factor ❑ worksheets 3d Window /Skylight Schedule El $stems Form 4a Systems - General El •2.' .E- 4b Complex Systems El gy It-' , < � C Worksheet 4a Unitary Air Conditioners - Air Cooled 0 C P \ O G2 4b Unitary Air Cond. - Water & Evap Cooled ❑ J P P Q (\ 4c Unitary Heat Pump - Air Cooled ❑ 4d Unitary Heat Pump - Water Cooled ❑ p S Q �Io , , /b 4e Packaged Terminal A.C. - Air Cooled ❑ f � � G 4f Packaged Terminal Heat Pump - Air Cooled ❑ V 200 RECE WED 4g Water Chilling Pkgs - Water & Air Cooled ❑ 6 4h Heat Rejection Equipment ❑ WI ` 4i Boiler - Gas -Fired and Oil -Fired ❑ 4j Furnace & Unit Heaters - Gas and Oil -Fired ❑ ClTy OF TIGARD 4k Simultaneous Heating and Cooling I 41 Air Transport Energy I BUILDING DIVISION 4m Natural Ventilation ❑ Lighting Form 5a Lighting - General ❑ 5b Interior Lighting Power - Tenant Method ❑ 5c Int. Ltng. Power - Space -by -Space Method ❑ Worksheet 5a Lighting Schedule ❑ 5b Interior Lighting Power ❑ Applicant 7. Name Diane Gardner 10. Telephone 503 -462 -4822 8. Company HV Inc. 11. Date 09/26/06 9. Signature) e e 4 ,:d1( d/YZ--- Attached No. of Pages - . - . Descnption of Documentation =` . . . ' - .. - r Document - ",... Trane Equipment Data • ation PPG Glass Data Mitsubishi Equipment Data Form 3a Project Name: Fanno Creek Place Bldg A Page: BUILDING ENVELOPE - GENERAL Check all boxes 1. Exceptions (Section 1312) that apply. ❑ No Envelope Components. The building plans do not call for new or altered building envelope components, e.g., walls, floors or roof /ceilings. ❑ A Non - conditioned Building. The proposed structure has no spaces heated or cooled by an HVAC system. Exceptions ❑ Exception. All new or altered building envelope components do not comply with the Discussion of qualifying requirements, Section 1312, but qualify for Exception: ❑ -1 0-2 0-3 0 0-5 exceptions in Portions of the building that qualify: instructions section. Plans /Specs Show compliance by The plans /specs show compliance in the following locations: including a drawing sheet, detail number, 2. Air Leakage (Section 1312.1.1) specification section p Complies. Plans require penetrations in building envelope are sealed and windows and and /or subparagraph. doors are caulked, gasketed or weatherstripped. The plans /specs show compliance in the following locations: Sheet A0.2, details on sheets !2.6 & A3.2 and D5/A5.3 - spec section 07 9200 3. Suspended Ceiling (Section 1312.1.2.1) • Complies. Building plans do not show suspended ceilings used to separate conditioned space from unconditioned space. No exceptions permitted. 4. Recessed Light Fixtures (Section 1312.1.2.2) • Complies. The building plans do not show recessed light fixtures installed in ceilings separating conditioned spaces from unconditioned spaces. ❑ Exception. The building plans require that fixtures installed in direct contact with insulation be insulation coverage (IC) rated. The plans /specs show compliance in the following locations: 5. Moisture Control (Section 1312.1.4) • Complies. A one -perm vapor retarder is installed on the warm side (in winter) of all exterior floors, walls and ceilings, and a ground cover installed in the crawl space of both new and existing buildings where insulation is installed. The plans/specs show compliance in the following locations: Sheet A0.2, details on sheets !2.6 & A3.2 and D5/A5.3 - spec section 07 2616 ❑ Exception. All new or altered building envelope components do not comply with the vapor retarder requirements of the code, but qualify for an exception. Note applicable exception. Section 1312.1.4, Exception: 0 0 Portions of the building that comply: Climate 6. Climate Zones Zones 0 Zone 1 - A building site is in Climate Zone 1 if its elevation is less than 3000 feet above sea level and it is in one of the following counties: Benton, Columbia, Clackamas, Clatsop, Coos, Curry, Douglas, Jackson, Josephine, Lane, Lincoln, Linn, Marion, Multnomah, Polk, Tillamook, Yamhill, or Washington. ❑ Zone 2 - Building sites not in Zone 1, or where construction site elevation is 3000 feet or � higher in Zone 1, are in Zone 2. 4rr• e 3 -1 Compliance with OSSC, effective 01/01/05 s 4 Form 3b Project Name: Fanno Creek Place Bldg A Page: PRESCRIPTIVE PATH Part 1 of 4 CLIMATE ZONE 1 Exterior Wall Window Area Area Glazing Maximum Glazing (total rough frame ft2) (gross ft2) % Fraction Complies Glazing Conditioned 12,791 + 34,200 X 100 = 37.4% Yes Percent Space Calc- Semi - ulation Conditioned + X 100 = Yes Space See instruction section for a Conditioned discussion of Mechanical + X 100 = Yes glazing percent Penthouse calculation. Windows Window Max Minimum Window Shading Minimum From Work- (from Worksheet 3d) U- Factor Assembly (from worksheet Coefficient Assembly sheet 3d, place PPG - • • 0.290 ❑ PPG - 0.340 ❑ the highest Overall Window U -Value Complies Yes SC Complies Yes U- factor and highest Center - of Required Minimum • Glass SC. Or Require Minimum check minimum Assembly (Fixed N/A - Assembly N/A assembly and _`.'- Windows) .. • identify window. . Required Mini - .:mum Assembly ,, (Operable, ;.. _ N/A Windows and ._'. Curtainwall) The plans /specs show window compliance in the following locations: Section 08 8000 Notes 'From Worksheet 3d, place the highest Overall Window U- factor or check (Minimum Assembly). See "Window Requirements" in table on the following page for specific MA requirements. Excel version will automatically insert minimum assembly requirements or greatest U -value from Worksheet 3d. 2 'From Worksheet 3d, place the highest "center-of- glass" shading coefficient (SC) for glass or check MA (Minimum Assembly). See "Window Require- ments" in following table for specific MA requirements. Excel version will automatically insert minimum assembly requirements or greatest SC from Worksheet 3d. Shading Coefficient (SC) can be calculated from Solar Heat Gain Coefficient using the equation: SC = SHGC + 0.87. Manufacturers data may also be used to document SC. Walls R -Value • •• Wall / Insulation Type Insulation Only U See instructions Masonry or concrete, wlinterior insulation ( for a discussion J R -11 or of wall require- ments. J Or or 1 : - or J or J or Below- • • a _R -Value , •': ; -- - Grade Walls :.::•- - ,4--- : Insulation Only ' . 1 r " U- Factor See instructions 'B e l ow - Walls "( R -7.5) '' '(M 0 : c for a discussion of _ `"`` �' iti r {o requirements. W rir.-. -.:.-7 - :,.. ; u , , 44...7.7._.. - w . - ^ • • -s + .:,h.. x x w- .. .,{.r. a: i._ :.,35..„ : � Notes 3 Submit Worksheet 3a for each calculated assembly U- factor _. 3 -2 • Compliance with OSSC, effective 01/01/05 1 Form 3b Project Name: Fanno Creek Place Bldg A Page: PRESCRIPTIVE PATH Part 2 of 4 Code Requirements - Zone 1 Discussion of these requirements in the instruction section. ZONE 1 Wall Requirements Window Requirements Max. Max. Glazing R -Value Shading Fraction Wall / Insulation Type Insulation Only U- Factor Max. U- Factor Coefficient Up to 15% CMU ' Masonry 5 , w/integral loose fill i nsulation N/A or 0.300 0.577 Masonry or concrete w /cont. exterior insulation 1.4 or 0.300 CMU Masonry w/integral rigid fill insulation N/A or 0.210 Masonry or concrete w/interior insulation 11 or 0.130 Up to 30% Masonry or concrete w /cont. exterior insulation 2.8 or 0.210 0.540 0.57 Frame (wood or metal framing) : 13 - or -0.130 • . Other (provide short description) 13 or 0.130 CMU Masonry w /integral rigid fill insulation N/A or 0.210 Masonry or concrete w/iinterior insulation 11 or 0.130 Up to 40% Masonry or concrete w /cont. exterior insulation 2.8 . or 0.210 0.37010 0.35 Frame (wood or metal framing) . 13 or 0.130 Other (provide short description) 13 or 0.130 Code Requirements - Zone 2 Discussion of these requirements in the instruction section. ZONE 2 . • -•Wall Requirements - • • . FWindow Requirements • : 'Wall / Insulation Type ; - - ; -;''','"-7 _ r Max. • • . • Max. Glazing ; ;•.t_R -Value -.•, U- Factor Max. U- Factor -;,..Shading = ...: • .. . . _ -. . , ; Insutation'Oniy . ' , : , r - -' ., Coefficient ..,. CMU Mason s g 0300 :. , ,: -it a-'. ` 7 1 i -- - ° .. : wfinte ral loo fill insulation N/A or ��Up to15 /° y� ry ' s �, , ..:0.270 � ., 0 500 t � =,0.57 .. Masoriry 'or'coricrete , w /cont: exterior insulation •-' 1.8 . ;, ^ .. -or .i . .._. _ -1 CMU Masonry rigid ° .fill insulation _ N/A ., _ or -: :0.160 ti Masonry' or concrete insulation : 13 or :'� :'-'0.090 = _ ? Up to 25% ' 1 Masonry or concrete w /cunt. exterior insulation . 4.3 . - - or -,::,. -• .: 0.500 " 0.57 Frame ° .(wood or metal framing) . . - - 19 = • or ` -it :'•0.090 - ° - . .. - ' Other (provide short description) - - -- 19 or 0.090 .. - CMU Masonry w/integral rigid fill insulation N/A or - 0.160 Masonry or concrete w/interior insulation 13 or . . 0.090 lUp to 33 % -',`: Masonry or coricrete w /cunt. exterior insulation 4.3 -or _'= ° --0.160 - , ; . 0.370 12 0.43 Frame (wood or metal framing) 19 or . _ 0.090 Other (provide short description) . 19 • or 0.090 Notes 4 The Simplified Trade -off Approach must be used if glazing fraction exceeds allowable percentages. 5 Minimum weight of masonry and concrete walls = 45 Ib/ft2 of wall face area 6 All cores to be filled. At least 50% of cores must be filled with vermiculite or equivalent fill insulation. 7 Prescriptive MA (Minimum Assembly) - For Fixed Windows: double-glazed window with a 0.5 inch air space, low-e coating and aluminum frame. MA shading coefficient description is a tinted outboard pane of glass. For Operable Windows or Curtainwall: double - glazed window with a 0.5 inch air space, low -e coating and thermally broken frame. MA shading coefficient description is a tinted outboard pane of glass. 8 All cores except bond beams must contain rigid insulation inserts approved for use in reinforced masonry walls ° Batt insulation instated in metal or wood frame walls shall be insulated to the full depth of the cavity, up to 6 inches in depth. 10 Prescriptive MA (Minimum Assembly) - For Fixed Windows: double- glazed window with a 0.5 inch argon filled space, low-e coating (e<= 0.05) and thermal break frame. For Operable Windows or Curtainwall: only use Max U- Factor. MA shading coefficient description is a 0.25 -inch thick glass with low-e coating (e <= 0.05) with a tinted outboard pane. 11 Prescriptive MA (Minimum Assembly) - For Fixed Windows: double - glazed window with a 0.5 inch air space, low-e coating and aluminum frame. For Operable Windows or Curtainwall: double -glazed window with a 0.5 inch air space, low-e coating (e <= 0.1) and thermally broken frame. MA maximum shading coefficient description is a tinted outboard pane of glass. r 12 Prescriptive MA (Minimum Assembly) - For Fixed Windows, a double-glazed window with a 0.5 inch argon filled space, low-e coating (e<= 0.05) yst %, •.'t•,, and thermal break frame. For Operable Windows or Curtainwall, only use Max U- Factor. MA shading coefficient description is a 0.25 -inch thick ' " ` y alass with low-e coatina (e<= 0.05). 3 - 3 Compliance with OSSC, effective 01/01/05 S Form 3b Project Name: Fanno Creek Place Bldg A Page: PRESCRIPTIVE PATH Part 3 of 4 Roofs/ R -Value tZ Insulation Only U Roof / Ceiling" (Min. R -19) (Max. 0.050) See instructions Built up roofing R -19 or for a dicussion of roofs/ceilings. Notes 11 Write -in a short description for assembly with the lowest insulation R -value or the highest assembly U- factor. 12 Submit Worksheet 3b for each calculated roof /ceiling assembly U- factor. Skylight Area Roof Area Skylight Maximum Skylight (total rough frame ft2) (gross ft2) % 13 Fraction Complies Skylights Conditioned Includes glazed Space + X 100 = N/A smoke vents. Semi - See instructions Conditioned + X 100 = N/A for a dicussion of Space skylights. Conditioned Mechanical + X 100 = - N/A Penthouse Skylight Area - ' ' - rea_ - (total rough • Roof /Ceiling Area • Skylight • frame ft2) (gross ft2) Percent 13 - • - • Skylights M r Sh in ".Skylights Minimum Skylights 9 Minimum From Worksheet (gym Worksheet 3d) U- Fac . •Assembly • • (rrom Waksheet Coefficien0a Assembly 3d, place highest #N/ _ ; ❑ #NIA N/A Overall Vertical Window U- factor and highest U - Value Complies Yes SC Complies "'Yes Center - of - Glass . SC. Required Minimum N/A Required Minimum N/A (must use SC) Assembly - Assembly The plans /specs show window compliance in the following locations: NA . Code Compliance Thermal Performance Shading Coefficient .,. Option . - Overall Vertical U Factor Center of Glass SC -- Require- Performance U -1.230 for overall assembly in overhead plane SC -0.47 center -of -glass ments Min. Assembly Double glazed, 0.5 -inch airspace N/A (MA) - _ - Notes 13 Skylight percentage area is based on total skylight and smoke vent rough frame area divided by total conditioned roof area. Percentage must not exceed 6 percent of total roof /ceiling area in conditioned building space. The Simplified Trade - off Approach must be used if glazing fraction exceeds allowable percentages. 14 From Worksheet 3d, place the highest Overall Vertical U- factor or write -in MA (Minimum Assembly). See "Skylight Requirements" in table above for specific MA requirements. 15 From Worksheet 3e, place the highest "center -of- glass" shading coefficient (SC) for glass. See 'Skylight Requirements" in table above for specific MA requirements. Shading Coefficient (SC) can be calculated from the Solar Heat Gain Coefficient using the equation: SC = SHGC + 0.87. Manufacturers data may also be used to document SC. r 0 : rAl . : a • 3-4 Compliance with OSSC, effective 01/01/05 Form 3b Project Name: Fanno Creek Place Bldg A Page: PRESCRIPTIVE PATH Part 4 of 4 Floors • R -Value See instructions Floors over Unconditioned Spaces Insulation Only U- Factor for a dicussion of floors. NA or Heated Concrete Slab Edge R - Value Insulation Only NA Heated Slab -on -Grade (Section 1312.1.2.4) ❑ Complies. Building plans show insulation extending downward from the top of the slab a minimum distance of 24 inches or downward and under the slab for a combined minimum distance of 24 inches or to the bottom of the thickened edge of the of slabs used as a foundation. The plans /specs show compliance in the following locations: Notes 16 Write -in a short description for assembly with the lowest insulation R -value or the highest assembly U- factor. 17 Submit Worksheet 3c for each calculated floor assembly U- factor. 18 Write -in a short description for Heated Slab, which has heat, integrated into slab such as hydronic heat. If more than one floor type, enter the lowest insulation R -value or the highest component U -factor of any floor. Code Compliance Options , • Re wire- Min: R -Value - 'Max. U- q • Component - Insulation Only ' ' : Factor meats Floor over Unconditioned Spaces • • ° • • I or • ,. '0.070 Climate Climate Component • Zone 1 - • -Zone 2 Heated Concrete Slab Edge, Min. R -Value I 7.5 • I . or 10.0 Doors R -Value U- Factor See instructions Doors - Insulation Only - - " " "- Center -of -Panel for a dicussion of opaque, with leaf width greater than 4' (Min. R -5) (Max. 0.20) doors. NA or Notes 19 Write -in a short description for Doors. If more than one door type, enter the lowest insulation R -value or the highest center -of- panel U -factor of any door. The following doors are exempt from door and window U -factor and shading coefficient requirement VW/ 1a . - • . • 3 -5 Compliance with OSSC, effective 01/01/05 Worksheet 3d Project Name: Fanno Creek Place 81dq A Page: Window Schedule r; r: ` b r ' Window Propertles • List All Window Types In Project �. :r Wit: r ! }` i .. ems" -: r (e) z } _ • . • (b) (c) (d) (e) - (I) (0) (h) (I) N (k) i. y i i i ngo t "tt _ Manufact- j F ` • s Center of Overall Center of ` 0 -7t t r ` r w +{ , ' I .' Documentation ores Model / . , Window, • ' Frame I Glass Glass Window Glass k <. r' ) »..�. >.. Name �` r Source _ No. — Curial wall n- m Type r _ Glass se en Thldan Other panes air . ce :.0n low U-factor U-factor SC 0.29 0.34 ASHRAE Defaut W / Mfg. COG U - Value & Sc - Vlstaco II (2) Curtalmvep Aluminum with Thermal Break - Bluepreen 1/4" Donbb Glazing 1/2" airspace e=0.1 on surface 2 PPG - __ Azuria J ASHRAE Defeat W/ Mfg. COG U -Value & SC - Vlslecool (2) Fined + Aluminum _ : II with Thermal Break - Bluepraen - 1/4' - II Double Glazing 1/2" airspace e�.1 on surface 2 0.29 0.34 `, PPG - . A zuria . _ - i l :, - - ] i .1d . fi 11 . I - .,, J 1 i 1 1_ t: J 1 J -1 j 4:. -1 J I 1 _I Column instructions (a) Enter the name of the window product. It Is recommended that you choose a name that corresponds with that used on project plans and specifications. (b) Provide documentation source. Write -In 'NFRC' If window Is rated through NFRC 100-97 Procedure for Determining Fenestration Product Thermal Performance. Enter all columns except (I). Write-In *ASHRAE Default W/Mfg COG' If Center -of -Glass U -factor and Shading Coefficient Is available from glass manufacturer. Enter all columns. Columns (I) and (k) from manufacturer's data sheet. Write- In 'ASHRAE Default" If only descriptive parameters of window are known. Enter all columns. Columns (I), (j), and (k) from ASHRAE default table. (c) If Document Source is etther "NFRC" or "ASHRAE Default W/Mfg COG' enter the manufacturer's model number. (d) Choices are Fixed, Operable, or Curtain Wall. (e) Choices are wood, vinyl, reinforced vinyl, aluminum dad, insulated fiberglass, aluminum, aluminium wnhernal break (see definitions for thermal break requirements.) (I) Enter glass tint. Write 'deaf If there 4s no tint. (g) Enter glass thickness (h) Include window properties such as argon fill, Iov-e coating, insulating spacers, etc. (I) COG U -factor from manufacture's data or ASHRAE 2001 Fundamentals Handbook, Chapter 30, Table 4. For NFRC rated products leave blank. (j) Overall U -factor from NFRC rating orASHRAE 2001 Fundamentals Handbook, Chapter 30, Table 4. For skylights value must be for horizontal position. ,, '`•. + (k) (k) COG Shading Coefficient from manufacture's data or ASHRAE 2001 Fundamentals Handbook, Chapter 30, Table 4. For NFRC rated products SHGC is provided. y To convert SHGC to SC. SC = SHGC/0.87. • L6e 3-11 Form 4a Project Name: 3553 FANNO CREEK A Page: 1 SYSTEMS - GENERAL Applicability Plans /Specs Discussion of qualifying Show compliance by including a drawing sheet, detail number, exceptions on page 4 -25 specification section and subparagraph. 