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Specifications (2)
15F6 5 S (✓ 7q Ali titE6._.2 0n Form 4a Project Name: BRAND INOVATORS Page: 1 SYSTEMS - GENERAL Applicability Plans /Specs Discussion of qualifying Show compliance by including a drawing sheet, detail number, exceptions on page 4-25 specification section and subparagraph. • 1. Applicablity (Section 1317) Is this form required? p Form Required. Complete form if a new HVAC system is being installed, or components of an existing HVAC system are being replaced (I.e., equipment, controls, ductwork, and insulation.) ❑ Exception. The building or part of the building qualifies for an exception from HVAC code requirements. Applicable code exception is Section 1317.1. Portions of the building that qualify: Area: Exception ❑ -1 ❑ ❑ -3 Area: Exception ❑ -1 ❑ -2 ❑ -3 Area: Exception ❑ -1 ❑ -2 ❑ -3 ❑ Form Not Required. This project does not contain work required to comply with code. 2. Simple or Complex Systems (Section 1317.9 or 1317.10) 0 Simple System. Building contains only Simple HVAC System(s). Complete this form (4a) and • equipment efficiency worksheets as required. Form 4b is not required. ❑ Complex System. Project includes a Complex System. Complete this form (4a), form 4b and equipment efficiency worksheets as required. • 3. Equipment Performance (Section 1317.5) ❑ No New HVAC Equipment. The building plans do not call for new electrical HVAC equipment, combustion heating equipment, or heat - operated cooling equipment. p Complies. All new HVAC equipment have efficiencies not less than those required by code. The following equipment efficiency worksheets are attached: ❑ -4a ❑ -4b ❑ -4c ❑ -4c ❑ -4e ❑ -41 ❑ -49 ❑ -4 r ❑ -4 ❑ -4 4. Duct Insulation and Sealing (Sections 1317.7 & 1317.8) ❑ No Ducts. The building plans and specifications do not call for new HVAC ducts or plenums. p Complies. The plans and specifications call for all air - handling ducts and plenums to be insulated and sealed as required by Sections 1317.7 &1317.8. 5. Distribution Transformers (Section 1316.1) p No Distribution Transformers. The plans /specs do not call for new distribution transformers. ❑ Complies. All new distribution transformers comply with efficiency, testing, and labeling requirements of Section 1316.1.1. ❑ Exception. The project qualifies for an exception per Section 1316.1.1, Exceptiion: 0 -1 0-2 0- 0-4 ❑.s 0-6 0- 0-8 0-9 0-10 0• 0-12 0-1: 0-14 Attach relevant documentation for appropriate exception. The plans /specs show compliance in the -`' following �. �, -:- f .. ollowin locations: o. 4-1 Form 4a Project Name: BRAND INOVATORS Page: 2 SYSTEMS — GENERAL 6. HVAC Controls (Section 1317.4) 6.1 System Thermostat /Zone Controls (Section 1317.4.1) ® Complies. All new HVAC systems include at least one temperature control device responding to • temperatures within the zones. ❑ Exception. HVAC system qualifies for an exception from zone control requirements. The applicable code exception is Section 1317.4.2, Exception ❑ -i ❑ -2 Portions of the building that qualify: The plans /specs show compliance in the following locations: • 6.2 Off Controls - Auto Setback or Shutdown (Section 1317.4.3) O Complies. Systems must have at least one of the following features: ❑ Control Setback Complies. Each system is equipped with automatic control capable of reducing energy through control setback during periods of non -use or alternate use of spaces served. ❑ Equipment Shutdown Complies. Each system is equipped with controls capable of reducing energy use through automatic shutdown during periods of non -use or alternate use of spaces. HVAC systems with equipment shutdown are equipped with at least one of the following: ❑ Programmable controls (1317.4.3.1 (1)) ❑ Occupant sensor (1317.4.3.1 (2)) ❑ Interlocked to a security system (1317.4.3.1 (3)) ❑ Manually activated timers with 2 -hour operation max (1317.4.3.1 (4)) ❑ Exception. The building qualifies for an exception to the requirement for automatic setback or shutdown controls. The applicable code exception is Section 1317.4.3 Exception ❑ -1 ❑ -2 The plans /specs show compliance in the following locations: 6.3 Control Capabilities (Sec. 1317.4.2.1) O Complies. Zone thermostats are capable of being set to the temperatures described in Sec. 1317.4.2.1. Where used to control both heating and cooling, zone controls shall be capable of providing a temperature range or deadband of at least 5 degrees F within which the supply of heating and cooling energy to the zone is shut off or reduced to a minimum. ❑ Exception. The building qualifies for an exception to the deadband requirements. The applicable code exception is Section 1317.4.2.1 Exception ❑ -+ ❑ -2 Portions of the building that qualify: The plans/specs show compliance in the following locations: 6.4 Optimum Start Controls (Section 1317.4.3.2) O Complies. Separate HVAC systems have controls capable of varying start-up time of system to just meet temperature set point at time of occupancy. ❑ Exception. HVAC systems have a design supply air capacity not exceeding 10,000 cfm. The plans/specs show compliance in the following locations: 6.5 Heat Pump Controls (Section 1317.4.4) O No Heat Pump. The plans /specs do not call for a new heat pump ❑ Complies. All new heat pumps equipped with supplementary heaters are controlled to minimize the use of supplemental heat as defined in Section 1317.4.4. The plans /specs show compliance in the following locations: 4-2 comnhance iitiMsg$4 ectNe o1/o1/C5 • Form 4a Project Name: BRAND INOVATORS Page: 3 SYSTEMS - GENERAL 7. Economizer Cooling (Section 1317.3) ❑ No Cooling. The building plans do not call for a new fan system with mechanical cooling. . ❑ Complies. Each new fan system has an air economizer capable of modulating outside -air and return-air dampers to provide up to 100 percent of the design supply air as outside air. ❑ Exception At least one new fan system qualifies for an exception. The applicable code exception is Section 1317.3, Exception ❑ - ❑ -2 ❑ -3 ❑ -4 ❑ -5 ❑ -6 If Exception 3 is selected complete the following: (a) Total cooling capacity of exempt units (Btu /hr) (b) Total installed building cooling capacity (Btu /hr) ❑ Complies. Sum of exempt units rated at less than 54,000 Btu /hr is <240,000 Btu /hr or a/b < 0.10 (10% of total building cooling capacity). Unit Identifier of exempt units: The plans /specs show compliance in the following locations: • 8. Economizer Pressure Relief es Integration (Section 1317.3.1 and 1317.3.2) O No Economizers Required. Project does not contain a new fan system requiring economizers. ❑ Overpressurization Complies. The drawings specifically identify a pressure relief mechanism for each fan system that will relieve the extra air introduced by the economizer. ❑ Integration Complies. Economizer is capable of providing partial cooling even when additional mechanical cooling is required to meet the remainder of the cooling load. ❑ Exception. The applicable exception is Section 1317.3.2, Exception ❑ -1 ❑ -2 The plans /specs show compliance in the following locations: 9. Hot Gas Bypass (Section 1317.5) O No Hot Gas Bypass ❑ Complies. See allowable amount of hot gas bypass as a percentage of total cooling capacity in table below. Unit ID Rated Cooling Capacity Hot Gas Bypass Capacity Allowable Hot Gas Bypass ., . 