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Specifications . � An e,2 61 2 - 00 :3 27 1 {•'. COM check Software Version 3.9 k * # Mechanical C:® Certificate • Oregon Energy Efficiency Specialty Code • Section 1: Project Information • Project Type: Alteration Project Title : T riangle Point- Garden Level Construction Site: Owner /Agent: Designer /Contractor: 13333 SW. 68th St Diane Gardner Tigard, OR HVAC, Inc 5188 SE International Way Milwaukie, OR 97222 • • . ' (503)462 -4822 • Section 2: General Infor , • • Building Location (for weather data): . Tigard, Oregon Climate Zone: 4c S ection 3: Mechanical Sy List Quantity System Type 8. Description 1 RTU -1 (Single Zone) : • Heating: 1 each - Central Furnace, Gas, Capacity = 654 kBtu /h, Efficiency = 80.00% Ec Cooling: 1 each - Rooftop Package Unit, Capacity = 808 kBtu /h, Efficiency = 10.00 EER, Air - Cooled Condenser, Air Economizer Se ction 4: Requirements Checklist - .. • • In the following requirements, the relevant code section reference is shown in IJ. '+ :denotes that more details exist in the specified code . section. Checkboxes identify requirements that the applicant has not acknowledged as being met. Check marked requirements identify those the applicant acknowledges are met or excepted from compliance. 'Plans reference page /section' identifies where in the plans/specs the . requirement can be verified as being satisfied. • Requirements Specific To: RTU -1 ' . . . . • 1. [503.2.3 +] Equipment meets minimum efficiency: Central Furnace (Gas): 80.00 % Ec ✓ 2. [503.2.3 +] Equipment meets minimum efficiency: Rooftop Package Unit: 9.50 EER (9.6 IPLV) . ❑ 3. [503.2.6 +] Energy recovery ventilation systems. Individual fan systems that have both a design supply air capacity of 5,000 cfm or greater and a minimum outside air supply of. 70 percent or greater of the design supply air quantity have an energy recovery system. • Exception(s): . . ❑ Where energy recovery systems are prohibited by the International Mechanical Code. ❑ Systems serving' spaces that are not cooled and are heated to less than 60 °F. • O Where more than 60 percent of the outdoor heating energy is provided from site - recovered or site solar energy. • • ❑ Type 1 kitchen exhaust hoods. ❑ Cooling systems in climates with a 1- percent cooling design wet -bulb temperature less than 64 °F (18 °C). • ❑ Systems requiring dehumidification that employ series -style energy recovery coils wrapped around the cooling coil when the • evaporative coil is located upstream of the exhaust air stream. ' - 0 Systems exhausting toxic, flammable, paint exhaust, corrosive fumes, or dust. • • ❑ Laboratory fume hood systems that include qualifying features. _ . . _ _ _P_ lans _reference_page /section:_N /A . _ _-_ _ _ _ _.. _. _ . __. _ -.- . •_ ._ _ _. - ._ . _ ._ . __ —_ _ - .._. _ . ■ ✓ 4.. [503.2.12] Hot Gas Bypass Limitation. Cooling systems does not use hot gas bypass or other evaporator pressure control unless the • equipment is designed with multiple steps (or continuous) capacity modulation. • • .• P roject T Triangle Point- Garden Level Report date: 06/20/12 , • . : Data filename: Untitled.cck . • - r . •' • r. Paoe 1 of 5 . • Plans reference page /section: ✓ 5. [503.3.1 +] Supply air economizers shall be provided on each cooling system and are capable of providing 100 - percent outdoor air, even if additional mechanical cooling is required to meet the cooling load of the building. Systems provide a means to relieve excess outdoor air during economizer operation to prevent overpressurizing the building. Plans reference page /section: Generic Requirements: Must be met by all systems to which the requirement is applicable: • 1. [503.2.1 +] Calculation of heating and cooling loads. Design loads are determined in accordance with the procedures described in the ASHRAE /ACCA Standard 183. Alternatively, design loads have been determined by an approved equivalent computation procedure. ❑ 2. [503.2.1.1 +] Packaged Electric Equipment. Specified packaged electrical equipment has a heat pump as the primary heating source. Exception(s): ❑ Unstaffed equipment shelters or cabinets used solely for personal wireless service facilities. ❑ Requirement is not applicable. Plans reference page /section: N/A • ✓ 3. [503.2.2 +] Equipment and system sizing. Heating and cooling equipment and systems capacity do not exceed the loads calculated in accordance with Section 503.2.1. Plans reference page /section: ✓ 4. [503.2.3 +] HVAC Equipment Performance Requirements. Reported efficiencies have been tested and rated in accordance with the applicable test procedure. The efficiency has been verified through certification under an approved certification program or, if no certification program exists, the equipment efficiency ratings are supported by data furnished by the manufacturer. • 5. [503.2.4.1 +] Thermostatic Controls. The supply of heating and cooling energy to each zone is controlled by individual thermostatic controls that respond to temperature within the zone. Plans reference page /section:. ❑ 6. [503.2.4.1.1] Heat pump supplementary heat. Heat pumps having supplementary electric resistance heat have controls that, except during defrost, prevent supplementary heat operation when the heat pump can meet the heating load. Plans reference page /section: N/A ❑ 7. [503.2.4.2] Set point overlap restriction. Where used to control both heating and cooling, zone thermostatic controls provide a temperature range or deadband of at least 5 °F (2.8 °C) within which the supply of heating and cooling energy to the zone is capable of being shut off or reduced to a minimum. Exception(s): ❑ Thermostats requiring manual change over between heating and cooling modes. Plans reference page /section: N/A ❑ 8. [503.2.4.3] Optimum Start Controls. Each HVAC system has controls that vary the start-up time of the system to just meet the temperature set point at time of occupancy. Plans reference page /section: N/A ✓ 9. [503.2.4.4 +] Off -hour controls. Each zone is provided with thermostatic setback controls that are controlled by either an automatic time clock or programmable control system. Plans reference page /section: • 10. [503.2.4.5 +] Shutoff damper controls. Both outdoor air supply and exhaust are equipped with not less than Class I motorized dampers. Plans reference page /section: ❑ 11. [503.2.4.6 +] Freeze Protection and Snow melt system controls. Freeze protection systems, such as heat tracing of outdoor piping and heat exchangers, including self - regulating heat tracing, include automatic controls capable of shutting off the systems when outdoor air temperatures meet code criteria. Plans reference page /section: N/A • ❑ 12. [503.2.4.7 +] Zone Isolation Controls. A system serving multiple occupancies or floors in the same building is independently zoned and equipped with isolation devices. ' Plans- reference - page /section: -N /A -- - - - ------ - - - - -- - -- - ❑ 13. [503.2.4.8] Separate air distribution systems. Zones with special process temperature requirements and /or humidity requirements are served by separate air distribution systems from those serving zones requiring only comfort conditions; or shall include supplementary • control provisions so that the primary systems may be specifically controlled for comfort purposes only. Exception(s): • Project Title: Triangle Point- Garden Level • Report date: 06/20/12 Data filename: Untitled.cck pane 2 of 5 • • ❑ [503.2.4.8 +] Zones requiring only comfort heating or comfort cooling that are served by a system primarily used for process • • temperature and humidity control. • Plans reference page /section: N/A ❑ 14. [503.2.4.9] Humidity control. If a system is equipped with a means to add or remove moisture to maintain specific humidity levels in a zone or zones, a humidity control device is provided. • Plans reference page /section: N/A • ❑ 15. [503.2.4.9.1] Humidity control. Where a humidity control device exists it is set to prevent the use of fossil fuel or electricity to produce relative humidity in excess of 30 percent. Where a humidity control device is used for dehumidification, it is set to prevent the use of fossil fuel or electricity to reduce relative humidity below 60 percent. Exception(s): ❑ Hospitals, process needs, archives, museums, critical equipment, and other non - comfort situations with specific humidity requirements outside this range. Plans reference page /section: N/A ❑ 16. [503.2.4.9.2] Humidity control. Where a humidity control device exists it is set to maintain a deadband of at least 10% relative humidity where no active humidification or dehumidification takes place. Exception(s): ❑ Heating for dehumidification is provided with heat recovery or heat pumping and the mechanical cooling system efficiency is 10 percent higher than required in section 503.2.3, HVAC equipment performance requirements. • • Plans reference page /section: N/A ❑ 17. [503.2.5] Ventilation. Ventilation, either natural or mechanical, is provided in accordance with Chapter 4 of the International Mechanical Code. Where mechanical ventilation is provided, the,system has the'capability to reduce the outdoor air supply to the minimum required by Chapter 4 of the International Mechanical Code. Plans reference page /section: N/A —Shell work only • ❑ 18. [503.2.5.1 +] Demand controlled ventilation (DCV). DCV is required for spaces larger than 500 ft2 for simple systems and spaces larger than 150 ft2 for multiple zone systems. Exception(s): ❑ Systems with energy recovery complying with Section 503.2.6 ❑ Spaces less than 750 ft2 (69.7 m2) where an occupancy sensor turns the fan off, closes the ventilation damper, or closes the zone damper when the space is unoccupied. Plans reference page /section: N/A ❑ 19. [503.2.5.2 +] Kitchen hoods. Kitchen makeup is provided as required by the Oregon Mechanical Specialty Code. Exception(s): ❑ Where hoods are used to exhaust ventilation air that would otherwise be exhausted by other fan systems. ❑ Kitchen exhaust systems that include exhaust air energy recovery complying with section 503.2.6. • Plans reference page /section: N/A • ❑ 20. [503.2.5.3 +] Enclosed parking garage ventilation controls. In Group S -2, enclosed parking garages used for storing or handling automobiles employs automatic carbon monoxide sensing devices. Plans reference page /section: N/A • • 21. [503.2.7 +] Duct and plenum insulation and sealing. All supply and return air ducts and plenums are insulated with the specified insulation. When located within a building envelope assembly, the duct or plenum is separated from the building exterior or unconditioned or exempt spaces by a minimum of R -8 insulation. All ducts, air handlers and filter boxes are sealed. Joints and seams comply with Section 603.9 of the International Mechanical Code. ✓ 22. [503.2.7.1.1 +] Low - pressure duct systems. All longitudinal and transverse joints, seams and connections of low- pressure supply and return ducts are securely fastened and sealed with welds, gaskets, mastics (adhesives), mastic -plus- embedded -fabric systems or tapes installed in accordance with the manufacturer's installation instructions. Plans reference page /section: ✓ 23. [503.2.7.1.2 +] Medium - pressure duct systems. All ducts and plenums designed to operate medium - pressure are insulated and sealed in accordance with Section 503.2.7. Pressure classifications specific to the duct system are clearly indicated on the construction documents. . -Plans-reference-page/section:- -. -- - -•- - - -- - -- . - - -_- - - _ -__ _ — ❑ 24. [503.2.7.1.3 +] High - pressure duct systems. Ducts designed to operate at high - pressure are insulated and sealed in accordance with Section 503.2.7. In addition, ducts and plenums are leak- tested in accordance with the SMACNA HVAC Air Duct Leakage Test Manual. • • Project Title: Triangle Point- Garden Level Report date: 06/20/12 • Data filename: Untitled.cck Pane. of F • • • Plans reference page /section: N/A • 25. [503.2.9.1 +] Air system balancing. Each supply air outlet and zone terminal device is equipped with means for air balancing in accordance with the requirements of IMC 603.17. Discharge dampers intended to modulate airflow are prohibited on constant volume fans and variable volume fans with motors 10 horsepower. • Plans reference page /section: N/A • 26. [503.2.9.3 +] Manuals. The construction documents require that an operating and maintenance manual be provided to the building owner by the mechanical contractor. See long description for specifications. Plans reference page /section: • 27. [503.2.10 +] Air System Design and Control. Each HVAC system having a total fan system motor nameplate hp exceeding 5 hp meets the provisions of Sections 503.2.10.1 through 503.2.10.2. Plans reference page /section: Sheet M1 • 28. [503.2.10.1 +] Allowable fan floor horsepower. Each HVAC system at fan system design conditions does not exceed the allowable fan system