1. Applicablity (Section 1317) Is this form required? G Form Required. Complete form if a new HVAC system is being installed, or components of an existing HVAC system are being replaced (I.e., equipment, controls, ductwork, and insulation.) ❑ Exception. The building or part of the building qualifies for an exception from HVAC code requirements. Applicable code exception is Section 1317.1. Portions of the building that qualify: Area: Exception ❑ -1 ❑ - ❑ -3 Area: Exception ❑ -1 ❑ - ❑ -3 Area: Exception ❑ -1 ❑ -2 ❑ -3 ❑ Form Not Required. This project does not contain work required to comply with code. 2. Simple or Complex Systems (Section 1317.9 or 1317.10) El Simple System. Building contains only Simple HVAC System(s). Complete this form (4a) and equipment efficiency worksheets as required. Form 4b is not required. Complex System. Project includes a Complex System. Complete this form (4a), form 4b and equipment efficiency worksheets as required. 3. Equipment Performance (Section 1317.5) ❑ No New HVAC Equipment. The building plans do not call for new electrical HVAC equipment, combustion heating equipment, or heat- operated cooling equipment. CI Complies. All new HVAC equipment have efficiencies not less than those required by code. The following equipment efficiency worksheets are attached: El -4a ❑-4b ❑-4c ❑-4c ❑ -4e ❑-4f ❑-4g ❑-4h 0 -4i 0 -4 f 4. Duct Insulation and Sealing (Sections 1317.7 & 1317.8) ❑ No Ducts. The building plans and specifications do not call for new HVAC ducts or plenums. o Complies. The plans and specifications call for all air - handling ducts and plenums to be insulated and sealed as required by Sections 1317.7 &1317.8. 5. Distribution Transformers (Section 1316.1) o No Distribution Transformers. The plans /specs do not call for new distribution transformers. ❑ Complies. All new distribution transformers comply with efficiency, testing, and labeling requirements of Section 1316.1.1. ❑ Exception. The project qualifies for an exception per Section 1316.1.1, Exceptiion: 0 - 1 0 - 2 0 - 3 0 - 4 0 - 5 0 - 6 0 - 7 0 - 8 0 - 9 0 - 1 0 0 - 1 0 - 1 2 0 - 1 2 0 - 1 4 Attach relevant documentation for appropriate exception. The plans /specs show compliance in the c � . following locations: 4 -1 April 2005 Compliance with OSSC, effective 01/01/05 Form 4a Project Name: 3553 FANNO CREEK A Page: 2 SYSTEMS - GENERAL 6. HVAC Controls (Section 1317.4) 6.1 System Thermostat /Zone Controls (Section 1317.4.1) • Complies. All new HVAC systems include at least one temperature control device responding to temperatures within the zones. ❑ Exception. HVAC system qualifies for an exception from zone control requirements. The applicable code exception is Section 1317.4.2, Exception 0-1 0 -2 Portions of the building that qualify: The plans /specs show compliance in the following locations: M1 6.2 Off Controls - Auto Setback or Shutdown (Section 1317.4.3) ❑ Complies. Systems must have at least one of the following features: ❑ Control Setback Complies. Each system is equipped with automatic control capable of reducing energy through control setback during periods of non -use or alternate use of spaces served. o Equipment Shutdown Complies. Each system is equipped with controls capable of reducing energy use through automatic shutdown during periods of non -use or alternate use of spaces. HVAC systems with equipment shutdown are equipped with at least one of the following: ID Programmable controls (1317.4.3.1 (1)) ❑ Occupant sensor (1317.4.3.1 (2)) ❑ Interlocked to a security system (1317.4.3.1 (3)) ❑ Manually activated timers with 2 -hour operation max (1317.4.3.1 (4)) ❑ Exception. The building qualifies for an exception to the requirement for automatic setback or shutdown controls. The applicable code exception is Section 1317.4.3 Exception 0-1 0-2 The plans /specs show compliance in the following locations: 6.3 Control Capabilities (Sec. 1317.4.2.1) El Complies. Zone thermostats are capable of being set to the temperatures described in Sec. 1317.4.2.1. Where used to control both heating and cooling, zone controls shall be capable of providing a temperature range or deadband of at least 5 degrees F within which the supply of heating and cooling energy to the zone is shut off or reduced to a minimum. ❑ Exception. The building qualifies for an exception to the deadband requirements. The applicable code exception is Section 1317.4.2.1 Exception 0-1 ❑ -2 Portions of the building that qualify: The plans /specs show compliance in the following locations: 6.4 Optimum Start Controls (Section 1317.4.3.2) El Complies. Separate HVAC systems have controls capable of varying start-up time of system to just meet temperature set point at time of occupancy. ❑ Exception. HVAC systems have a design supply air capacity not exceeding 10,000 cfm. The plans /specs show compliance in the following locations: 6.5 Heat Pump Controls (Section 1317.4.4) ❑ No Heat Pump. The plans /specs do not call for a new heat pump ❑ Complies. All new heat pumps equipped with supplementary heaters are controlled to minimize the use of supplemental heat as defined in Section 1317.4.4. The plans/specs show compliance in the following locations: ',-;: •. 4 is k '. :: " . ^ .,. 4 -2 April 2005 Comolance with OSSC. effective 01/01/05 Form 4a Project Name: 3553 FANNO CREEK A Page: 3 SYSTEMS - GENERAL 7. Economizer Cooling (Section 1317.3) ❑ No Cooling. The building plans do not call for a new fan system with mechanical cooling. El Complies. Each new fan system has an air economizer capable of modulating outside -air and return -air dampers to provide up to 100 percent of the design supply air as outside air. ❑ Exception At least one new fan system qualifies for an exception. The applicable code exception is Section 1317.3, Exception 111-i ❑ -z ❑ -3 ❑ -a ❑ -5 ❑ -6 If Exception 3 is selected complete the following: (a) Total cooling capacity of exempt units (Btu /hr) (b) Total installed building cooling capacity (Btu /hr) El Complies. Sum of exempt units rated at less than 54,000 Btu /hr is <240,000 Btu /hr or a/b < 0.10 (10% of total building cooling capacity). Unit Identifier of exempt units: The plans /specs show compliance in the following locations: M1 8. Economizer Pressure Relief & Integration (Section 1317.3.1 and 1317.3.2) ❑ No Economizers Required. Project does not contain a new fan system requiring economizers. ❑ Overpressurization Complies. The drawings specifically identify a pressure relief mechanism for each fan system that will relieve the extra air introduced by the economizer. o Integration Complies. Economizer is capable of providing partial cooling even when additional mechanical cooling is required to meet the remainder of the cooling load. ❑ Exception. The applicable exception is Section 1317.3.2, Exception ❑ - ❑ - The plans /specs show compliance in the following locations: 9. Hot Gas Bypass (Section 1317.5) El No Hot Gas Bypass ❑ Complies. See allowable amount of hot gas bypass as a percentage of total cooling capacity in table below. Unit ID Rated Cooling Capacity Hot Gas Bypass Capacity a ,f Allowable Hot Gas Bypass Rated Cooling Capacity Max Hot Gas Bypass <240,000 Btu /hr 50% '104 >240,000 Btu /hr 25% ❑ Exception. Unitary packaged system with cooling capacity no greater than 90,000 Btu /h . 4 -3 April 2005 Compliance with OSSC. effective 01/01/05 Form 4a Project Name: 3553 FANNO CREEK A Page: 4 SYSTEMS - GENERAL 10. Shutoff Dampers (1317.4.3.3) El Not Required. Shutoff dampers are not required on this project. o Complies. Each outdoor air supply & exhaust system shall be equipped with motorized dampers. El Exception. The building qualifies for an exception to the motorized damper requirement. The applicable code exception is Section 1317.4.3.3 Exception ❑ -1 ❑ -2 ❑ -3 III-4 ❑ -5 ❑ -e The plans /specs show compliance in the following locations: 10.1. Shutoff Damper Controls (Section 1317.4.3.3.1) Complies. Outdoor air supply and exhaust systems shall be provided dampers that automatically shut when systems or spaces served are not in use or during building warm -up, cooldown, or setback. El Complies. Stair and shaft vents are capable of being automatically closed during normal building operation and interlocked to open as required by fire and smoke detection systems. The plans /specs show compliance in the following locations: M10 10.2. Motorized Damper Leakage (1317.4.3.3.2) El Complies. Motorized outdoor air supply and exhaust air dampers have a maximum leakage rate of 4 cfm /ft2 at 1.0 in w.g. when tested in accordance with AMCA Standard 500 -1998. El Exception. Packaged HVAC equipment may have maximum leakage rate of 20 cfm /ft at 1.0 in w.g. when tested in accordance with AMCA Standard 500 -1998. The plans /specs show compliance in the following locations: M10 11. Piping Insulation (Section 1314) No New Piping. The building plans and specifications do not call for new piping serving a heating or cooling system or part of a circulating service water heating system. ❑ Complies. All new piping serving a heating or cooling system or part of a circulating service water heating system complies with the requirements of the Code, Section 1314.1. El Exception. New piping qualifies for exception: Section 1314.1, Exception ❑ -1 ❑ -2 12. Occupancy Ventilation Complies. Mechanical ventilation systems provide the required amount of ventilation is indicated in plans /specifications as specified in Chapter 4 of the Oregon Mechanical Specialty Code. ❑ Complies. Natural ventilation systems provide required amount of ventilation as certified by a reg- istered architect or engineer as specified by Section1203.4.1, Exception. Attach worksheet 4m. The plans /specs show compliance in PRESCRIPTIVE: OFFICE SHELL OSA @ 30% UNIT the following locations: CAPACITY The plans /specs show compliance on the following pages: 4 -4 April 2005 Compliance with OSSC, effective 01/01/05 Form 4a Project Name: 3553 FANNO CREEK A Page: 5 SYSTEMS - GENERAL 13. High Occupancy Ventilation (Section 1317.2.2) ❑ Complies. HVAC systems with ventilation air capacities of 1,500 CFM or greater that serve areas having an average occupant load of 20 square feet per person or less from Table 1004.1.2 have a means to automatically reduce outside air intake. Identify applicable systems: Plans /specs indicate where equipment (i.e. carbon dioxide sensor) and sequence is specified: ❑ Exception. HVAC systems are equipped with an energy recovery device with at least 50% recovery effectiveness. O No High Occupancy Systems. Project does not contain an HVAC system as described above. 14. Exhaust Air Heat Recovery (Section 1318.3) O Not Regulated. HVAC system does not have: 1) design supply air cap. of >10,000 cfm, and 2) min. outside air supply >70 %, and 3) at least 1 exhaust fan rated at 75% of min outside air supply. ❑ Complies. Heat recovery system increases outside air temperature by 20 °F (Climte Zone 1) or 30 °F (Zone 2) and has provision to provide bypass during air economizer mode. ❑ Exception. An HVAC system qualifies for an exception to this requirement. Applicable exception from Section 1318.3 Exception0- 0 0-3 0-4 0-5 0-6 0-7 The plans /specs show compliance in the following locations: 15. Large Volume Fan Systems (Section 1318.4.2.4) • Not Regulated. The building plans or specifications do not call for fan systems over 15,000 CFM that serve a single zone and function for the purpose of temperature control. ❑ Complies. Fan systems are equipped with variable frequency drive or two speed motor to reduce airflow as required by Section 1318.4.2.3. The plans /specs show compliance in the following locations: 16. Variable Speed Drives (Section 1317.10.3.1) • Not Regulated. The building plans or specifications do not call for fan and pump motors 10 horsepower and greater that serve variable -flow air or liquid systems. ❑ Complies. All fan and pump motors 10 hp and greater which serve variable -flow air or liquid systems are controlled by a variable -speed drive. ❑ Exception. The building qualifies for an exception to the variable -speed drive requirement. Portions of the building that qualify: Applicable code exception is Section 1317.10.3.1, Exception The plans /specs show compliance in the following locations: 17. Service Water Heating (Sec. 1315) O No New Water Heating. The building plans and specifications do not call for new water heaters, hot water storage tanks or service hot water distribution systems. ❑ Complies. All new water heaters, hot water storage tanks or service hot water distribution systems comply with the requirements of the Section 1315. ❑ Exception. The applicable code exception is Section: Exception: f1 Portions of the building that qualify: The plans /specs show compliance in the following locations: 4 -5 April 2005 Compliance with OSSC. effective 01/01/05 Form 4a Project Name: 3553 FANNO CREEK A Page: 6 SYSTEMS - GENERAL 18. Swimming Pools, Spas and Hot Tubs (Section 1315.5) No New Pools. The building plans and specifications do not call for new, swimming pools, spas or hot tubs. ❑ On /Off Controls Complies. Spa and hot tub heaters are equipped with a readily accessible ON /OFF switch as required by Section 1315.5.1. ❑ Ventilation Controls Complies. Pool ventilation system is controlled based on humidity. ❑ Cover Complies. All heated pools, hot tubs and spas are equipped with a cover. ❑ Heat Recovery Complies. Pools, Spas, and hot tubs, over 200 ft utilize recovered heat as required by Section 1315.5.3. ❑ Exception. Heat recovery is not necessary as pool is heated by renewable energy or waste heat recovery sources capable of providing at least 70 percent of the heating energy required over an operating season. 19. Fume Hoods (Section 1317.2.1.) El No Fume Hoods. The building plans do not call for fume hood systems that have a total exhaust rate greater than 15,000 cfm. ❑ Complies. Fume hood systems have at least one of the following features: ❑ Variable air volume hood exhaust and room supply systems capable of reducing exhaust and makeup air volume to 50% or less of design values. ❑ Direct makeup (auxiliary) air supply equal to at least 75% of the exhaust rate, heated no warmer than 2° F below room set point, cooled no cooler than 3° F above room set point, no humidification added, and no simultaneous heating and cooling used for dehumidification control. ❑ Heat recovery systems to precondition makeup air from fume hood exhaust in accordance with 1318.3 - Exhaust Air Energy Recovery, without using any exception. The plans /specs show compliance in the following locations: 20. Parking Garage Ventilation (Section 1317.2.3) El No Enclosed Garages. The building plans and specifications do not call for enclosed Group S -2 parking garages with a ventilation exhaust rate greater than 30,000 CFM. ❑ Complies. The plans and specifications call for carbon monoxide sensing devices as required by Section 1317.2.3. ❑ Exception. Open parking garages. 21. Kitchen Hoods (Section 1317.11) El Not Regulated. The plans /specs do not call for any new kitchen hoods with exhaust capacity greater than 5,000 cfm each. ❑ Complies. All new kitchen hoods with a total exhaust capacity greater than 5,000 cfm have at least 50 percent of the required makeup air; (a) unheated or heated to no more than 60 °F; and (b) uncooled or evaporatively cooled. The plans /specs show compliance in the following locations: 22. Outside Heating Systems (Section 1317.12) • No Outside Heating Systems. The plans /specs do not call for new permanently installed heating systems outside the building. ❑ Complies. All new permanently installed outside heating systems are radiant gas fired systems controlled by an occupancy sensor or timer switch as required by Section 1317.12. 4 -6 April 2005 Compliance with OSSC, effective 01/01/05 Form 4b Project Name: 3553 FANNO CREEK A Page + 7 COMPLEX HVAC SYSTEMS Applic 1. Simple or Complex Systems (Section 1317.9, 1317.10 and 1318) ability Note: This form is required for complex systems only. If your plans qualify as a simple system Discussion of as defined by the code, this form is not required. qualifying excep- tions in instructions 2. Air Transport Energy (Section 1318.4.2) section. ❑ Not Regulated. Each HVAC system does not have total fan nameplate horsepower of 7.5 HP Fan Motor or greater (include sum of all supply, return, & exhaust fans operating at design conditions). Energy ❑ Brake Horsepower Complies. The energy demand of all HVAC fan systems meets code See Section requirements. Complete and attach Worksheet 41. 1318.4.2 for q p maximum horse- 0 Nameplate Horsepower Complies. Selected fan motors have nameplate ratings no larger power allowed. than is allowed by Section 1218.4.2.3. (Complete Worksheet 4L.) ❑. Exception. Section 1318.4.2, Exception 0-1 0-2 0-3 0-4 Portions of the building that qualify: The plans /specs show compliance in the following locations: M1 Cooling 3. Cooling Tower Fans (Section 1317.5.4.1) Tower 0 No Cooling Tower There is no cooling tower in this project. Fans ❑ Complies. Cooling tower fans have control devices that vary flow by controlling leaving fluid temperature or condenser temperature /pressure of the heat rejection device. The plans /specs show compliance in the following locations: 4. Simultaneous Heating and Cooling (Section 1318.2.1) ❑ No Cooling. The building HVAC system has no cooling. ❑ Complies. Controls prevent reheating, recooling or mixing of mechanically heated and mechanically cooled air. O Exception. Code exception is Section 1318.2.1, Exception 0 -1 0-2 0-3 0-4 0-5 If exception 1 is used, complete and attach Worksheet 4k Portions of the building that qualify: ALL The plans /specs show compliance in Ml the following locations: 5. Electric Motor Efficiency (Section 1317.10.3 & Table 13 - T) ❑ Not Regulated. There are no NEMA Design A &B squirrel cage,T -frame induction, permanently wired polyphase motors of one horsepower or more which serve built up HVAC systems. O Complies. The efficiency of all regulated motors meets code requirements. Exceptions ❑ Exception. Section 1317.10.3, Exception 0-1 0 - Discussion of qualifying Portions of the building that qualify: exceptions in - instructions section. The plans /specs show compliance in the following locations: 6. VAV System Static Pressure Reset Controls (Section 1318.2.3) ❑ Not Regulated. The building plans or specifications do not call for a VAV system controlled by a static pressure sensor or direct digital control of individual zone boxes. 