1g Rated Cooling Capacity Max Hot Gas Bypass '.-%-..q_ /` <240,000 Btu /hr S0% >240,000 Btu /hr 25% • ❑ Exception. Unitary packaged system with cooling capacity no greater than 90,000 Btu /h 4-3 Compliance with OSSAIQ/01/05 • Form 4a Project Name: BRAND INOVATORS Page: 4 SYSTEMS - GENERAL , 10. Shutoff Dampers (1317.4.3.3) El Not Required. Shutoff dampers are not required on this project. ❑ Complies. Each outdoor air supply & exhaust system shall be equipped with motorized dampers. ❑ Exception. The building qualifies for an exception to the motorized damper requirement. The applicable code exception is Section 1317.4.3.3 Exception 0-1 0-2 0-3 0-4 0-5 0-6 The plans /specs show compliance in the following locations: 10.1. Shutoff Damper Controls (Section 1317.4.3.3.1) ❑ Complies. Outdoor air supply and exhaust systems shall be provided dampers that automatically shut when systems or spaces served are not in use or during building warm -up, cooldown, or setback. ❑ Complies. Stair and shaft vents are capable of being automatically closed during normal building operation and interlocked to open as required by fire and smoke detection systems. The plans /specs show compliance in the following locations: 10.2. Motorized Damper Leakage (1317.4.3.3.2) ❑ Complies. Motorized outdoor air supply and exhaust air dampers have a maximum leakage rate • of 4 cfm /ft2 at 1.0 in w.g. when tested in accordance with AMCA Standard 500 -1998. ❑ Exception. Packaged HVAC equipment may have maximum leakage rate of 20 cfm /ft at 1.0 in w.g. when tested in accordance with AMCA Standard 500 -1998. The plans /specs show compliance in the following locations: 11. Piping Insulation (Section 1314) 13 No New Piping. The building plans and specifications do not call for new piping serving a heating or cooling system or part of a circulating service water heating system. . ❑ Complies. All new piping serving a heating or cooling system or part of a circulating service water heating system complies with the requirements of the Code, Section 1314.1. ❑ Exception. New piping qualifies for exception: Section 1314.1, Exception 0- 0-2 12. Occupancy Ventilation El Complies. Mechanical ventilation systems provide the required amount of ventilation is indicated in plans /specifications as specified in Chapter 4 of the Oregon Mechanical Specialty Code. ❑ Complies. Natural ventilation systems provide required amount of ventilation as certified by a reg- istered architect or engineer as specified by Section 1203.4.1, Exception. Attach worksheet 4m. The plans /specs show compliance in the following locations: The plans /specs show compliance 4 ° on the following pages: 4-4 cmmganc with Cl !' SSfl6J/7d21 /01/0$ • Form 4a Project Name: BRAND INOVATORS Page: 5 SYSTEMS - GENERAL 13. High Occupancy Ventilation (Section 1317.2.2) ❑ Complies. HVAC systems with ventilation air capacities of 1,500 CFM or greater that serve areas having an average occupant load of 20 square feet per person or less from Table 1004.1.2 have a means to automatically reduce outside air intake. Identify applicable systems: Plans /specs indicate where equipment (i.e. carbon dioxide sensor) and sequence is specified: ❑ Exception. HVAC systems are equipped with an energy recovery device with at least 50% recovery effectiveness. M No High Occupancy Systems. Project does not contain an HVAC system as described above. 14. Exhaust Air Heat Recovery (Section 1318.3) M Not Regulated. HVAC system does not have: 1) design supply air cap. of >10,000 cfm, and 2) min. outside air supply >70 %, and 3) at least 1 exhaust fan rated at 75% of min outside air supply. ❑ Complies. Heat recovery system increases outside air temperature by 20 °F (Climte Zone 1) or 30 °F (Zone 2) and has provision to provide bypass during air economizer mode. ❑ Exception. An HVAC system qualifies for an exception to this requirement. Applicable exception from Section 1318.3 Exception ❑ -1 ❑ -2 ❑ -3 ❑ -4 ❑ -5 ❑ -s ❑ -7 The plans/specs show compliance in the following locations: 15. Large Volume Fan Systems (Section 1318.4.2.4) ® Not Regulated. The building plans or specifications do not call for fan systems over 15,000 CFM that serve a single zone and function for the purpose of temperature control. ❑ Complies. Fan systems are equipped with variable frequency drive or two speed motor to reduce • airflow as required by Section 1318.4.2.3. The plans/specs show compliance in the following locations: 16. Variable Speed Drives (Section 1317.10.3.1) II Not Regulated. The building plans or specifications do not call for fan and pump motors 10 horsepower and greater that serve variable -flow air or liquid systems. ❑ Complies. All fan and pump motors 10 hp and greater which serve variable -flow air or liquid systems are controlled by a variable -speed drive. ❑ Exception. The building qualifies for an exception to the variable -speed drive requirement. Portions of the building that qualify: Applicable code exception is Section 1317.10.3.1, Exception The plans/specs show compliance in the following locations: 17. Service Water Heating (Sec. 1315) ❑ No New Water Heating. The building plans and specifications do not call for new water heaters, hot water storage tanks or service hot water distribution systems. ❑ Complies. All new water heaters, hot water storage tanks or service hot water distribution systems comply with the requirements of the Section 1315. ❑ Exception. The applicable code exception is Section: Exception: ' ; zy Portions of the building that qualify: • The plans/specs show compliance in the following locations: 4-5 csaimp1;,va.... Ql?{Z.4 01M, M . • • Form 4a Project Name: BRAND INOVATORS Page: 6 1 ------ SYSTEMS - GENERAL Q • 18. Swimming Pools, Spas and Hot Tubs (Section 1315.5) • ® No New Pools. The building plans and specifications do not call for new, swimming pools, spas or hot tubs. ❑ On /Off Controls Complies. Spa and hot tub heaters are equipped with a readily accessible ON /OFF switch as required by Section 1315.5.1. ❑ Ventilation Controls Complies. Pool ventilation system is controlled based on humidity. ❑ Cover Complies. All heated pools, hot tubs and spas are equipped with a cover. ❑ Heat Recovery Complies. Pools, Spas, and hot tubs, over 200 ft utilize recovered heat as required by Section 1315.5.3. ❑ Exception. Heat recovery is not necessary as pool is heated by renewable energy or waste heat recovery sources capable of providing at least 70 percent of the heating energy required over an operating season. 