motor nameplate hp (Option 1) or fan system bhp (Option 2) as shown and calulated in requirement details. Plans reference page /section: - ✓ 29. [503.2.10.2 +] Motor nameplate horsepower. For each fan, the selected fan motor is no larger than the first available motor size greater than the brake horsepower (bhp). Plans reference page /section: • O 30. [503.2.10.3.1] Large Volume Fan Systems. Fan systems over 8,000 (7 m3 /s) cfm without direct expansion cooling coils that serve single zones reduce airflow based on space thermostat heating and cooling demand. A two -speed motor or variable frequency drive reduces airflow to a maximum 60 percent of peak airflow or minimum ventilation air requirement as required by Chapter 4 of the . International Mechanical Code, whichever.is greater. Exception(s):. . • 0 • Systems where the function of the supply air is for purposes other than temperature control, such as maintaining specific humidity levels or supplying an exhaust system. Plans reference page /section: N/A • ✓ 31. [503.2.10.3.2 +] All air - conditioning equipment and air - handling units with direct expansion cooling and a cooling capacity at ARI conditions greater than or equal to 110,000 Btu /h that serve single zones have their supply fan operation controlled according to code specific requirements. Plans reference page /section: • o 32. [503.2.10.4] Series fan - powered terminal unit fan motors. Fan motors for series fan - powered terminal units are electronically- commutated motors and have a minimum motor efficiency of 70 percent when rated in accordance with NEMA Standard MG 1 -2006 at full load rating conditions. Plans 'page/section: N/A - • 33. [503.2.12] Hot Gas Bypass Limitation. For cooling systems > 240 kBtu /h, maximum hot gas bypass capacity is no more than 25% of total cooling capacity. Plans reference page /section: N/A • • Section 5: Compliance Statement • ' Compliance Statement: The proposed mechanical alteration project represented in this document is consistent with the building plans, specifications and other calculations submitted with this permit application. The proposed mechanical alteration project has been designed to ' • meet the Oregon Energy Efficiency Specialty Code, Chapter 8, requirements in COMcheck Version 3.9.0 and to comply with the mandatory ' requirements in the Requirements Checklist. • f:) i tj t0, /v�1i. f i Z c /iz Name - Title Sig3iature Date • • - '— Section-6:-Post-Construction-Compliance-Statement HVAC record drawings of the actual installation, system capacities, calibration information, and performance data for each equipment • provided to the owner. • HVAC O&M documents for all mechanical equipment and system provided to the owner by the mechanical contractor. • Written HVAC balancing and operations report provided to the owner. • • Project Title: Triangle Point- Garden Level Report date: 06/20/12 • ^_•_ -- -_ • • The above post construction requirements have been completed. Principal Mechanical Designer -Name Signature Date • • • • • Project Title: Triangle Point- Garden Level Report date: 06/20/12 • , • / /2 00 3 27 •?: SUBMITTAL Project Lower Garden Level RTU • Date • • Thursday, June 14, 2012 • • • Larry Goodroe Airefco, Inc •;, ' 4 Table Of Contents Project: -Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:52PM RTU - 1 3 Unit Report 4 • Certified Drawing 5 Unit Feature Sheet 10 Corner Weight Report 13 Controls Sheet 14 • • • • Applied Rooftop Builder 3.09n . . Page 2 of 21 • RTU -1 Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:52PM RTU -1 Tag Cover Sheet Unit Report Certified Drawing Performance Report Unit Feature Sheet Corner Weight Report Control Sheet Applied Rooftop Builder 3.09n Page 3 of 21 Unit Report For RTU -1 Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:52PM Unit Parameters Shipping Dimensions Unit Size: 70 Tons Unit Length: 37' 4" • Volts- Phase -Hertz: 460 -3 -60 Unit Width: 7' 8" Supply / Return Horizontal /Horizontal Unit Height: 6' 11" Evaporator Coil Type Hi cap Evap Unit Shipping Weight: 11389 • lb Heating Capacity: Low Gas Heat "'Weights and Dimensions are approximate. Weight does Filter Option • 2" MERV 7 Filters not include curbs and accessories. Approximate dimensions are provided primarily for shipping purposes. For exact dimensions refer to certified drawings. ** Shipping Weight does not include extended leadtime options' weight. Controls Application Type' VAV Non Fused - Disconnect: Selected Control Expansion Module: Selected Exhaust /Economizer Exhaust/Economizer Economizer with Modulating Power Exhaust P.E./ R.F. Motor HP• 10 Hp Supply Fan Supply Fan Type: FC Supply Fan Supply Fan Motor HP: 40 Hp • • Condenser Coil Cond. Coil Fin Coating: • Standard MCHX • Warranty Information • First Year - Parts Only (Standard) • Complete Unit Year 2 Parts & Carrier CCS Labor Complete Unit 1st Year Carrier CCS Labor • Start-up, First Unit • An uncoated Novation condenser coil was selected for this product. This is based on an installed location with postal code: 97062 and a non - corrosive localized environment. NOTE: Please see Warranty Catalog 808 -218 for explanation of policies and ordering methods. Ordering Information • Part Number Description Qua ntity , 48P5D070617YBR -DVR Rooftop Unit 1 • • Base Unit Hi cap Evap Economizer with Modulating Power Exhaust 10 Hp • • Disconnect • • CEM . • With Service Valves . • Disch Service Valve - Low Sound Condenser Fans Supply VFD - 40 Hp Premium Eff. • Applied Rooftop Builder 3.09n • • Page 4 of 21 • • Certified Drawing for RTU -1 P - Untitled5 06/14/2012 • Prepared By: Larry Goodroe - • 07:52PM • . 1 • I I • 'RI IGHT A 6 C 0 E F uNIFE . .N. 7N 41 u ran tK:N[77 ,S[ nNpn or coon ta.a•r10 f rl UNIT SITE LB7, Y.G7, YY FT. IN. W FT , IN , IN FT. 111, UV FT, IY. YY FT. IN. MN iT .. Itl, i IS ,[LIl /YI P.b 11( [n t :g1,IfA ,N4i iIQ f:NV133CN V NQ f[[ 0.�.1Wt 0� OOt.K. .- IFCxrCLOGlFS nIWR3[.'1 [ Nl SI eE Il31LOt o 9tU 717157 A4,AI IX6t 407 C`4t1I NT 1 nlatu•t( n (AIRIER 1(:71 dem44 om•1 nom AWHT, KCCI.C1 CC (W91(1. 010 100 NEAT 961! (I67 3513 n • -) v5' 5 715 18'-9• 671. 10:-4 5 %6• 1071 3'- . 3116 11318 31• -3 10!11° 11152 38' -1 1/11 070 HIGH 'pi 070 1620 7511 II' -, 11 2' 5715 18' -9' 6217 73 311' 1077 3'- 4 1116• 11318 3I' -3 15/16' 11712 08 1116• • LO 1. DIMENSIONS IXCI INC 1 ARE IM YI 2.0 UNIT 5 [EGN OF (01411, T AND C[x0ER a GRAr1T1 14CLUSCS (COPOR12(H, . LAMEST INDOOR FAN 00T02 AND 1161 CAPACIT7 [NAPORATOR COIL. 3. 91i. 44pp�� I! P44. A 8D T 0 E5THFTfT SOI)EISER FANS .1 I E CIl Ex O PORES T� E 1 IHAUST CC UNITS 10' -0 • • I [187 C°XRI(HLUPF;LICAIIOM [ALIIEOIINGOCCbAi7YCYTNCIS C"T"' -0 1 /A' R S A. `005E57[D FIELD CONNECTIONS 10 6I MACE hASIOE 09 CUTS IDE OF 31.5 1 FLALGE. I. NIFN 71[ UNIT 13 Sloe YOOATED, PlW 1� F 10RI 7ILL[D 001101411 [OLDEYSA7[ T �I001 VIEW B S. ECOASHI7ER ( SIDE 10071 ARE FOLDED 1001 0' - Oil' IY FOR (SIPPING. • 0' )318' 1 I L 112151----1 137151 -J - -12691 • 0' - 1 711• 6' - 3116' 0' 518' 17P DUCT CONNECTION [11) 1151,651 I' -A I/8' D FIELD POSES I I • MSS SECTION • 0' - 15 /16• I • (SEE NOTE 66) 048ERAIL - -. f , • ., / • 1 i 13 : 321 t. 2 0 ' i'-1 ! �„ g - D i 13 144691 CONDENSATE 4 T URx 10 uI ,. • !, 6' DRAIN POfPOND 7� H[T . 01.13' CONNECTION 11933] ,� ` '1/ (1110] 6' -1 I/0' AIR IBA SE PHIL SECT) CONTROL i " -Q 411 s'-3 wte• SCALE 3:1 I �b a .. 177.351 0' -0 lr8' D LOT MAW. ■ • _ -- e + 1 -[1r9I (1201 SUM, 0• -11• ' 0'-1 314 All 2 ' -0 Ir8• CONTROL 604 LON SOUND OUTDOOR 1 N OP110 - 177011 F 16177 • PANELS SALT TALL FAR POSITIONS) S 31/37' 110101 lI1P BOTH SIDES) ACCESS P 1 --(27151 11YSIDE1 ACCESS D0 23' 17132 , , 7' -! 11116' 3TANDAIO OUTDOOR FA 10510E . MAR SIDE OYL11 AtC 5 . 1011 CONTROL (OR .!• (FAR SIDE CYL1) ACCESS DOOR 13811^- I' -6 1(7' --- 3'-n 5116' )FAR SI DC 010.11 1 IrS° 121193 _ _ )_ SEE YIC6 B 1%1 11/16' . _ ___ SIDE IT, I ' . ./...'. ' ECOrOX[7[R [21387 OPENING X6 ATP 10005 111571 1' -3116• Al' ' ,y 7; 7'-9 71 e• 120151 � .. . •'( a r --- _ 6' 6 111' N r ..r i . f —L . Al • ��1 tX3'DE . 1 1� f 1= ff / I T 2' -0 371 I[ ■ _ n /'. - -. - n I / 16181 1' .I �� [1 1 1 'LCE to3[5� + ' NCOOS J o • -a 37!11 EKSIDE 11761 5'-8 3r. C 0 - - 6 31/)2 ITU SID[) I SID ACCESS OOCR ACCESS PANEL 11/161 I I [5:1161 / 1 1. Al --[311 _ 0 ' - 3 11th' 19' - 1 19P6A' I4D 41 IFA; SIDE ONLY' , BO B SIDES) 0' - II 5r76' BASE FRANC c• 1,112' FIELD SUM.. 178,] 1161 PONER 6 LON 0' -1 1/2' 7.-7 [ 7 1/2• i 0 -1 1/7' NPT CAS PIP[ CONNECTION AV(ILIAN1 PORFR (ARAM/ I VOLTAGE CONN. FAR SIDI • (PAIN [C . Y �- BAS. BELIEF Q FOR I I)IS] 0' 1 T/ -.'R0T •OfN s [s U1801 0 378' [35,11 DIA, LIFTING POSITION xaD75 m911a 61 ,F,. 7 PLC51 1 1• -6 318' HOLF IY IIFT]R0 LOGS. 171111 ;BOTH TIDESI 01411 CCAY. PRI YAP.T. DRAIA 0 01111, 7' -I1• FAR SCOC [21161 8 B IT[[ VIEN C1 ;L A _ OVERALL LIFTING 73'-11 III' - S NIPAING (CI. E I/4017 • (BASE 044141 0 . CM MM. 48 P4 /P5,HORIZONTAL SUPPLY 8 RETURN, 48Z1002054 • . . i 08/02/11 - I K4 GAS HEAT, SIZE 070 D.4 Applied Rooftop Builder* 3.09n Page 5 of 21 Performance Summary For RTU -1 Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:52PM Part Number 48P5D070617YBR -DVR Unit Refrigerant: R410A EER (ARI 360)• 10.0 IEER 12.4 Shipping Dimensions Unit Length: 37' 4" Unit Width. 7' 8" Unit Height 6' 11" Unit Shipping Weight 11389 lb • Unit Supply /Return • Horizontal /Horizontal Application Type VAV Voltage: 460 -3 -60 Evaporator Type Hi cap Evap Cooling Airflow: 28000 CFM Altitude: 0 ft Cond. Ent. Air Temp 95.0 F Ent. Air Dry Bulb 80.0 F Ent. Air Wet Bulb: 67.0 F Ent. Air Enthalpy 31.44 BTU /lb Lvg. Air Dry Bulb: 57.9 F Lvg. Air Wet Bulb 57.9 F Lvg. Air Enthalpy: 25.03 BTU /lb .Gross Cooling Capacity 808.00 MBH Gross Sensible CIg.,Cap: • 667.00 MBH Compressor Power 57.3 kW Coil Bypass Factor: 0.05 Part Load( %) Operation Standard Capacity Steps 23, 46, 73, 100 Gas Heating Data: Heating Airflow: 28000 CFM Heating Ent. Air Temp: • 68.0 F Gas Output 527 MBH Heating Lvg. Air Temp 85.4 F AFUE• 80.7 Steady State Eff: 80.7. Temp.Rise: 17.4 F Note Second Stage Supply Fan Information: • Ext.Static Pressure 2.00 in wg Low Gas Heat Loss: 0.54 in wg High Capacity Coil Loss: 0.32 in wg Power Exhaust Loss(with PE Fan Off): • 0.78 in wg Selection External Static Pressure: 3.64 in wg Supply Fan Type: FC Supply Fan Supply Fan RPM: 758 Supply Fan BHP 41.50 BHP Supply Fan Motor HP: 40 Hp Power Exhaust/Return Fan Information: • Airflow* 15000 CFM Ext. Static: 0.75 in wg • Tot. Static: • 0.75 in wg Fan RPM: 677 Fan BHP 6.4 BHP Motor HP: 10 Hp • Applied Rooftop Builder 3.09n Page 6 of 21 • • , . Performance Summary For RTU -1 • Project: -Untitled5 06/14/2012 . • Prepared By: Larry Goodroe 07:52PM • • Electrical Data Minimum Voltage' 414 . Maximum Voltage* • 508 • Indoor' Fan Motor HP 40 • Indoor Fan Motor FLA: 52 Condenser Fan Motor Qty: 4 . Condenser Fan Motor FLA (ea)* 3.3 Pwr. Exhaust Fan Motor Qty: 2 Pwr. Exhaust Fan Motor HP (ea.)' 5 Pwr. Exhaust Fan Motor FLA (ea.): 7.6 Power Supply MCA: 193 Power Supply MOCP (Fuse or HACR): 225 Compressor Count (Al ,A2): 2 Compressor RLA (ea), (Al ,A2): 23.1 Compressor LRA (ea), (Al ,A2): 150 Compressor Count (B1,B2): - 2 • • Compressor RLA (ea), (B1,B2): 26:9 • Compressor LRA (ea); (B1,B2): - 179' • An uncoated Novation condenser. coil was selected for this product. This is based on an installed location with postal code: 97062 and a non - corrosive localized environment. , Acoustic Information , . Discharge Inlet • Outdoor • 63 Hz 103.8 • .95.8 • 60.5 125 Hz 103.9 85.9 71.2 • 250 Hz • 99.0 80.0 78.9 500 Hz 99.4 79.4 83.8 1000 Hz 89.4 72.4 86.2 2000 Hz 83.0 72.0 85.6 4000 Hz 75.3 • 62.3 79.3 8000 Hz • • 65:4 49.4 • . 69.9 ' • Advanced Acoustics . . •© ) Advanced Accoustics Parameters • . • . . 1. Unit height above - • 30.0 ft 2. Horizontal distance from unit to receiver: 50.0 ft 'i 3. Receiver height above ground 5.7 ft I _ 1 1c ■ V 0 ; � • Q Detailed Acoustics Information ' ■ V Y Octave Band Center Frequency, Hz . , I Over I I I all • • 1. Sound Power Levels at Unit's Acoustic Center, Lw ' 90.8 ' I Lw ' I. ___ . _______ . 2._ A_ WeightedSound_ PoweLLevels__ at_ Unit'sAcoustic.Center,LwA____ _ .__:___ "__I___I I __90.6 I LwA . .. I Applied Rooftop Builder 3.09n • Page 7 of 21 .' • Performance Summary For RTU -1 Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:52PM 3. Sound Pressure Levels at Specific Distance from Unit, Lp I • 58.4 I Lp • 4. A- Weighted Sound Pressure Levels at Specific Distance from Unit, I I 58.4 LpA I 1 LpA ' Calculation methods u in this program are patterned after the ASHRAE Guide; other ASHRAE Publications and the AHRI Acoustical Standards. While a very significant effort has been made to insure the technical accuracy of this program, it is assumed that the user is • knowledgeable in the art of system sound estimation and is aware of the tolerances involved in real world acoustical estimation. This program makes certain. assumptions as to the dominant sound sources and sound paths which may not always be appropriate to the real system being estimated. Because of this, no assurances can be offered that this software will always generate an accurate sound prediction from user supplied input data. If in doubt about the estimation of expected sound levels in a space, an Acoustical Engineer or a person with sound prediction expertise should be consulted. • • Supply Fan Curve • 4 _ . _Mi ` 600 RPM • 600 RPM , ■ . 