2 Complies. The system static pressure set point automatically resets to the lowest point ,� possible while still providing the required air flow to the zones with the greatest demand. ' � ❑ Exception. Section 1318.2.3, Exception .. The plans /specs show compliance in c8� the following locations: 4 -7 April 2005 Compliance with OSSC, effective 01/01/05 Form 4b Project Name: 3553 FANNO CREEK A Page: 67 COMPLEX HVAC SYSTEMS 7. VAV Terminal Units (Section 1317.4.2.1) ❑ Not Regulated. Project does not contain VAV terminal units. O Complies. VAV terminal units are programmed to operate at the minimum airflow setting without addition of reheat when the zone temperature is within the set deadband. Complete Worksheet 4k. ❑ Exception. Section 1317.4.2.1, Exception 0 - 0 -2 The plans /specs show compliance in the following locations: 8. Supply - Air Temperature Reset Controls (Section 1318.2.5) ❑ Not Regulated. The building plans or specifications do not call for multiple zone HVAC systems. CI Complies. Multiple zone HVAC systems include controls that automatically reset the supply -air temperatures in response to building loads or outside air temperature. ❑ Exception. The building qualifies for an exception to the supply -air reset controls requirement. Applicable code exception is Section 1318.2.5, Exception 0-1 0-2 0 -3 Portions of the building that qualify: The plans /specs show compliance in the following locations: 9. Chilled and Hot Water Temperature Reset Controls (Section 1318.2.4) O Not Regulated. The building plans or specifications do not call for chilled or hot water systems with a design capacity exceeding 300,000 Btu /hr. ❑ Complies. Chilled and hot water systems include controls that automatically reset supply water temperatures by representative building loads or by outside air temperature. ❑ Exception. Section 1318.2.4, Exception ❑ -1 0 -2 Portions of the building that qualify: The plans /specs show compliance in the following locations: 10. Separate Air Distribution Systems (Section 1318.2.7) El Not Regulated. The building plans or specifications do not call for zones with special process temperature or humidity requirements. ❑ Complies. Separate air distribution systems serve zones with special process temperature or humidity requirements from those zones serving only comfort conditions, or supplementary control provisions are included so primary systems are specifically controlled for comfort purposes only. ❑ Exception. Section 1318.2.7, Exception 0 - CI -2 Identify zones with special process requirements: The plans /specs show compliance in the following locations: 11. Zone Isolation Controls (Section 1318.2.6) ❑ Not Regulated. Building plans or specifications do not call for HVAC systems serving multiple occupancies or floors with >240,000 Btu /hr cooling capacity, or > 300,000 Btu /hr heating capacity. El Complies. HVAC systems serving multiple occupancies or floors with > 240,000 Btu /hr cooling capacity, or >300,000 Btu /hr heating capacity are equipped with isolation devices capable of automatically shutting off supply air to and from each isolated area. Each isolated area is controlled independently and satisfies temperature setback (Section 1317.4.2) and optimum start control requirements. Central fan system air volume is reduced through fan speed reduction. The plans /specs show compliance in the following locations: M2, M3, M4 4 -8 April 2005 Form 4b Project Name: 3553 FANNO CREEK A Pagel 1 COMPLEX HVAC SYSTEMS 12. Humidity Controls (Section 1318.2.2) 0 No Moisture Added to Building. The building plans do not call for means to add moisture to maintain specific humidity levels. ❑ Complies. All new humidity control systems equipped with a humidistat when required. All humidifier preheating devices have an automatic value to shut off preheat when humidification is The plans /specs show compliance in the following locations: 13. Hydronic System Controls (Section 1318.2.8) L No Hydronic System. The building plans or specifications do not call for a new hydronic system. ❑ Complies. The hydronic system complies as follows: 13.1 Variable Flow Controls (Section 1318.2.8.4) ❑ System does not have a 10 hp or greater motor ❑ Complies. System has controls capable of varying pump flow The plans /specs show compliance in the following locations: 13.2 Three -Pipe System (Section 1318.2.8.1) ❑ System does not have a common return system (a three -pipe system) for both hot water and chilled water. 13.3 Two -Pipe Changeover System (Section 1318.2.8.2) ❑ System is not a Two -Pipe Changeover System ❑ Complies. System is: a. Designed to allow a deadband between changeover from one mode to the other of at least 15 °F outside air temperature. b. Designed to operate and provided with controls that will allow operation in one mode for at least four hours before changing over to the other mode. c. Provided with reset controls that allow heating and cooling supply temperatures at the changeover point to be no more than 30 °F apart. The plans /specs show compliance in the following locations: 13.4 Hydronic (Water Loop) Heat Pump System (Section 1318.2.8.3) ❑ System is not a Hydronic (Water Loop) Heat Pump System ❑ Complies. Hydronic heat pumps connected to a common heat pump water loop with central devices for heat rejection (e.g., cooling tower) and heat addition (e.g., boiler) have the following: a. Controls installed capable of providing a heat pump water supply temperature deadband of at least 20 °F between initiation of heat rejection and heat addition by the central devices (e.g., tower and boiler). b. Closed- circuit tower (fluid cooler) has either an automatic valve installed to bypass all but a minimal flow of water around the tower (for freeze protection), or low- leakage positive closure dampers. c. Open- circuit tower installed directly in the heat pump loop has an automatic valve installed to bypass all heat pump water flow around the tower. Open - circuit towers used in conjunction with a separate heat exchanger to isolate the tower from the heat pump loop are controlled by shutting down the circulation pump on the cooling tower loop. 1- 7--Zs d. A two- position valve at each hydronic heat pump for hydronic systems having a total pump system power exceeding 10 hp. -."%\, Vii The plans /specs show compliance in the following locations: 4 -9 April 2005 Compliance with OSSC, effective 01/01/05 Worksheet 4a Project Name: 3553 FANNO CREEK A Page: ' 10 UNITARY AIR CONDITIONER - AIR COOLED Equipment (a) (b) ( c) (d) (e) Proposed Performance Discussion of equipment Cooling Seasonal or Compliance ratings and equipment Equip. ID Model Designation Capacity Steady State Part Load Schedule (A -E) definitions on page 4 -19. RTU -1 SFHGC904 962,850 9.3 C RTU -2 SFHGC904 962,850 9.3 C Al r") Sy A 2+N 2 Ito 3 Required Indicate source of information Document 1 ❑ ARI Unitary Directory, Section AC, page: ation ❑ ARI Applied Products directory, Section ULE, page: 0 Product data (Attach data furnished by the equipment supplier, I.e., "cut sheets ") Code Required Cooling Capacity (btu /hr) Minimum Rating . Efficiencies Compliance Seasonal or Schedule Equipment Type Over But not over - Steady State Part Load 0 65,000 na 9.7 SEER Single Package Without a 65,000 135,000 10.3 EER n/a This schedule of equip A Heating Section or With Electric 135,000 240,000 9.7 EER n/a ment efficiencies was Resistance Heat 240,000 760,000 9.5 EER 9.7 IPLV reformatted from code, 760,000 - 9.2 EER 9.4 IPLV Table 13 -L. 0 65,000 na 10 SEER Split System Without a Heating 65,000 135,000 10.3 EER n/a B Section or With Electric 135,000 240,000 9.7 EER n/a Resistance Heat 240,000 760,000 9.5 EER 9.5 IPLV 760,000 - 9.2 EER 9.2 IPLV 0 65,000 na 9.7 SEER Single Package With a Heating 65,000 135,000 10.1 EER n/a C Section Other Than Electric 135,000 240,000 9.5 EER n/a Resistance 240,000 760,000 9.3 EER 9.5 IPLV . 760,000 9.0 EER 9.2 IPLV FF 0 65,000 na 10 SEER t''`''� { . Split System With a Heating .65,000 135,000 10.1 EER n/a - .: D . Section Other Than Electric .135,000 240,000 9.5 EER n/a • � ' • Resistance •.240,000 .760,000 9.3 EER 9.7 IPLV e - • 760,000 =- : -• 9.0 EER 9.4 IPLV . E Condensing Unit Only. . 135,000 10.1 EER 11.2 IPLV ' 4 -11 Compliance with OSSC. effective 01/01/05 • Worksheet 41 - Project Name: 3553 FANNO CREEK A Page: 1 AIR TRANSPORT ENERGY Complete one worksheet for each fan system > 7.5 horsepower. Fan system horsepower is the sum of motor brake horsepower of all supply, return, and exhaust fans (including series fan - powered terminal units) that operate during design conditions. Fan System ID: RTU -1 AND 2 Areas Served: BUILDING A El System serves hospital or laboratory and include flow control device for maintaining precise pressure control. • Maximum Fan Type (Supply, Nameplate Fan Identifier Return, Exhaust, Series Constant Volume Motor Brake Nameplate Motor HP (Tag) VAV) CFM or VAV HP Motor HP Allowed RTU Supply 38,151 VAV 40.86 50 75.0 RTU Return 30,000 VAV 16 20 25.0 The Plans /Specs show brake hp, nameplate hp, and CFM in the following locations: M1 AND ATTACHED MFG DOCUMENTS Total System Total Total System Supply Fan Constant Volume, VAV, System Max Brake HP Brake HP Nameplate CFM or Hospital /Lab Brake HP Allowed Complies HP Complies 38,151 Hospital/Lab 56.9 55.4 No Yes Additional Pressure Drop Credit (all systems). Complete the section below if system contains filtration with a pressure drop at design flow in excess of 1" w.c. ( when filters are clean), heat recovery, or direct evaporative humidifier /cooler. Additional Pressure Drop Credit for Hospitals and Laboratories. Complete the section below if system serves a hospital or laboratory and contains rully ducted return /exhaust, return /exhaust air flow control devices, or individual filter system efficiencies. Additional Pressure Drop Credits Pressure Drop, Inches, W.C. ❑ Filtration Pressure Drop >1" w.c. All Systems ❑ Heat Recovery ❑ Direct Evaporative Humidifier /Cooler Hospital and ❑ Fully Ducted Return /Exhaust (0.5" credit) Laboratory ❑ Return/Exhaust Flow Control Device (0.5" credit) • Systems Only ❑ Individual Filter Efficiency > or = 85% (0.5" credit) Total Additional Pressure Drop Credit: • ❑ Manufacturer's product data sheet(s) is attached and design values are shown in plans /specs in the following locations Adjusted Total Brake Constant Volume or VAV (Use VAV Total Additional Max Allowed HP (from Adjusted Brake Supply CFM for Hospital or Lab Systems) Pressure Drop Brake HP `above) HP Complies Add New Worksheet 41 4-22 .1 1 _ _ _ Compliance with OSSC. effective 01/01/05 Worksheet 4k Project Name: 3553 FANNO CREEK A Page: _ I a Simultaneous Heating and Cooling * Additional pages may be necessary if building has more terminal units than there are lines in this form. If needed use Add New Worksheet button Complete this form for all terminal units with reheat to verify compliance with Section 1318.2.1 exception 1. Terminal Unit (Variable Air Volume (VAV) Box) CFM Design Conditions Required Information Comply Max. Ht CFM Ht. CFM Ht. CFM Maximum Cooling Occupancy < or = to < or = to < or = to Airflow is Terminal Unit ID or Sq. ft Area Airflow- Max. Heating Ventilation- 30% of 0.4 CFM Occupancy < or = to Description /Location Served CFM Airflow -CFM CFM Max per sq. ft Ventilation 300 CFM FPB1 -1 5014 1200 840 2340 NO YES YES NO FPB1 -2 3381 1200 840 1580 NO YES YES NO FPB1 -3 5254 1200 840 2452 NO YES YES NO FPB1 -4 3907 1200 840 1825 NO YES YES NO FPB1 -5 984 580 406 492 NO NO YES NO FPB1-6 704 580 350 352 NO NO YES NO VAV1 -1 1488 1200 360 251.1 YES YES NO NO VAV1 -2 1365 1000 540 NO YES NO FPB2 -1 6180 1200 840 2884 NO YES YES NO FPB2 -2 3788 1200 840 1768 NO YES YES NO FPB2 -3 6180 1200 840 2884 NO YES YES NO FPB2 -4 4925 1200 840 1768 - NO YES YES NO VAV2 -1 700 600 420 750 NO NO YES NO FPB3 -1 6180 1200 840 2884 NO YES YES NO FPB3 -2 3788 1200 840 1768 NO YES YES NO FP83 -3 6180 1200 840 2884 NO YES YES NO FPB3 -4 4925 1200 840 • 1768 NO YES YES NO VAV3 -1 700 480 336 750 NO NO YES NO 4 -21 Compliance with OSSC. effective 01/01/05 E° Submittal Trane A Division of American Standard Inc. Prepared For: Date: September 13, 2006 HVAC Inc. Job Name: Fanno Creek Bldg A Trane is pleased to provide the enclosed submittal for your review and approval. Product Summary Qty Product 2 Commercial Rooftop Air Conditioning Units (Large) 4 Variable Air Volume Single Duct Terminal Units 14 Variable Air Volume Fan Powered Terminal Units The attached information describes the equipment we propose to furnish for this project, and is submitted for your approval. Daniel Driver TraneOregon Phone: (503)620 -8031 Fax: (503)639 -1454 J:IJOBSI124129024.A16Isub ver 2.doc Table Of Contents Product Summary 1 Commercial Rooftop Air Conditioning Units (Large) (Item Al) Tag Data 3 Product Data 3 Performance Data 3 Mechanical Specifications 5 Unit Dimensions 9 Fan Curve 12 Weight, Clearance & Rigging Diagram 13 Accessory 14 Field Wiring 15 Variable Air Volume Single Duct Terminal Units (Items B1 - B4) Tag Data 17 Product Data 17 Performance Data 17 Mechanical Specifications 19 Unit Dimensions 22 Field Wiring 26 Variable Air Volume Fan Powered Terminal Units (Items Cl - C4) Tag Data 28 Product Data 28 Performance Data 28 Mechanical Specifications 30 Unit Dimensions 34 Accessory 38 Field Wiring 39 Field Installed Options - Part /Order Number Summary Commercial Rooftop Air Conditioning Units (Large) 41 • Fanno Creek Bldg A September 13, 2006 Tag Data - Commercial Rooftop Air Conditioning Units (Large) (Qty: 2) Item Tag(s) Qty Description Model Number Al RTU -1, RTU -2 2 90 -130 ton Packaged Industrial Rooftop SFHGC904 Product Data - Commercial Rooftop Air Conditioning Units (Large) Item: Al Qty: Z Tag(s): RTU -1, RTU -2 Self- Contained, Natural Gas Heat 90 Ton Unit 460 Volt -60 Hertz -3 Phase 2 Stage Gas Heat Capacity 100% Exhaust 20 HP With Statitrac 600 RPM Exhaust Fan High - Efficiency Throwaway Filters 40 Hp (2 -20 Hp Motors) Supply Motor 1300 RPM Supply Fan 0 -100% Economizer Economizer control w /dry bulb Supply and Exhaust Fan with VFD with out Bypass UL Approval Nonfused Unit Disconnect Switch Temperature Sensor (Fld) Access Doors Trane communication interface module Standard Flat Roof Curb (Fld) Year 1 Labor Warranty Heating & Cooling Performance Data - Commercial Rooftop Air Conditioning Units (Large) Tags RTU -1, RTU -2 Design airflow (cfm) 38100 Exhaust fan airflow (cfm) 30000 Cooling EDB (F) 78.20 Cooling EWB (F) 61.50 Ent air relative humidity ( %) 38.12 Ambient temp (F) 95.00 Leaving Coil DB (F) 55.25 Leaving Coil WB (F) 52.57 Leaving Unit DB (F) 58.36 Leaving Unit WB (F) 53.87 Gross total capacity (MBh) 962.62 Gross sensible capacity (MBh) 957.59 Gross latent capacity (MBh) 5.03 Net total capacity (MBh) 845.36 Net sensible capacity (MBh) 840.34 Net sensible heat ratio ( %) 99.41 Input htg capacity (MBh) 1000.00 Output htg capacity (MBh) 820.00 Output htg capacity w /fan (MBh) 923.85 Heating EAT (F) 55.00 Heating LAT (F) 74.84 Heating delta T (F) 19.84 Supply duct static pressure (in H20) 2.00 Return duct static pressure (in H20) 0.75 Component S.P. drop (in H20) 1.74 Total static pressure (in H20) 4.49 Supply motor brake horsepower (bhp) 40.77 Supply fan RPM (rpm) 1305 Exhaust static pressure (in H2O) 0.75 Exhaust motor brake horsepower (bhp) 16.00 Exhaust fan RPM calculated (rpm) 616 FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 3 of 41 Fanno Creek Bldg A September 13, 2006 Tags RTU -1, RTU -2 System power (kW) 125.08 EER @ ARI (EER) 9.3 IPLV @ ARI (IPLV) 10.5 Minimum circuit ampacity (A) 246.32 Maximum overcurrent protection (A) 250.00 Minimum disconnect switch size (A) 275.00 Recommended dual element (A) 250.00 Compressor 1 count (Each) 4.00 Compressor 1 RLA (A) 27.30 Compressor 2 count (Each) 2.00 Compressor 2 RLA (A) 18.20 Supply fan motor FLA (A) 25.50 Supply fan count (Each) 2.00 Condenser fan FLA (A) 14.40 Exhaust fan motor FLA (A) 25.50 Other FLA (A) 2.00 Evaporator face area (sq ft) 59.30 Evaporator rows (Each) 3.00 Evaporator fin spacing (Per Foot) 148 Condenser rows (Each) 3.00 Condenser fin spacing (Per Foot) 144 Min. unit operating weight (Ib) 13240.0 Max. unit operating weight (Ib) 17270.0 Fan motor heat (MBh) 117.25 FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 4 of 41 Fanno Creek Bldg A September 13, 2006 Mechanical Specifications - Commercial Rooftop Air Conditioning Units (Large) Item: Al Qty: 2 Tag(s): RTU -1, RTU -2 General (UL Approved Units) Unit will be specifically designed for outdoor rooftop installation on a roof curb. The unit will be completely factory assembled, run tested, UL 1995 approved, piped, internally wired, fully charged with R -22 and the compressor will be oil charged. Cooling capacity will be rated in accordance with ARI Standard 360. Unit will have decals and tags to aid in service and to indicate caution areas. Electrical diagrams will be printed on long life water resist and material and will ship attached to control panel door. Unit Casing Exterior panels will have a minimum of 1.25 oz. [.035 Kg] zinc coating per square foot of steel, phosphatized and painted with an oven dried, water based enamel which meets a 672 hour salt spray test based