19. Fume Hoods (Section 1317.2.1.) • ® No Fume Hoods. The building plans do not call for fume hood systems that have a total exhaust rate greater than 15,000 cfm. ❑ Complies. Fume hood systems have at least one of the following features: ❑ Variable air volume hood exhaust and room supply systems capable of reducing exhaust and makeup air volume to 50% or less of design values. ❑ Direct makeup (auxiliary) air supply equal to at least 75% of the exhaust rate, heated no warmer than 2° F below room set point, cooled no cooler than 3° F above room set point, no humidification added, and no simultaneous heating and cooling used for dehumidification control. ❑ Heat recovery systems to precondition makeup air from fume hood exhaust in accordance with 1318.3 - Exhaust Air Energy Recovery, without using any exception. The plans /specs show compliance in the following locations: 20. Parking Garage Ventilation (Section 1317.2.3) ® No Enclosed Garages. The building plans and specifications do not call for enclosed Group S- 2 parking garages with a ventilation exhaust rate greater than 30,000 CFM. ❑ Complies. The plans and specifications call for carbon monoxide sensing devices as required by Section 1317.2.3. ❑ Exception. Open parking garages. 21. Kitchen Hoods (Section 1317.11) ® Not Regulated. The plans /specs do not call for any new kitchen hoods with exhaust capacity greater than 5,000 cfm each. ❑ Complies. All new kitchen hoods with a total exhaust capacity greater than 5,000 cfm have at least 50 percent of the required makeup air; (a) unheated or heated to no more than 60 °F; and (b) uncooled or evaporatively cooled. P The plans /specs show compliance in the following locations: i •, 22. Outside Heating Systems (Section 1317.12) ® No Outside Heating Systems. The plans /specs do not call for new permanently installed heating systems outside the building. ❑ Complies. All new permanently installed outside heating systems are radiant gas fired systems • controlled by an occupancy sensor or timer switch as required by Section 1317.12. 4-6 rnmrlian.Q with AAY"icAf'dFM/d mini/0c • Worksheet 4a Project Name: BRAND INOVATORS Page: UNITARY AIR CONDITIONER - AIR COOLED • Equipment (a) (b) (c) (d) (e) Proposed Performance Discussion of equipment Cooling - Seasonal or Compliance ratings and equipment Equip. ID Model Designation Capacity Steady State Part Load Schedule (A -E) 9 derundrons on page 4 -19 RTU 1, 2 BRYANT 580FPV036074 36000 10.1 N/A C • Required Indicate source of information • Document- ❑ ARI Unitary Directory, Section AC, page: ation ❑ ARI Applied Products directory, Section ULE, page: ® Product data (Attach data furnished by the equipment supplier, I.e., "cut sheets') Code Required Cooling Capacity (btu/hr) Minimum Rating Efficiencies Compliance Seasonal or Schedule Equipment Type Over But not over - Steady State Part Load 0 65,000 na 9.7 SEER Single Package Without a 65,000 135,000 10.3 EER n/a This schedule of equip A Heating Section or With Electric 135,000 240,000 9.7 EER n/a merit efficiencies was Resistance Heat 240,000 760,000 9.5 EER 9.7 IPLV reformatted from code, 760,000 - 9.2 EER 9.4 IPLV Table 13 0 65,000 na 10 SEER Split System Without a Heating 65,000 135,000 10.3 EER n/a B Section or With Electric 135,000 240,000 9.7 EER n/a Resistance Heat 240,000 760,000 9.5 EER 9.5 IPLV 760,000 - 9.2 EER 9.2 IPLV 0 65,000 na 9.7 SEER Single Package With a Heating 65,000 135,000 101 EER n/a C Section Other Than Electric 135,000 240,000 9.5 EER n/a Resistance 240,000 760,000 9.3 EER 9.5 IPLV 760,000 - 9.0 EER 9.2 IPLV z".: 0 65,000 na 10 SEER • "" =:, , Split System With a Heating 65,000 135,000 10.1 EER n/a :. - i D Section Other Than Electric 135,000 240,000 9.5 EER n/a Resistance 240,000 760,000 9.3 EER 9.7 IPLV °D 760,000 9.0 EER 9.4 IPLV E Condensing Unit Only 135,000 - 10.1 EER 11.2 IPLV 4-11 r orripbgnre With ( SC: Pfrw'hw nvnl ms :.. ,. ;a .. 580 F,..579 COMMERCIAL �',` S = F, 581 A/B. 'C - - _ =? ;;_ : -....., : . : _: , ..,..._:-,,,, i ,... : ;. , ,...: ...., ,- ... ,: .1 ::- : SINGLE PACKAGE-ROOFTOP UNITS: - DuraPac • hr.y,ant� ; ; ;; :':;;;:.. w . . GAS: HEATING/ELECTRIC COOLING=_ ,;.., _ Drur aPacP ki Seri _ - „t, - „ :_ .. : Sii 036 - 300 ';:, ;: � :7.:z.:',:-:::-:1.;:=;3 - ::: 3 to 25-Tori �` -- -- -- - -- i 1 -z '-"---- - kv= t, r �_ • yam ��� _� . Nini' SIZES 036 -073 -E- - -- � - -� x:,115 f SIZES 090 -150 579F180 -216 581A155,180 580F180,210 III f -.. _p -. .- ;; Perfect ' Humidity - fi .. _ _ 9 580F240 �: 580F300 ; �� kf W. 579F240 -300 COMP ....__:: T Standard- Efficiency, Mid- Efficiency, High- Efficiency gas heat- manufactured exclusively for Bryant rooftop units, provides ing with electric cooling rooftop units with: built -in diagnostic capability. An LED (light- emitting diode) sim- • Pre - painted galvanized steel cabinet for long life and quality plifies troubleshooting by providing visual fault notification and appearance system status confirmation. • Commercial strength base rails with built -in rigging capability The IGC also contains an exclusive anti-cycle protection for • Convertible design for vertical or horizontal supply /return gas heat operation. After 4 continuous cycles on the unit high - (036 -150) temperature limit switch, the gas heat operation is disabled, - • Non - corrosive, sloped condensate drain pan, meets and an error code is issued. This feature greatly improves reli- ' ASHRAE 62 (IAQ) ability of the rooftop unit. • Two -inch return -air fitters The IGC also contains burner control logic for accurate and • A wide assortment of factory - installed options available, dependable gas ignition. The LED is visible without removing . including high static drives that provide additional perfor- the unit control box access panel. This LED fault- notification mance range system reduces service person troubleshooting time and mini- • Optional gear driven EconoMi$er with CO ventilation con- mizes service costs. The IGC also maximizes heating effi- trol (2 to10 vac signal) ciency by controlling evaporator -fan on and off delays. • Optional gear driven EconoMi$er with 4 to 20 mA actuator Tubular, dimpled gas heat exchangers optimize heat transfer for building automated system controls • Perfect HumidityiM dehumidification package (not available for improved efficiency. The tubular design permits hot gases to on 580E 036-150 units). This factory installed option make multiple passes across the path of the supply air. The improves the dehumidification capability of the rooftop unit dimpled design creates a turbulent gas flow to maximize heat - and helps control humidity levels in the conditioned space. ing efficiency. Heat Options The efficient in -shot burners and all ignition components are contained in an easily removable, compact assembly. • Exclusive integrated gas control board with diagnostics • AlumagardT" heat exchanger coating The California Air Quality Management Districts NO require- • Induced -draft fan for gas combustion ment of 40 nanogramsfoule or less is met on 036 -060 size Low • Tubular, dimpled heat exchangers NO models. • Natural gas The extra thick AlumagardT" heat exchanger coating provides • LP conversion kits corrosion resistance and ensures long life (optional stainless • Low NO (3 to 5 ton units) steel heat exchangers are available). The unsightly appearance of flue stacks is eliminated and the FEATURES/BENEFITS effects of wind on heating operations are diminished by the Every compact one -piece unit arrives fully assembled, induced draft combustion system. The inducer fan draws hot