16. - 500 RPM � W41 .e C t/1 - 400 RPM - * ■ • 300 RPM ' 21. . x.00 =H' 20. � O B HP r ^ 200 - RPM ; ' .41.P' rOB • ' . h. li. . . . -100 RPM_____ 0 . • . '0 5 10 ' 15 20 • 25 30 ' 35 40 • ' Airflow (CFM - thousands) - mum Maximum - • . RPM = 758 BHP = 41.50 Maximum RPM = 800 Maxi HP = 40.00 Sc - System Curve RP - Rated Point . Applied Rooftop Builder 3.09n Page 8 of 21 • • Performance Summary For RTU -1 Project: -Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:52PM • Power Exhaust Fan Curve 2 • 700 R 1 6 . 00 BHP ' 600 RP ii , k ,1 11,4 1,1 1 , 1 2 , 5p , C+ 1 � soo RP cu 400 RP ,300 RP . 3.00 BH' 200 RP 100 RP , 1 0 0 2 - 4 6 8 10 12 14 16 18 20 22 24 26 28 30 Airflow (CFM - thousands). RPM = 677 BHP = 6.39 Maximum RPM = 1000 Maximum HP = 10.00 SC - System Curve RP - Rated Point . • • l..• Applied Rooftop Builder 3.09n • Page 9 of 21 • Unit Feature Sheet for RTU -1 Project: - 06/14/2012 Prepared By: Larry Goodroe 07:52PM • • • Cczrrler :_ . • 48P5 Series Size- 030 -070 • - Single- Package.Rooftop Units . Model 35P5 isone-piece cooling' heating unit that is pre-wired andpre- chazgednithR' -410: at the factors. Model 4SP5has end return and side supply openings for horizontal supply andretumduff cork All units are factory- assembled, rated in a c c ordance with ARE Standard 340/360, dev eloped and factory t est edin accordance with UL Standard 1995. Units are listed by Intertek Testing Services and bear ETL and ETL ,Canada listing marks. Controls are Con orrLbikru microprocessor -based electronic product integrated type, multi -stage cooling, using space temperature sensor or CC\ network. ST_A?D ARD FEATURES: Comforrl inkelectronic control systemcontrolprovides Single, low speed Forward Curve supply fanaith fixed speed control of economizer (option) cooling, mechanical belt drive. cooline, healing, supply fan and over30 other system Two- inch(51 mm) deflection isolation springs under supply control functions. fan sled. • Ea sy to use Scrolling Marquee Display, factory-installed High efficiency fanmotorsmeetEPACTrequirements: On -board schedule function. Two-inch (51 mm) disposable-tt-pe air filters. ' . Duct Pressure Control for VAN' applications using a 2:1 duct aspect ratio. -• • Variable Fxequency.Dzit'.e on Supply Fan motor, uith Single point electrical connection factor% - installed pressure transducer and uiriwiring. Circuit breaker protection for all power components. Multi -stage cooling control. .. 24 -volt and 115 -volt control circuits. Two-stage heating. Compressor protection includes high pressure snitches, • Full hermetic scroll compressors on independent overcurrent protection, crankcase heaters, suction and refrigeration circuits. Digital compressor on size 030 and discharge service valves. Pressure transducers monitor 035. discharge and suction pressures. NovationThmicro channel condenser coils Condenser fanmotors are internally protected 3 -phase motors. Intertwined circuit evaporator coils with TXV control. Totally - enclosed motor shell designs provide increased Liquid line filter driers. reliability. • Weathertight constructionaith 500 hour salt spray finish. Manually adjustable outside airintake for up to 25°,0 outdoor • Hinged accesspanelsprovide easy access to fans, filters, air. • • heat section, conipiressors and controls. • Factors•- installed pivoting outdoor an hoods. • Mi.croMMat Rx Ty anti- microbial insulation Lifting lugs for overhead rigging. Sloped stainless steel condensate panvith dual- sloped . intermediate pan. ' • • • • • • • • • • • • • • • • Applied Rooftop Builder 3.09n • Page 10 of 21 • • • Unit Feature Sheet for RTU -1 Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:52PM 48P5 Series Size 030 -070 Single - Package Rooftop Units FACTORY- L'ST_aLLED OPTIONS: Digital scroll compressors for variable capacity control Premium efficiency fan motors, ex ceedEPAC Tre quirement s. (040 -070). Control Expansion\iodule, for connecting accessory sensors Integrated gear - driven economizer utilize sdirect-drive and thus implementing additional control sequences. a curator, low-le ak dampers, permanent v.•a shable out side MERV7Pleated ,'_- inch(51- mm)Filterpackage air filters and solid state enthalpy controls. \IERV 14 Bag Filter package, with integral2 -inch pre filters. HumidiMiZerg Adaptive Dehumidification system D.IERV 14 Cartridge filter system with _ -inch pre filters Double wall construction. Outdoor Air CBI sensor to provide minimum ventilation Modulating Power Exhaust system with VFD for Building airflow limit control and ac curate ventilation airflow Pressure control. measurement High-capacity evapceator coil (sizes 030,040-070). Extended( Length) Chassis, for installation of heating, heat Hot Gas Bypass. reclaim or DX reheat coils. Compressor and liquid line service valves. Alternate coil fn materials andprotective coatings. Replaceable core filter driers. Non -fused disconnect. Staged or:Iodulating Gas Control, to provide Tempering Convenience outlet, 115 -V. ( low u nter mix ed air temperaturelimiting),Low- Export packing optionconsistsof coil protectionand ooden Demandheating to user Supply Air Temperature set top cap assembly suited for outdoor storage and flat rack points and reheat for humidity control. shipment. Low ambient MotorMaster control Low outdoor soundcondenser fans (except 03 5) STANDARD CONTROL FUNCTIONS Variable Air Volume control sequences. Building pressurization control in conjunction with modulating Supply duct static pressure controlled throu haninvener power exhaust option. (VFD). Building Purge Mode flushes the building interiorwith outdoor Infinite number of stages of compressor capacity (030- air to remove contaninantsbefore occupancy. 035). Temperature Compensated St art minimizes the amount oftime Five to eight stages of compressor capacity (040-070). re quire din.Moming Warm -up or Cooling Pull-do wn before Lead -lag compressor control t o even out runtime. entering the occupied mode. Head pressure control to 32 F(0 C). He ad pressure Unoccupied\ lode Free C ooling —unit s with optional controlled by sa twat e d c ondensing t emperature utilizing economizer will utilize free cooling during overnight periodto fan staging. maintain the unoccupied set point. Supply fan control b ase d on occupancy schedule using Input 'Output of data andmonitoring of alarms canbe done 365 day electronic time clock function with holiday remotely using ComfortView CCN systems, or at the unit using scheduling. the standard Scrolling \Iarquee Display keypad module, or with Tune schedule ovemde through the space tenip&attze accessory Navigator (hand-held service display). sensor (accessory sensor required). Self - diagnosticr untestconfirms control andcomponent Indoor Air Quality (I.AQ)monitoring and ventilation operation at unit commissioning. Self- diagnostic modes are providedthrough software, ssith factory- or troubleshooting codes indic ate the rea son unit tripped to field-installed CO2 sensor. expedite unit repair. Compatible with 35 and 45 Series Comfon ID controlled Factor-installed suction and discharge pressure transduc ers terminalsto form anintegratedVAVsystem. allow remote monitoring of the se parameters toprovide Sy stem -wide Demand Control Ventilation control when enhancedremote diagnostics. used with ComfortID zone controls. • L , Applied Rooftop Builder 3.09n Page 11 of 21 Unit Feature Sheet for RTU -1 Project: -Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:52PM • 48P5 Series Size 030 -070 Single - Package Rooftop Units • ADDITIONAL CONTROL FUNCTIONS THROUGH USE OF CONTROL EXPANSION MODULE Supply Air Temperature Set Point Reset via External IndoorAirQuality (IAQ) sequences initiated by discrete switch Signal (4 -20 mA). input. Supply Air Static Pressure Set Point Reset via External Outdoor Air Quality (OAQ) sequences withinstallation of Signal (4-.70 mA). outdoor CO2 sensor, including outdo airlockout at high CO_ Smoke Control mods (Pressurization, Evacuation and conditions. Smoke Purge) are provided through software. Terminals Dehumidification(with Reheat) sequence ith RH input from are provided to interface with field - supplied smoke fire space sensor. paneL Demand Limit sequences with c onnectionofproportional Enthalpy calculation andimplemertationofecononrizer signal or discrete switch inputs, to provide Redline and changeover based on outdoor enthalpy or differential Loadshed functions. enthalpy, and use of dew point limit sequences v.ith Outdoor Air CFMI( OA C)minimumlimit ventilation mode (with Relative Humidity (RH)inputs from outdoor andretum factor•- optionairflow sensor grid). air sensors. 48P5 HEATING Induceddraf combustionsystemused for reliability and Sine point gas connection. safety. Optional Staged Gas Controlprovides 5 or 9 steps of heating Alumagard Coat ed Turbo-Tubular heat exchangers. capacity staging with Tempering control function Optional stainless steel tubes. Optional Modulating Gas Heat shall monitor unit supply -air Reliable Carrier- designedIGC(unegratedgasunit temperature and controlthe unit heat exchangerto maintain controller )provides system eyaluationand user - configured heating supply air temperature set point. troubleshooting via on -board LEDs. Direst Spark Ignition with two-st age capacity control. Gas valve(s) are two -stage output with 100 °i redundant shutoff WARRANTIES (USA/CANADA) Standard one -y ear unit warranty. Three -year warranty on MCI-IX condenser coils. Five- year non pro-rate dv:arranty on heat exchanger. Optional extendedwarranties for pans andlabor available. a 4,„,.. Applied Rooftop Builder 3.09n Page 12 of 21 Corner Weight Report For RTU -1 Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:52PM • 2 3 0 • 0 li 1 4 4 A ► Rooftop Unit Part Number. 48P5D070617YBR -DVR Dimension (A): 244.68 Dimension (B): 40.2 Unit Length 37' 4" Unit Width 7' 8" Unit Height: 6' 11" Unit Weight 11389.0 lb Unit Shipping Weight:...11389.0 lb Corner Weight (1)• 2901.7 lb Corner Weight (2)• 2265.4 lb Corner Weight (3)• 2727.9 lb Corner Weight (4)• 3494.0 lb Total Corner Weight ....11389.0 lb :`• This is not the same as the shipping weight. Applied Rooftop Builder 3.09n Page 13 of 21 Controls Sheetfor RTU - Project: -Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:52PM • • Carrier • 48P3 Series • • Single- Package Rooftop Units • Controls: Control components • • The 48P Series rooftops use the ComfortLink control system that has been developed for use in Carrier Commercial equipment. The control system monitors all operating conditions in the rooftop•unit as well as controlling the compressors, economizer's, fans, heat and other devices. It also has the capability of communicating with the Carrier Comfort Network® device's using the CCN protocol and • other popular protocols including BACnet, MODBUS, LonWorks, etc. The system uses a microprocessor and a series of boards, each with inputs and outputs. A local network communications bus (LEN) ties all the boards' together into a system and enables the boards to communicate. For the 48P Series, the control consists of the following key components: • • - . • Main base board (MBB) — The MBB is the center of the ComfortLink control system. It contains the major portion of the operating software. and controls the operation of the unit. The MBB continuously monitors inputs and controls outputs, as well as sends and receives data over the LEN and CCN communications channels. The board is located in the main control box. Rooftop control board (RCB) — The RCB controls many unit functions. The RCB controls the actuators for the economizer, • modulating power exhaust dampers; and an optional humidifier valve using a digital communications signal. This signal also provides . operation and diagnostic data on the actuators. The RCB also has relay outputs to control condenser fans, second stage power exhaust, minimum load valve and the heat interlock output. The RCB board is located in the main control box. Compressor expansion board (CXB) — The CXB provides additional compressor control outputs and is used on models with morethan four compressors. This board is located in the main control' box. -. Options control board (ECB) — The ECB is used on units with the optional return fan, digital scroll compressors or when control of a humidifier is required. This board is located in the main control box. Integrated gas controller (IGC) — One IGC is provided with each bank of gas heat exchangers. It controls the direct spark ignition . . system and monitors the rollout switch, limit switches, and induced -draft motor Hall Effect sensor. For units equipped with modulating gas heat, the induced -draft motor function is proven with ,a pressure switch. The IGC is equipped with an LED for diagnostics. Staged gas heat board (SCB) — When the optional staged gas heat is used, the . SCB board will be installed and control the operation of the gas valves. It also provides additional sensors for monitoring of the supply -air temperature. This board is located in the main . control box. Modulating gas heat boards.