on the ASTM B117 standard for salt spray resistance. Screws will be coated with zinc - plus -zinc chromate. Interior surfaces or exterior casing members will have 1/2" [12.7 mm] Tuf -Skin fiberglass insulation. Unit base will be watertight with 14 gauge formed load bearing members, formed recess and curb overhang. Unit lifting lugs will accept chains or cables for rigging. Lifting lugs will also serve as unit tiedown points. Scroll Compressors Trane 3 -D Scroll compressors will have a simple mechanical design with only three major moving parts and no suction or discharge valves. Scroll type compression and 3 -D compliance will provide a completely enclosed compression chamber with no leakage paths. Trane 3 -D Scroll compressor will include a direct - drive, 3600 rpm, suction gas cooled hermetic motor, centrifugal oil pump, oil sight glass and oil charging valve. Control of compressor will allow lead /lag of multiple compressors /circuits for even run time to increase life of compressors. Supply Fan Assembly The unit has two centrifugal fan assemblies mounted independently within the unit. The fan assembly and fan motor with fixed sheaves are mounted on an independent base. Both assemblies are completely isolated from the unit by two -inch spring isolators. The fans are dynamically balanced and run tested at the factory. Shaft bearings are grease lubricated ball type designed for 200,000 hours average life. All supply fan motors meet the U.S. Energy Policy Act of 1992 (EPACT). Condenser Coil Configurated aluminum fin secondary surface will be mechanically bonded to primary surface of 3/8" [9.53 mm] O.D. copper tubing. Subcooling circuits will be provided as standard. Coils will be factory tested at 450 psig [3102.8 kPa] air pressure and vacuum dehydrated. Evaporator Coil Internally enhanced seamless copper tubing of 1/2 " [12.7 mm] O.D. will be mechanically bonded to heavy -duty aluminum fins of configurated design. The coils will be equipped with thermal expansion valves and factory pressure and leak tested at 300 psi [2068.5 kPa]. Natural Gas Heat Gas furnaces are a completely assembled, wired, and run tested system within the rooftop unit. Furnaces are UUCSA agency approved specifically for outdoor applications. All gas piping is threaded with side or through -the- base main gas supply access. Heat exchangers are tubular two pass free floating design with 16 gauge stainless steel primary and 18 gauge stainless steel secondary surfaces. A flue tube /turbulator clean out plate is provided. The burner assembly is industrial type which includes ignition electrode, flame sensing rod, and ceramic cone. An air proving switch is provided to prevent operation during loss of combustion or supply air flow. The combustion blower assembly consists of a centrifugal fan powered by a direct drive thermally protected motor. Gas safety controls include an electronic ignition module with 60 second pre -purge cycle and continuous flame sensing capability. The ignition module is microprocessor based and includes operation sequence LED's for monitoring the furnace operation. 2 Stage Gas Heat The firing rate of the unit can be either half fire or the heating nameplate rating of the unit. A sixty second delay between gas valve stages is provided. 100% Exhaust with Statitrac Two centrifugal fans mounted on a common shaft with fixed sheaves. The fan is factory dynamically balanced and tested. Shaft bearings are grease lubricated ball type designed for 200,000 hours average life. Optional extended grease lines allow greasing the bearing from the filter section. Fan motor and fan assembly are mounted on a FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 5 of 41 Fanno Creek Bldg A September 13, 2006 common base. Entire assembly is isolated from the unit by double deflection rubber in shear isolators with motor sizes larger than five horsepower. For both CV and VAV applications, Statitrac, a differential pressure control system, ._ compares the indoor building pressure to the atmospheric pressure. The exhaust fan is turned on and the discharge dampers at the fan outlet modulates when the building pressure exceeds the specified deadband configured in the Rooftop Human Interface Control. All exhaust fan motors meet the U.S. Energy Policy Act of 1992 (EPACT). High Efficiency Filters Filters are two -inch [50.8 mm] high efficiency media type with average dust spot efficiency of 25 -35 percent and an average arrestance in excess of 90 percent when tested in accordance with ASHRAE 52 -76. 0 -100 Percent Economizer Automatically modulating return and outside air dampers assist in the maintaining of the control temperature setpoint to allow "free" cooling. The economizer is equipped with an automatic lockout when the outdoor enthalpy /temperature is not suitable for space temperature control. Minimum position is standard and adjustable with either the Human Interface Control, remote potentiometer, or through the building management system. A spring return actuator insures closure of the outside air dampers during shutdown or power interruption. Mechanical cooling is available to assist the economizing mode. Low leak dampers are standard with a leakage rate of 2.5 percent of nominal airflow of 400 Cfm /ton [189 Us] per ton at a static pressure of 1" [25.8 mm] w.c. Variable Frequency Drive General Description: The AC Drive and all associated optional equipment are UL listed according to Power Conversation Equipment UL 508C and CSA certified. The AC Drive is designed, constructed and tested in accordance with NEMA ICS, NFPA, and IEC standards. The Drive is housed in a metal NEMA 1 enclosure. All standard and optional features are included within the Drive enclosure, unless otherwise specified. The Drive converts incoming fixed frequency three -phase AC power into a variable frequency and voltage for controlling the speed of three -phase AC motors. DC link reactors are provided on both the positive and negative rails of the DC bus equal to 3% impedance to minimize power line harmonics. Full load amp ratings meet or exceed NEC Table 430 -150. The Drive provides full rated output current continuously, 110% of rated current for 60 seconds and 160% of rated current for up to 0.5 second while starting. Isolation is provided between the Drive's power circuitry and control circuitry to ensure operator safety and to protect connected electronic control equipment from damage caused by voltage spikes, current surges, and ground loop currents. Audible motor noise is minimized through the use of an adjustable carrier frequency. Carrier frequency is automatically adjusted to optimize motor and AC Drive efficiencies while reducing motor noise. Operating range, ambient temperature, -10 to 50°C (14 to 104 °F), 0 to 95% relative humidity, non - condensing, AC line voltage variation, -10 to +10% of nominal with full output. Default: After 10- second time out the Drive will shut off. Will function normally when the keypad is removed while the AC Drive is running and continue to follow remote commands. AC Drive catches rotating motor operating forward or reverse up to full speed. The AC Drive is rated for 100,000 amperes interrupting capacity (AIC). Includes current sensors on three output phases to detect and report phase loss to the motor. Identifies which of the output phases is low or lost. Continues to operate without faulting until input voltage reaches 300 V AC on 208/230 volt units, 539 V AC on 460 volt units, and 690 volts on 600 volt units. Interface Features Off /Stop and Auto /Start selector switches provided to start and stop the AC Drive and determine the speed reference. On units with bypass, an AC Drive /Off/Bypass Hand selector switch will be provided in the unit control box. In case of an external current overload, a normally closed dry contact will stop the motor whether in DRIVE or BYPASS mode. In DRIVE mode speed reference is provided by a 0 to 10 V DC analog input. The display is programmable to display in 9 languages including English, Spanish and French. The display has four lines, with 20 characters on three lines and eight large characters on one line. The following points are controlled and /or accessible: AC Drive Start/Stop. Speed reference, Fault diagnostics, Meter points to include - Motor power in HP, Motor power in kW, Motor kW -hr, Motor current, Motor voltage, Hours run, DC link voltage, Thermal load on motor, Thermal load on AC Drive and Heatsink temperature. The AC Drive stores in memory the last 10 faults and related operational data. Four simultaneous displays are available, frequency or speed, run time, output amps and output power. The following displays are accessible from the keypad. Reference Signal Value, Output Frequency in Hz or percent, Output Amps, Motor HP, Motor kW, kW hour, Output Voltage, DC Bus Voltage, AC Drive Temperature in degrees, and Motor Speed in RPM. FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 6 of 41 Fanno Creek Bldg A September 13, 2006 A quick setup menu with factory preset parameters is provided on the AC Drive eliminating the need for macros. A red FAULT light, a yellow WARNING light and a green POWER -ON light are provided. These indications are visible both on the keypad and on the AC Drive when the keypad is removed. The AC Drive includes a standard EIA -485 communication port and capability for future connection to a Modbus communication interface. If the temperature of the AC Drive's heat sink rises to 80°C, the AC Drive automatically reduces its carrier frequency to reduce the heat sink temperature. If the temperature of the heat sink continues to rise the AC Drive automatically reduces its output frequency to the motor. As the AC Drive's heat sink temperature returns to normal, the AC Drive automatically increases the output frequency to the motor and returns the carrier frequency to its normal switching speed. The AC Drive has temperature controlled cooling fans for quiet operation and minimized losses. Adjustments and Factory Default Settings AC Drive carrier frequency is adjustable in steps of not less than 0.1 kHz to allow tuning the AC Drive to the motor. Four, acceleration and four deceleration ramps are provided. Acceleration and deceleration time is adjustable over the range from 0 to 3,600 seconds to base speed. The shape of these curves is automatically contoured to ensure no -trip acceleration and deceleration. Factory Default: The Drive is programmed for an acceleration and deceleration time of 30 seconds. Four current limit settings will be provided. Factory Default: The Drive is programmed for 1 X rated current. If the AC Drive trips on one of the following conditions, the AC Drive will be programmable for automatic or manual reset: under - voltage, over - voltage, current limit and inverter overload. Factory Default: The Drive is programmed for automatic reset. The number of restart attempts is selectable from 0 through infinity and the time between attempts is adjustable from 0 through 600 seconds. Factory Default: 3 attempts, 10 seconds between attempts. After 3 failed restart attempts, the drive automatically reverts to the manual reset mode. An automatic "on delay" may be selected from 0 to 120 seconds. Factory Default: The Drive is programmed for 0 seconds delay. Protective Features Class 10 12t electronic motor overload protection for single motor applications is provided. Protection against input transients, loss of AC line phase, output short circuit, output ground fault, over - voltage, under - voltage, AC Drive over - temperature and motor over - temperature. All faults are displayed in plain English. Protection from AC Drive sustained power or phase loss. Full rated output with an input voltage as low as 90% of nominal. Continuous operation with reduced output with an input voltage as low as 164 V AC for 208/230 volt units, 313 V AC for 460 volt units, and 394 volts for 600 volts units. Semi - conductor rated input fuses to protect power components. A "signal loss detection" circuit senses the loss of an analog input signal such as 4 to 20 mA or 0 to 10 V DC, and is programmable to react as desired in such an instance. Unit Non -Fused Disconnect This switch is non -fused and is located inside the unit control box. An external handle allows power disconnection without having to open the control box door. Economizer Dry Bulb Control Dry bulb temperature control option an outdoor temperature sensor is included for comparing the outdoor dry bulb temperature to a locally adjustable temperature setpoint programmed either at the human interface or remote human interface to determine if outdoor air temperature is suitable for economizer operation. Access Doors Hinged access doors provide easy access to service areas. These access doors feature double wall construction with dual density insulation sandwiched between 18 -gauge galvanized steel panels for strength and durability. Trane Communication Interface Module (TCI) The TCI provides interface to Trane's Integrated Comfort System (ICS), which allows control and monitoring of the rooftop by Tracer building management system. Temperature Thermistor Temperature thermistor is used to communicate temperature changes in either the zone, return air, supply air or outside ambient. Roof Curb Roof mounted curb is 14 -gauge zinc coated steel with a nominal two -inch [50.8 mm] by four -inch [101.6 mm] nailer. FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 7 of 41 Fanno Creek Bldg A September 13, 2006 Supply /Return air opening gasket is provided. The curb is manufactured to the National Roofing Contractors Association guidelines and ships non - assembled. The return duct opening location is adjustable using the provided channel. FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 8 0141 • o a o N o r) y co N ID m Q. 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L4. n a a ® / p N L i • , N N N E .-u-c" ‘../ 271111 O a c • H ti a N N o 0 a m N y d m 1 U E T g 0 a 4 0 " i c 0 i n { i Fanno Creek Bldg A September 13, 2006 Unit Dimensions - Commercial Rooftop Air Conditioning Units (Large) Item: Al Qty: 2 Tag(s): RTU -1, RTU -2 • ELECTRICAL / GENERAL DATA TONS 90 UNIT OPERATING VOLTAGE RANGE 414 506 UNIT PRIMARY VOLTAGE 460 UNIT HERTZ 60 UNIT PHASE 3 • HEATING - PERFORMANCE HEATING - GENERAL DATA HEAT INPUT 1000 GAS INLET PRESSURE MIN. 7.00 psi MAX. 14.00 psi HEAT OUTPUT 820 Mbh GAS PIPE CONNECTION SIZE 1 -1/4• CAPACITY STEPS 2 COMPRESSOR Circuit #1 Circuit #2 NUMBER 3 3 TONS (EACH) (5) 15/15/10 16.3/10.92 kW 15 /15/10 16.3/10.9 kW COMPRESSOR RATED LOAD AMPS (EACH) 27.3/18.2 27.3/182 LOCKED ROTOR AMPS (EACH) 178/117 178/117 SUPPLY FAN MOTOR NUMBER 2 HORSEPOWER (EACH) 20.0 14.92 kW SUPPLY FAN MOTOR FULL LOAD AMPS 25.5 CONDENSOR FAN MOTOR • NUMBER 8 • HORSEPOWER (EACH) 1.0 0.75 kW CONDENSOR FAN MOTOR FULL LOAD AMPS 1.8 EXHAUST FAN MOTOR NUMBER 1 HORSEPOWER (EACH) 20.0 14.92 kW EXHAUST FAM MOTOR FULL LOAD AMPS 25.5 ELECTRIC HEATER ELECTRIC HEATER KW ELECTRIC HEATER FULL LOAD AMPS FILTERS - TYPE High efficiency throwaway FURNISHED YES NUMBER 25 RECOMMENDED SIZE 24 X 24 X 2 REFRIGERANT TYPE R-22 FACTORY CHARGE (CIRCUIT #1) (6) 101.0 lb FACTORY CHARGE (CIRCUIT #2) (6) 101.0 lb Cooling MCA = (1.25 x LOAD 1) + LOAD 2 + LOAD 4 Cooling MOP= (2.25 x LOAD 1) + LOAD 2 + LOAD 4 Coohrq P.DE= (1.5 x LOAD 1) + LOAD 2 + LOAD 4 Notes: 1. LOAD 1 =Current of the largest motor (compressor or fan motor); LOAD 2 =Sum of the currents of all remaining motors; LOAD 3 = Current of electric heaters LOAD 4 = Control Power Transformer (90 -130 ton units add 6 FL amps for wire sizing formula) 2. For Electric Heat MCA, MOP, RDE values, calculate for both cooling and heating modes using the larger value for sizing. (When determining LOADS, the compressors do not operate when the unit is in heating mode) (Heating Load 4 = 12 amp on 200,230 volt units and 9 amps on 460.575 volt units). 3. If selected Max Over Cur is less than the Min Clr Amp, then select the lowest maximum fuse size which is equal to or larger than the Min Cir Amp, provided the selected fuse size does not exceed 800 amps. 4. If the selected Recommended Dual Element fuse size is greater than the selected Max Over Cur Protection value, then select the Recommended Dual Element fuse size value to equal the Max Over Protection value. 5. Compressor KW at ARI rating conditions of 80/67 -95 6. Refrigerant charge is an approx. value. For a more precise value, see unit nameplate and service instructions. FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 10 of 41 Fanno Creek Bldg A September 13, 2006 Unit Dimensions - Commercial Rooftop Air Conditioning Units (Large) Item: Al Qty: 2 Tag(s): RTU -1, RTU -2 TYPICAL ROOF CURB AND BASE PAN DETAIL Unit Base Ships with Curb, / Lifting Lug 4' Long Field Installed Gasket 1762mmJ 1 1992' 19/32' --- �J T [15mm] 2.1/2'_j �63mm) 2' X 4 Nader [50mm ■ 1(11 mm) (Furnished with Kit) 316' — 1 -7/16' l9mm( [36mm] Roof Curb —2. 13/16' -- p1mm] TYPICAL PEDESTAL AND BASE PAN DETAIL I 111.1 Unit Base Lifting Lug 4 Long 'i1;1111;1;1; L i Pedestal 19/32" .-.- — [15mm] 1 -7/16' (36mm] —2. 13/16" -- [71 mm] FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 11 of 41 Fanno Creek Bldg A September 13, 2006 Weight, Clearance & Rigging Diagram - Commercial Rooftop Air Conditioning Units (Large) Item: Al Qty: 2 Tag(s): RTU -1, RTU -2 NOTES: ._ 7. The actual weight is stamped on the unit nameplate. 2. The weight shown 144" represent the typical l...„ unit operating weights -_ for the unit selected. .`, I • �� 1 � 011111111i1 . 