charged, tested, and ready to run. combustion gas through the heat exchanger at the optimum rate for the most effective heat transfer The heat exchanger GAS HEAT MODELS — All ignition components are contained operates under negative pressure, preventing flue gas leakage in the compact IGC (integrated gas controller) which is easily into the indoor supply air. arrPssible for servicing. The IGC control board, designed and Form No. PDS 580F.36.2 AUG "I ?011i ARI' CAPACITY RATINGS NET COOLING SEER'( SOUND NOMINAL STANDARD TOTAL • UNIT 580F TONS CFM CAPACITY kW Belt Drive Direct Drive RATING (Btuh) (dB) •--40 036 3 1200 35,000 4.0 10.0 9.7 81 048 4 1600 47,000 5.5 10.0 9 7 81 - • 060 5 2000 57,000 6.7 10 0 9.7 81 NET COOLING SOUND UNIT NOMINAL CAPACITY TOTAL EER RATING IPLV 580F TONS (Btuh) kW (dB) 072 6 72.000 8.0 9.0 81 073 6 71,000 8.0 10.1 81 N/A 090 7 85.000 9.6 8.9 87 9.40 _ 091 7 88,000 11.0 10 1 87 10.5 102 8' / 98.000 11.0 9.0 87 9.00 120 10 117,000 13.0 9.0 88 9.40 121 10 114,000 13.0 10 1 88 10 4 150 12'/ 144,000 161 9.0 87 9.20 LEGEND 3. Ratings are based on: dB - Sound Levels (decibels) db - Dry Bulb ""''• •,_ ,.. � , EER - Energy Efficiency Ratio l IPLV - Integrated Part -Load Values } , SEER - Seasonal Energy Efficiency Ratio wb - Wet Bulb ' *Air Conditioning and Refrigeration Institute. '(Applies only to units with capacity of 65.000 Btuh or less. Cooling Standard: 80 F db, 67 F wb indoor entering -air temperature "The IPLV applies only to two -stage cooling units and 95 F db air entering outdoor unit. IPLV Standard: 80 F db, 67 F wb indoor entering -air temperature and NOTES: 80 F db outdoor entering -air temperature. 1. Rated in accordance with ARI Standards 210/240, latest revision (for sizes 036 -120) or 360, latest revision (for size 150) and 270, 4. All 580F036, 048, 060, 073, 091, 121 units are in compliance with latest revision. ASHRAE 90.1 -1999 Energy Standard for minimum SEER and � 2. ARI ratings are net values, reflecting the effects of circulating fan EER requirements. Refer to state and local codes or visit the ' heat. following website• htto: // solstice .cresLorg /efficiency/bcao to deter- mine if compliance with this standard pertains to a given geo- .• • graphical area of the United States. California, Maryland, Washington, Wyoming, Massachusetts and • various local and stale building codes adopted the ASHRAE 90.1- 1999 efficiency standard on October 29, 2001. i HEATING CAPACITIES AND EFFICIENCIES (Standard EfTiclency Units) . • 208/230 -1.60- SINGLE STAGE GAS HEAT UNIT INPUT OUTPUT TEMPERATURE EFFICIENCY 580F CAPACITY CAPACITY RISE ( °F) AFUE ( %) Steady State (%) 036074 74,000 59,200 25-55 80 80 036115 115,000 92,000 55-85 80 80 • 048074 74,000 59,200 25 -55 80 80 048115 115,000 92,000 35 -65 80 BO 048150 150,000 _ 120,000 50 -80 _ 80 80 080074 74,000 59.200 25.55 80 80 060115 115,000 92,000 35 -65 80 80 080150 150,000 120.000 50-80 80 80 208/230 -1 -60- SINGLE STAGE GAS HEAT- LOW NOx UNIT INPUT OUTPUT TEMPERATURE EFFICIENCY 580F CAPACITY CAPACITY RISE ( °F) AFUE ( %) Steady State ( %) - 036060N 60,00 48,600 20 -50 80 60 036090N 90.000 72,000 30 -60 80 80 048060N 60,000 48,000 20-50 80 80 048090N 90,000 72,000 30 -60 80 80 048120N 120,000 - 96,000 40-70 80 80 060060N 60,000 48,000 20-50 80 80 060090N 90,000 72,000 30-60 80 80 060120N 120,000 - 96,000 40-70 80 80 25 AIR* CAPACITY RATINGS (cont) - HEATING CAPACITIES AND EFFICIENCIES (Standard Efficiency Units) (cont) 208/2304460-3-60 - SINGLE STAGE GAS HEAT - LOW NOx UNIT INPUT OUTPUT TEMPERATURE EFFICIENCY 580E CAPACITY CAPACITY RISE CF) AFUE ( %) Steady State (%) 036060N 60,000 48,600 20-50 80 80 036090N 90,000 72,000 30 -60 80 80 048060N 60,000 48,000 20 -50 80 80 048090N 90,000 72,000 30 -60 80 80 048120N 120,000 96,000 40 -70 80 80 060060N 60,000 48,000 20-50 BO 80 060090N 90,000 72.000 30 -60 BO 80 060120N 120,000 96,000 40 -70 80 80 208/230/460 -3-60 - 2 STAGE GAS HEAT UNIT INPUT CAPACITY OUTPUT CAPACITY TEMPERATURE EFFICIENCY 580F 1st Stage 2nd Stage 1st Stage 2nd Stage RISE (°F) AFUE ( %) Steady State ( %) 036115 82,000 115,000 65,600 92,000 55 -85 80 80 • 048150 120,000 150,000 96,000 120,000 50 -80 80 80 060150 120,000 150,000 96,000 120,000 50-80 80 80 072150 120,000 150,000 96,000 120,000 50 -80 80 80 090125 90,000 125,000 72,000 100,000 20-50 80 80 i 090180 120,000 180,000 96,000 144,000 35-65 80 80 090224 180,000 224,000 144,000 179,200 45-75 80 80 102125 90,000 125,000 72,000 100,000 20 -50 80 80 102180 120,000 180,000 96,000 144,000 35 -65 80 80 102224 180,000 224,000 144,000 179,200 45 -75 80 80 120180 120,000 180,000 90,000 144,000 35 -65 80 80 120224 180,000 224,000 144,000 179,200 35 -65 80 80 120250 200,000 250,000 160,000 200,000 40 -70 80 80 150224 180,000 224,000 144,000 179,200 35-65 80 80 150250 200,000 250,000 160,000 200,000 40 -70 80 80 • 208/230/480 -3-80 - SINGLE STAGE GAS HEAT UNIT INPUT OUTPUT TEMPERATURE EFFICIENCY 580F CAPACITY CAPACITY ('F) AFUE (Y'.) Steady State ( %) 036074 74,000 59,200 25 -55 80 80 036114• 115,000 92,000 55 -85 80 80 048074 74,000 59,200 25 -55 80 80 048116 115,000 92,000 35 -65 80 80 _ 048149' 150,000 120,000 50 -80 80 80 060074 74,000 59,200 25 -55 80 80 • 080115 115,000 92,000 35 -65 80 80 060149' 150,000 120,000 50-80 80 80 072074 74,000 59,200 25 -55 80 80 072115 115,000 92,000 35 -65 80 80 'California compliant units HEATING CAPACITIES AND EFFICIENCIES (Medium Efficiency Units) UNIT HEATING INPUT (Btuh) OUTPUT CAPACITY TEMPERATURE AFUE STEADY -STATE 580F Stage 2/Stage 1 (Btuh) RISE (F) ( %) EFFICIENCY ( %) 073074 -1 74,000 59,200 25 -55 80.0 80.0 073115 - /115,000 92,000 35 -65 80.0 80.0 073150 150,000/120,000 120,000 50 -80 80.0 80.0 091125 - /125,000 100,000 20-50 80.0 80.0 , 091180 180,000/120,000 144,000 35 -65 80.0 80.0 091224 224,000/180,000 179,200 45 -75 80.0 80.0 121180 180,000/120,000 144,000 35 -65 B0.0 80 0 121224 224,000/180,000 179,200 35-65 80 0 80.0 121250 250,000/200,000 200,000 40 -70 80.0 80 0 - 26 • PHYSICAI4)ATA - 580F036 -073 UNIT SIZE 580F 036 048 060 072 073 ' NOMINAL CAPACITY (tons) 3 4 5 6 6 OPERATING WEIGHT (Ib) a r : P; i.. Unit AVAI' 460 470 490 565 615 AUCu' 465 476 497 576 633 • Cu/Cu' 468 482 505 587 637 EconoMlSer • 47 47 47 47 47 Roof Curbt 115 115 115 115 115 COMPRESSOR .„ - - . Recprocating• 'Reciprocarin7 -, Reciprocating• Scroll... ''Scroll - ;1 Quantity 1 1 1 1 1 No. Cylinders (per Circuit) 2 2 2 2 NA 011 oz 50 50 50 54 80 y • - , .• 1.,..: , •.. a:..•... "' R -22 ...., Expansion Device Fixed Orifice Metering Device Operating Charge (lb-oz) Circuit 1 4-4 6-6 6 -14 9-0 9 -0 Circuit 2 - - - - - CONDENSER COIL • `.. - - .• •- - . , Enhanced Copper Tubes, Aluminum Lanced Fins • . Rows-Fins/In. 1...17 2. 17 2..17 2...17 2...17 Total Face Area (sq ft) 836 836 10 42 10.42 16.5 CONDENSER FAN . _ _ _ - r . , Propelter.Typc Nominal Cfm 3500 4000 4000 4000 4000 Quantity-Diameter (In.) 1..22.0 1..22.0 1...22 0 1 ..22.0 1 22.0 Motor p...Rpm • 1 / 4 ...1100 1 / 4 ..1100 1 / 4 ...1100 1 / 1100 1 Watts Input (Total) 325 325 325 325 325 EVAPORATOR COIL • . . - . Enhanced Cooper Tcbos..Aluminum Dcablc Wavy Fin; ' • ows_.Fina/In. 2..15 2..15 3...15 4...15 4...15 • Total Face Area (sq ft) 4 17 5.5 5 5 5 5 5 5 EVAPORATOR FAN , _ Centrifugal Type Ouantlty_.Size In.) SW 1...10 x 10 1...10 x 10 1..11 x 10 1...10 x 10 1...10x 10 • Alt 1...10x10 1..10x10 1. 