— When the optional modulating gas heat is used, one timer relay board (TR1) and one signal conditioner board (SC30) will be installed in the heating compartment. The two boards in•combination with SCB board provide control to the modulating gas heat section. Refer to the Unit Controls and Troubleshooting book for information on modulating gas • control. , • Applied Rooftop Builder . 3.09n Page 14 of 21 • • Controls Sheet for RTU -1. . Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe • 07:52PM . • • Controls expansion module (CEM) — The optional expansion module is used to provide inputs for supply air set point reset, static pressure reset, demand limiting, outdoor air quality and other optional inputs. It is located in the main control box. Compressor protection Cycle -LOCI" board(CSB) — This board monitors the status of the compressor by sensing the current flow to the compressors and then provides digital status signal to the MBB. _ Scrolling marquee display — This device is the keypad interface used to access the control information,-read sensor values, test the unit, and monitor alarm status. The scrolling marquee display is a 4 -key, 4- character, 16- segment LED (light - emitting diode) display. The display is very easy to operate using 4 buttons and a group of 11 LEDs that indicate the following menu structures: • Run Status • • Outputs • Service Test • • Configuration • Temperatures _ • Timeclock . • Pressures • • Operating Modes • • • Set Points • Alarms • • Inputs • Through the display, inputs and outputs can be checked for their value or status. Because the unit is equipped with suction pressure . transducers and discharge saturation temperature sensors it can also display pressures typically obtained from gages. The control '' includes a full alarm history which can be accessed from the display. Through the display, a built -in test routine can be used at start -up commission and during maintenance inspections to help diagnose operational problems.with the unit. Cooling control options • When mechanical cooling is required, the P Series ComfortLink controls have the capability to control the staging of the compressors ' in several different ways. Two scroll compressors are used on size 030 and 035 units, three scroll compressors on 040 units, four scroll • compressors are used on sizes 050 to 075 and six scroll compressors are used on sizes 090 and 100. In addition, a digital unloading type scroll compressor is standard on 30 and 35 ton VAV units and available as an-option on all other units. The ComfortLink controls also support the'use of an optional minimum load hot gas bypass valve (MLV) with the Multiple Adaptive Demand and VAV'control sequences..The MLV is directly controlled by the ComfortLink controls and provides an additional stage of capacity as well as low load coil freeze protection. The control also integrates the use of an economizer with the use of mechanical cooling to allow for the greatest use of free cooling. When both mechanical cooling and the economizer are being • • used, the control will use the economizer to provide better temperature control and limit the cycling of the compressors. . The control also checks on various other operation parameters in the units to make sure that safety limits are not exceeded and the compressors are reliably operated. • . COOLING CONTROL OPTIONS Control type — The control type determines the selection of the type of cooling control as well as the technique for selecting a cooling mode. The control types are: VAV -RAT and VA V-SPT— Both of these configurations refer to standard VAV operation. If the control is.occupied, the supply fan is run continuously and return-air temperature will be used in the determination of the selection of the cooling mode. VAV -SPT differs from VAV-RAT only in that during the unoccupied period, space temperature_ will be used instead of return -air temperature to start the fan for ten minutes before the return-air temperature is allowed to call out any mode. Cooling control method — The 48P3/P5 uses a cooling control method called Multiple Stage Evaporator Discharge Temperature to step through the available stages of capacity. Depending on the unit size and presence of an MLV (hot gas bypass), this may range from 2 up to 5 stages of capacity control. . • Multiple Stage Evaporator Discharge Temperature (EDT) — The capacity of the economizer and compressors are controlled based on the evaporator air discharge temperature and supply air temperature set point. This control method uses an adaptive PID (proportional, ___ __ integral;,derivative)_algorithm to calculate the estimated change in supply -air temperature before engaging or disengaging the next stage of cooling. The algorithm compensates for varying conditions, including changing flow rates across the evaporator coil, to provide better overall control of compressor staging. • Integrated economizer — All mechanical cooling will first be delayed while the unit attempts to use the economizer for free cooling. Applied Rooftop Builder 3.09n . • Page 15 of 21 • Controls Sheet for RTU - Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:52PM Once the economizer is at full capacity, the control will then supplement the free cooling with as much mechanical cooling as required. To prevent any rapid changes in cooling, the control will also use the economizer to trim the cooling supplied. Heating control options When heating is required the 48P3/P5 units can be provided with 2 -stage gas heat, multiple stage gas heat, or modulating gas heat. Depending on unit size and heating capacity the multiple -stage gas heating option may have between 5 and 9 stages of heating capacity control. Modulating gas heat provides variable heating loads depending on unit size and overall heating capacity. The 48P3/P5 Series ComfortLink controls have the capability to control the heating capacity based on input from the return air temperature sensor. Heating with VAV units will be enabled based on the return-air temperature or the space temperature, but once enabled control will be based on the return-air temperature. Variable air volume terminals will be commanded open to the heating cfm through linkage or the heat interlock relay.The 48P3/P5 Series ComfortLink controls will use one of the following control methods: Two -stage control — The unit will operate in LOW HEAT or HIGH HEAT mode as determined by the demand inputs. In the LOW HEAT mode if the temperature sensed by the evaporator discharge temperature sensor is below 50 F, the unit will automatically go into a HIGH HEAT mode. Multiple -stage and modulating control — When the unit is in a LOW HEAT mode the algorithm calculates the desired heat capacity based on set point and supply -air temperature. The staged gas control logic will stage the heating capacity to match the calculated demand. Units with modulating control logic will continuously modulate the heating capacity to match the calculated demand. When the unit is in a HIGH HEAT mode all stages of heat will be activated. In case the modulating option is selected, the control will maintain the maximum heating capacity. Both staged and modulating gas heat options can also be used in a TEMPERING mode. This mode is enabled during a VENTILATION, LOW COOL or HIGH COOL mode when the economizer dampers are at their minimum ventilation position and the mixed -air temperature is below the supply air set point. Tempering can also be used during a preoccupancy purge to prevent low temperature air from being delivered to the space. Economizer and IAQ options The controls have been designed to support the requirements of indoor air quality control through the use of outside air. Units can either be equipped with an outside air adjustable, self - closing outdoor air damper or a fully modulating, gear driven economizer with no linkages. The economizer can be configured for a full modulation mode or 3- position mode of operation. The control includes logic for a minimum ventilation position and different set points for occupied and unoccupied minimum position set points. This control also has logic built in to calibrate the economizer position to the actual percentage of outside air introduced. During periods when the compressors are not being used the control will use the RAT, SAT and OAT to calibrate the economizer. This will allow for setting the outside air actual percentage and not just the percent damper position. The use of the economizer will depend on the mode of change selected. This control integrates the changeover directly into the control. Five types of changeover are available: • Outdoor air dry bulb • Differential dry bulb • Outdoor air enthalpy • Differential enthalpy • Outdoor air dew point The units are provided with an outdoor air sensor, return air temperature sensor, and outdoor enthalpy switch so the first three changeover methods are available as standard. To use the enthalpy changeover options the control supports the addition of highly reliable, electronic humidity sensors. The humidity sensor input is then used with the dry bulb sensors to calculate the enthalpy. For outdoor enthalpy changeover the control also has the ASHRAE 90.1 — A, B, C, D economizer changeover curves built into the software. When operating with outside air economizers, large amounts of air can be introduced into the building and a means must be provided for building pressure relief. The 48/50P Series control supports the following types of building pressure control: • Barometric Relief Dampers — Can be used on low return duct static applications • Non - Modulating Two -Stage Power Exhaust — The unit can be equipped with two power exhaust fans. The software controls the power exhaust stages based on the economizer position (percent open). • Modulating Power Exhaust — The units can be equipped with modulating power exhaust. The exhaust airflow is controlled by modulating the speed of two constant exhaust fans with a variable frequency drive (VFD). The ComfortLink controls the motor speed through the VFD to maintain the building pressure setpoint. • High- Capacity Modulating Power Exhaust (size 075- 100 units only) — The units can be equipped with high- capacity modulating power exhaust. The exhaust airflow is controlled by the use of a VFD on the lead exhaust fan. The ComfortLink controls modulate the lead fan speed to maintain the building pressure set point. The second exhaust fan is energized when additional exhaust airflow is required. • Modulating Return Fan (size 075 -100 units only) — The units can be equipped with modulating return fan. The primary function of a return fan is to handle return duct losses, allowing the supply fan to handle only internal and supply static load. Return fans should Applied Rooftop Builder 3.09n Page 16 of 21 • Controls Sheet for RTU - Project: -Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:52PM • never be used on systems with less than 0.5 -in. wg return static. The return fan runs whenever the supply fan is operating and its speed is controlled by a VFD. The Comfort Link controls measure the supply fan airflow and adjusts the return fan speed to maintain a programmed airflow differential. The airflow differential is dynamically adjusted to maintain building pressure set point. The indoor air quality (IAQ) function provides a demand -based control for ventilation air quantity, by providing a modulating outside air damper position that is proportional to the space CO2 level. The ventilation damper position is varied between a minimum ventilation level (based on internal sources of contaminants and CO2 levels other than the effect of people) and the maximum design ventilation level (determined at maximum populated status in the building). During a less - than -fully populated space period; the CO2 level will be lower than that at full -load design condition and will require less ventilation air. Reduced quantities of ventilation air will result in reduced operating costs. Space CO2 levels are monitored and compared to user - configured set points. Accessory CO2 sensor for space (or return duct mounting) is required. The IAQ routine can be enhanced by also installing a sensor for outdoor air quality. • During the occupied period, in the absence of a demand for cooling using outside air, if CO2levels are below the set point for the minimum ventilation level, the outside -air damper will open to the minimum ventilation level damper position set point. The minimum