1 1 'I• Total Weight I 744" Spreader Bar 16050.0 lb LIOIJ Turnbuckle Adjustment Weight Add For Double -Wall RIGGING POINT WEIGHTS 1 2 3 4 5 6 7 8 9 10 1550.0 lb 1430.0 lb 1540.0 lb 1420.0 lb 1530.0 lb 1860.0 lb 1520.0 lb 1850.0 lb 1510.0 lb 1840.0 lb X / Y 4" / 4" 4" /136" 120 " / 4" 120 " / 136" 215 " / 4" 215 /136" 309" / 4" 309" /136" 396 " / 4" 396" /136" e 216" a Clearance Line 96" - 1 - 96" n n n i 2 4 6 10 • At * Y 73" * ! * D 0 5 9 D u u u x Center of Gravity 96" Front of Unit CENTER OF GRAVITY AND CLEARANCES 72" FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 13 of 41 Fanno Creek Bldg A September 13, 2006 Accessory - Commercial Rooftop Air Conditioning Units (Large) Item: Al Qty: 2 Tag(s): RTU -1, RTU -2 (l ,i - O ■ RETURN OPENING SUPPLY OPENING / 7,4.06 7,4.06 ROOFCURB WEIGHT 770.0 ItLBS 9Q� �/ II / , 45 ISOMETRIC VIEW SUPPLY 84.00 5 AIR OPENING RETURN i 64.38 AIR • I OPENING r 100 25.00 I d _ 4 _ 1925 84.00 117.31 I 160.00 I 220.25 I 253.50 -.-- 45.00 --.- NOTE: SEE SXHG -IOM -2 FOR SPECIFIC DIMENSIONS AND INSTALLATION TOP VIEW INSTRUCTIONS FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 14 of 41 C r—� m c1 d o - 3 a II C 0 D C n F.41. —I m —I °'°' Dcc x CD 0. LN N V co � � N sc _ n Remove Jumper and Install high duct temp 0 D t -slat 8/or field supplied device. Contacts 3 j rated 12 MA @ 24 VDC minimum. � D '- Remove jumper when field r.13 Remove ■ 3 supplied external auto /stop 0 O. C switch is installed. Contacts D) • iii A\ WARNING rated12MA @24VDCminimum. XI Q HAZARDOUS VOLTAGE! 5571 5567 C O Q• EMERGENCY EXTERNAL AUTO/STOP 0 `c DISCONNECT ALL ELECTRIC POWER STOPSWTrCH SWITCH ■ ----�� - -- w 0 INCLUDING REMOTE DISCONNECTS — � a o � O 3 BEFORE SERVICING. 73 1 3 y FAILURE TO DISCONNECT POWER i • - - - -- r C D BEFORE SERVICING CAN CAUSE +3 .a1 434 + N SE PERSONAL INJURY OR n DEATH. 0 A\ AVERTISSEMENT o 1TB4 Q- VOLTAGE HASARDEUX! 1 408 418 12 2 +09 424 13 0 j DECONNECTEZ TOUTES LES SOURCES 3 +10 +03 I+ M W ELECTRIQUES INCLUANT LES . +,z +35 1s - 7 rrl DISJONCTEURS SITUES A DISTANCE s +3, 161 J CO Q AVANT D'EFFECTUER L'ENTRETIEN. 6 m us n ---- - - - - -J C 'b FAUTE DE DECONNECTER LA SOURCE 7 +13 438 18 —' 7 a ELECTRIQUE AVANT D'EFFECTUER 6 +1+ 437 19 I— N j L PEUT ENTRAINER DES 9 +,s 537 20 I BLESSURES CORPORELLES SEVERES 10 + 16 538 21 I Field supplied and installed r C OU LA MORT. I, 425 436 22 I occupied /unoccupied contacts for '1 IT 3 C AUTION r +3B u7 CI. al USE COPPER CONDUCTORS ONLYI - - --1 UNIT TERMINALS ARE NOT ' ___ DESIGNED TO ACCEPT OTHER TYPES OF CONDUCTORS. 6886 OCCUPIED/ FAILURE TO DO SO MAY CAUSE UNOCCUPIED CONTACTS DAMAGE TO THE EQUIPMENT. L IMPORTANT! DO NOT ENERGIZE UNIT UNTIL CHECK -OUT AND START -UP PROCEDURE HAS BEEN COMPLETED DEVICE PREFIX LOCATION CODE AREA LOCATION fn I INSIDE UNIT CONTROL BOX CD • 2 CONDENSER SECTION 3 d 3 A IR HANDLER SECTION W CD 4 HEATING SECTION U1 5 EXTERNAL FIELD MOUNTED DEVICE W Si N O Ja O Note: All wiring and components shown dashed to be supplied and installe by the customer in accordance with local electrical codes. rn - -71 O .. am ii C -a C n . - N O —I 3 D m 01 3 m fa W v n FS A\ WARNING FT 13 HAZARDOUS VOLTAGE! " ` cr DISCONNECT ALL ELECTRIC POWER C O INCLUDING REMOTE DISCONNECTS .. O BEFORE SERVICING. O m FAILURE TO DISCONNECT POWER - —I CD BEFORE SERVICING CAN CAUSE D • SEVERE PERSONAL INJURY OR s ' DEATH. C A\ AVERTISSEMENT 0. y VOLTAGE HASARDEUX! 7 .: y DECONNECTEZ TOUTES LES SOURCES 0 ELECTRIQUES INCLUANT LES 3 n p l DISJONCTEURS SITUES A DISTANCE 1785 AVANT D'EFFECTUER L'ENTRETIEN. 1 .9 475 C C DE DECONNECTER LA SOURCE 2 426 416 13 3 ELECTRIQUE AVANT D'EFFECTUER 3 623 S29 14 7' • as y L'ENTRETIEN PEUT ENTRAINER DES sz. .9 .5 7 BLESSURES CORPORELLES SEVERES s 929 630 15 6 526 531 12 r C OU LA MORT. 2 527 932 16 10 iy 3 0 CAUTION 6 540 53316 9 550 5 CD 3. t0 427 ..3 21 y USE COPPER CONDUCTORS ONLY! I I .26 4.. 22 UNIT TERMINALS ARE NOT DESIGNED TO ACCEPT OTHER TYPES OF CONDUCTORS. FAILURE TO DO SO MAY CAUSE DAMAGE TO THE EQUIPMENT. IMPORTANT! DO NOT ENERGIZE UNIT UNTIL CHECK -OUT AND START -UP PROCEDURE HAS BEEN COMPLETED DEVICE PREFIX LOCATION CODE 534 533 �----) AREA LOCATION TRACER COMMUNICATIONS a) 1 INSIDE UNIT CONTROL BOX CD • 2 CONDENSER SECTION Required with ICI Module Option. N - Use shielded twisted pair wire. 3 Cu 3 AIR HANDLER SECT c • CD 4 HEATING SECTION � 5 EXTERNAL FIELD MOUNTED DEVICE W O N 0 A 0 Note: At wiring and components shown dashed to be supplied and installed by the customer in accordance with local electrical codes. Fanno Creek Bldg A September 13, 2006 Tag Data - Variable Air Volume Single Duct Terminal Units (Qty: 4) Item Tag(s) Qty Description Model Number B1 VAV1 -1 1 Variable Air Volume Single Duct Terminal VCEF10 B2 VAV1 -2 1 Variable Air Volume Single Duct Termina VCEF10 B3 VAV2 -1 1 Variable Air Volume Single Duct Termina VCEF08 B4 VAV3 -1 1 Variable Air Volume Single Duct Termina VCEF06 Product Data - Variable Air Volume Single Duct Terminal Units All Units Single duct with electric heat Matte faced insulation - 1/2" (13 mm) DDC, controls on /off electric heat control Standard actuator 480/24 volt transformer Disconnect switch Power Fuse 480 volt, 3 phase Magnetic contactors - 24 volt 1st year labor warranty whole unit Item: B1 Qty: 1 Tag(s): VAV1 -1 10" inlet size, 1400 cfm (254mm inlet, 661 Vs) Right hand Electric heater kW - 3.0 Stages - 2 - equal Item: B2 Qty: 1 Tag(s): VAV1 -2 10" inlet size, 1400 cfm (254mm inlet, 661 Vs) Left hand & /or same side connection (control & /or hot water coil) Electric heater kW - 4.0 Stages - 2 - equal Item: B3 Qty: 1 Tag(s): VAV2 -1 8" inlet size, 900 cfm (203mm inlet, 425 Ws) Right hand Electric heater kW - 3.0 • Stage -1 Item: B4 Qty: 1 Tag(s): VAV3 -1 6" inlet size, 500 cfm (152mm inlet, 236 I /s) Right hand Electric heater kW - 2.0 Stage -1 Performance Data - Variable Air Volume Single Duct Terminal Units Tags VAV1 -1 VAV1 -2 VAV2 -1 VAV3 -1 Design cooling airflow (cfm) 1200 1000 600 480 Min cooling airflow (cfm) 360 300 180 144 Valve heating airflow (cfm) 360 540 420 336 Cooling inlet diameter 10" 10" 8" 6" Cooling inlet velocity (ft/min) 2200 1833 1719 2445 APD @ cooling airflow (in 0.04 0.03 0.05 0.21 H2O) Full load amps (A) 3.61 4.81 3.61 2.41 Min circuit ampacity (A) 4.51 6.01 4.51 3.01 Max fuse size (A) 15.00 15.00 15.00 15.00 Operating weight (lb) 46.0 46.0 38.0 38.0 Coil heating capacity (MBh) 10.24 13.66 10.24 6.83 Room heat loss (MBh) 9.85 13.07 9.79 6.47 Room heating setpoint (F) 70.00 70.00 70.00 70.00 Primary EDB (F) 69.00 69.00 69.00 69.00 FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 17 of 41 Fanno Creek Bldg A September 13, 2006 Tags VAV1 -1 VAV1 -2 VAV2 -1 VAV3 -1 Unit LAT (F) 95.23 92.31 91.48 87.73 Electric heat kW (kW) 3.00 _4.00 _ 3.00 2.00 • FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 18 of 41 • Fanno Creek Bldg A September 13, 2006 Mechanical Specifications - Variable Air Volume Single Duct Terminal Units Item: B1 - B4 Oty: 4 Tag(s): VAV1 -1, VAV1 -2, VAV2 -1, VAV3 -1 General Unit Information The unit casing is comprised of 22 gauge galvanized steel. Outlet connection is slip and drive. Agency Listing - The unit is UL and Canadian UL listed as a room air terminal unit. UL Control # 9N65. All Trane terminal units are ARI 880 - 98 certified. General Unit Clearance Allow adequate clearance to meet NEC on control box side of unit to meet NEC. A minimum of one and one half duct diameters of straight duct work, upstream of the air inlet connection, should be present for optimum airflow measurement performance. Upstream duct work should be the same diameter as the primary inlet connection. 1/2" Matte - Faced Insulation The interior surface of the unit casing is acoustically and thermally lined with 1/2" 1.50 lb.cu. ft. [24.00 kg. /cu. m.] composite density glass fiber with 4.0 lb. cu.ft. [64 kg. /cu. m.] high density facing. The insulation is UL listed and meets NFPA -90A and UL 181 standards. The insulation R -value is 1.9. All cut edges of insulation are completely encapsulated in metal to prevent erosion. Air Valve Round The air inlet connection is an 18 gauge galvanized steel cylinder sized to fit standard round duct. A multiple point, averaging flow sensing ring is provided with balancing taps for measuring within +/- 5% of unit cataloged airflow. An airflow versus pressure differential calibration chart is provided. The damper blade is constructed of a closed cell foam seal mechanically locked between two 22 gauge galvanized steel disks. The damper blade assembly is connected to a cast zinc shaft supported by self lubricating bearings. The shaft is cast with a damper position indicator. The valve assembly includes a mechanical stop to prevent over stroking. At 4.0" w.g. air valve leakage does not exceed 1% of cataloged airflow. Air Valve Size - 06 Air Valve is 500.0 cfm 6 "inlet. Air Valve Size - 08 Air Valve is 900.0 cfm 8" inlet. Air Valve Size - 10 Air Valve is 1400.0 cfm 10" inlet. Electric Heat Coil Factory provided and mounted, UL recognized, resistance open -type heater with airflow switch, a disc -type automatic pilot duty thermal primary cutoff, and manual reset load carrying thermal secondary device. Heater element material is nickel- chromium. The heater terminal box is provided with 7/8" knockouts for customer power supply. Terminal connections are plated steel with ceramic insulators. Heater control access is left hand. Right hand control access is optional. Magnetic Contactor An electric heater 24 volt contact for use with Direct Digital Control (D.D.C.) or Analog Electronic VAV Controls. Power Disconnect Switch (for VCEF) A factory provided interlocking door disconnect switch located on the electric heater control panel. Line Fuse A safety fuse located in the electric heater's line of power to prevent power surge damage to the electric heater for VCEF. For VCCF and VCWF, the fuse is installed on the primary voltage hot leg in a control box. Slip & Drive Connection A slip and drive connection has two straight flanges on the top and bottom, and two drive connections on the left and right sides. This is a standard option on all VAV single duct terminal units. Electric Heat Transformer A 40VA or 75VA transformer will be an integral component of the heater control panel dependent on unit load requirements to provide 24 VAC for controls. D.D.C. Actuator FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 19 of 41 Fanno Creek Bldg A September 13, 2006 Trane 3 wire, 26 GA, 3.4 VA, 1.7 W, 24 VAC, 50/60 Hz floating point control actuator with linkage release button. Running torque is 35 in -lb (4 Nm) minimum and is non - spring return with a 90 second drive time. Travel is terminated by end stops at fully opened and closed positions. An integral magnetic clutch eliminates motor stall. When Trane controls are not provided an integral 3 screw terminal is provided for field wiring. Operating temperature is 32 to 125 degrees Fahrenheit (0 to 50 degrees Celsius). Direct Digital Controller The microprocessor based terminal unit controller provides accurate, pressure independent control through the use of a proportional integral control algorithm and direct digital control technology. The controller monitors zone temperature set points, zone temperature and its rate of change, and valve airflow using a differential pressure signal. Optionally, the controller can monitor either supply duct air temperature or CO2 concentration via appropriate sensors. The controller is provided in an enclosure with 7/8" knockouts for remote control wiring. A Trane zone sensor is required. System Communications The controller is designed to send and receive data from a Tracer Summit or other Trane Controllers, or a Varitrac Central Control Panel. Current unit status conditions and set points may be monitored and /or edited via this data communication feature. The network type is a twisted wire pair serial communication. Override Commands The following override commands may be received by the Unit Control Module (U.C.M.) from the Tracer System. Control Mode, Action, Offset & Commands * Control Mode - Occupied or Unoccupied * Control Action - Heating or Cooling * Control Offset - Enabling Control Offset will increase the cooling temperature setpoint and decrease the heating temperature setpoint by a control offset value. * Drive damper fully open. * Drive damper fully closed. * Drive damper to maximum airflow setpoint. * Drive damper to minimum airflow setpoint. * Disable unit heat. * Reset - Enabling the reset function forces the controller and the flow sensor to recalibrate. Editable Set points and Functions Occupied and unoccupied cooling temperature set point (30 °- 100°F) [-1.1°- 37.8°C] Occupied and unoccupied heating temperature set point (30 °- 100 °F) [ 37.8°C] Maximum flow set point (10- 100% of unit equivalent cataloged airflow) Minimum heating and cooling flow set point (0, 10- 100% of unit equivalent cataloged airflow) Cooling set point low and high limit Low (30 °- 100 °F) [ -1.1 °- 37.8°C] High (30 ° - 102 °F) [ -1.1 °- 37.8°C] Heating set point high and low limit (30 °- 100 °F) [-1.1°- 37.8°C] Hot water valve drive time Air valve drive time Fan Control Offset - determines at what point a parallel fan is energized. This can be a function of temperature (degrees above heating set point) or primary airflow Series Fan Configuration - allows series fan powered to shut off fan and close air valve when unit is unoccupied. Fan will operate in unoccupied mode if reheat is active. Local heating flow set point enable /disable and set point Analog input mode - auxiliary temperature sensor or CO2 detector Binary input mode - generic or occupancy detector Zone temperature, auxiliary temperature, and zone set point calibration corrections (± 10 ° F) [± -12°C] Flow measurement calibration correction (60- 150 %) Additional Status Information Available Active cooling set point Active heating set point Current unit primary airflow Current zone temperature Reheat status (on /off) FLO = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 20 of 41 Fanno Creek Bldg A September 13, 2006 Fan status (on /off) Calibration status (calibrating /not calibrating) Auxiliary air temperature (if unit has auxiliary temperature sensor) Not available if CO2 sensor used. CO2 concentration (if unit has CO2 sensor) Not available if auxiliary temperature sensor used. Ventilation ratio BIP state Failure indicators • Temperature sensor failures • Flow Sensor failure • Local zone sensor set point failure DDC Sequence of Operation The unit controller continuously monitors the zone temperature against its set point and varies the primary airflow as required to meet zone set points. Airflow is limited by minimum and maximum airflow set points. DDC Controls Option DD04 Basic Operation: On /Off Staged Electric Heat (Normally Open Outputs) (DDC /UCM) A voltage signal from the zone sensor indicates the zone temperature is used by the unit controller to determine an error from the set point. This error, as well as primary flow differential pressure, is used to determine damper position within minimum and maximum cooling airflow set points. As the zone temperature drops to the heating set point, primary airflow is controlled to minimum heating flow set point. Staged electric heat is energized. FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 21 of 41 Fanno Creek Bldg A September 13, 2006 Unit Dimensions - Variable Air Volume Single Duct Terminal Units Item: B1 Qty: 1 Tag(s): VAV1 -1 10' — 2 3/4" CONTROL BOX ELECTRIC HEATER 4- 5 1/2 CONTROLS AREA AR VA VE 6 1/2 AIR FLOW ACTUATOR 43 1/2" 26" • Customer Notes 1. Air Inlet is centered in unit front panel. SLIP & DRIVE J d -5 ^— 2. Slip & Drive discharge outlet on heater CONNECTION standard. 15 1/2" > 3. Allow 48" of straight duct downstream of unit before first runout & inside of the duct should be equal discharge size. (AxB) TOP VIEW 4. For electric heater access, side hinged door must have minimum distance per NEC or local code. 5. Knockouts for power supply provided in top & bottom of terminal box. 20' > 14" 6. Coils are provided without internal insulation. If the unit is to be installed in a location with high humidity, external insulation around the heating coil should be installed as required. 13 1/2" 12' 8 1/4" _ — Approximate Dry Weight 46.0 lb Weight reflected may vary z5 Ibs(2.27kgs) based upon options selected. BACK VIEW FLO = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 22 of 41 • • Fanno Creek Bldg A September 13, 2006 Unit Dimensions - Variable Air Volume Single Duct Terminal Units Item: B2 Qty: 1 Tag(s): VAV1 -2 2 3/4" < i< 10• �5 1/2 " —} ELECTRIC HEATER CONTROLS AREA CONTROL BOX 4" ARVALVE 6 1/2" ACTUATOR AIR r^* FLOW \[" A , �♦ 4 43 1/2" 26" Customer Notes 1. Air Inlet is centered in unit front panel. 2. Slip & Drive discharge outlet on heater standard. �5 ^7 3. Allow 48" of straight duct downstream of unit before first runout & inside of the duct should be equal discharge size. (Axe) SLIP & DRIVE TOP VIEW 157f2" CONNECTION 4. For electric heater access, side hinged door must have minimum distance per NEC or local code. 5. Knockouts for power supply provided in top & bottom of terminal box. 20" 6. Coils are provided without internal insulation. If the unit is to be installed in a location 14' with high humidity, external insulation around the heating coil should be installed as required. 8 1/4" B 12" 13 1/2" Approximate — Dry Weight 46.0 lb Weights reflected may vary ±5.0 lb based upon options BACK VIEW selected. FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 23 of 41 Fanno Creek Bldg A September 13, 2006 Unit Dimensions - Variable Air Volume Single Duct Terminal Units Item: B3 Qty: 1 Tag(s): VAV2 -1 8" •F 2 1/4" CONTROL BOX � - 5 1/2"—r 4' ELECTRIC HEATER A R CONTROLS AREA VALVE 6 1/2" AIR j FLOW ACTUATOR e 43 1/2' • 28' Customer Notes 1. Air Inlet is centered in unit front panel. 2. Slip & Drive discharge outlet on heater standard. SLIP & DRIVE J 3. Allow 48' of straight duct downstream CONNECTION — 12 1/2" �5 1/2" • of unit before first runout & inside of the duct should be equal discharge size. (MB) TOP VIEW 4. For electric heater access, side hinged door must have minimum distance per NEC or local code. 5. Knockouts for power supply provided in top & bottom of terminal box. 6. Coils are provided without internal insulation. If the unit is to be installed in a location with high humidity, external insulation — around the heating coil should be installed as required. 