10x10 High -Static 1 10x10 1 10x10 1 10x10 1 10x10 1.. .10x10 Type Drive SW Direct Direct Direct Bell Bell ' Alt Belt Belt Belt - - HIgh-Static Belt Belt Belt Bolt Boll Nominal Cfm 1200 1600 2000 2400 2400 Maximum Continuous Bhp SW .34 .75 120 2.40 2.40 Alt 1.00 1 00 1.30/2 40" - - • High -Static 2.40 2 40 2.90 2.90 2.90 • Motor Frame Size Std 48 48 48 56 56 • Alt 48 48 56 - - ' High -Static 56 56 56 56 56 , • Nominal Rpm Hlgh/Low Std 860/800 1075/970 1075/970 - - Alt 1620 1620 1725 - - High -Static 1725 1725 1725 1725 1725 Fan Rpm Range SW - - - 1070 -1460 1070 -1460 Alt 760 1000 835 - 1185 900 - 1300 - - Hlgh- Static 1075 -1455 1075 -1455 1300 -1685 1300 -1685 1300 -1685 ' ' Motor Bearing Type Ball Dail Ball Ball Ball Maximum Allowable Rpm 2100 2100 2100 2100 2100 • Motor Pulley Pitch Diameter Min/Max (In -) SW - - - 2 8/3 8 28/3 8 Aft 1.9/2.9 1.92.9 2 4/3 4 High -Static 2.8/3.8 2.8/3 8 3 4/4.4 3.4/4.4 3 4/4.4 , Nominal Motor Shaft Diameter (In.) SW I 1/ 1/ 54 5/e High - Static re sle '6 / 5 4 Fan Pulley Pitch Diameter (in.) SW - - - 4 • Alt 45 40 4.5 - - High -Static 4.5 4.5 4 5 4 5 4.5 Batt. Ouantlty...Type... Length (in.) Std - - - 1...A . 40 1. .A . 40 Aft 1 . A..34 1. -.A 34 1 A...39 - - High - Static 1 A 39 1.. A . 39 1. A 40 1. .A . 40 1. .A . 40 . Pulley Center Line Distance (In.) Std - - - 14.7 -15.5 14.7 -15.5 Alt 10.0 -12 4 10 0-12.4 14.7 -15 5 - - . High - Static 10 0 -12 4 10 0 -12.4 14 7 -15 5 14.7 -15.5 14 7 -15 5 Speed Change per Full Turn of Std - - - 80 80 Movable Pulley Flange (rpm) Aft 48 70 80 - - High- Static 65 65 60 60 60 . Movable Pulley Maximum Full Turns SW - - - 5 5 From Closed Position All 5 5 5 - - High-Static 6 6 5 5 5 Factory Setting Std - - - 3 3 Alt 3 3 3 - High- Static 314 3 3 3 3 Factory Speed Setting (rpm) Std - - - 1225 1225 Alt 856 975 1060 - - High-Static 1233 1233 1396 1396 1396 Fan Shaft Diameter at Pulley (In.) 1 4 '/ s '/ s '/e 5 4 LEGEND 'California SCAOMD compliant Low NO madois haw combustion products Ihal Al - Aluminum are controlled to 40 nanograms per jou or less. Bhp - Brake Horsepower NOTE: High - static motor not available on single -phase units. Cu - Copper 'Evaporalor coil tin material/condenser coil fin material Contact your local repro- senlebva for dotaifr about coated fins. "Weight of 14 -in root curb. "Single phase/three -phase 11 Rollout switch lockout is manually reset by interrupting power to unit or resetting thermostat. 27 • PHYSICAL DATA"— 580F036 -073 (cont) ` • • UNIT SIZE 580F 036 ' 048 060 072 073 • FURNACE SECTION Rollout Switch Cutout Tamp (F)ft 195 195 195 195 195 Burner Orifice Diameter - -- - - — -- --- — -- -- Natural Gee Std 074 .113..33 .113. .33 .113..33 .113...33 .113.33 114/115 .113. 33 113 ..33 .113..33 1 13...33 113 33 • • 149/150 .— .113...33 .113..33 .129.30 .129..30 060N .102...38 102...38 .102...38 • 090N • .102...38 102...38 .102..38 — — 120N — 116 32 116..32 Liquid Propane Alt 074 .089.. 43 .089...43 .089...43 089...43 .089...43 114/115 .089 ..43 .089...43 .089..43 089...43 .089 .43 149/150 — 102...38 .102.. 38 102.. 38 102.. 38 060N 082...45 082...45 082..45 — — 090N .082.. 45 082.. 45 082...45 — — 120N — 094...42 .094...42 — — Thermostat Heat Anticipator • Setting (amps) • 208/230 v and 575 Stage 1 .14 14 .14 .14 .14 Stage 2 .14 14 .14 .14 .14 . 460 v . Stage 1 .14 14 .14 .14 .14 Stage 2 .14 14 .14 14 .14 ' Gas input (Btuh) Stage 1 074 — — — — — (3-phase units) 116 82,000 • — —. — — 150 - — 120,000 120,000 120,000 120,000 Stage 2 074 74.000 74.000 74,000 74.000 74,000 114/115 ' 115,000 115,000 115,000 115,000 115,000 149/150 — 150,000 , 150,000 150,000 150,000 060NII 60.000 60.000 60,000 — — O9ONI1 90,000 90,000 90.000 — — 120N11 — 120,000 120,000 — — Efficiency (Steady State) ( %) Temperature Rise Range 80 80 80 80 80 - 074 . 25-55 25 -55 25-55 25-55 25-55 114/115 55-85 35-65 35-65 • 35-65 35-65 149/150 — 50-80 50-80 50-80 50-80 • 060N 20-50 20 -50 20-50 — — I . . 090N - 30-60 30-60 30-60 — — 120N • — 40-70 40 -70 . — — • . Manifold Pressure (in. wg) . Natural Gas Std . 3.5 3 5 3.5 3 5 3,5 Liquid Propane Alt 3.5 3 5 3 5 3 5 • 35 Gas Valve Quantity - 1 • 1 • 1' 1 1 - Gas Valve Pressure Range 30 5 . , Psig ' 0.180-0.487 0.180.0.487 0180 -0.487 0.180 -0.487 0.180-0.487 • in.wg 50.135 5.0 -135 5.0-13.5 5.0 -135 5.0 -13.5 • Field Gas Connection • Size (In.) • i /2 '/2 '/2 r /z r /z HIGH PRESSURE SWITCH (psig) .. •... • , • ' ' 1 -- • Standard Compressor 450: 50 . 500: 50 450: 50 Internal Reiter! (Differential) • • . Cutout • . • Reset (Auto.) 320 LOW PRESSURE SWITCH ipslgl _ - - Cutout 7.:3 - • Reset (Auto.) • - ' 22 : 7 - • FREEZE. PROTECTION THERMOSTAT (F) - - . . • Opens Closes 4555 ' OUTDOOR - AIR INLET SCREENS Cleanable • r t _Size in. 1.20±24±1 • • RETURN -AIR FILTERS • ; I „u •;awev Quantlty_Size (In.) 2...1652552 LEGEND IICalifomia SCAOMD compliant Low NO models have combustion products that AI — Aluminum ' • are controlled to 40 nanograms per joule or less. Bhp — Brake Horsepower NOTE: High- static motor not available on single -phase units Cu — Copper 'Evaporator coil tin matertal/condonsor coil fin material Contact your local repro- - - sentative for details about coated fins. tWeight of 14 -in. roof curb. "Single phase/three - phase. ttRollout switch lockout is manually reset by interrupting power to unit or resetting • thermostat. • 28 . i BASE UNIT DIMENSIONS — 580F036 -073 STANDARD DURABLADE _ CORNER CORNER CORNER CORNER BOTTOM POWER CHART, THESE HOLES • ECONOMISER UNIT UNIT ECONOMIZER WEIGHT WEIGHT WEIGHT WEIGHT 'A- REQUIRED FOR USE WITH ACCESSORY PANEL 580F WEIGHT WEIGHT WEIGHT (A) (B) (C) (D) LENGTH•�GE,. C, BTI 3400 Lb Kg Lb Kg Lb Kg Lb Kg Lb Kg Lb Kg Lb Kg Y 036 460 209 34 IS 4 47 213 140 635 105 476 159 721 56 954 1-i Depw THREADED WIRE REOUHED (568 OI CONDUIT SIZE USE HOLE SIZES 1' -100f ' (AAAK ) 046 470 213 34 15 4 47 21 3 142 64 4 106 48 1 162 73.5 60 27 2 (su 01 /' 24 V )/' 2221 l'-0 3 1 " Rover 1 28.4` 060 490 222 34 15 4 47 21 3 150 68 0 115 52 2 160 72 6 65 29 5 (315 ) 1/, �PT Gas I l/ ' 31.8) 1 072,073 565 256 34 15 4 47 21 3 165 74 8 136 61 7 200 90 7 64 29 0 1 15 " (315 3) CONNECTION SIZES A IV Die (35] FreOl 1UAer Supply Hole NOTES: B rile (51) Pow Soppy Knockout 1 D:merls ons in' I are n rmnlmelers C 2 Dha (64) Pbwer Supply Knockout ® 0 7M' MR. (22) Field Control Wiring Hole 2 Gaoler of gravity E L, - ELECTRICAL 14 NPT Condensate Drain ELECTWN181 CORNER '0' A F i/,' NRT Gos Connection LDC41 OW 3 �� // DNMNn d nrerw+ 0' 3 13/ 16' 4 On verbal dscherge ovule, ductwork 10 be aaached to ecC0ss0ry roof curb only. For hon2onlal dis- 1571 charge ((MR Ilel•supplocl flanges should be etiached to horizontal discharge openings, and an -- ductwork should be cultist to the flanges 5 Mmmum clearance (local codes or plrcdEbon may prevail) lI 8 F_ut: 1(OOD a Between scot, flue ado and combustible surbcc . 36 inches. 