damper position will be maintained as long as the CO2 level remains below the.set point. • When the space CO2 level exceeds set point for the minimum ventilation level condition, the ComfortLink controls will begin to open the outside air damper position to admit more ventilation, air and remove the additional contaminants. As the space CO2 level approaches the set point for maximum design ventilation level condition, the outside air damper position will reach the maximum ventilation level damper position set point limit. Damper position will be modulated in a directly proportional relationship • between these two CO2 set point limits and their corresponding damper position limits. In most applications a fixed reference value can be set for the outdoor air quality level, but the control also supports the addition of an outdoor air quality sensor that will be compared to the indoor or return IAQ sensor. If an OAQ (outdoor air quality) sensor is connected, the demand set point levels will be adjusted automatically as the outdoor CO2 levels vary. Also, if the outdoor . CO2 level exceeds a user - configured maximum limit value, then outside air damper position will be limited to the minimum • • ventilation damper set point value. The control can also receive these signals through the CCN system. The IAQ and OAQ measurement levels are displayed by the ComfortLink scrolling marquee in parts per million (ppm). Outdoor air CFM control — Minimum space ventilation requirements can also be maintained by applying the minimum outdoor air cfm control option. This option provides an airflow monitoring station at the outside air damper inlet. The ComfortLink controls can be programmed to monitor this airflow rate and to override the current outside air damper position to maintain a minimum quantity of outdoor air at the user's design set point even as the unit's supply fan slows during part load operating. periods. Fire and smoke controls interface — The unit can be equipped with an optional return air smoke, detector. The smoke detector is wired to stop the unit and send a message to a remote alarm system if a fault condition is detected. If the controls expansion module • (CEM) is added, the control will support smoke control modes including evacuation, smoke purge, and pressurization. • Demand limiting — The control supports demand limiting using one or two fixed capacity limits initiated by discrete input switches or a variable capacity limit function based on an analog input signal. On CCN systems this can be done through the network, or for non -CCN network jobs this can be done by adding the controls expansion module. • Diagnostics The ComfortLink controls have fully integrated all controls and sensors into a common control system. The control monitors these inputs as well as many of the routines to provide advanced diagnostics and prognostics. These include adaptive logic to allow the unit to continue to operate in a reduced output mode and automatic resets where applicable. The last 10 alarms and alerts are stored in memory and can be accessed through the display. The alarms can also be monitored through the Carrier Comfort Network ® connection. The unit also supports the use of the hand held NavigatorTM display which can be plugged in at the main control box and auxiliary control box at the opposite end of the unit. Some of the diagnostics that are included are: • Monitoring of all sensors • Suction pressure transducers to provide compressor protection and coil freeze protection • Monitoring of the economizer motor using a digitally controlled motor • Monitoring of compressor status using compressor protection boards • Adaptive logic for low supply -air temperatures • Compressor lockout at low ambient conditions Storage.of compressor.run.hours.and.starts • Low refrigerant charge protection • Compressor reverse rotation protection Applied Rooftop Builder 3.09n Page 17 of 21 • Controls Sheet for RTU -1 Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:52PM Control interface The ComfortLink controller can interface with an i -Vu® Open control system, a BACnet building automation system, or Carrier Comfort Network devices. This will allow for the use of all system control programs. These include: • Network Service Tool • System Pilot device • Touch PilotTM device • i -Vu Open control system software • ComfortVIEWTM software • CCN Web software • ComfortlDTM system The control can also provide interface with other energy management systems with the addition of either the MODBUS Carrier translator or the LonWorks Carrier translator. Several contact connection points have been provided in the main control box for interface to external controls and systems. These are summarized in the Interface Connection table. External controls use the following interface points: • Start/Stop (On/Off) — Start/Stop is accomplished with a contact closure between terminals 3 and 4 on TB201. • Remote Economizer Enable — Enabling and disabling of the economizer can be done by connecting a contact closure to terminals 5 and 6 on TB201. The economizer can be configured for a switch closure changeover for 3- position operation. • VAV Heating Interlock — Interface with non - linkage terminals can be done through TB201 terminal 9 and 10. • Remote IAQ Inputs — External IAQ demand inputs can be connected through terminals 7 and 8 on TB201. • Smoke Detectors Alarm Output — Remote detector alarm outputs can be connected through terminals 1 and 2 on TB201. • Fire Shutdown — A remote fire shutdown signal can be connected to 1 and 2 on TB201. The software can be configured to shut the unit down on an open or closed signal. • Fire Pressurization — For a remote control of pressurization a contact closer can be connected to terminals 18 and 19 on TB202. In this mode the economizer damper will be fully opened and the supply fan turned on to pressurize the space. • Fire Evacuation — For this mode a remote contact closure can be connected to terminals 16 and 17 on TB202. For remote evacuation of a space the outsideair dampers will be opened and the power exhaust fans turned on to evacuate the space of smoke. • Fire Purge —For this mode external contacts can be connected to terminals 14 and 15 on TB202. In this mode the supply fan and return fans will be turned on with the economizer at a full open position. • Demand Limiting — For demand limiting the controls expansion module must be used. Connections are provided on TB202 for switch input demand limiting (terminals 20 and 21, 22 and 23) and for 4 to 20 mA (terminals 10 and 11) demand limit signals. • Dehumidification — A discrete input is available on TB202, terminals 24 and 25 to initiate the Dehumidification mode. • Remote Supply Air Set Point — A remote supply air temperature set point reset can be supported when the controls expansion module is used. This input requires a 4 to 20 mA signal. It can be connected to terminals 8 and 9 on TB202. • Remote Static Pressure Reset Set Point — A remote supply air temperature set point reset can be supported when the controls expansion module is used. This input requires a 4 to 20 mA signal. It can be connected to terminals 7 and 8 on TB202. This input is shared with the Outdoor Air IAQ signal. • Outdoor Air IAQ Signal — If an external outdoor air signal is being used then it can be connected to terminals 7 and 8 on TB202. This input requires a 4 to 20 mA signal. This input is shared with the Remote Static Pressure Reset signal. • IAQ Switch Input — If an external control will be controlling IAQ then it can be connected as a contact closure through terminals 12 and 13 on TB202. • Space Humidity — A space humidity sensor can be used to enable the dehumidification and humidifier control logic. It can be connected to terminals 3 and 4 on TB202. This input requires a 4 to 20 mA signal. • Humidifier Control Output — A contact closure out can be provided to enable the operation of a field provided humidifier. The output can be connected to terminals 1 and 2 on TB201. Carrier can also support electronic interface to other systems using the following; • MODBUS Carrier translator (read/write, provides CCN to MODBUS remote terminal unit [RTU] protocol conversion) • LonWorks Carrier translator (read/write, provides CCN to LON FT -10A ANSI/EIA- 709.1 protocol conversion) Variable air volume (VAV) applications The 48/50P3,P5 units are designed to operate in VAV applications. As an option, they include a supply fan inverter (VFD) to control the supply fan speed and duct pressure. They are designed to control the leaving -air temperature in cooling to a configurable set point. The changes in mode of operation from Heating to Vent to Cooling mode can be controlled either from the return air temperature sensor or from an accessory space temperature sensor. Some of the features for VAV units in a stand -alone application are: • The units are shipped as operable, stand -alone units with the addition of a field- supplied timeclock to establish unit start and stop Applied Rooftop Builder 3.09n Page 18 of 21 • Controls Sheet for RTU -1 Project: - Untitled5 06/14/2012 . • Prepared By: Larry Goodroe 07:52PM • times or they can use ComfortLink time of day scheduling routine • Provide cooling and heating control (if equipped with heat) in both occupied and unoccupied modes • Supports an optional space temperature sensor for mode control and supply air temperature reset • • If space sensor is equipped with an override feature, the sensor will allow operation during the unoccupied period for a fixed length of time • • Base unit control supports a heat interlock relay (field supplied) to signal the VAV terminal devices to fully open during heating operation • Control board diagnostics • Control of an outdoor- condenser fan based upon outdoor -air temperature and saturated condensing temperature • Control of modulating economizer to provide free cooling when outdoor conditions are suitable. • Control also allows for use of the economizer and the compressors to maximize the use of outside air cooling to reduce part load operating costs • Support of remote occupied /unoccupied input to start • Controls the operation of the supply fan inverter to maintain a configurable supply duct static pressure set point. Inverter is configured and controlled directly by Comfort Link controls • • Support of IAQ sensor • Support a field test for field check out • • Support linkage to ComfortIDTx' systems • • • Cooling capacity control of up to 6 stages plus economizer • Variable capacity control with digital scroll compressor option - • • Control of two stages of heat to maintain return-air temperature • Multiple stage gas heating if unit is equipped, with the staged gas heat option • Control of heat interlock relay ' • Compressor time delays to prevent rapid cycling of compressors • • Automatic lead -lag control of compressors to reduce the number of compressor cycles • With the addition of a remote start/stop switch heating or cooling is enabled during unoccupied periods as required to maintain space • temperature to within unoccupied set points • With the addition of the controls expansion board, the ComfortLink controls will also support demand limiting and remote set point control When the unit is connected to a CCN (Carrier Comfort Networks) system, additional features can be used: - . • Interface of the unit clock with the CCN network clock and allow for remote configuration of the schedules • • CCN demand limit participation • • Interface with ComfortIDT?" control systems through linkage . - - Sequence of operation Variable air volume control — On power up,' the control module will activate the initialization software. The initialization software will determine the unit configuration and also initialize any controls loops and input/output devices. All alarms and configurations are saved in memory and maintained during power outages. All alarms will be maintained in memory and must be cleared through the display. ' The unit will first determine the mode of operation. If the unit has been configured for space temperature demand then the control will determine, based on the configurable set points, if the unit should be in'the heat mode, vent mode or cooling mode. If the unit is configured for return air temperature control then it will start the fan and monitor the return air temperature vs. the configurable set point to determine if the unit should be in cooling, vent or heating mode. • . If the control is connected to a ComfortID system, the room terminals are equipped with microprocessor controls that give commands to the base module. If linkage is active, the control module will replace local ComfortLink set points and occupancy data with linkage supplied data. • If temperature compensated start is active then advance pre -cool or heat of the space is enabled. If. the unit is configured to use a pre -purge cycle then'the ComfortLink controls will start the