11 1/2' 10' r° 8 1/4" 1 Approximate Dry Weight 38.0 lb Weight reflected may vary BACK VIEW .15 lbs(2.27kgs) based upon options selected. FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 24 of 41 Fanno Creek Bldg A September 13, 2006 Unit Dimensions - Variable Air Volume Single Duct Terminal Units Item: B4 Qty: 1 Tag(s): VAV3 -1 2 3/4' CONTROL BOX X51/2 " - AIR ELECTRIC HEATER " VALVE CONTROLSAREA 6 1/2" AIR FLOW • ACTUATOR 1\11 • 1 1111111'' ,0 4 41% 45 1 31" Customer Notes 1. Air Inlet is centered in unit front panel. 2. Slip & Drive discharge outlet on heater standard. 3. Allow 48" of straight duct downstream SLIP & DRIVE of unit before first runout & inside of the CONNECTION i` 11 1/2 duct should be equal discharge size. (AxB) • 4. For electric heater access. side hinged door must have minimum distance TOP VIEW per NEC or local code. 5. Knockouts for power supply provided 16' in top & bottom of terminal box. 10' - � 6 . Coils are provided without internal insulation. If the unit is to be installed in a location with high humidity, external insulation - _ around the heating coil should be installed as required. 9 1/2' e' 8 1/4" Approximate 38.0 lb Dry Weight BACK VIEW Weight reflected may vary 15 Ibs(2.27kgs) based upon options selected. • FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 25 o141 Fanno Creek Bldg A September 13, 2006 Field Wiring - Variable Air Volume Single Duct Terminal Units Item: B1 - B4 Qty: 4 Tag(s): VAV1 -1, VAV1 -2, VAV2 -1, VAV3 -1 HEATER STAGE 24VAC 60HZ CONTACTOR(S) NEC CLASS -2 <-871 OPTIONAL TRANSFORMER CONTROL CIRCUIT I I LOAD= 12VA r TB3.2 — 1 I I (WI HEAT) I TB3.1 I TB3.3 ® ®® I I / \ TBI -2 I 1 I TB2 -5 I TB1i1 I I I I I T82.6 I I 11 1 1 1 I 1 6666666 ^ "' > m I I 1 2 1 2 3 I 2 TBI TB2 TB3 a > 0 2 . r I I DIGITAL ZONE SENSOR I OPTIONAL FIELD L J INSTALLED DIGITAL ZONE SENSOR I I I f TB2A6 TB3 -I 1 I TB2-5 9 B3 -2 I I I I I E _ I I I I I I I I r— J 6666 I'- 1 1 I 5 4 3 2 I I ' �I ° � 3 - J2 000000 I N 1 L I ZONE SENSOR W/ COMM. JACK L L _ Oi L ACT - •- I REMOTE MTD. BIP CND 24V ADDRESS I OPTIONAL FIELD D.D.C. \U.C.M. J3 SWITCH CONTROL BOARD o L INSTALLED ZONE SENSOR J BBBBBB a r ,P 1 I ; o kg I 1 24V 2 (IBM) 24V I 'I' '?- 4 '4 TEL GRN nn '4- f N I SENSOR GND 0 _ (TB3_6)CND _ T F T 0 m ∎ O P O 0 R � R�J m FL] P I OUT V (TB3- 5) I ZO E Grr���JJbbbDD SET A'CO2 GND _ _ // 1 1 I 1 I I I I OPTIONAL FIELD INSTALLED 1 / 1 1 1 1 I I L CO2 SENSOR J I I I 1 1 I al al SI SI I r e35 1 E TB36 I 1 0 1 0 1 1 I __--„--.__ J 1 I I I SHIELDED TWISTED PAIR 1 / COMMUNICATIONS WIRING ,..1_,/____1) I I OPTIONAL FACTORY INSTALLED WIRELESS I OPTIONAL FIELD INSTALLED I I BL L AUX TEMP SENSOR J OPTIONAL - - FACTORY INSTALLED Y I r WIR ELESS - - - - _ (TBI- O24VAC _ B.1)BIP Y I I 6Ga1T41.sQHTAUA TB1- ()24VAC 24VAC - - (TB13)GND - - - -- NOT COMIECTED m' m' I OPTIONAL FIELD INSTALLED L OCCUPANCY SENSOR J GOD 24V VVSSO Board L\ WARNING L J HAZARDOUS VOLTAGE) DISCONNECT ALL ELECTRIC POWER INCLUDING REMOTE DISCONNECTS BEFORE SERVICING. FAILURE TO DISCONNECT POWER ' BEFORE SERVICING CAN CAUSE SEVERE PERSONAL INJURY OR DEATH. AN CAUTION Customer Notes: USE COPPER CONDUCTORS ONLY( UNIT TERMINALS ARE NOT DESIGNED TO ACCEPT OTHER TYPES OF 1. Factory Installed. CONDUCTORS. FAILURE TO DO SO MAY CAUSE - - Installed by others. DAMAGE TO THE EQUIPMENT. FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 26 of 41 Fanno Creek Bldg A September 13, 2006 Field Wiring - Variable Air Volume Single Duct Terminal Units Item: B1 - B4 Qty: 4 Tag(s): VAV1 -1, VAV1 -2, VAV2 -1, VAV3 -1 NOTE: BALANCED LINE VOLTAGE REFERS TO AN EQUAL AMP LOAD ON 3 HOT WIRES L1= L2 =L3. 480 Volt, 3 Phase L3 L2 L1 I I I 1 I 1 I I I I I I 7 4. • Heater Controls Wiring FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 27 of 41 • Fanno Creek Bldg A September 13, 2006 Tag Data - Variable Air Volume Fan Powered Terminal Units (Oty: 14) Item Tag(s) Qty Description Model Number 01 FPB1 -1, FPB1 -4, 6 VAV Fan Powered Terminal Units VPEF1003SQ FPB2 -1, FPB2 -4, FPB3 -1, FPB3 -4 C2 FPB1 -2, FPB1 -3, 6 VAV Fan Powered Terminal Units VPEF1003SQ FPB2 -2, FPB2 -3, FPB3 -2, FPB3 -3 C3 FPB1 -5 1 VAV Fan Powered Terminal Units ( VPEF0803SQ FP ) C4 FPB1 -6 1 VAV Fan Powered Terminal Units ( VPEF0803SQ FP) Product Data - Variable Air Volume Fan Powered Terminal Units All Units Parallel with electric heat 03 super quiet fan 1/2" [13mm] matte faced insulation Flanged connection 277/60/1 motor voltage Single speed motor w/ SCR DDC with on /off electric heat control Power fuse 480 volt, 3 phase 2 stages of heat - equal increments 24 volt magnetic contactors Disconnect switch Electric heater air flow switch 1st year labor warranty - whole unit Item: C1 Qty: 6 Tag(s): FPB1 -1, FPB1 -4, FPB2 -1, FPB2 -4, FPB3 -1, FPB3 -4 10" (254 mm) inlet size Right hand connection 6.0 kilowatt Item: C2 Qty: 6 Tag(s): FPB1 -2, FPB1 -3, FPB2 -2, FPB2 -3, FPB3 -2, FPB3 -3 10" (254 mm) inlet size Left hand connection 6.0 kilowatt Item: C3 Qty: 1 Tag(s): FPB1 -5 8" (203 mm) inlet size Left hand connection 3.0 kilowatt Item: C4 Qty: 1 Tag(s): FPB1 -6 8" (203 mm) inlet size Right hand connection 3.0 kilowatt Performance Data - Variable Air Volume Fan Powered Terminal Units FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 28 of 41 Fanno Creek Bldg A September 13, 2006 Tags FPB1 -1, FPB1 -5, FPB1 -4, FPB1 -6 FPB2 -1, FPB2 -4, FPB3 -1, FPB3 -4, FPB1 -2, FPB1 -3, FPB2 -2, FPB2 -3, FPB3 -2, FPB3 -3 Design cooling airflow (cfm) 1200 580 Min cooling airflow (cfm) 360 174 Valve heating airflow (cfm) 360 100 Cooling inlet diameter (in) 10.000 8.000 Cooling inlet velocity (ft/min) 2200 1662 APD @ cooling airflow (in H2O) 0.05 0.08 Fan airflow (cfm) 480 306 Downstream SP (in H2O) 0.50 0.50 Fan TSP (in H2O) 0.51 0.50 % of fan range ( %) 34.00 8.00 Fan power (hp) 0.333 0.333 Plenum EAT (F) 72.00 72.00 Primary EDB (F) 60.00 60.00 Operating weight (lb) 113.0 112.0 Unit heating airflow (cfm) 840 406 Coil heating capacity (MBh) 20.49 10.24 Room heat loss (MBh) 17.63 9.82 Room heating setpoint (F) 70.00 70.00 Coil EAT (F) 66.86 69.04 Unit LAT (F) 89.34 92.30 Coil LAT (F) 89.34 92.30 Full load amps (A) 8.82 5.21 Min circuit ampacity (A) 11.02 6.51 Max overcurrent protection (A) 15.00 15.00 Electric heater kW (kW) 6.00 3.00 FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 29 of 41 • Fanno Creek Bldg A September 13, 2006 Mechanical Specifications - Variable Air Volume Fan Powered Terminal Units Item: C1 - C4 Qty: 14 Tag(s): FPB1 -1, FPB1 -4, FPB2 -1, FPB2 -4, FPB3 -1, FPB3 -4, FPB1 -2, FPB1 -3, FPB2 -2, FPB2 -3, FPB3 -2, FPB3 -3, FPB1 -5, FPB1 -6 General Unit Information Casing - The unit casing is 22 gauge galvanized steel. Outlet duct connection is flanged. Total metal encapsulation of all insulation edges. Hanger Brackets provided. Side access is provided. Filter - A filter is provided on the plenum inlet. Agency Listing - UL and Canadian UL listed as environmental air terminal unit. UL Control #9N65. All Trane terminal units are ARI 880 -98 certified. General Unit Clearance Leave a minimum of 36" on control box side of unit for adequate service access. Allow at least 12" on remaining sides for unit clearance. A minimum of one and one half duct diameters of straight duct work, upstream of the air inlet connection, should be present for optimum airflow measurement performance. Upstream duct work should be the same diameter as the primary inlet connection. 1/2" Matte - Faced Insulation The interior surface of the unit casing is acoustically and thermally lined with 1/2 ", 1.8 lb /cu. ft composite density glass fiber with high density facing. The insulation is UL listed and meets NFPA -90A and UL 181 standards. All insulation options will meet the 25/50 smoke developed and flame spread rating (per ASTM E 84 and UL 723 and CAN /ULC S102 -M88) Meets NFPA- 90B. The insulation R -value is 1.9. All cut edges of insulation are completely encapsulated in metal to prevent erosion. Air Valve & Fan Description (Parallel) (Series) The air inlet connection is an 18 gauge galvanized steel cylinder sized to fit standard round duct. A multiple point, averaging flow sensing ring is provided with balancing taps for measuring airflow within +/- 5% of unit cataloged airflow. Also provided with each unit is a calibration chart indicating airflow versus flow sensor pressure differential. The damper blade is constructed of a closed cell foam seal mechanically locked between two 22 gauge galvanized steel disks. The damper blade assembly is connected to a cast zinc shaft which rotates in a self lubricating bearing. The shaft is cast with a damper position indicator. The valve assembly includes a mechanical stop to prevent over stroking. Air valve leakage <1% at 4 ". 0803SQ Air Valve /Fan Combination Size (Parallel) 8" Inlet designed for up to 900.0 cfm. Fan is 1100.0 cfm for Std Motor and 1085.0 cfm for ECM Motor. 1003SQ Air Valve /Fan Combination Size (Parallel) 10" Inlet designed for up to 1400.0 cfm. Fan is 1100.0 cfm for Std Motor and 1085.0 cfm for ECM Motor.. Motor Single Speed, direct drive induction, permanent split capacitor type. Thermal overload protection provided. Motors will be designed specifically for use with an open SCR which is standard. Motors will accommodate anti - backward rotation at start up. Motor and Fan assembly are isolated from terminal unit. Transformer The 50 VA transformer is factory mounted in the fan control box to provide 24 VAC for controls. Fuse Any electric heat unit with a calculated MCA greater or equal to 30 will have a fan fuse provided. SCR- Variable Fan Speed Control Switch The SCR speed control device allows the operator infinite fan speed adjustment so the fan output may be modified to achieve exact CFM requirements. Electric Heat Coil Factory provided and mounted. UL recognized, resistance open -type heater, a disc -type automatic thermal primary safety device and manual reset load thermal secondary device. Heater element material is nickel- chromium. The FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 30 of 41 Fanno Creek Bldg A September 13, 2006 heater terminal box is provided with 7/8" knockouts for customer power supply. Terminal connections are plated steel with ceramic or phenolic insulators. All fan - powered units with electric reheat are single -point power connections. For 480 volt 3 phase and 575 volt 3 phase heaters a 4 wire (includes neutral) power supply is required. Electric Heat Coil Factory provided and mounted. Resistance open -type heater, a disc -type automatic thermal primary safety device and manual reset load thermal secondary device. Heater element material is nickel- chromium. The heater terminal box is provided with knockouts for customer power supply. Terminal connections are plated steel with ceramic or phenolic insulators. All fan - powered units with electric reheat are single -point power connections. For 480 volt 3 phase and 575 volt 3 phase heaters a 4 wire (includes neutral) power supply is required. Magnetic Contactor An electric heater 24 volt contact for use with Direct Digital Control (D.D.C.) or Analog Electronic VAV Controls. Power Disconnect Switch (for VSEF & VPEF) A factory provided interlocking door disconnect switch located on the electric heater control panel. Airflow Switch An air pressure device designed to disable the heater when the unit fan is off. Power Fuse A safety fuse located in the electric heater's line of power to prevent power surge damage to the electric heater. Flanged Connection A rectangular opening on the unit discharge to accept a 90 degree flanged duct work connection. D.D.C. Actuator Trane 3 wire, 26 GA, 3.4 VA, 1.7W, 24 VAC, 50/60 Hz. with floating point control actuator with linkage release button. Running torque is 35 in -lb minimum and is non - spring return with 90 second drive time. Travel is terminated by end stops at fully opened and closed positions. An integral magnetic clutch eliminates motor stall when Trane controls are not provided. An integral 3 screw terminal is provided for field wiring. Operating temperature 32.0 F to 125.0 F. Direct Digital Controller The microprocessor based terminal unit controller provides accurate, pressure independent control through the use of a proportional integral control algorithm and direct control technology. The controller monitors zone temperature set points, zone temperature and its rate of change, and valve airflow, using a differential pressure signal. Optionally, the controller can monitor either supply duct air temperature or CO2 concentration via appropriate sensors. The controller and pressure transducer are installed and factory wired in an enclosure with 7/8" knockouts for remote control wiring. A Trane zone sensor is required. System Communications The Controller is designed to send and receive data from a Central Control Panel or other Tracer family products, or a Varitrac CCP. Current unit status conditions and set points may be monitored and /or edited via this data communication feature. The network type is a twisted wire pair serial communication. Override Commands The following override commands may be received by the Unit Control Module (U.C.M.) from the Tracer System. Control Mode, Action, & Offset (1 thru 12) 1. Control Mode - The U.C.M. Control Mode may be edited from occupied to unoccupied to accommodate night setback/setup. 2. Control Action- The Control Action may be edited from cooling to heating, changing the primary air damper to a heating source. This will accommodate a cooling /heating changeover system. 3. Control Offset- Enabling Control Offset will increase the cooling temperature set point and decrease the heating temperature set point by a control offset value stored at the U.C.M. This function facilitates demand limiting in the occupied mode. 4. Drive damper fully open. 5. Drive damper fully closed. 6. Drive damper to maximum airflow set point. 7. Drive damper to minimum airflow set point. 8. Disable unit fan. 9. Disable unit heat. 10. Reset- Enabling the reset function forces the controller and the flow sensor to recalibrate. FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 31 of 41 Fanno Creek Bldg A September 13, 2006 11. Programmable hot water valve drive time. 12. Programmable air valve drive time. Following Unit Set points The following unit set points reside in the U.C.M. in nonvolatile memory. These set points are editable from the Command Unit or Tracer via the communications link. Set points in Nonvolatile Memory (1 thru 8) 1. Occupied cooling temperature set point 60.0 F - 80.0 F. 2. Occupied heating temperature set point 60.0 F - 80.0 F. 3. Unoccupied cooling temperature set point 60.0 F - 100.0 F. 4. Unoccupied heating temperature set point 30.0 F - 100.0 F. 5. Minimum cooling flow set point (0, 10 - 100% of unit equivalent cataloged airflow). 6. Minimum heating flow set point (0, 10 - 100% of unit equivalent cataloged airflow). 7. Maximum flow set point (0,10 - 100% of unit equivalent cataloged airflow). 8. Fan Control Offset - This determines at what operating point the fan in a parallel fan powered unit is energized. This can be specified as a function of temperature, degrees above heating set point, or primary airflow. 0.0 F - 10.0 F or 0, 10 - 100% of unit equivalent cataloged airflow). Set points in Nonvolatile Memory (9 Thru 15) 9. Heating Set point Offset - This determines at what point the 1st. stage of reheat turns on. Expressed in degrees below cooling set point, only applicable when local thumb wheel is enabled. 10. Zone temperature, auxiliary temperature, and zone set point calibration corrections ( +/- 10.0 F). 11. Flow measurement calibration correction (50 - 150 %). 12. Cooling Set point Low Limit - Applies low limit to programmed occupied cooling set point or zone sensor cooling set point (30.0 F - 100.0 F). 13. Heating Set point High Limit - Applies high limit to programmed occupied heating set point or zone sensor heating set point (30.0 F - 100.0 F). 14. RTD / Thermistor - Determines what type of zone temperature sensor will be used. 15. Occupied and Unoccupied Outside Air Requirements - Determines the percent of outdoor air required in the zone for air quality requirements. Set points in Nonvolatile Memory (16 thru 21) 16. Series Fan Configuration- allows option of series fan powered box to shut off fan and close air valve when unit is unoccupied. Fan will operate in unoccupied mode if reheat is active. 17. Heating set point low limit. 18. Cooling set point high limit. 19. Local heating flow set point enable /disable & set point. 20. Auxiliary analog input mode select for either auxiliary temperature sensor or CO2 detector. 21. Binary input mode select for either generic or occupancy detector. Additional Status Information (1 thru 8) In addition to the above set points, the following status information can be transmitted to the Command Control Unit and Tracer. 1. Active cooling temperature set point. 2. Active heating temperature set point. 3. Current unit primary airflow. 4. Current zone temperature. 5. Re -heat status (On /Off). 6. Auxiliary Air Temperature - Available only if the unit has an auxiliary temperature sensor. 7. Failure Indicators - The U.C.M. will indicate the following: *Temperature Sensor Failure *Flow Sensor Failure *Local Zone Sensor Set point Failure 8. Ventilation Ratio. Additional Status Information (9 thru 12) 9. Fan Status (on /off) 10. Calibration Status (calibrating /not - calibrating) 11. BIP state 12. CO2 Concentration- available only if the unit has an auxiliary CO2 sensor. This mode and auxiliary air temperature are mutually exclusive. FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 32 of 41 Fanno Creek Bldg A September 13, 2006 DDC Sequence of Operation The unit controller continuously monitors the zone temperature against its set point and varies the primary airflow as required to meet zone set points. Airflow is limited by minimum and maximum airflow set points. Parallel Unit Fan Energization As the zone temperature reaches the heating set point, the microprocessor controls airflow to the heating temperature set point and energizes the auxiliary fan when necessary. At or below the heating set point, reheat is energized. The heating minimum airflow set point is factory set, field adjustable, and is separate from the cooling minimum set point. Parallel unit fan energization is a function of primary airflow or zone temperature. 