1 h Bottom or ur41 b COnUNSU0e surfaces (when not using curt), 1 inch /�i' ; • A C / Bottom of b00o rod to cornbla,bble cudoc00 (when rot clung 0Ur1o) 0 nchoe • C Condenser cdl, for proper Wont. 36 In one side. 121n the 001er The side geeing greater eater )' -9 5/16' CurmENSER COIL A • doararlEa is optional [846 51 . 1' - 5/16' d Ovatlmd. 601n. to assure Proper COrd0n90f tan Operation. 1414 51 e Between unts, control box ode 42 in per DEC e0T 1011 i I. Between urtl en10 ung01nded surfaces. cor[ld Cm( Bde, 38 in per NEC Of 18111 • g. per NE nn sc and ol dotic or =crate wills end ether govW m ._ od surfaces, control boo side, 42 1 i . 0 S. Honzontal supply and return end, 0 :whet {� 0 " -6 5 /tl' 6 VIM the a cepllen 01110 clearance 101 81e W er ndenn coil aid combustion ode ea dated n roles . * — 71 • so, b ands, m U a raovae fence or bemeade req dreg no dearance. 7 llrris may CO Installed m cantusbde Moms made Iron wood or Class A, B or C roof covering o' -4 0/16 I L 9/7P6' 3' -5 3/16' - maloriN II 601 on base rat 1115.81 _J (1046) 8 The vertical Center of graRTy is 1'$ - 1457) up kom the lx%loIII d Ilse base raIL 0' -2 yyp�� 1651 LEFT SIDE OUTSIDE AI0' FILTEe ACCESS PAWL (C15FO5ABLE P ILIERS) r REAR — 7 I •-s sic ns).61� S / S F/ ECGWOI1ER AN POWER ECHAL51 3'-1 112' 0' -4 1/2' 1957 51 Z' -0 1S /16 (6331 °[1141 ' F / DLRAeL ECdi eLOCCmr • • CONDENSER COIL — ( P64(1 `\ • 1' -4 3/9' (416) COMPRESSOR ECONOMIZER HOOD F/ DU &.AOE ECON • CO RN R ACCESS COVE I F. I -5 1/0' (4351 VIEW 5 - . A \ FOR EC01/01116ER - \` 'FF rOIE .e CORNER 'B \- I OO O . 8 j • LEFT �( __ r - ( 6821 6'--� i 0'-3 3/16' f (e n SIDE I II � � RETURN -AIR OPENING 1 0'- 10 RETURN RET AIR I v01nCAL I ) 17761 -0' -5 3/8' ///// I \ \ — — — — ∎ E (137) RIGHT SIDE n 7/R • (11441 I — - I 1 _ 1 22.21 i 1 0' - 9 /16' I II 1 4 1 1, CONCCNSATE • I (EST fcloDeu(e • AIN OPENING II Z' 0 1 /4 0 ' - 7 /B IN BASEPAN 4RPLY CAIRN 1' -5 3/4 olf�A. wisp, AIR ' 7 (622) 1G161 ( ' i1 I EYAP C OIL VERT ICAL IOR I OPENING AG I 14511 Y// �(� / — — . VERTICAL I 0' - I IS/16' 0'-1 4i 51 / 0 /)2 1 L[ a (99.41 0' -S 7/16' 15181 . _...... 1,39; 0 (721 CORNER 'o SEE Bo110r POYFA FRONT '\ f - C1wRT(ELEC. b4.01 - ER '0' I O' - 1 /16' ' -0 1/16' 0'-] 3/16 'C' 0 -7 I/4' — — 7' -I1 II/16 � -..J 1781 13061 1811 (1041 EEONp114ER - (9061 6' -I II /16' 1' -S 5/16' '-lo 11/16' 0' -4 I/16' V/ PDVER EXHAUST 0 " -3 13/16' 118721 w 0' -0 7/8 439 7 (774 6 1103 21 ' FILTER ACCESS PuCL .571 '11 ■�_ ____ _ IOISPCSABLE FILTERS) 1 - ti /e' I 2 -I time' CONTROL BOX/ 14601 I RETURN - (652 S1 ) F ILTER • / EIMER A CCESS I IIUOO IAN 1 10 1 08 R _ _ _ l I OPENING l • + I GLOVER ACCES D41 '� 8:::- I / ZONTAL II -11 //e' I SIFPLY - AIR \ I 7• I / (,1/17A, (335.6. o'-4 I 3//16 � 1 (01.61 I OPENING L I (177 91 I • OUTSIDE AIR F 1.._. _. .I — —I d t _ — ; 0' - Ini • 1 _ '� �� I �� [7a6 71 2' -5 3/9 } FOR% IRUCL 9L015 0' -5 3/4'— 2'-1 15/16' ) 0 - -5 II /16' [ 21 O (71016 (1461 • 7 / 1658.61 1144.31 I111IWER ACCESS 3 - 2 1571 O f ma swPLY AIR PAIQL \ RETURN AIR RIGHT SIDE FRONT 111P 1571 KACES, - STD CONDENSATE 00419 31 ACCESSORY DIMENSIONS - 580F036 -073 • . CONNECTOR . C D ALT OAS POWER CONTROL ROOF CURB A UNIT SIZE PKG. ACCT. DRAIN HOLE ACCESSORY • CRBTMPWR003A00 1'•9��! p 1 -0 ----- 4 " 1 /4 19 NPT (171 —_ CRRFCURB001 100 1'-2"" 356J '/4 - 1 I CRBIMPWH002A00 _ _ -_ __ 1191 NPT 11/ [31 71 _ __ -__ _ - ___580F036 -073 _ _ _ __ _ _ /" CRRFCURB0O2A00 2 0' _ 1 (406) (44,51 12.71NPT 4 ( I 1/2 (6101 CRBTMPWR004A00 (19 19 NPT 11/....(31.i1 (12.71 1. NOTES: Root curb accessory is shipped disassembled. 2. Insulated panels. C 3. Dimensions In 1 1 are in millimeters. 4. Root curb: galvanized steel: 1 5. Attach ductwork to curb (flanges of duct rest on curb). • I c —I / I 6 Service dearance: 4 ft on each side. 1 --t 4 , ( % \ .. I 7 % / //' Direction of a flow. , I C \ \ packages Connector paages CRBTMPWR001A00 and I r / \ (— r _ 1 I 002A00 are for Mru- the-curb type gas. Packages I E I CRBTMPWR003A00 and 004A00 are for Ihru -the- l 1 / h./ _ d I \ UNIT bottom type gas connections. 1 ) — I \/ / / 1 GASKET % NAIL ■ -, I (S(A'fLIE) WITH CURS) ( TYPICAL (4) SIDES I .„ -' I D 07j6 - •..�• (l [761 p11C� COUNTER FLAS1 -I NG 1_1_ • TF IFII IMPLIED) J IF IELD SuPPL IED) . POOP I IG FELT (6.31 1 (FIELD ` R►L IED1 0 I- - _ I [FIELD STRIP • a .; 1 \ (F IELO S ROOFING RATER IAL • i/sl 1 r_ a I • I • RETURN AIR 1 I \• SUPPLIED) OPENING 7 " -7 Sir • s ' .. -I I 10031 I \\� `\\\ 1 I OPENING 1 • 1'•1 7/ I • \ SECTION 'C C 16 I � C ' ! 1341) 1 SCALE 1.4 • 1 - - Rlao 1 An L• „,---- -\ 0 IELD SUPPLIED) a - ,OPENING FOR eASEPAN 0 "-0 7/16" Emmy SERVICE • 1111 . l'-7 13/1 EI'T 1/B 0'-0 7/1G" (SEE NOTE A8 (BOLT HEADS) 1504) • 13341 [111 / • 0' -2 1/2 (BOLT HEADS) 1641 1761 / • 0' -0 2/11i 3' -0" _ .__0 " -0 7/16 - 1111 19141 1111 A (BOLT HEADS) TOENSURENRTNIIRCOMNECTION (DOLT ICAOS) A D' -3 Ile PLACE UNIT AS CLOSE TO 1140 [83) �• 011831 ] • /16" . E10 AS P0651B1E `1 SEE NOTE .2 - 0'71 16 . , ' [ ' 1 ' I G ICE I , / • . >P (SEE EE NOTEAS) 1' -4 13/16 [4271 • 0' -0 1 /4 "l71 P 1.... 0 � � I .,,,,,x, /\ 1 H61 OE � ) 1 0" -4 9/16' • � ,' ' • I 1 1 `C ` (I N5 1 ) ) [,15.91 1 1 I . ♦ 0 I � J I 3 1 SUPPLY A IR RETURN AIR 1 • 7 3 /B" I . ; eZP,47i/ / /' A • .' I' 1611 VIEW 'A -A ••• . 1 0 TO EMSCONNECTION \ • M 10 T CONNECTION ' PLACE ENSURE AS CLO:# 10 16 S END AS POSSBLE [ HEAD OF BOLT TO BE DI � �_ 4 ► INSICE OF FLANGE `491 JJJ " 1 1 I2S1 r x. ,._, 1.13' I rREF !'-0 IS/, 6" NOTE. CANBRIUGLPORI "SURE-LOCK" CORNER • . ` ��)61 (9381 ALTERNATE COONSTRUCTION• ` „0,... V 1 / (TYP V A GUNNERS) SEE VIEW • S- — ” 33 • PERFORMANCE DATA - • COOLING CAPACITIES • 580F036 (3 TONS) 580F048 (4 TONS) M Temp (F) Alr Entering Evaporator - Cfm/BF Temp (F) Alt Entering Evaporator - Cfm/BF • ._._..- O _ ,. Alr. Entering.: 900/0.11 I 1200/0.14 I 1500/0.17 • ___ ... __Alr-Entertng_ 1200/0.12 I 1600/0.16 I - 2000/0 18 _ _ _ _- _�__ . - -._. _ _ L� Condenser Alr Entering Evaporator - Ewb (ft Condenser Air Entering Evaporator - Ewb (ft ' (Edb) 72 67 62 72 67 62 72 67 62 (Edb) 72 67 62 72 67 62 72 67 62 L • TC 42.8 38 9 35.0 44.6 40 8 37.0 45.8 41.9 38.2 TC 57 9 63 1 48.3 60 4 55.9 61 3 62.2 57 3 52 9 ' 75 SHC 20.0 24.5 28 7 21 8 27 5 32.8 23 0 30.0 36 0 7 5 SHC 27.2 33 3 39.2 29 4 37.2 44 8 31 4 40 3 49 1 - kW 2.91 2.81 2.70 2.99 2 68 2.78 3.02 2.92 2.82 kW 4.07 3.93 3.79 4 17 4.03 3.90 4.24 4 08 3.96 ' • TC 40 8 36 9 33 3 47.5 38 7 35 0 49 6 ' 39 9 36 1 TC 55 7 50 8 45.3 57.7 53.4 48 5 59.4 58.0 50.2 • 85 SHC 19.4 23.7 27.9 21.0 28.8 91.8 22.6 29.7 35.1 85 SHC 26.4 32 5 37.8 28.4 36.7 43.6 30.5 40.3 47.9 • kW 3 :14 3 01 2.90 320 3.08 2.97 3.24 3 14 3.02 kW 4.40 4.24 4.08 4.47 4.35 4.20 4.54 4 42 4.25 I 95 TC 38.7 34.9 31.4 40.4 93.0 41.4 37 6 34.1 TC 52.9 48 1 42.5 55.2 'ggg "" 'S 45.7 56.7 52 0 47 4 SHC 18.6 22.9 27.0 20.3 30 9 22.0 28 8 34.0 95 SHC 25.5 31 5 36.4 27 6 �8 42.2 29.7 39 2 46.7 kW 3.35 3 21 3.09 3.42 29 3.16 3.47 3.35 3.22 kW 4.70 4.54 4.36 4 78 vg 4.47 4.87 4 70 4 56 TC 36.5 32.8 29.2 38.1 34.3 30.9 39.0 35.2 32.4 TC 50 1 45.3 39.8 52 3 47.6 42.8 53.6 48.9 44.9 105 SHC 17.8 22 1 25.9 19.6 25.2 29.8 21.2 28 0 32.3 105 SHC 24 4 30 3 35.1 26.7 34.5 40 7 28 8 36 1 44 6 kW • 3.55 3 41 3.27 3.63 3 49 3.35 3.68 3.54 3.43 - kW 5.00 4 81 4.62 5.10 4.91 4.73 5.17 4.99 4 84 TC ' 34.3 30.7 26.9 35.7 