unit in Vent mode based on a prestart time interval. If an IAQ sensor is being used and the low IAQ control point is satisfied, then the mode will be terminated. If Cooling mode is.required, then the controlling set point will be the leaving air temperature set point. If an economizer is present and the changeover control allows the economizer to be used, then it will first attempt to control the leaving -air temperature using free cooling. If this can not satisfy the load, then additional compressor stages will be turned on to maintain the leaving -air temperature. __. When both. compressors. and. economizers _are_being_used,_the.controlwill use_the_economizer_dampers to_maintain better_control of_the leaving -air and to help prevent high compressor cycling. If the economizer can not be used then it will be set to the minimum vent 'position. When using compressors, the leaving -air temperature will sequence compressors on and off using a PID control loop. If.the unit is equipped with an optional hot gas bypass valve the control will use the Applied Rooftop. Builder 3.09n Page 19 of 21 • • Controls Sheet for RTU -1 Project: -Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:52PM hot gas as an additional stage of capacity. When the first stage of cooling is required the control will turn on a circuit "A" compressor and the hot gas bypass valve. When additional cooling is called for it will turn off the hot gas bypass valve. The valve will also be used for additional freeze protection of the coils when low evaporator refrigerant temperatures are detected using the suction pressure transducers. When operating in cooling the control will also monitor the supply duct pressure and send a 4 to 20 mA signal to the factory- supplied inverter to control the speed of the fan and the delivered cfm. If on a linkage system the control will also support static pressure reset based on the needs of the zones. If the unit has been enabled for occupied heat and the space temperature sensor (SPT), return air temperature sensor (RAT) or linkage demand calls for heat, the control will energize the electric heat or gas heat (if present) to warm the space. In this mode the control will energize the heat interlock relay which will signal the terminals to open to the heating position. Note that for the linkage systems the interlock relay connection is not required. Once the Heat mode is enabled, the heat capacity will be controlled by the return air temperature set point. Heating will continue until the return temperature set point is satisfied. If the unit is configured for morning warm -up and the heating demand is below the set point during the first 10 minutes of operation, the control will energize full heating capacity until the return air temperature set point is satisfied. If the space temperature sensor (SPT), return air temperature sensor (RAT) or linkage demand requires that the unit be in heating then the control will energize the gas heat to warm the space. In this mode the control will energize the heat interlock relay which should be connected to the terminals to indicate that they should open to the heating position. The interlock relay connection is not required for the linkage systems. Heating will continue until the mode selection sensor is satisfied. Dehumidification mode — A Dehumidification mode can be initiated by either a discrete input on TB202 or by a direct measurement of humidity levels with an optional space or return air humidity sensor. When the Dehumidification mode is active, the evaporator coil leaving air temperature will be controlled to the Dehumidify Cool set point, which is typically colder than the normal cool mode leaving air set points. . In this mode, comfort condition set points, which are based on dry bulb temperature, will be overridden. If a source of reheat is available, then the leaving -air temperature can be raised to a more desirable temperature. Available methods of reheat are internal gas heat if the unit is equipped with the staged gas heating option, or an external heat source that can be controlled by a 4 to 20 mA signal. 48 Series gas heat units The gas heat units incorporate 1, 2 or 3 separate systems, depending on unit size and heating capacity, to provide gas heat. Each system incorporates its own induced -draft motor, integrated gas control (IGC) board, 2 -stage gas valve, manifold, and safeties. The modulating system incorporates an additional modulating gas valve and modulating gas control. For 2 -stage heat control the systems are operated in parallel. For example, when there is a call for first stage heat, both induced -draft motors operate, both gas valves are energized, and both IGC boards initiate spark. With the staged and modulating gas control, the systems are operated independently to allow for a greater range of capacity control. All of the gas heating control is performed through the IGC boards (located in the heating section). There are two additional boards (TR1 and SC30) for the modulating system, which in combination with the IGC board control the modulating gas heating. The additional boards are located in the heating section. The MBB module board serves only to initiate and terminate heating operation and monitor the status of the requirements for indoor fan operation. The fan will be controlled directly by the MBB board. The base module board is powered by 24 vac. When the thermostat or room sensor calls for heating the MBB board will close heating relays and send power to W on each of the IGC boards. An LED on the IGC board will be on during normal operation. A check is made to ensure that the rollout switches and limit switches are closed and the induced -draft motors are not running. After the induced - draft motors are energized and speed is proven with the Hall Effect sensor on the motor. For units equipped with modulating gas heat the induced -draft motor function is proven with a pressure switch. When the motor speed or function is proven, the ignition activation period begins. The burners will ignite within 5 seconds. When ignition occurs the IGC board will continue to monitor the condition of the rollout and limit switches, the flame sensor, the Hall Effect sensor or pressure switch. If the unit is controlled through a room thermostat set for fan auto., 45 seconds after ignition occurs the indoor fan motor will be energized and the outdoor -air dampers will open to their minimum position. If the over temperature limit opens prior to the start of the indoor fan blower, on the next attempt the 45- second delay will be shortened to 5 seconds less than the time from initiation of heat to when the limit tripped. Gas will not be interrupted to the burners and heating will continue. Once modified, the fan on delay will not change back to 45 seconds unless power is reset to the control. If the unit is controlled through a room sensor, the indoor fan will be operating in the occupied mode and the outdoor -air dampers will be in the minimum position. If the unit is controlled with a room sensor in the unoccupied mode, the indoor fan will be energized through the IGC board with a 45- second delay and the outside -air dampers will move to the minimum unoccupied set point. When additional heat is required, the second stage MBB output relay closes and initiates power to the second stage of all main gas valves in all sections. For units equipped with modulating system, the second stage is controlled by the TRl timer relay Applied Rooftop Builder 3.09n Page 20 of 21 • • • Controls Sheet for RTU -1 Project: -Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:52PM • board. When the demand is satisfied, MBB heat output relays will open and the gas valves close interrupting the flow of gas to the main burners. If the call for stage 1 heat lasts less than 1 minute, the heating cycle will not terminate until 1 minute after WI became active. If the unit is onfigured for intermittent fan then the indoor fan motor will continue to operate for an additional 45 seconds then • stop and the outdoor -air dampers will close. If the over temperature limit opens after the indoor motor is stopped within 10 minutes of WI becoming inactive, on the next cycle the time will be extended by 15 seconds. The maximum delay is 3 minutes. Once modified, the fan off delay will not change back to 45 seconds unless power is reset to the control. • • Applied Rooftop Builder 3.09n Page 21 of 21 • 20 2 OO 3 Va,r, rl.er SUBMITTAL Project Lower Garden Level TU Date Thursday, June 14, 2012 • Larry Goodroe Airefco, Inc _ . • Table Of Contents - Project: -Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:56PM TU - 1 Elec 3 ' Unit Report • 4 Certified Drawing 5 Performance Summary 6 • Acoustic Summary 7 TU - 2 Elec 8 Unit Report g Certified Drawing 10 Performance Summary 11 Acoustic Summary 12 TU - 3 Elec 13 Unit Report 14 Certified Drawing 15 Performance Summary • 16 Acoustic Summary • 17 • • • • Air Terminals Builder 2.03 Page 2 of 17 • • TU -1 Elec Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:56PM TU -1 Elec Tag Cover Sheet Unit Report Certified Drawing Performance Report Acoustic Summary Air Terminals Builder 2.03 Page 3 of 17 Unit Report For TU -1 Elec Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe •07:56PM • Unit Parameters • Tag Name TU -1 Elec Quantity: - 10 Model Type • VAV - CCN Model • 35E Single Duct,Terminals Control Type 4141: CCN 1 -2 Stage Electric Heat Unit and Inlet Size: - 10 Inch• Part Number: 35EC3300L100414100000S000000E9205 .0K0000130005000500 . Reheat Option: Electric Reheat Insulation Lining: Standard (1/2 inch dual density f/g liner) Outlet 14x12.5 • Dimensions . • Unit Depth: 39.5 in Unit Width 14.0 in Unit•Height' 13.0 in . Unit Operating Weight : ' 44 lb "' Weights and Dimensions are approximate. Weight does not include curbs and accessories. Approximate dimensions are provided primarily for shipping purposes. For exact dimensions, refer to certified drawings. Warranty Information .. 1 Year Parts Only Warranty Ordering Information • Part Number Description Quantity Base•Unit . • 35EC3300L100414100000S0 35E Single Duct Terminals • 10 - • • 00000E9205.0K0000130005 • _ 000500 - Attenuator . . . . • 22 Gauge, Controls Left, No Access Panel . • - . . . . • 4141: CCN 1 -2 Stage Electric Heat • 480v /3Ph /2S (4 -Wire) . - 5.0kW .. - . . . . • LineaCross (4 quadrant) • Hangers '. • • • Door - Interlocking Fused Disconnect • . Accessories ' - - • - Air-Terminals Builder 2.03 Page 4 of 17 Certified Drawing for TU -1 Elec Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:56PM • • Cooe ,.. �,,, LS OE PTOPEPT. v OF BASE UNIT WITH 0- Carrier m CM; PDT J„T.rre ° ANALOG OR DIGITAL 35E T. CONTD.. wu.•DT SE CMC P•m Est CONTR OLS AND CP CATALOG 0 A United Technolog'ee Company rA 'I e "iTT r P oP KLEMM ®00AT.O. wRTEN WIMP MOULT ELECTRIC REHEAT CHARTED 'A' DIMENSION INCLUDES INLET ADAPTER PROVIDED ON SIZES 4 & 5. W (159) r O � 39 1/2 (1003) —1/2 (13) AIR FLOW TYP I SLIP & DRIVE OUTLET SENSOR DUCT CONNECTION Olt INLET DISCHARGE H 12 (305) TOP VIEW TYP AIR - I I AIR FLOW FLOW DAMPER DIGITAL & REHEAT INLET VIEW - SIZES 6-16 CONTROL ENCLOSURES SIZE 22 (RECTANGULAR INLET) (16'11 24 1 I— 36 5/8 (930) 5 18 PROVIDE 36 MINIMUM ACCESS PER NEC RFiUIREMENT SENSOR - Carrier's standard linear multiple point air flow sensor is standard on all units with digital and pneumatic controls, or for units with no controls. LINER - The base unit is lined with standard 1/2" (13mm) thick, dual density insulation, with a body density of 1.5 lbs/cu. Ft (24 kg/m '). This lining is coated to prevent erosion, and meets the requirements of UL 181 and NFPA 90A.. Optional: 1" • (25mm) thick insulation meeting same specifications as 1/2".. Optional: Steriliner insulation system, 13/16" thick rigid insulation, foil faced on air stream -side, edges sealed from air stream with sheet metal 2- strips.. Optional: Noliner insulation system, with no internal insulation. External insulation is recommended to prevent condensation. . Optional: Cellular insulation system, 3/8" thick thermal insulation consisting of closed -cell elastomeric insulation with a smooth surface. . Optional: Sterilwall insulation 1/2" think, blanket type, enclosed between zink - coated sheet metal. . Optional: Perforated Double wall insulation - 23% perforated Sterilwall. CASING - The base unit is constructed of 22 Ga. galvanized steel. Seams are mechanically sealed to prevent leakage [ <2% at maximum rated airflow at 6" (1.49kPa) Ps.).. Optional: 20 Ga. galvanized steel casing. DAMPER ASSEMBLIES - Leakage through the damper is less than 2% of nominal CFM at 6" (1.49Pa) Ps. Size 4 through 16 - One heavy gage steel damper with polyethylene foam gasketing. Size 22 - Two aluminum heavy gage opposed blades cross - linked with polyethylene foam gasketing. ELECTRIC HEATER - . ETL Listed, adherence to UL 429 for electrically operated valves. Automatic reset thermal cutout, Manual Reset thermal cutout and positive pressure air flow switch are standard. PE switches are standard step controllers when pneumatic control systems are specified. Magnetic contactors are standard step controllers when electronic control systems are specified. Control enclosure houses all control components. Available heater voltages:. 