1. Primary Airflow - The fan energizes when primary airflow drops below the fan set point airflow. The fan automatically starts when the zone temperature drops to the heating temperature set point. 2. Zone Temperature - The fan energizes when the zone temperature drops to a selectable number of degrees above the heating temperature set point. Controls Option DD04 Basic Operation: On /Off Staged Electric Heat (Normally Open Outputs) (DDC /UCM) (Parallel Units) A voltage signal from the zone sensor indicating zone temperature is used by the unit controller to determine an error from the set point. This error, as well as primary flow differential pressure, is used to determine damper position within minimum and maximum cooling airflow set points. As the zone temperature reaches the heating set point, primary airflow is controlled to the minimum heating flow set point. The fan operation is intermittent in both modes and is energized as the first stage of heat. The staged electric heat is energized for unit reheat. FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 33 of 41 Fanno Creek Bldg A September 13, 2006 Unit Dimensions - Variable Air Volume Fan Powered Terminal Units Item: C1 Qty: 6 Tag(s): FPB1 -1, FPB1 -4, FPB2 -1, FPB2 -4, FPB3 -1, FPB3 -4 Unit Size VPEF1003SQ Nominal 10" Dia. x 4" Depth Valve Size 8 Depth Nominal :::.:: `Y 1) � \� \ t`�: �'� . 20" <-10 i " 5' ■ 111111111 E 1 cl AIRFLOW i I 5 - 4 16.50 0 11.30 P 32 1/2" NOTES: TOP VIEW m 1. A llow a minimum 6' plenum inlet clearance for un- ducted installations. > 22" 2. Filter is secured in filler frame located in unit inlet. , n o x 1 3. For Motor access, remove bottom screws on hanger brackets to slide panel as shown in drawing. PANEL SLIDES 6" HEATER D 4. See Installation Documents for exact hanger FOR MOTOR ACCESS bracket location. 5' 5. Air valve centered between top & bottom panel. AIRFLOW DISCHARGE OUTLET 6. Healing coil un- insulated. External insulation may be field supplied and installed as required. 7. All high & low voltage controls have same -side • NEC jumpback clearance. 8. Allow 48" of straight duct downstream of unit before first runout and inside of the duct should be equal discharge size. 9. Terminal box access door is side hinged. Allow for 40' clearance. I 10. A 4 wire power supply required for 480/3 & 575\3 l l U ' } single point connection units. 17 1/2" 16' L ! 1_ 2e I Dry Weight 113.0 lb DISCHARGE VIEW Weights reflected may vary ±5.0 lb based upon options selected. FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 34 of 41 Fanno Creek Bldg A September 13, 2006 Unit Dimensions - Variable Air Volume Fan Powered Terminal Units Item: C2 Qty: 6 Tag(s): FPB1 -2, FPB1 -3, FPB2 -2, FPB2 -3, FPB3 -2, FPB3 -3 Unit Size VPEF1003S0 Nominal 10" Dia. x 4' Depth ` . Valve Size 8 Depth �'• • Nominal 03SQ Fan g^'' Fan Size ��� � ^7� „� ?', i s,� 3 r�a�• fw” �U�:G'^ y Filter Size 16 x 20' x 1' (QTY 1) " .'',$. yy.. • "i' TOP VIEW - — 20' - 1 4 "10'-0 s I zO m eo NOTES: • 0 AIRFLOW 16.50 x 11.30 1. Allow a minimum 6' plenum inlet clearance o for un- ducted installations. 2. Filter is secured in filter frame located in unit inlet. 32 1n• 3. For Motor access, remove bottom screws on rn . hanger brackets to slide panel as shown in drawing. 4. See Installation Documents for exact hanger bracket location. z zz 5. Air valve centered between top & bottom panel. 1 ❑ 6. Heating coil un- insulated. External insulation may HEATER be field suppled and installed as required. La 7. Al high & Idw voltage controls have same-side \i / PANEL SLIDES NEC jumpback clearance. FOR MOTOR ACCESS 8. Allow 48' of straight duct downstream of AIRFLOW unit before first runout and inside of the duct should DISCHARGE OUTLET be equal discharge size. 9. Terminal box access door is side hinged. Allow for clearance. 10. A 4 wire power supply required for 48013 & 5750 5' — 40' v single point connection units. T 0 16 17 l/2" i Approximate 113.0 lb Dry Weight Weights reflected may vary 20* —e- ±5.0 lb based upon options DISCHARGE VIEW selected. FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 35 of 41 s • Fanno Creek Bldg A September 13, 2006 Unit Dimensions - Variable Air Volume Fan Powered Terminal Units Item: C3 Qty: 1 Tag(s): FPB1 -5 VPEF0803S0 Unit Size Nominal 8" Dia. x 4" Depth 1111111111)11......"\100. _ Valve Size & Depth Nominal ;;;"■‘": 03S0 Fan Fan Size ■ : Filter Size 16" 1) j•∎P• ∎4 Fi y.. ya i .$ . Al) ' TOP VIEW 20" a . 4 {o-6 5' I n a t NOTES: O AIRFLOW z 16.50 % 11.30 1. Allow a minimum 6' plenum inlet clearance r for un -ducted installations. 2. Filter is secured in filter frame located in unit inlet. 32 1 2 3. For Motor access, remove bottom screws on m zi hanger brackets to slide panel as shown in drawing. 4. See Installation Documents for exact hanger bracket location. 22 m 5. Air valve centered between top & bottom panel. E O O 6. Heating coil un- insulated. External insulation may be field supplied and installed as required. HEATER 7. All high & low voltage controls have same -side PANEL SLIDES NEC jumpback clearance. FOR MOTOR ACCESS 8. Allow 46' of straight duct downstream of AIRFLOW unit before first runout and inside of the duct should DISCHARGE OUTLET be equal discharge size. 9. Terminal box access door is side hinged. Allow for clearance. 10. A 4 wire power supply required for 480\3 & 5751.3 5" 1 • ae' single point connection units. 1 0 L 16" 17112" Approximate 112.0 lb Dry Weight 160.0 lb Weights reflected may vary f 2° ±5.0 lb based upon options DISCHARGE VIEW selected. FLD -- Furnished by Trane / Installed by Others Trane Equipment Submittal Page 36 of 41 • • • Fanno Creek Bldg A September 13, 2006 Unit Dimensions - Variable Air Volume Fan Powered Terminal Units Item: C4 Qty: 1 Tag(s): FPB1 -6 Unit Size VPEF0803S0 Nominal 8" Dia. x 4" Depth Valve Size & Depth Nominal 0350 Fan Fan Size ; ;;= • • Filter Size 16' x 20' x 1' (QTY 1) 1 20 " ► o-s' 5' 11111111 G n AIRFLOW g 73 16.50 11.30 i O 32 1/2" NOTES: TOP VIEW re 1. Allow a minimum 6' plenum inlet clearance • for un- ducted installations. 2 D 22" m 2. Filter is secured in filter frame located in unit inlet. o x 3. For Motor access, remove bottom screws on HEATER hanger brackets to slide panel as shown in drawing. \ ! 1 PANEL SLIDES 6 4. See Installation Documents for exact hanger FOR MOTOR ACCESS bracket location. 6 5. Air valve centered between top & bottom panel. AIRFLOW DISCHARGE OUTLET 6. Heating coil un- insulated. External insulation may be field supplied and installed as required. 7. All high & low voltage controls have same -side NEC jumpback clearance. 8. Allow 48' of straight duct downstream of unit before first runout and inside of the duct should be equal discharge size. 9. Terminal box access door is side hinged. Allow for 40- clearance. 10. A 4 wire power supply required for 480 \3 & 575\3 0 single point connection units. 17 1/2' 16• 20» -- Approximate 112.0 lb Dry Weight DISCHARGE VIEW Weights reflected may vary ±5.0 lb based upon options selected. FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal • Page 37 of 41 Fanno Creek Bldg A September 13, 2006 Accessory - Variable Air Volume Fan Powered Terminal Units FPB3 -1, FPB3 -4, FPB1 - , Item: Cl - C 4 Qty: 14 Tag(s) FPB1 -1, FPB1 -4, FPB2 -1, FP B2 FPB1 -3, FPB2 -2, FPB2 -3, FPB3 -2, FPB3 -3, FPB1 -5, FPB1 -6 Pa In. wg Parallel Fan Size 03S0 —PSC 199 0.80 . , 174 0.70 ,�..: • - .- ', 6 • • 150 0.60 4 x \ \ \ \\ N C LL k ` � 1 \ m 125 0.50 m t r ` >_ f' \ ■ '. :co . -_ U 100 0.40 �i \ \ V1 JM l } E» ,1"{ " . __ - _ `\ \ \ 1. Ei 75 0.30 , v �+ , co •ii Y £ 9 l 4 l 1 _ z -, .. .. - _ . p 50 0.2 \ \ a \ 7 I f 1, \ E\; 25 0.10 " 200 300 400 500 600 700 800 900 1000 1100 1200 1300 Cfm 94 142 189 236 283 330 3 425 472 519 566 614 Us Airflow • FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 38 of 41 • Fanno Creek Bldg A September 13, 2006 Field Wiring - Variable Air Volume Fan Powered Terminal Units Item: C1 - C4 Qty: 14 Tag(s): FPB1 -1, FPB1 -4, FPB2 -1, FPB2 -4, FPB3 -1, FPB3 -4, FPB1 -2, FPB1 -3, FPB2 -2, FPB2 -3, FPB3 -2, FPB3 -3, FPB1 -5, FPB1 -6 480 Volt, 3 Phase, 4 wire 1.3 L2 L7 N I I I i I I I I I I I I I I I I I I I I T • ( // • ( T / • V V • N G Heater Control Wiring /\ WARNING HAZARDOUS VOLTAGE! DISCONNECT ALL ELECTRIC POWER INCLUDING REMOTE DISCONNECTS BEFORE SERVICING. FAILURE TO DISCONNECT POWER BEFORE SERVICING CAN CAUSE SEVERE PERSONAL INJURY OR DEATH n CAUTION USE COPPER CONDUCTORS ONLYI UNIT TERMINALS ARE NOT DESIGNED Customer Notes: TO ACCEPT OTHER TYPES OF CONDUCTORS. 1. Factory installed. FAILURE TO DO SO MAY CAUSE — — — — Optional or installed by others. DAMAGE TO THE EQUIPMENT. • FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 39 of 41 } • Fanno Creek Bldg A September 13, 2006 Field Wiring - Variable Air Volume Fan Powered Terminal Units Item: C1 - C4 Qty: 14 Tag(s): FPB1 -1, FPB1 -4, FPB2 -1, FPB2 -4, FPB3 -1, FPB3 -4, FPB1 -2, FPB1 -3, FPB2 -2, FPB2 -3, FPB3 -2, FPB3 -3, FPB1 -5, FPB1 -6 HEATER TERMINAL DAMPER BOX WIRING ACTUATOR FAN CONTROL WIRING / B — OX WIRING r "l 783.2 TB3I1 1 78J3 I TB, 2 I I I I B2 5 I __ __ I I __ TBI -, I I I I I T82.6 1 1 I I I I 1 I I I I I I 1 2 ND STG HEAT O J� 1 �/ J (( , J � % 1 = 2 >I w '',6; ( 12 I (( 3 � O 1 ( 2 2 0 IST STG HEAT ¢ TBl TB2 TB3 m 0 DIGITAL ZONF SENSOR OPTIONAL FIELD L !.STALLED DIGITAL ZONE SENSOR j R -FAN BR r T82-6 TB3 -1 Y I T132.5 T03 -2 I O a \:11 24VAC BL I TB3 -3 , I I m > O l l 1 �' J, I 7 5 4 3 2 I - di- L � - ACT m � r_ 1 _ ZONE SENSOR 61P GND 24v PRESSURE W/ COMM. JACK TRANSDUCER REMOTE MTD. ADDRESS D.D.C. \U.C.M. J3 Q Q SWITCH CONTROL BOARD ti R + OPTIONAL FIELD a BK VOUT L INSTALLED ZONE SENSOR J 888888 G r o 1 °w F w . . KT] Y 6 Y – 'P — re I � [IS/ 7 I 24V (TB1.1) 24V m — m m r ma ❑ TEL GRN ❑ r[ �ll ,. v, , \ CO2 (TB36)GND ~ T T T m T ZOO GND SE AICO2 GND SENSOR GND p I I I OUT V (TB3 -5) A/CO2 I I I I I I OPTIONAL FIELD INSTALLED I I I I I L CO2 SENSOR J I I I I I I I . - I I -I D.D.C. \U.C.M. r z - I - oI of CONTROL BOX OPTIONAL — BL I I I FACTORY � — '_// INSTALLED _ Y W IPELESS OPTIONAL FACTORY INSTALLED r 1 SHIELDED TWISTED PAIR TB3.5 - 1— TB3.6 WIRELESS I I Y I 1 COMMUNICATIONS WIRING r z4vr — - - BL 1� R(HOn — — — _ RB1.1124VAC MON ' mU m[ 0 (COML — — (TB4.1) BIP II� — _DFUNC_C4NTACJ _ (TB1 1) 2aTUC • • BKLRETURN GND 24V )— — — !TB,2) GND OPTIONAL FIELD INSTALLED Y L AUG TEMP SENSOR W550 Board — NOT CONNECTED L J OPTIONAL FIELD INSTALLED L OCCUPANCY SENSOR _I NOTE: /\ WARNING 1. FACTORY WIRING FIELD WIRING HAZARDOUS VOLTAGE! — — — — OPTIONAL OR ALTERNATE WIRING DISCONNECT ALL ELECTRIC POWER INCLUDING REMOTE DISCONNECTS 2. 1/4' QUICK CONNECT REQUIRED FOR ALL FIELD CONNECTIONS. BEFORE SERVICING. 3. 1 ZONE SENSOR TERMINALS 4 AND 5 REQUIRE SHIELDED TWISTED PAIR WIRING FOR COMMUNICATIONS FAILURE S CONC POWER BEFORE =ORE SEE SERVICING CAN CAUSE JACK EQUIPPED ZONE SENSOR OPTION. SEVERE PERSONAL INJURY OR DEATH 4. I NO ADDITIONAL WIRING REQUIRED FOR NIGHT SETBACK OVERRIDE (ON /CANCEL). / • \ CAUTION 5. I THE OPTIONAL BINARY INPUT CONNECTS BETWEEN TB4 -1 (BIP) AND 24VAC (HOT) FROM USE COPPER CONDUCTORS ONLY! TRANSFORMER. INPUT CAN BE RECONFIGURED AS AN OCCUPANCY INPUT VIA THE COMMUNICATIONS UNIT TERMINALS ARE NOT DESIGNED INTERFACE. TO ACCEPT OTHER TYPES OF B. I AS SHIPPED, THE AUX INPUT IS CONFIGURED AS AN AUX TEMP INPUT. THE AUX INPUT CAN BE CONDUCTORS. RECONFIGURED AS A CO2 SENSOR INPUT VIA THE COMMUNICATIONS INTERFACE. FAILURE TO DO SO MAY CAUSE 7. I S TERMINAL NOT TO BE USED WITH VARITRANE. DAMAGE TO THE EQUIPMENT. • FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 40 of 41 • • Fanno Creek Bldg A September 13, 2006 Field Installed Options - Part/Order Number Summary This is a report to help you locate field installed options that arrive at the jobsite. This report provides part or order numbers for each field installed option, and references it to a specific product tag. It is NOT intended as a bill of material for the job. Product Family - Commercial Rooftop Air Conditioning Units (Large) Item Tag(s) Qty Description Model Number Al RTU -1, RTU -2 2 90 -130 ton Packaged Industrial Rooftop SFHGC904 Field Installed Option Description Part/Ordering Number Temperature Sensor Standard Flat Roof Curb 0368 - 0166 -0100 FLD = Furnished by Trane / Installed by Others Trane Equipment Submittal Page 41 of 41 i scoo� T" „... 017.---, _ AZURIAT” ® - ra, / eo_ ope . Via'. {, n `• y Subtly Reflective, Color- Enriched Glass Glass • Coatings • Paint nt rt^ , ,� .,1 '"ea V" . =d . chi: :'b S "�? . '''''F - )V 4 4 . ;o-. +a.Rt,;,.y. `_.�Y c ,t; „e yg .. .� J '7,: „� . 7. . 1 ,a ' ks . `r } ., f i,^ p e:..� 3 -" s; '�1 " • . it f ? " '-'3", . 1" '' '' .r „ . ,; 4.1 ' -( G -?¢f i- ai:.;.7... 't -x's t" ;, .V. „ . :. � '1 'q'N 'a ;}x i ewa ; • ;, 't '4E.et'fi y .��' ia 3. J , fit. '''''*-'-'1i ;,..� ' f.2 -: • :'.,,". , t, ,,.. .. ,:r; 3`:i, r' ,,t 4 N ., � �,!r -J L, <if,. a. ; 3Aa �`.`.. Sn� ?. �F .: . ca. � ` . .r . " `��+ 4 'a`iv �� �"4 t,. ,:: � «t r h.� . � � d . � s � �, q .: < ,4. •n +�d�Y, s � .�, , b , " .!w :z �`-� .r' , t'��',n.`. - i �� iv . .� ° :. b t ��4�' a �rd; ��� .. n, -� , ..- . �ct � , tK'' _ #'�"a� � `� € .#'s �„ '-'^'. '°.. t �� . ..' �t ii k = 9' � ' € � ,.. � .� �:�., r '�:'� ���ia �- � ��Y._�'�,.�<rr 7�- .:. „�i.�+i,, .au+.`�.f..s ,x°s, .!'x,,- ��}'.�3;1.rr �,r,T �x�i"4� ,��,..2, 1. ' �' �.�d� � '��.x. - � 3.h ,�,h.... �, �f��t'' � ,Ka c , � � i 3 ' � , �.. x. x �;_ � � .As Aesthetic Description ) rs ��. r E <, N � With the advent of sustainable design and its emphasis x 4. y ; , - 4 , , on daylighting, architects are looking for architectural �,'�k glasses that offer high levels of visible light transmittance ° w Y ;1 x, '` t,,, �� along with a more understated look than the mirror-like , T � \ t - • ,. ' s - �” i ' F- appearance of traditional reflective glass. With the . . �• . ' . ' ; . introduction of V,stacoolTM AzuriaTM lass, those desires . . - ' ` have finally been met. g � , }� Y-r ar °` '' ; .• ' ' r . i ' °: & ,. j Vistacool' (2) Azuria' is a subtly reflective, color-enriched ' ''' -?- IVA r b' # 3 s . glass that marks the introduction of an entirely new °' - l[ -� ' f A - � - ,. , < = product category in the architectural glass industry. r � � „ -* F � ` P_ While Vistacool (2) Azuria offers an unprecedented S 4 � " i . = ,, . ° �r p ' combination of soft reflectivity and light transmittance, its g , , .� F k ,;.,� greatest appeal might be its stunning visual characteristics. , , -Li. l k , �s ° r t r . r ` i With an exceptionally rich and lustrous aqua -blue, -,w,,,,_ ,, « % `' 4 I ti -,c-i-14" IA. Vistacool Azuria has a comfortably bright neutral 1 w `f ..r � ' t { s„ rt 0's- '{ v, appearance on both the interior and exterior of the glass. \x - c � • K . al . f , , ,, , ; . This is a direct result of the second - surface -only Vistacool : � � ♦ . T .0 �., ; f � ,,, q i -, ',, coating, which not only transmits high levels of daylight, , : a 4: ,x • 1 l ,�� i � H+ g. Y g y r but, due to its color neutrality, also serves to amplify and , 4 , r T,n �_ e§ enrich the tint of the glass substrate underneath, � si , t , k �' creating a crisper, cleaner and more pristine exterior ,.� - , f k ,,,, � ' k aesthetic. The glass soft reflectivity also makes it ideal , v� f lu , , :'W 4 for harmonizing vision glass with non - vision spandrel ', I `, , , . "` ", � � f- * i `_ - . " t % x 6 . 4 q C7 �t ...+, 7 s" ' m ; - •le. O J q ,7 g a -P-, , v A 3 , Wr.v. `•. glass, creating a more monolithic appearance. 1; 2 ) f t � ` ` # { h0 ':l A t; a� t The unique place of Vistacool Azuria on the architectural f °' gy m w i- - ' 3 .N tAagt 5- ', „ glass spectrum is best demonstrated by reviewing the me , .x =` x f' r _ :i'ec, -1 relationship of Transmittance and Reflectance in ' `. --, w � , > , q r „ � - � �� t .. Y 6 ` --_i # ::- ` `� , . comparison with other reflective glasses. Vistacool (2) Azuria offers an unprecedented combination of subtle reflectivity This is illustrated in the chart (right), which shows that and visible light transmittance, along with an exceptionally rich and lustrous levels of outdoor reflectivity vary significantly among aqua -blue sheen. The Vstaevo1 coating not only transmits hqh levels of day45he reflective glasses, but that none have the high visible but, due to its color neutrality, also serves to amplify and enrich the tint of the light transmittance of Vistacool Azuria. As a result of Azuria glass substrate underneath, creating a crisper, cleaner and more its exclusive combination of these characteristics, pristine exterior aesthetic. Vistacool Azuria occupies a rare niche among reflective architectural glasses. Relationship of Transmittance and Reflectance Performance Characteristics Current Reflective (6mm) Tinted Glass Products Architects who want both the visual characteristics of 60% Vistacool Azuria and higher emmissivity can combine 55 %- Vistacool (2) Azuria with Sungate® 500 Low -E glass or 50 %- 4 PPG Vistacool' Azuna' " Glass Solarban® 60 Solar Control Low -E glass in a one -inch insulating glass unit. This produces Solar Heat Gain a5 % - Coefficients (SHGC) of 0.29 and 0.26, while a0 % _ maintaining high levels of visible light transmittance. PPG So/attool " Azuria class E 35 % - S PPG Solatcool• Cantle' Glass y 4 1 � $ g n u - 25�✓ WI:fiCo.r 1" Azuria v r 1 y ' :. " 15 % - * Other Green Glass d a y ' 5% 10% 15% 20% 25% 30% 35% Other Vistacool glass products coming in 2006 Reflectance • s Vistacool AZURIA" Subtly Reflective, Color- Enriched Glass G ep c ae d• '. * d � t r T c > 1.z a w,..l€r � ; x` kMfL' � k . 