32.1 28.8 36.5 32 9 30.6 TC 47.3 42.8 37.2 49 3 44.8 40 0 50.5 45.9 42.4 115 SHC 17 0 21.3 24.8 19.0 24.4 28.8 20.5 27.1 30.6 115 SHC 23.4 29.2 33.7 25 9 33.3 39.3 27.8 37 1 42.4 kW 3.76 - 360 _ 3 45 384 3.68 - 354 3.88 - 3.74 3 64 kW 5 30 5.07 4.88 _ 5.42 5.19 4 99 5.48 5 26 5.12 • S410F060 (5 TONS - MI Standard Rathgs Air Entering Evaporator - Cfrn/BF Swop (F) LEEN fir Entering 1500/0.07 I 2000/0.09 I 2500 /0.12 BF - Bypass FectoD . Condenser • Alr Entering Evaporator- Ewb (F) (Edb) - - - Edb - Entering Dry•Bulb 72 67 62 72 67 82 72 67 62 Ewb - Entering Wet -Bulb • TC 71.0 83.8 55.4 74.5 67.2 59.2 76.5 69.7 62.1 kW - Compressor Motor Power Input 75 SHC 33.9 41.6 47.9 37.4 47.4 55.8 40.6 52.8 61.8 Ldb - Leasing Dry•Bub Lwb kW 5.04 4.82 4.62 520 4.97 4.76 5.29 506 4.87 SHC - Leaving y e C l-Bulb H eat eal C b SHC - apacity (1000 Btuh) Gross TC 69.2 61.0 64.2 72.9 65.6 57.2 Total C 75.2 68.1 61.5 TC - Total Capacity (1000 Btuh) Gross ' 85 SHC 33.4 40.5 47.3 37.0 46.9 54.9 40.1 52.3 61.3 kW 5.50 527 5.02 5.66 5.41 518 6.76 5.50 5.29 NOTES: • TC 65.5 56.6 50.4 69.4 �M ' 53.1 71.2 63.3 57.8 1. Direct Interpolatxn is permssble Do not extrapolate. 95 SHC 32.1 38.8 45.6 35.8 r 52.6 39.1 50.9 57.8 2. The following formulas may be used: kW 588 562 5.37 601 °.7 • i 553 6.12 587 567 TC 61.9 53.1 47.1 65.4 66 6 50.5 67.1 589 64.5 I., = _ sensible capacity (Bluh) 105 SHC 30.8 37.5 44.1 34.5 43 7 502 37.9 49.3 54.5 1.10 x cfm - kW 8.25 5 99 5.72 638 6.13 5.91 6.50 6.23 606 4. = Wet -bulb temperature corresponding to enthalpy of afr leaving evaporator • TC 58.2 49 7 43.7 61.4 52.3 47.8 63.0 54.3 51.2 cot ( • • - 115 • SHC 29.5 36.1 42.5 332 42.1 47.8 36.7 47.6 51.2 at capacity (BSA) • kW 6.63 6 35 6.08 8 75 6.49 6.29 6.88 659 6.46 h. = hw.s - 4.5 x clm • 590F072 (8 TONS) Where: h,,,, = Enthalpy of air entering evaporator cal. • Alr Entering Evaporator - Cfm/BF 3. The SHC is based on 80 F edb temperature of air entering evaporator cal Temp (F) Below 80 F edb, subtract (corn factor x dm) from SHC. Air Entering 1800/0.06 I 2100/0.08 1 2400/0.09 I 3000/0.11 Above 80 Fad. add (car !solar x dm) to SHC - • Condenser - • Alr Entering Evaporator - Ewb (F) 1 (5 ) 72 67 62 72 67 62 72 67 62 72 67 62 _ ENTERING AIR DRY -BULB TEMP (F) BYPASS 79 78 77 • 76 75 under 75 TC 86.6 80.0 73.6 67.8 80 3 732 90.8 84.1 77.2 932 88.6 79.7 FACTOR 76 SHC 42.2 52.3 622 43.0 539 65.5 46.5 59.6 71.6 50.1 66.4 78.7 (BF) 81 82 _ 83 84 86 over85 kW 5.48 5.33 5.21 5.69 5.50 532 5.59 5.44 5 29 566 5 51 5.35 _ Correction Factor TC 84.1 77.4 71.0 84.0 77.2 69.5 87.8 812 74.5 90 1 83.5 77.3 .05 1.04 2 07 3.11 4.14 5.18 as SHC 41.4 51.3 61.1 41.7 53 1 64 0 45 5 58 6 70 3 49'4 65.4 76.7 .10 .98 1.96 194 3.92 490 Use formula - kW 8.17 6.00 5.85 6.21 6.04 5.63 627 6 11 5.94 6.35 8.19 6.02 20 .87 1.74 2.62 3.49 4.36 shown below. TC 81 6 74.7 68.5 81 0 ` 66.3 64 8 78 2 71.8 87 0 60 4 74.8 .30 .76 1 53 2.29 3 05 3 82 _ 96 SHC 40.6 50.3 60.0 40.8 62.8 44 6 57 8 69.1 40 7 64.5 74.7 • • kW 6.86 6.67 8.49 6.78 ".-./...: 6.33 6.95 6 77 6.59 7.03 6 86 6.69 Interpolation is permissible. TC 76.4 71.8 65.6 76.8 69 7 62.5 81.6 74.9 68.9 83.3 76.9 72.1 Correction Factor = 1.10 x (1 - BF) x (edb - 80). 105 SHC 39.4 492 58.7 39.4 503 61.1 43.5 564 67.4 47.4 83.1 72.0 kW 7 60 7.39 720 7.30 7.05 6.80 7.72 7.50 7.31 7.77 7 59 7.41 • TC 75.1 68.7 825 72.5 65.5 58.7 78.0 71.5 66.1 79 5 73 3 69.3 115 SHC 381 47.9 572 37.9 48.7 58.7 42.3 55.1 65.5 46.3 61.6 69.2 - • kW 8.36 8.14 7.93 7 81 7.53 727 8 49 8.25 8.06 855 B 33 8.18 ' • • 580F073 (6 TONS) Alr Entering Evaporator - Cfm/BF Air Entering 1900/0.06 1 2100/0.07 ) 2400 /0.09 I 3000 /0-11 Condenser Air Enterin Evaporator -Ewb (F) • (Edb) 72 67 62 72 67 62 72 67 62 72 67 62 TC 81.3 77.8 71.3 82.7 78.7 72 9 84.2 79.7 74.6 85 3 82 5 76.7 76 SHC 38.2 51.3 61.6 40.2 54.2 85.9 42.3 57.1 70 2 43 7 64 76 4 kW 4.69 4.63 4.52 4 73 4.65 4.56 4.77 4 87 4.8 4.8 4.75 4.63 TC 78.8 75.8 69 81.1 77.1 70.7 83.3 70 6 72.3 85 80.5 75 • 85 SHC 37.7 50.4 60.5 40 53.9 64.9 42.2 57.5 69.2 44.3 63.6 74.9 i kW 521 516 505 527 52 509 5.34 524 5.13 539 5.29 517 TC 77.1 73.3 66.9 792 pr 68.5 81.3 76 2 70.1 82 78 73 3 • 95 SHC 37 49.9 59.7 394 64 41.8 56.8 66.3 43.5 63.4 732 kW 5.8 5 78 5.65 6.87 5.7 5.94 5.65 6.74 5 05 5.88 5.8 ! TC 75.4 70.7 62.9 76.6 72.1 64.8 77.9 73 4 66.7 79.7 74.9 70.9 105 SHC 36.7 48.7 58.2 38.6 52.3 62 2 40.6 55 9 66 3 43 62 4 70 9 kW 0.49 0.45 6.26 6 53 8.48 6 32 0 50 6 51 0.38 6 61 6.53 8 46 TC 72.1 67 9 59 73 6 69 61.1 752 70.1 63.3 76 7 71.9 68.1 115 SHC 35.3 47 5 57.2 37.6 51.2 60.2 39.9 54 8 63 3 42 2 61.5 68.1 S W 7.2 7.17 6.94 7.25 7.1 a 7 01 7.29 7 2 7.08 735 7.26 7 15 • 36 - PERFORMANCE DATA (cant) FAN PERFORMANCE - VERTICAL DISCHARGE UNITS 580F036 (3 TONS) - STANDARD MOTOR (DIRECT DRIVE) _ - Low S eed High Speed Airflow - -- -- 208 V 1 230, 460, 575 V 208 V 230, 460, 575 V (gym) ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts • 900 0.49 021 253 050 023 277 0 51 0.26 307 0.55 0 31 363 1000 0 42 023 270 043 025 292 0 43 027 321 0 51 032 374 1100 0.37 024 267 0.38 026 307 0.39 0.28 335 0.46 0.33 385 1200 033 026 304 033 027 323 034 029 349 0.40 0 34 397 1300 0 27 027 321 0 28 0.29 338 0 28 0 31 364 0.34 034 408 1400 0 20 029 338 0 23 030 354 0 25 032 378 - - - 1500 0 16 030 355 0 18 0.31 369 0.20 033 _ 392 - - - LEGEND Refer to page 63 for general Fan Performance Data notes Bhp - Brake Horsepower Input to Fen ESP - External Static Pressure (in wg) 7 580F036 (3 TONS) - ALTERNATE MOTOR (BELT DRIVEY External Static Pressure (In. wg) Airflow 0.1 0.2 0.3 0.4 0.5 0.6 (C1m) Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 900 581 0.12 119 673 0.18 179 736 0.22 219 805 0 25 249 865 0 29 288 911 034 338 1000 644 0.19 189 709 0.22 219 782 028 279 835 0.30 298 900 0.35 348 937 0 38 378 1100 687 0.22 219 746 0.26 259 806 0.30 298 867 0.35 348 929 0.40 398 964 0.40 398 1200 733 0.26 259 785 0 32 318 843 0 35 348 903 0.41 408 960 0 47 467 994 050 497 . 1300 754 0.29 288 826 0.38 378 691 0 43 428 942 0 48 477 991 0.53 527 1047 0.60 597 1400 810 0.35 348 868 0.45 448 937 0 51 507 984 0 57 567 1032 0.62 617 1067 0.67 666 1500 841 0.42 418 911 0.53 527 985 0.61 607 1029 0.66 656 1073 0.72 716 1109 0.77 766 - 580F036 (3 TONS) - ALTERNATE MOTOR (BELT DRIVET (cant) External Static Pressure (In. wg) Akflow 0.7 0.8 0.9 1.0 1.1 1.2 () Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts D P P P P P P P P P Pm P 900 957 0.39 388 988 0.43 428 1039 0.47 448 1061 0.61 487 1083 0.64 627 1105 0.58 567 1000 992 0 44 438 1039 0.49 487 1061 0.66 607 1088 0.60 547 1111 0.66 587 1136 0.72 627 1100 1013 0.49 487 1068 0.55 647 1091 0.61 677 1109 0.66 607 1127 0.73 637 1145 0.80 666 1200 1045 036 557 1090 0.64 637 1109 0.68 647 1156 0.73 676 1203 0.81 706 1250 0.86 736 1300 1075 0.64 637 1122 0.70 696 1152 0.76 716 1190 0.82 758 1228 0.87 796 1266 0.94 836 - 1400 1110 0.73 726 1160 0.78 766 1181 - 083 806 1237 0.88 845 1293 0.94 885 1349 0.99 925 1500 1150 0.78 816 1190 0.84 855 1225 0.89 895 - 1271 - 0 95 945 1317 1.00 995 1869$ -gym LEGEND NOTES: Bhp - Brake Horsepower Input to Fan 1. Boldface indicates field- supplied drive Is required • . Watts - Input Watts to Motor 2. NEM indicates field - supplied motor and drive are required 'Nmor drive range is 760 to 1000 rpm All other rpms require a field- supplied 3. Maximum contnuous bhp Is t.0 and the maximum continuous watts are 1000 drive. . Refer to page 63 for general Fan Porformanco Data notes. 