120v/10, . 208v/10, . 240v/1e, . 277v/1 o, . 208v/3o/3 -wire, . 480v/3e/4 -wire. Optional:. mercury contactors, . fuse block with fuses for primary overload protection, . disconnect switches, . fused disconnect switches, . dust -tight construction. UNIT ACCESSORIES - . Optional hanger brackets, . optional control sequences, see submittals. 35E WITH OPTIONAL ELECTRIC HEAT INLET NOM MAX SIZE CFM (Us) W H A B D C 4 230 (109) 12 (305) 8 (203) 5 3/8 (136) 5 15/16 (151) 3 7/8 (98) 2 (51) 5 360 (170) 12 (305) 8 (203) 5 3/8 (136) 5 15/16 (151) 4 7/8 (124) 2 (51) 6 515 (243) 12 (305) 8 (203) 3 3/8 (86) 5 15/16 (151) 5 7/8 (149) 2 (51) 7 700 (330) 12 (305) 10 (254) 3 3/8 (86) 5 15/16 (151) 6 7/8 (175) 1 (25) NOTE: 8 920 (434) 12 (305) 10 (254) 3 3/8 (86) 5 15/16 (151) 7 7/8 (200) 1 (25) 1 . Right hand configuration shown. 9 1160 (547) 14 (356) 12 1 /2 (318) 3 3/8 (86) 3 15/16 (100) 8 7/8 (225) - Left hand Is available. 2. Dimensions are given as Inches (mm). 10 1430 (675) 14 (356) 12 1/2 (318) 3 3/8 (86) 3 15/16 (100) 9 7/8 (251) - 3. Sea Drawing 35E for basic unit Information. 12 2060 (972) 16 (406) 15 (381) 3 3/8 (86) 3 15/16 (100) 11 7/8 (302) - 4. See Drawing 35E - 202.11 for controls 14 2800 (1321) 20 (508) 17 1/2 (445) 3 3/8 (86) 1 15/16 (49) 13 7/8 (352) - speciicaOon data. 5. Size 22 control enclosure 16 3660 (1727) 24 (610) 18 (457) 3 3/8 (86) 1 15/16 (49) 15 7/8 (403) - 32 5/8' (829mm) by 10 114' (260mm). 22 7000 (3304) 38 (965) 18 (457) 4 1/4 (108) - See Above 1 1/8 (29) PRODUCT INFORMATION IS SUBJECT TO CHANGE WITHOUT NOTICE. 06/16/2003 �PU,z mPUUCw loom, w.wxa • B I 35E -202 -4 Air Terminals Builder 2.03 Page 5 of 17 Performance Summary For TU -1 Elec Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:56PM Unit Parameters Tag Name' TU -1 Elec Quantity 10 Model Type' VAV - CCN Model 35E Single Duct Terminals Control Type' 4141: CCN 1 -2 Stage Electric Heat Unit and Inlet Size: 10 Inch Part Number: 35EC3300L100414100000S000000E9205 .0K0000130005000500 Reheat Option: Electric Reheat Outlet' 14x12.5 Unit Performance Altitude: 0 ft Max. Primary Airflow' 1,300.0 CFM Min. Primary Airflow 500.0 CFM Inlet Static Pressure: 1.00 in wg Downstream Static Pressure: .20 in wg Minimum Static Pressure Drop' .16 in wg Motor Voltage: 4141: CCN 1 -2 Stage Electric Heat Note Inlet Static Pressure includes downstream pressure drop. Electric Heating Coil Insulation: Coil Airflow: 500.0 CFM Lining:...Standard (1/2 inch dual density f/g liner) • Capacity: 17.07 MBH Attenuator Yes Entering Air Temp: 55.00 F Leaving Air Temp: 86.60 F Coil PD: 021 in wg Error: ... Query for txtReheatVoltage not resolved kW: 5.0 kW Steps: 2 MCA: 7.53 MOCP• N/A Other Information: Acoustic Summary: Maximum Airflow: 1,448.0 CFM Sound Power Levels, dB re 10E - 12 watts Design Airflow: 1,300.0 CFM Primary Airflow 1,300.0 CFM Safety Factor: 10 % Unit LxWxH: 39.5 x 14 x 13 Octave Bands (dB) Radiated Sound 2 3 4 5 6 7 NC Primary Sound (Pwl) 54 47 51 42 34 24 Total Attenuation 17 18 20 23 25 26 " Room Sound Level (Spl) 37 29 31 19 < 10 < 10 25 Discharge Sound Primary Sound (Pwl) 63 62 57 45 40 40 Total Attenuation 29 30 41 53 55 41 ` Room Sound Level (Spl) 34 32 16 < 10 < 10 < 10 19 Notes: 1. Room sound levels shown include attenuation transfer functions shown above. 2. Data were obtained from tests conducted In accordance with ARI Standard 880 -98. 3. Sound power levels are In decibels, re 10 ^ -12 watts. 4. Dash ( -) in space Indicates sound and /or NC value Is less than 10. Sound calculations are based on largest Inlet size. The results of this program are only an aid to the designer, and are not a substitute for professional services. Carrier Corporation accepts no liability for the adequacy of any resulting design or installation. All data subject to change without notice. Air Terminals Builder 2.03 Page 6 of 17 • • • • • Acoustics Summary For TU -1 Elec . • Project: - Untitled5 • 06/14/2012 Prepared By: Larry Goodroe • 07:56PM • Unit Parameters . • . Tag Name TU -1 Elec Quantity: 10 Model Type VAV = CCN Model 35E Single Duct Terminals Control Type 4141: CCN 1 -2 Stage Electric Heat Unit and Inlet Size: 10 Inch • Part Number: 35EC3300L100414100000S000000E9205 .0K0000130005000500 Reheat Option: Electric Reheat Outlet' 14x12.5 Insulation: Other Information: • Lining:...Standard (1/2 inch dual density f/g liner) Maximum Airflow: 1,448.0 CFM Attenuator Yes • Design Airflow: 1,300.0 CFM Safety Factor: 10 % • • ' Unit.LxWxH• 39.5 x 141 13 • Acoustic Summary: . Sound Power Levels, dB re 10E -12 watts • . Primary Airflow 1,300.0 • CFM • • • Octave Bands (dB) • Radiated Sound 2 3 • 4 5 6 7 NC Primary Sound (Pwl) 54 47 51 . 42 34 24 * Total Attenuation 17 18 20 23 25 26 Room Sound Level (Spl) 37 29 31 19 < 10 < 10 25 • Discharge Sound Primary Sound (Pwl) 63 62 57 45 40 40 • Total Attenuation 29 30 41 53 .• 55 41 • Room Sound Level (Spl) . 34 32 16 . < 10 • <10 <10 19 Notes: • 1. Room sound levels shown include attenuation transfer functions shown above. 2. Data were obtained from tests conducted In accordance with ARI Standard 880 -98. • 3. Sound power levels are In decibels, re 10 " -12 watts. . 4. Dash ( -) in space indicates sound and /or. NC value is less than 10. . . • Sound calculations are based on largest Inlet size. • The results of this program are only an aid to the designer, and are not a substitute for professional services. Carrier Corporation accepts no liability for the adequacy of any resulting design or installation. All data subject to change without notice. • • • • • • Air Terminals Builder 2.03 Page 7. of 17 • • • • TU -2 Elec Project: -Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:56PM • TU -2 Elec Tag Cover Sheet Unit Report - Certified Drawing Performance Report Acoustic Summary • • • Air Terminals Builder 2.03. Page 8 of 17 • • Unit Report For TU -2 Elec Project: -Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:56PM • .1 Unit Parameters Tag Name TU -2 Elec . Quantity • • 2 Model Type' VAV - CCN . • Model _ • 35E Single Duct Terminals Control Type • 4141: CCN 1 -2 Stage Electric Heat, . Unit and Inlet Size: • ' - 8 Inch Part Number: 35EC3300L0804141000005000000E9203 .5K0000060003000300 • Reheat Option: Electric Reheat - Insulation Lining: • Standard'(1 /2 inch dual density f/g liner) . • Outlet • • - • 12x10 • Dimensions • • ;,:,. Unit Depth: 39.5 in Unit Width • 12.0 in Unit Height 10.0 in • Unit Operating Weight : • 34 lb Weights and Dimensions are approximate: Weight does not include curbs and accessories. Approximate dimensions are provided primarily for 4 shipping purposes. For exact dimensions, refer to certified drawings. . Warranty Information • 1 Year Parts Only Warranty ' . . • Ordering Information . • • Part Number Description , . • - • • . Quantity - 'Base Unit 35EC3300L08041410000050 35E Single Duct Terminals 2 . 00000E9203.5K0000060003 • 000300 • Attenuator 22 Gauge, Controls Left, No Access Panel 4141: CCN 1 -2. Stage Electric Heat . ' 480v /3Ph /2S (4 -Wire) ' 3.5 kW • • - LineaCross (4 quadrant) Hangers Door - Interlocking Fused Disconnect Accessories ' . • • •Air Terminals Builder 2.03 Page 9 of 17 - • Certified Drawing for TU -2 Elec Project: - Untitled5 06/14/2012 • Prepared By: Larry Goodroe 07:56PM CODE BASE UNIT WITH • - . / Carrier iW O 4°7 7" RO ,c..' Oi 919sSW OF OM! wp oaina� o°or.9 r o m�.ure' ANALOG OR DIGITAL ODE CA7ALOGe "��"` •w '""` '��""`'� coNTR OLS A ND 35E A United 7ocnmlag'es Company V > M.5L �M or ELECTRIC REHEAT • CHARTED • A • DIMENSION INCLUDES INLET , • 6 I/4 ADAPTER PROVIDED ON SIZES 4 & 5. • • w 7 (159) r Or . ]9 1/2 (1003) - —1/2 (13) • AIR FLOW TYP I SLIP & DRIVE OUTLET SENSOR DUCT CONNECT • INS INLET I DISCHARGE H r `� 72T 5) ♦ TOP VIEW . � , '. AIR - I I A IR • FLOW FLOW DAMPER • D II DIGITAL & REHEAT II INLET VIEW- SIZES 6-16 CONTROL ENCLOSURES • SIZE 22 (RECTANGULAR INLET) . (16"x 24") I-36 5/8 (930) I B • PROVIDE 36 MINIMUM ACCESS . PER NEC RfUIREMENT - SENSOR - Carrier's'standard linear multiple point air flow sensor is standard on ail units with digital and pneumatic controls, • or for units with no controls. - • LINER - The base unit is lined with standard 1/2 ",(13mm) thick, dual density insulation, with a body density of 1.5 lbs/cu. Ft (24 kg/m '). This lining is coated to prevent erosion, and meets the requirements of UL • - 181 and NFPA 90A.. Optional: 1" ' • (25mm) thick insulation meeting same specifications as 1/2".. Optional: Steriliner insulation system, 13/16" thick rigid - insulation, foil faced on air stream -side, edges sealed from air stream with sheet metal z- strips.. Optional: Noliner insulation • . . system, with no internal insulation. External insulation is recommended to prevent condensation. . Optional: Cellular insulation system, 3/8" thick thermal insulation consisting of closed -cell elastomeric insulation with a smooth surface. . . Optional: Sterilwall insulation 1/2" think, blanket type, enclosed between zink- coated sheet metal. . Optional: Perforated Double wall insulation - 23% perforated Sterilwall. - CASING - The base unit is constructed of 22 Ga. galvanized steel. Seams are mechanically sealed to prevent • leakage 152% at maximum rated airflow at 6" (1.49kPa) Ps.). . Optional: 20 Ga. galvanized steel casing. • - DAMPER ASSEMBLIES - Leakage through the damper is less than 2% of nominal CFM at 6" (1.49Pa) Ps. • Size 4 through'16 - One heavy gage steel damper with polyethylene foam gasketing.. . Size 22' -'Two aluminum heavy gage opposed blades cross - linked with polyethylene foam gasketing. ELECTRIC HEATER - . ETL Listed, adherence to UL 429 for electrically operated valves. Automatic reset thermal cutout, Manual Reset thermal cutout and positive pressure air flow switch are standard: PE switches are standard step controllers ' when pneumatic control systems are specified. Magnetic contactors are standard step controllers when electronic control systems are specified: Control enclosure houses all control components. Available heater voltages:. 120v/1 e, . 208v/1 e, • . 240v /1 o, . 277v/lo, . 208v/30/3 -wire, . 480v/3e/4 -wire. Optional:. mercury contactors, . fuse block with fuses for primary • • overload protection, . disconnect switches, . fused disconnect switches, . dust -tight construction. , UNIT ACCESSORIES - . Optional hanger brackets, . optional control sequences, see submittals. ' 35E WITH OPTIONAL ELECTRIC HEAT • • • ' " • . INLET NOM MAX - SIZE .CFM(L/s) - W' H ,, A . •B .. D C • • • 4 ' 230 (109) 12 (305) . 8 (203) 5 3/8 (136) 5 15/16 (151) . 3 7/8(98) . 2(51) 5 360 (170) 12 (305) 8 (203) 5 3/8 (136) ,5 15/16 (151) 4.7/8 (124) ' 2 (51) .. 6 515 (243) 12 (305) 8 (203) 3 3/8 (86) 5 15/16 (151) 5.7/8 (149) . 2 (51) • 7 • 700 (330) • 12 (305) 10 (254) 3 3/8 (86) 5 15/16 (151) 6 7/8 (175) 1 (25) NOTE: .. • 8 920 (434) 12 (305) 10 (254) 3 3/8 (86) 5 15/16 (151) 7-7/8 (200) 1 (25) • 1. Right hand configuration shown. • 9 1160 (547) 14 (356) 12 1/2 (318) 3'3/8 (86) 3 15/16 (100) 8 7/8 (225) - Left hand Is available. 2. Dimensions are given as Inches (mm). 10 - 1430 (675) 14 (356) 12 1/2 (318) . 3 3/8 (86) 3 15/16 (100) 9 7/8 (251) - • . • 3: . See Drawing 35E for basic - S . unit information. 12 2060 (972) 16 (406) 15(381) 3 3/8 (86) . 3 15/16 (100) 11 7/8 (302) . - • 4. See Drawing 35E - 202 - 11 for controls 14 2800 (1321) 20 (508) 17 1/2 (445) 3 3/8 (86) 1 15/16 (49) 13 7/8 (352) - • • specification data. , - 5. Size 22 control enclosure 16 ' • 3660 (1727) 24 (610) 18 (457) 3 3/8 (86) 1 15/16 (49) 15 7/8 (403) - - • 32 5/8 (829mm) by 10 1/4' (250mm). 22 7000 (3304) 38 (965) 18 (457) 4 1/4 (108) - • See Above . 1 1/8 (29) PRODUCT. INFORMATION IS SUBJECT TO CHANGE WITHOUT NOTICE. • • 06/16/2003 .00xw: ,00xunm 10u:nn onAWKINI rw • . • . • . q n . B I , 35E -202 -4 Air Terminals Builder 2.03 - . • Page 10 of 17 • Performance .Summary For TU -2 Elec Project: - Untitled5 06/14/2012 • Prepared By: Larry Goodroe 07:56PM Unit Parameters Tag Name* TU -2 Elec Quantity: 2 Model Type VAV - CCN Model 35E Single Duct Terminals Control Type 4141: CCN 1 -2 Stage Electric Heat Unit and Inlet Size: 8 Inch Part Number: 35EC3300L080414100000S000000E9203 .5K0000060003000300 Reheat Option: Electric Reheat Outlet* 12x10 Unit Performance Altitude: 0 ft Max. Primary Airflow 600.0 CFM Min. Primary Airflow* 300.0 CFM Inlet Static Pressure: • 1.00 in wg Downstream Static Pressure: 20 , in wg Minimum Static Pressure•Drop• '.09 in wg • Motor Voltage: 4141: CCN 1 -2 Stage Electric Heat Note* Inlet Static Pressure includes downstream pressure drop.. . . . Electric Heating Coil Insulation: . Coil Airflow: 300.0 CFM Lining:...Standard (1/2 inch dual density f/g liner) - Capacity: 11.95 MBH . Attenuator Yes ` Entering Air Temp: 55.00 F ' . ,`_ -. Leaving Air Temp: 91.87 F ' =' l . Coil PD: 018 in wg . Error:... Query for txtReheatVoltage not resolved ' kW: 3.5 kW tr Steps: 2 •. �;.. MCA: 5.27 MOCP• N/A • Other Information: Acoustic Summary: Maximum Airflow: 927.0 CFM Sound Power Levels, dB re 10E -12 watts Design Airflow: 600.0 CFM Primary Airflow 600.0 CFM . Safety Factor: 35 % ••• . Unit LxWxH: 39.5 x 12 x 10 • ' - • Octave Bands (dB) Radiated Sound 2 3• 4 5 6 7 NC Primary Sound (Pwl) 55 49 44 39 36 30 * Total Attenuation 17 18 20 23 25 26 ` Room Sound Level (Spl) 38 31 24 16 11 < 10 18 Discharge Sound Primary Sound (Pwl) 60 59 52 40 33 33- Total Attenuation 29 30 41 53 55 41 Room Sound Level (Spl) 31 29 11 < 10 _ < 10 < 10 15 • Notes: 1. Room sound levels shown Include attenuation transfer functions shown above. 