'v �+" 4 V a. q k " S .,143 � 'd 1 is S0- f ," `$ '-12 le . n " Y`v.'f` ., r n \ T T 41 p ..�" :.A r X ; ' rl y a t• z: vi t ,. q ` atx ' si` -P r3 S CS' r.\i r\, , 1 vi- X r � c 1 Vistacool'' Azuria (right) features q . q. �_-`., ' z " .+ - u � 6, K r ;'44 z • r ' ., �.+ i s t if \ ";44,, a nev so Iv reflective, second-surface �'r. ` v .. t s 0 t' n, :r � 4 ;. 4 .c.3e s+ y as coating technology from PPG that t y - tlaw4wwsivilk. h � } � ,., r $ �;.. y . ;, ,, Al... . 4 • - enriches color, brit without the mirror - � . � 2 . r,� t ?tw gg s ,1 P .� s ", k v , . o " like finish of traditional reflective 12�" 3 a a. (F � � , ' T 8 glasses such as Solarcool Azuria glass � t 1 t g , T V , ", t , Cp ,,, ,t y , �; , 't .- -- + b a t (haft). In addition to saturating the + Y i r's' 41,44- „ c $ @ r a ,, aqua -blue color of Azuria' glass, the cif x 1 7 sus ,.Y: ra a rt ., \ a "` ° �? , y color - neutra V istacoo l coat also � y :4% 4Y7,,i I n r x Y '.'" T'ti ^ "" s allows Vistacool Azuria to transmit V.- � w j i tiY�, Iht "F`' ,�;� r � ,� � � � X „��� � , , s � h percentages of daylight and , , ' a € . o- c t i :, r i a t ,67; s, - ax4,A. yr appear less reflect t ha n ot dt. � 41. d -,- i $ ;* g:454a`�. i .* _„ , -. x.. -, :A - t� ` '�le 'w reflective coated glass products. Fabrication Additional Resources eco Vistacool glass provides maximum processing Vistacool Azuria glass is just one of the Building Solutions' flexibility and can be easily laminated, tempered or heat- EcoLogical Building Solutions" from PPG. For more strengthened to satisfy increased strength or safety information, or to obtain samples of Vistacool Azuria glass, glazing requirements. With its pyrolytic or "hard coat" call 1- 888 - PPG -IDEA or visit www.ppgideascapes.com. coating, Vistacool Azuria glass is durable and readily available for rapid job -site delivery from nearly 100 glass PPG IdeaScapesT Integrated products, people and services fabrication locations throughout the U.S. and Canada. to inspire your design and color vision. VistacooP (2) AzuriaTM Glass Performance - Commercial Insulating Glass Unit and Monolithic Comparisons Transmittance Reflectance U -Value (Imperial) K -Value (Metric) Solar Heat Light to Glass Type Ultra- visible Solar Visible Solar Shadin Winter Summer Winter Summer Coeffig Gain Solar violet % Ene Li Ene Night- Day- Night- Day- Coeffi- Gain % %, . �;� time time time time C1 cient (LSG) (:i �OIAW(• ' _,',) a - ,Yf'�• It:' r, ... f ?. ., w '°si +'"'' `"?'9T; f;-;J\ k 'M -. a` _- Saar , ',Z-041..- li :'' " 114A, `"x"` ' 4 ; KC. AZURIA 35 52 26 I 19 I 10 1 1.02 I 0.92 � ' 5.78 I 5.27 I 0.52 I 0.45 I 1.16 W` :) 141 - & - itit: ,eri'o nnance4t =i d (2$minff nit i'ith'1/2.= inchi(t3nmt);a - ;an. two f /4lnch Ittes ;,ipteriortlife a ;. , , . r.X 'C , 0: : ' war' , VISTACOOL AZURIA 29 47 22 21 11 0.47 0.50 2.67 2.84 0.39 0.34 1.39 :k;:;,,SUNGATE '5(70 Low Glass (3) ' � ! , ,'f'C' *fib 4 ;,";.. R . 1' ? ; .. ', e. ., iu i ;, '3Y ` `f. ® VISTACOOL AZURIA+ LOW - 24 44 19 22 11 0.35 0.35 1.99 1.99 0.34 0.29 1.52 ? %SOLARBAN' 60 :Solar Control Lo Glass 0)4-, `,T.;,� ° ,.^y ,' ,'": r- , D , '4+ , VIS TACOOL AZURIA+ LOW - 11 42 16 20 11 0.29 0.27 1.65 1.53 0.30 0.26 1.62 Notes: All IG data for 1/2' -air space with air (not argon). Vistacool coated glass is recommended for use only on the 2nd, 3rd or 4th surface of standard architectural insulating glass applications. When used in architectural applications as a monolithic lite, the Vistacool coating is to be glazed to the interior of the structure, 2nd surface. Performance data calculated using LBL Window 5.2. For detailed information on the methodologies used to calculate the aesthetic and performance values in this table, please visit www.ppgglazing.com or request our Architectural Glass Catalog. © 2005 PPG Industries, Inc. All rights reserved. Atlanlica, Azuria, Azurlite, Caribia, Graylite, Oceans of Color, Optigray, IdeaScapes, Solarban, Solarbronze, Solarcool, Solargray, Solargreen, Soles, Solexia, Starphire, Sungate, Vistacool, PPG and the PPG logo are trademarks and Ecological Building Solutions is a service mark owned by PPG Industries, Inc. Printed in U.S.A. 8 ® `ale 7094 9/05 10M °•' /_ Glass • Coatings • Paint - ,-:' : r..* a c! 1,, d r: a s ,n_. Glass . n ' . n`:`s bi + r'0:: err '' .:: -.,A ' '' ' •:.... • - � z PF G' Industrie :Inc •;TechnolopysCenter ?Gu s Run;Road PittsbhPA • u rg V ' : ":•4' �1523 7." 1; PPG - www :p j rigid - I ca e 's. c o m k .1 : z "t " } g ,. y „ dt_l , . , C i , *„ ± .ivk .. t1 � £ { .'tz � X 'c.. , . %.,, is ' '� y ::." }i i , b r,, y ,., q, 5 5,: � 1~ F � YY b ea$ _ K'' • p `b-` 4,1 -c ' , `* p , . r s :1 � g . ! `*N -. ;, i +e h ' ti sft' ` f ,d, . _ r. i i . � .ar .:, > ' X . = e ." - `�, C� �" �,r -u. �cs a;?FY .& ?^a.0 ' 3 t+,[°'�..4 v'la '1`� . . ` . ,. ±- ' �,. °*,.'f_�u,��` �b� �f r.._.rK .. �t�'� � _ ._ E ��. tx,k+.2 " 1v • .v _ °7 ":.'.� - "' . =ti;k °' SEP 11 2006 4:18 PM FR CULUER GLASS C0.503 228 9155 TO 5034788038 P.02 New ° Subtly Reflective, Color- Enr and Reflective Glasses Vistacaol — � — . .) Ataria AZUR! _ . ,, rornbintietion r I . ` i ; ` > and lbrr Subtly Reflecrive, Color - Enriched Glass • � .� y ,. F , nc y l; v , 40ty A'ixb an. Visfacool�*+ Azuria; a second surface coating, marks the 1 trapsianall, rich d o� introduction of an entirely new architectural glass category, : Imposes a - litnc offering high levels of visible light transmittance and a more 2brVssz�no! Understated look than the mirror-like appearance of traditional t ,;, + - raissrtyrurr04 reflective glass, ,, o /noir .af1 , bar, (414 vistacool Azorla delivers the characteristics in an y ce tionall m us color noonday , rich aqua -blue sheen, the direct result of the new Vis -Cool • i 7�" s`rtotsoai°•r't' coating, whose color - neutrality transmits high levels of daylight is ; ' I • ' c f s hcA rho ` kr i s • and amplifies the tint of the glass substrate underneath, :' sfp'aYe rrndarnsaui, creating a cleaner, crisper, more pristine exterior aesthetic. , erein i 1 -arguer and mom The Unique place of ViSt2Cool Awria on the architectural glass 'prirnine exterior spectrum is best demonstrated by comparing its relationship of i aesthetic. Transmittance and Reflectance to other reflective, tinted glasses. While levels of outdoor reflectance vary among reflective glasses, } z Vistacool Azuria transmits 52% of visible light -- between 20 _ , , and 35% more than comparable reflective tinted glasses (6mm), , Paired in a one -inch insulating glass unit with Solarban 60 Solar . i1 " .R"�t� M,.. Control Low -E glass, Vistacoo/ Azurta achieves an excellent SWGC of 0.26 while maintaining a VLT of 42% and exterior - reflectance of 20 %. The glass' soft reflectivity also makes it - ideal for harmonizing vision with non - vision spandrel glass. S'Iarcool® Reflective Glass Sind their introduction in 1972, durable Solarcool - • active ►�' coat • !.lasses have enhanced the appearance of th • sands of ' � , ; .,t t buildings, as well as the comfort of their tnhabltanL.. Combined . ` in a one -in• insulating glass unit with clear gl__s, Solarcool reflective gi --• offers an expansive palette of - •pearance and " performance ch acteristics with Solar He. • Gain Coefficients ranging from 0.34 •0,21, This perform. • ce can be enhanced 'k with the addition of - •lar Control • or Low -I_ on the third ,/ P-• . ' surface of a one -inch i ulati rig un , As with all reflective " `; �,ti, ' glasses, Solarcaal glas - • can h - • contribute to better " ' } , s t vision /spandrel color har • y When glazed to the out... d ' e ( #1 surface), Sofar000l produces a reflective - tallic sheen. On the second (#2 surface), Solarcool . tings in co •ination with PPG tinted 2, _— glasses to produ • a range of aesthe options: -� • Solarlcaol • e s glass yields a reflecti = aqua -blue tint Prrorald Stone Condor • Solarco% - bla• glass imparts a reflect e, warm green Location. CaYewr, Alberta ' app . .nce. Froduca, Solarwu1 "Aturia' • Sob col Salexiam glass displays natural gre: n reflectivity. Arcbixct 5TJIQArc&iicctr . • Sr arcool Bronze glass produces a silvery-bro aesthetic. Cor•cracwr Babr • • Gla+r Frrbrioetmr. O ldcarcra Gl - - 6alg • Solarcool Gray glass shows a darker gray. Dono ,or Praaern .Real Etrar `Sec u:arLtd. • Solarcoal Grayliie glass achieves an almost.black aesthetic, sae compieta porformance data for noacoo /Rzurfa SoIarcaolRefleotiva Glass . e , " K,, on Pages 10-11, ' ' .0 Parr of Bea cfl Building Sohnioa roc pa c SM by PPO .9 /2). t :' ' ` , d^ - � ..,)• ` .Glass • Coatings • Paint 3 . S 11 209E 4:19 PM FR CULVER GLASS CO .503 229 9155 TO 5034789035 P.03 y , One -Inch Glass Unit Comparisons .,. Insulating Vision Unit Performance ColruariSatls , .1-inch (25mm) unim with 12 -inch (13intn) airspace 1/4-inch ;b•,Gr1' (t(- imerior lite clear unless otherwise noted Transmiaaoce' Reflectance' Sow l Shadm¢ K ept Soler Gast Type Ulu+• T Viaihla Tata Wittier Summer ' ylYptee , 4 :1iuAieer eoelA Cam talc violet Islhla Solar lath Solar Night- Da)- r •, .t clerrt' Coeifj. (.511)` % % fin Y r IY lice ti . ,...* .' •,..ih M: , dent' Zi Concert SOLARCOOL ' Glass " 501ARCX 03 saLexln 7 27 18 � 0. 0.50 2'67 0.32 0.28 0.95 , ' i sOLARCOOL (2) SOLETIA = 27 19 12 0, 0 -50 - . . 2.84 , 0 " 36 0.31 0,87 12 SOLARCOOL (1) CAN18L4 12 50 0.d7 0.50 2i63 (gam 0.23 0.22 1.05 5OLARCOOL (2) CAR 111L4 19 9 0.45 0.50 ' , 2,84 1, 0.30 0.25 0.96 SouVic70L (11 AZURIA 10 23 30 0.47 0.50 2,67. ' • -'2.94: • 0.25 0.21 1.10 SOL4RCOOL (2) AZOV 10 10 0. 0.50 Mgr .'. 294 i ' 0.29 0,25 0.96 SOLARCOOL (1) a : :R 11113MMIFIE 37 31 0. 0.50 wegii ' :2;84• ` 0.35 0.31 0.58 SOLARCOOL (2.1 8,,,,, 14 12 0.46 0.50 ( `J 0.40 0.34 0.56 SCLARCOCL (1) Gray 37 90 0 0.50 was 5 0,32 0.27 0.59 ''..`) 30LARCO (2) Gr. 10 0.48 0 -5D '; ' ., a 0,3 • 0 -3 2 0,52 �':<a bi_t-.a gOLARCCCL (1) GRAYL)Td 36 30 0. 0.50 ' ingisEn . 0.26 0,22 0,23 SQLARCDOL (2) =mar 048 0,50 ,_; 3;1 ?'':8,9 y ,,,Q,d }. • , 0 6 0.19 V/STACVOL`" and SOLARCOOL't with ° SUNGATF" 500 Low -1: (3) ' � Y, � d 'r 145TAG00.12) AYURIAa Low-E. 11 0.35 0. i 0.3 0.29 NEER '.: 0.31 0,26 0.96 SOUIRGOOL (2) SOLIXIA Lwr E I 13 0.35 0 35 1;94 t SoLARC00L (2) C4171014. MEE 10 19 10 0.35 0.35 ' 1.99.; :1.99 j 0.24 0.21 1.05 ;,J 6•0MRCDOL Lt--E 22 10 20 10 0.35 0.35 .1.9'9,' ' spoi 0,23 0.20 110 v:. SoLARCOOL (2) Etronrc. Law-E 5 18 17 gm 13 0.35 0.35 1.9,9.' '1.99 ., 0.34 0.29 0.62 :`, 50LARCOOL (2) Ow + Low -E 14 10 0. 0.35 1,9,5 ..'.: , 7.99. 0-30 026 0, soLARcOOL 12)orrArure + Low -E 5 9 5 7 0,35 Q.35 T ;,O.gs , ,,0.21, 0. 24 • :' VISTA000L arid •SOLARG00L'r with SU,IV6ATE =' 1,00 =E' (3) :: „t ..., 1 V(ST #COOLf2)A2URIA +J-aw•E 20 16 20 •11 • 0,31 0.30 ):7b,,.:1,70''' 0.32 0.28' 1.54 V ' i 501AR000L (2) Z /4+ .....E iminu 13 24 IIIEM 0 -31 0.30 own 1.70 0.25 0.23 1.09 ' SOLARCOOL (2) CAR13IA + Low. 4 21 0 igral 10 0.3,1 l 0.:10 IIME 1.70 0.21 0.18 MBA +';;, SOLARCOOL (2) AZUR/A. low•E IEMIIIIIM 9 19 10 0.91 0.30 ' 1,71'• :%'i'r1,70 • • 0,2). 0.18 122 £' " SOLAR000L (2)Bronze+Low•E .4 NW= 14 0 0.30 �'� 0.25• 0.24 0,7). 7 9 SOLAR000L (2) Gray 4 LovrE 4 14 - 11 0.31 0,30 1,7,6.,', • :1.70. . 0.25 0.2,2 0.64 . soWt000L (2) ePAYLU'Tf k Low Ng. 4 7 Enna= 0 31 020, .4 IMISt '! ' 111, 0.20 ,0 17 , 0.24 ' (. ti ^SOLaRCDOLc x wttlt?SDL4PBAN"' %' 60 Solar Control I ow E (3L` , . , ,'{ f , :�; c , %r to s : .sx ‘,1, ..E ' ., .: ': VISTALOOL (2) AZURIA r Lars 11 20 11 0.29 0.27 MO LEE; 020 026 1,62 °" $QL.ARCOOL (2) SOLDUA 4, Law•C MEM 24 10 24 15 029 0.28 1,66 r . • 1.57• : • 0,22 0.19 1.26 ''. SOLARCOOL (2) CAAI9IA a Lv _ 2 20 8 19 10 029 0.28 ' mom 1:57.: • 0.19 0.17 1.31 50U(flC0OL (2) A2URIA - Lvw.2 21 8 inn 10 0.29 028 iremingo 0.19 0.17 1.31 sOLARCOOL (21 Enna +Low - 17 Elm 74 18 0.29 0,28 1:65'': N 0,21 0.18 0.94 :, "- sotARcoOL (2) Ara . Law - 2 14 MIIIII 1 1 14 0.29 0.28 :65 ':t SEMI , 0,20 0-17 0.88 SOLARCCOL (2) GiMYLITE. Low•E ME 4 4 5 10 0.29 C PEMP , , 415 ... . 013 0.33 • 'V!Sr^ and SOLARCDOLr' with SOLARBAN'' 70 XL, Solar'ConV0l Lbw -1 (3) �� 3?, VIBTACOOL 12) AZUR44. Low -E 3 '. 13 20 0.29 0.27 ie ! t� 0.27 0,2 1.50 t„ `'1 sQLARCQQL (2) SOLEs7A +Low -F MIN 7 16 0.29 0.27 illEMEM 0.19 0.17 1.24 , SOLARCOCL (2) CAtf)BIA. Lcw -1 1 6 19 10 0.29 0,27 1.65"v; Mai 0.18 0.15 1.20 ' ; SOLARCOOL (2) AZURJA v• LWw•E 18 6 19 10 0,29 0.27 1113035113231 0.13 0.15 1.20 6014R000L t2) Brente + Low.E 19 0.29 0.27 .65'....; .; 1.53 0,17 0.15 0- Mill WM 0.29 0.27 1.53:: 0.16 0,14 0.86 t SOl4R000L (21 Gray Lur•E .;, SOLARC00L C2) CRaru1f , LDw •e 1 4 2 5 10 0.29 0.27 1:65, ."1.53 ' 0.12 0.10 0,40 Performanee data is based on representative consoles of factory production. A 1ual values may vary slightly due tc ear11110ns'in• the production process. 1. Hours soy vary Quo to ntmautacnaioq vIvnet= eu tskuesoo clam is uase4 on NFU convectors" 1.7.0 shading coollieiwn` vilo¢{irrdicateitotter ocrkerrianee in reducing sola1 metbadatoD u5Jot the LSL Wiadcw 5.2 sodware. Variations from previously mangled daa are ncht gain_ Non: Pedrymanca valuvgvilw, aldtlated.tisitp the 19L %rld& 5.2 pry due to aim alums In the LBL Window 52 somata verm Onion 4,1. ailing NFRC 100.2001 etandard M �bhb'soouner &sign mn4ldOn. 2. 'rise mittvnee and reflectenee valves booed on specrropnotomcnic mmsurrnnent:" and 8. Sow Bar gain Nc a xz t9Ndc) foie gaff' aouph the RLYrs rtlativt to en dtaVlbutlan of rota nsdation. the ir>cident tolsr rotrarion. II Is eotratto 'Of tha'sheding a. U -value ((.valoe) is the awxall coeffic of hest transmittance ar heat Mw mea:Urcd in 6. Light to Soar Cob ratio b the ratio ot`tostbl4 8 fttba<rlmfttortroh :gig hot Sint ccefiaent• A'ftJmr.. IV. - F (w sim Lpaer 0 - vatue5 i,dielte tetne insulating performance. 4. 5ue4ine troetfieivm Is the ratio vl the total amount vi yoke anew that pee945 througJt a lieu ' restive to 1/B (3.0nvoi stile( clear east t under the Same design noes.. It Includes ' WI m sole. nee q transmitted directly plug ony eI*vbe4 eolur eeer(ry re•ratialei rune �'• ;,„ Important glass design considerations and technical information, Including thermal sir>ess 'Jr' ' .J, / / /� and wind load data, are available at www.ppgideaseapes.Cam. Monolithic Glass Data can ""_ u:, " '�'^• `� ���upC/" ' . als( rbe'f amd atwwutrppggla2fn g:C0mbrtigraHSng PBAD[A 77 332): ' ' ' Glass • Coatings • Paint envy TrITG1 PltnF Gi'l ** 0, 4 4 s e •" # MITSUBISHI 44" a ELECTRIC M11. S iIIIIIIII® HVAC Advanced Products Division Split-ductless A/C and Heat Pumps SUBMITTAL DATA 'AMSY:; A24Nt'!& MUYrA24NA � z a aoo`et ih WA MO CONDITI S Job Name: Location: Date: Purchaser: Engineer: Submitted to: For El Reference ID Approval ❑Construction Unit Designation: Schedule No.: GENERAL FEATURES l Remote - s `°'- t--'' Controller a u z y t, �. • Limited warranty: one year on parts and defects and six �`' t years on compressor s t • Compact side discharge outdoor unit } ' ; ' ,° , z� { • Zone control " -j i T a 4 4 �, 5 � �/ • Wireless remote controller r ' ' � � { • Automatic fan speed control y $ � a'; . ,-- � : ` r ,a � r� ; ti • Quiet operation —both indoor and outdoor units = •;, . `. fi z( : r z 4 5,t,,,. . . • • Auto restart following a power outage Indoor Unit MSY A24NA • Self check function — onboard diagnostics Outdoor Unit MUY - A24NA • Advanced microprocessor control Outdoor Unit Rated capacity 22,000 Btu/h Compressor DC inverter /twin rotary Minimum capacity 4,400 Btu/h MCA 17 SEER 16.0 Btu /h/W Fan motor 0.93 F.L.A. Total input 2880 W Sound level 55 dB(A) Power supply 208 / 230V, 1 Phase, 60 Hz DIMENSIONS INCHES MM Breaker size 20 A W 33- 1/16 840 Voltage D 13 330 Indoor - Outdoor S1 -S2 H 33- 7/16 849 Indoor - Outdoor S2 -S3 Weight (lbs/Kg) 128 / 58 ._ Indoor - Remote Controller Refrigerant type R410A Indoor unit Refrigerant pipe size O.D. (inches /mm) MCA 1.0 A gas side 5/8 / 15.88 Fan motor 0.76 F.L.A. liquid side 1/4 / 6.35 Fan motor output Max. refrigerant pipe length (ft/m) 100 / 30 Airflow (Lo- Med -Hi) 296 - 431 -568 Dry CFM Max. refrigerant pipe height difference (ft/m) 50 / 15 265 - 385 -508 Wet CFM Connection method flared Sound (level) (Lo- Med -Hi) 34 -40 -49 dB(A) DIMENSIONS INCHES MM inches W 43 -5/16 1100 D 10 -1/4 260 NOTES : • H 12 - 13/16 325 •1. Rating conditions (cooling)- indoor: D.B. 80 °F, W.B. 67 °F outdoor : D.B. 95'F, W.B. 75 °F. Weight (lbs/Kg) 37 / 17 Field drain pipe size I.D. (inches/mm) 1/2 / 12.7 Operating range Indoor intake air temp. Outdoor intake air temp. Cooling Maximum D.B. 95 °F, W.B. 71 °F D.B. 115 °F Minimum D.B. 67 °F, W.B. 57 °F D.B. 0 °F • • With wind baffle installed. f<not installed, the minimum temperature will be 23'FDB. g} I a T Notes: , ' .1;""Ab t t[@;; s3 ra✓ .✓� e �k (pC t. . fi'L"` . -•1. , L r.I. ';:; p ' . k' • i' 1.t'a ' N ,t� k% '- t y ;W� Y u'� iss .. A ' l•, .t.∎ J . , - ,? • 4f E'e ,, � 'f 1 -x `? rM'k ;;,,,A$ •� Y't"y' ' j . SC "' ' ''., ]4 !"', e14 ** t3 ':i� V: , ' 1 ' "F;' ; ' .� '' 7 •KMW �T• � w �+ I , Y ��a 4 D IMENSIONS .I MSY A24NA &MMU Y- A 2 4 NA ,. i i tm � at, N > . ,,,:, -t . - �a. , ' n .'A,;'C.at+� ,,4A.;.: 8,t%' .:r,„.. '"<?i z,:,,,w :$:,,voior'•"4.,t,ork!t:''tty 3.4. t3.. v , ,4,- „ h , ,,w :rha. a.'� iu �i: w..r,.+f llad �c- „`k'^'; m�v r,. MSY -A24NA MUY -A24NA 42 -1/16 Drainage hole [ 1 -5/8 r 1 20 -9/32 lip . A f 1 -9/16 i n ~ =mom i 1 1 1 Hall f 1 1 H l ” Air in b ' 43 -5/16 __ _ Air out J 4 -3/8 0 13/16 Oval hole 19-11/16 co 33 -1/16 3-3/16 4 -25/32 T N 1 - - - . � 2 -3/16 31 -1/8 9 -15/16 _ _ 2 -5/16 1 3/4 �% - ���(�(�(((�r�� i>> ` �11111���� "\ "\ ;X111 Wireless remote controller 6 �� / 10-1/4 3/16 �r _ "� -�o Air in Installation plate Liquid line [ 1/4 19 -11/16 Gas line [ 5/8 16 -15/16 1 Insulation [ 1 -15/16 O.D ( 1 -1/4 I.D 0 Drain hose [1/2 ID, 5/8 OD] Air out (Connected part O.D) Insulation [ 1 -1/8 !pERFORMANCE4� r ,-a E � V��F9 r MITSUBISHI .4'16E° CISTED a PARTNER 4” .• ELECTRIC HVAC Advanced Products Division Mitsubishi Electric & Electronics USA, Inc. 3400 Lawrenceville Suwanee Rd Suwanee, GA 30024 Tele: 678 - 376 -2900 • Fax: 800 - 889 -9904 Toll Free: 800 -433 -4822 ( #3) www.mehvac.com C SD - MSY -A24NA / MUY -A24NA -1 - 200604 © MITSUBISHI ELECTRIC / HVAC 2006