2. Data were obtained from tests conducted In accordance with ARI Standard 880 -98. 3. Sound power levels are In decibels, re 10A -12 watts. 4. Dash ( -) In space Indicates sound and/or NC value Is less than 10. Sound calculations are based on largest Inlet size. • -- - ---- The•results of this program only an•aid to the designer; and substitute for professional services. -- Carrier Corporation accepts no liability for the adequacy of any resulting design or installation. _ ' • All data subject to change without notice. • • Air'Terminals Builder 2.03 Page 11 of 17 Acoustics Summary For TU -2 Elec Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:56PM • • Unit Parameters Tag Name TU -2 Elec Quantity: 2 - Model Type • VAV - CCN Model' 35E Single Duct Terminals Control Type 4141: CCN 1 -2 Stage Electric Heat Unit and Inlet Size: • 8 Inch • Part Number: • 35EC3300L080414100000S000000E9203 .5K0000060003000300 Reheat Option: Electric Reheat Outlet 12x10 Insulation: Other Information: Lining:...Standard (1/2 inch dual density f/g liner) Maximum Airflow: 927.0 CFM Attenuator• Yes Design Airflow: • 600.0 CFM Safety Factor: 35 % UnitLxWxH: 39.5x1 Acoustic Summary: Sound Power Levels, dB re 10E - 12 watts Primary Airflow 600.0 CFM Octave Bands.(d Radiated Sound 2 3 4 5 6 7 NC Primary Sound (PwI) 55 49 44 39 • 36 30 Total Attenuation 17 18 20 23 25 26 Room Sound Level (Spl) . 38 31 24 16 11 < 10 18 Discharge Sound • Primary Sound (Pwl) 60 59 52 40 33 33 Total Attenuation . 29 . 30 41 53 55 41 • Room Sound Level (Spl) 31 29 11 < 10 < 10 < 10 15 Notes: 1. Room sound levels shown Include attenuation transfer functions shown above. 2. Data were obtained from tests conducted in accordance with ARI Standard 880-98. 3. Sound power levels are in decibels, re 10A -12 watts. 4. Dash ( -) in space Indicates sound and /or NC value Is less than 10. • Sound calculations are based on largest inlet size. The results of this program are only an aid to the designer, and are not a substitute for professional services. Carrier Corporation accepts no liability for the adequacy of any resulting design or installation. All data subject to change without notice. • • • • • • • • • • • • • • Air Terminals Builder 2.03 - . • Page 12 of 17 TU -3 Elec Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:56PM TU -3 Elec Tag Cover Sheet Unit Report Certified Drawing Performance Report Acoustic Summary Air Terminals Builder 2.03 Page 13 of 17 • Unit Report For TU -3 Elec • Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe • 07:56PM • • • Unit Parameters Tag Name' TU -3 Elec Quantity: - 1 • Model Type VAV - CCN • Model • 35E Single Duct Terminals Control Type' 4142: CCN 3 Stage Electric Heat Unit and Inlet Size: 14•Inch Part Number: 35EC3300L1404142000005000000E9312 .0K0000210008000800 Reheat Option: Electric Reheat Insulation Lining: Standard (1/2 inch dual density f/g liner) Outlet 20x17.5 Dimensions Unit Depth: 39.5 in • Unit Width "• 20.0 in Unit Height 18.0 in Unit Operating Weight : 61 lb "' Weights and Dimensions are approximate. Weight does not include curbs • and accessories. Approximate dimensions are provided primarily for shipping purposes. For exact dimensions, refer to certified drawings. Warranty Information 1 Year Parts Only Warranty Ordering Information Part Number Description Quantity Base Unit 35EC3300L140414200000S0 35E Single Duct Terminals 1 00000E9312.00000210008 000800 • • Attenuator " . 22 Gauge, Controls Left, No Access Panel • . . 4142: CCN 3 Stage Electric Heat • 480v /3Ph /3S (4 -Wire) . 12.0 kW . • LineaCross (4 quadrant) • Hangers . • • Door - Interlocking Fused Disconnect Accessories . • • • • Air Terminals Builder 2.03 • Page 14 of 17 • • • • . Certified Drawing'forTU- 3' • . Project: -Untitled5 . • 06/14/2012 - • •• , Prepared By: Larry Goodroe .. 07:56PM • CODE n•s =WO O r 6 M.S OF BASE UNIT WITH Carrier `""°'�°'"F°'"p° TNi °""""A' ' DM'''e1' ANALOG OR DIGITAL 35E IPoV � E65EU fbfJIGV ODES O FIFE OWE , Mt EE p9]DSF➢ P. FO. W.....5 CATALOGA - A United TEChnolEgA9 CAnp.ny ��,. w� CONTR OLS A ND ELECTRIC REHEAT CHARTED 'A DIMENSION INCLUDES INLET - ADAPTER PROHDED ON SIZES 4 & 5. 6 1/4 W (159) Or 39 1/2 ( — 1/2 (13) AIR FLOW TYP SLIP LIP & DRIVE OUTLET SENSOR DUCT CONNECTION • �`� INLET i - i DISCHARGE H _ 12 5) y TOP VIEW y • e . AIR FLOW - I AIR . FLOW DAMPER D H • . - DIGITAL & REHEAT • _ . INLET. VIEW - SIZES 6.16 • CONTROL ENCLOSURES ' ` . , SIZE 22 (RECTANGULAR INLET) - • I .. (16'k 24') F— 3 6 5/8 (930) _ IB ' PROVIDE 36 MINIMUM ACCESS • ' • PER NEC' RfUIREMENT , - • SENSOR - Carrier standard linear multiple point air flow sensor is standard on' all units with digital and pneumatic controls, . or for units with no controls. . LINER - The base unit is lined with standard 1/2" (13mm) thick, dual density insulation, with a body density of 1.5 lbs/cu. Ft • •' • (24 kg/m 3 ). This lining is coated to prevent erosion, and meets therequirements of UL 181 and NFPA 90A.. Optional: 1" • (25mm) thick insulation meeting same specifications as 1/2".. Optional: Steriliner insulation systein,•13 /16" thick rigid • insulation, foil faced on airstream -side, edges sealed from air stream with sheet metal z- strips.. Optional: Noliner insulation system, with no internal insulation. External insulation is recommended to prevent condensation. • • . Optional: Cellular insulation system, 3/8" thick thermal insulation consisting of dosed -cell elastomeric insulation with a ' smooth surface. • . Optional: Sterilwall insulation 1/2" think, blanket type, enclosed between zink- coated sheet metal. - . Optional: Perforated Double wall insulation - 23% perforated Sterilwall. - CASING - The base unit is constructed of 22 Ga. galvanized steel. Seams are mechanically sealed to prevent leakage [<2% at maximum rated airflow at 6" (1.49kPa) Ps.).. Optional: 20 Ga. galvanized steel casing. DAMPER ASSEMBLIES Leakage through the damper is less than 2% of nominal CFM at 6" (1.49Pa) Ps. Size 4 through 16 - One heavy gage steel damper with polyethylene loam gasketing. Size 22 - Two aluminum heavy gage opposed blades cross - linked with polyethylene foam gasketing. , ELECTRIC HEATER . ETL Listed, adherence to UL 429 for electrically operated valves. Automatic reset thermal cutout, • Manual Reset thermal cutout and positive pressure air flow switch are standard. PE switches are standard step controllers . • when pneumatic control systems are specified. Magnetic contactors are standard step controllers when electronic control systems are specified. Control enclosure houses all control components. Available heater voltages:. 120v/1 D, . 208v/1 e, . 240v/1 e, . 277v/1 o, . 208v/3e/3 -wire, . 480v/3e/4 -wire. Optional:: mercury contactors,! fuse block with fuses for primary overload protection, .'disconnect switches, . fused disconnect switches, . dust -tight construction. - • • UNIT; ACCESSORIES - . Optional hanger brackets, . optional control sequences, see subrnittals. . ' • 35E WITH OPTIONAL ELECTRIC HEAT INLET NOM MAX . • SIZE CFM (Us) • W H . A . B ' D C • 4 230 (109) 12 (305) 8 (203) 5 3/8(136) 5 15/16 (151) 3 7/8 (98) 2 (51) 5 • 360 (170) 12 (305) 8 (203) 5 3/8 (136) 5 15/16 (151) 4 7/8 (124) 2 (51) ' 6 515 (243) 12 (305) 8 (203) 3 3/8 (86) 5 15/16 (151) 5 7/8 (149) 2 (51) 7 700 (330) 12 (305) 10 (254) 3 3/8 (86) 5 15/16 (151) 6 7/8 (.175) 1 (25) NOTE: 8 920 (434) 12 (305) 10 (254) 3 3/8 (86) 5 15/16 (151) 7.7/8 (200) 1 (25) 1. Right hand configuration shown. ' 9 1160 (547) 14 (356) 12 1/2 (318) 3 3/8 (86) 3 15/16 (100) 8 7/8 (225) - LeN hand Is available. • 2. Dimensions are given as Inches (mm). 10 1430 (675) 14 (356) 12 1/2 (318) 3 3/8 (86) 3 15/16 (100) 9 7/8 (251) - 3. See Drawing 35E-202-.1C for basic • ' • unit Information. 12 2060 (972) 16 (406) 15 (381) 3 3/8 (86) '3 15/16 (100) 11 7/8 (302) - ' ' • 4. See Drawing 35E- 202 -11 for controls 14 2800 (1321) 20 (508) 17 1/2 (445) 3 3/8 (86) 1 15/16 (49) 13 7/8 (352) ' spedficatIon data. 5. Size 22 control endosure 16 3660 (1727) 24 (610) 18 (457) 3 3/8 (86) 1 15/16 (49) 15 7/8 (403) ' - • 32 5/8' (829mm) by 10 1/4• (260mm). 22 7000 (3304) 38 (965)_ 18 (457)_ 4 1/4 (108) . See Above 1 1/8 (29) PRODUCT INFORMATION IS SUBJECT TO CHANGE WITHOUT NOTICE. 06/16/2003 Jm MH.E. =mo. MAW. KAMP • w con B • I °` 35E -202 -4 Air Terminals Builder 2.03 . Page 15 -of 17 • • Performance Summary For TU -3 Elec Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:56PM Unit Parameters Tag Name TU -3 Elec Quantity 1 Model Type VAV - CCN Model 35E Single Duct Terminals Control Type* 4142: CCN 3 Stage Electric Heat Unit and Inlet Size: 14 Inch Part Number: 35EC3300L140414200000S000000E9312 .0K0000210008000800 Reheat Option: Electric Reheat Outlet 20x17.5 Unit Performance Altitude: 0 ft Max. Primary Airflow 2,100 0 CFM Min. Primary Airflow* 800.0 CFM Inlet Static Pressure: 1.00 in wg Downstream Static Pressure: .20 in wg Minimum Static Pressure Drop* . in wg Motor Voltage: 4142: CCN 3 Stage Electric Heat Note Inlet Static Pressure includes downstream pressure drop. Electric Heating Coil Insulation: Coil Airflow: 800.0 CFM Lining:...Standard (1/2 inch dual density f/g liner) Capacity: 40.96 MBH Attenuator Yes Entering Air Temp: 55.00 F Leaving Air Temp: 102.40 F Coil PD: 015 in wg Voltage: 480 -3 -60 kW: 12.0 kW Steps: 3 MCA: 18.06 MOCP• N/A • Other Information: Acoustic Summary: Maximum Airflow: 2,838.0 CFM Sound Power Levels, dB re 10E - 12 watts Design Airflow: 2,100.0 CFM Primary Airflow* 2,100.0 CFM Safety Factor: 26 % Unit LxWxH• 39.5 x 20 x 18 Octave Bands (dB) Radiated Sound 2 3 4 5 6 7 NC Primary Sound (Pwl) 53 49 46 42 41 37 Total Attenuation 17 18 20 23 25 26 Room Sound Level (Spl) 36 31 26 19 16 11 20 Discharge Sound Primary Sound (Pwl) 64 60 57 47 44 44 Total Attenuation 29 30 41 53 55 41 ` Room Sound Level (Spl) 35 30 16 < 10 < 10 < 10 16 Notes: 1. Room sound levels shown include attenuation transfer functions shown above. 2. Data were obtained from tests conducted in accordance with ARI Standard 880-98. 3. Sound power levels are In decibels, re 10 ^ -12 watts. 4. Dash ( -) in space Indicates sound and /or NC value is less than 10. " Sound calculations are based on largest Inlet size. The results of this program are only an aid to the designer, and are not a substitute for professional services. Carrier Corporation accepts no liability for the adequacy of any resulting design or installation. All data subject to change without notice. Air Terminals Builder 2.03 Page 16 of 17 4 Acoustics Summary For TU -3 Elec Project: - Untitled5 06/14/2012 Prepared By: Larry Goodroe 07:56PM Unit Parameters Tag Name TU -3 Elec Quantity: 1 Model Type* VAV - CCN Model' 35E Single Duct Terminals Control Type 4142: CCN 3 Stage Electric Heat Unit and Inlet Size: 14 Inch Part Number: 35EC3300L140414200000S000000E9312 .0K0000210008000800 Reheat Option: Electric Reheat Outlet* 20x17.5 Insulation: Other Information: Lining:...Standard (1/2 inch dual density f/g liner) Maximum Airflow: 2,838.0 CFM Attenuator Yes Design Airflow: 2,100.0 CFM Safety Factor: 26 % Unit LxWxH: 39.5 x 20 x 18 Acoustic Summary: Sound Power Levels, dB re 10E -12 watts Primary Airflow 2,100.0 CFM Octave Bands (dB) Radiated Sound 2 3 4 5 6 7 NC Primary Sound (Pwl) 53 49 46 42 41 37 • Total Attenuation 17 18 20 23 25 26 * Room Sound Level (Spl) 36 31 26 19 16 11 20 Discharge Sound Primary Sound (Pwl) 64 60 57 47 44 44 ' Total Attenuation 29 30 41 53 55 41 ' Room Sound Level (Spl) 35 30 16 < 10 < 10 < 10 16 Notes: 1. Room sound levels shown include attenuation transfer functions shown above. 2. Data were obtained from tests conducted in accordance with ARI Standard 880.98. 3. Sound power levels are in decibels, re 10 ^ -12 watts. 4. Dash (•) in space Indicates sound and /or NC value Is less than 10. '• Sound calculations are based on largest Inlet size. The results of this program are only an aid to the designer, and are not a substitute for professional services. Carrier Corporation accepts no liability for the adequacy of any resulting design or installation. All data subject to change without notice. Air Terminals Builder 2.03 Page 17 of 17 [Page Too Large for OCR Processing] [Page Too Large for OCR Processing]