580F036 (3 TONS) - HIGH- STATIC MOTOR (BELT DRIVE)* ! External Static Pressure (In. wg) Airflow - . 0.2 0.4 0.6 08 1.0 (Cm) Rpm Bhp Watts Rpm Bhp Watta Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts • 900 673 0.18 179 805 0.25 249 911 0.34 338 988 0.43 428 1061 0.47 487 1000 709 0.22 219 835 0.30 298 937 0.38 378 1039 0.49 487 1086 0.55 547 1100 746 0.26 259 867 0.35 348 064 0.40 398 1068 0.66 647 1109 0.61 607 1200 785 0.32 318 903 0.41 408 994 0.50 497 1090 064 637 1156 0 68 676 1300 826 0.38 378 942 0.48 477 1047 0.60 597 1122 0.70 698 1190 0.76 756 1400 868 0.45 448 984 0.57 567 1067 0.67 666 1160 0.84 766 1237 0.85 845 1600 911 033 627 1028 0.66 656 1109 077 766 1190 100 855 1271 0.95 945 580F038 (3 TONS) - HIGH - STATIC MOTOR (BELT DRIVE)* (eon°) External Static Pressure (In. we ) Airflow 1.2 1.4 1.6 1.8 2.0 (Cfm) Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 900 1105 0 57 567 1140 063 622 1170 0.68 674 1198 0 73 723 1224 0 77 771 1000 1136 0 63 627 1172 0.69 688 1203 0 75 745 1232 0 80 799 1256 0.88 852 1100 1145 0 67 666 1181 0 73 731 1213 0.80 792 1242 0 85 850 1268 0.91 906 1200 1210 0 74 736 1248 0.81 808 1282 0.88 875 1312 0 94 939 1340 1 01 1000 1300 1266 084 836 1306 0 9? 917 1341 1.00 993 1373 1 07 1066 1402 1 14 1136 • 1400 1349 0.93 925 1391 1.02 1015 1429 1 11 1100 1463 1.19 1180 1494 1.26 1257 1500 1383 1 05 1044 1428 1.15 1146 1465 1.25 1242 1500 1.34 1332 1532 1.43 1419 LEGEND Refer to page 63 for general Fan Performance Data notes Bhp - Brake Horsepower Input to Fan NOTES: Watts - input Watts to Motor 1 Boldface Indicates field - supplied drive Is required 2 Maximum continuous bhp is 2.4 and the maximum continuous watts are 2120 'Motor dnve range is 1075 to 1455 rpm All other rpms require a field- supplied drive 39 • • • • • • • PERFORMANCE DATA (cont) FAN PERFORMANCE - VERTICAL DISCHARGE UNITS (cont) • • 580F060 (5 TONS) - STANDARD MOTOR (DIRECT DRIVE) _ Low Speed • . Medium Speed High Speed . • Airflow 208-V -- - ... _230 575.V -- ___ 208 V - ---.- -- 230,460,575 V-_- _ -230,460,675.V--- - - - (Cfm) _ ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts 1500 0 69 0 67 750 1.01 0.71 791 1.00 0.70 782 1.20 0.76 845 1 22 0.79 ' 875 1 28 ' 0 85 • 949 1600 0.49 0.70 780 0.85 • 0 74 824 0 85 0.74 821 1 06 0.79 883 , 1.09 0.82 913 1.17 0.89 988 1700 0 29 0 73 810 0.70 0.77 857 0.70 0.77 861 0.93 0.83 921 0.97 085 950 1.06 0.92 1027 1800 0.09 0.75 839 0.54 0.80 891 0 55 0 81 900 . 0.80 086 959 0.84 0.89 . 988 0.95 0.96 1066 1900 - - - 0.39 0.83 924 0.40 0 84 940 0.67 ' 0 90 997 0.72 0.92 1025 0 84 0 99 1105 2000 - - - 0.23 086 957 0 25 0 88 979 0.54 0.93 1035 0.59 0 95 .1063 0.73 1 03 1144 2100 - - - 0 08- 0 89 990 0.10 0 91 1018 0.41 0 96 1073 0.46 0.99 1101 0.62 1 06 1183 2200 - - - - - - - - - 0.28 ' 1.00 1111 0.34 1 02 1138 0.51 1.10 1222 • 2300 - - - - - - - - - 0 15 1.03 1149 0 21 106 1176 0 40 1 13 1261 2400 - - - - - - - - - 0.02 107 1187 0.09 109 1213 0.29 1.17 1300 2500 - - - - - - - - _ - - - _ - - - • - _ 0 18 1 20 1340 LEGEND Refer to page 63 for general Fan Performance Data notes. Bhp - Brake Horsepower Input to Fen ESP - External Static Pressure (in. wg) 580F060 (5 TONS)'- ALTERNATE MOTOR (BELT DRIVE)'. • . . External Static Pressure (In. wg) • Airflow 0.1 0.2 0.4 0.6 0.8 1.0 (gym) • Rpm Bhp • Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm . Bhp Watts 1500 729 ' 0.36 368 788 0A2 429 896 0.56 572 981 0 69 705 1070 0.85. 869 • 1144 1.01 1032 • • 1600 770. 0.42' 429 828 0.49 501 930 064. 654 - 1015 0 78 797 1098 094 961 .1173 1.11 1134 . -1700 811 0.60 611 864 0.57 582 964. 0.72 736 1051 088 899 1124 103 1053 1203 1.21 1237 • 1800. 852 0.58 593 903 0.66 674 999 0 82 838 1085 0 98 1001 1155 1 13 1155 1231 1.32 1349 . 1900 893 0.68 695 942 0.76 777 1035 092 940 1119 1 10 - 1124• 1191 1.26 1288 1288 1.43 1461 • 2000 935 0.78 797 982 0 87 889 1070 1.04 1063 1153 1 22 1247 1227 1.40 1431 1287 1.57 1604 2100 977 0.89 910' .1022 0.99 1120 1107 1 17 1196 1187 1.35 1380 1260• 1.54 1574 1323 1.72 1758 2200 1019 1.02 1042 1063 1 12 1145 1144 '1 30 1328 1222 149 1523 1294 1.70 1737 1359 1.89 1931 2300 1061 1.16 1185 1104 1.26 1288 1182 147 1502 1258 165 1686 1328 1.80 1901 1393 2.07 2115 2400 1103 1.30 1328 1145 141 1441 1220 161 1645' 1293 1 80 1860 1362 2.03 - 2074 • 2500 1145 1.46 • 1492 1186 1 57 1604 1259 •1 78 1819 1329 2.00 2044 x°13899. 9 . ° . ,45 • • 580E080 (5 TONS) - ALTERNATE MOTOR (BELT DRIVE)* (cent) 1 External Static Pressure (In. wg) - 'Airflow 1.2 . 1.4 1.6 () Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 1500 1226 1 19 1216 1301 1.46 1492 1380 1.69 1757 1600 1242 1.28' 1308 1318 1.49 "1523 1392 1.78 1800 1700 1270 1 39 1420 1335 1.58 1615 '1408 1.80 1850 • 1800 • 1300 1.52 1553 1361 1.71 1747 1423 1.91 1952 • 1900 • 1329 1.64 1676 1391 1.80 1891 1448 2-05 2095 - - 2000 1355 1.77 1809 1420 1.99 2034 EIESTileallIMIKKIM 2100 • 1381 1.91 1952 ri =� ;z�'$., ! 4Y - - - 2200 119!=- jtr�(r`! lj Lam. ' i(: YiF`:' Yc .cL.i - - - 2300 qty } Yf ;: j )1r} - - - - • - - 2400 Al':). � V x•3'1 - - - - - - 2500 - - - - - - - - - - • • ' • LEGEND NOTES: • Bhp - Drake Horsepower Input to Fan - 1. Boldface indicates field- supplied drive is required. Watts - . Input Watts to Motor • 2. KM indicates field - suppled motor and drive are required Motor drive range is 900 to 1300, rpm. All other 3 Maximum continuous bhp is 1.30 for single -phase units and 2 40 for 3 -phase 'Motor • , to 9 rpms require a field - supplied units and the maximum continuous wats are 2120 Refer to page 63 for general Fan Performance Data notes. 41 • PERFORMANCE DATA (cont) • ' - GENERAL NOTES FOR FAN PERFORMANCE DATA TABLES 1. Values include losses for filters, unit casing; and wet coils. See this affected: Soe Evaporator -Fan Motor Performance table on page 67 . _. __ page for accessory/FIOP static pressure information. for additional information. - 2. Extensive motor and electrical testing on these units ensures that 3. Use of a field - supplied motor may affect wire sizing. Contact your - -- "- -- "thefurrangeofthe motor - can - be - utilized - with confidence- Using - - " -• Bryant representativefor details .-_ -.._.__ _ __ -_ __ _._- • your fan motors up to the wattage ratings shown will not result in nur 4. Interpolation is permissible. Do not extrapolate. (Belt drive units lance tripping or premature motor failure. Unit warranty will not be only. SOUND POWER (Total Unit) SOUND A- WEIGHTED _ OCTAVE BANDS • UNIT 580E RATING (dg) 63 125 250 500 1000 2000 4000 8000 • 60 Hz (dB) • • 036 -073 81 80.5 56.8 75.8 72.4 72.9, 74.8 75.4 71.3 69.1 090,091,102 87 86.4 83.2 87.4 83.5 82.8 83.0 77.7 71.8 67.0 • 120,121 88 87.6 97.6 90.4 .85.7 84.8 83.9 77.5 71.3 . 65.8 • 150 87 86.4 . 83.7 87.2 83.4 82.8 83.0 77.7 71.8 67.0 • ACCESSORY/FIOP STATIC PRESSURE' (In. wg) - 580F036 - 073 . CFM COMPONENT 900 1200. 1400 ' 1600 1800 2000 2200 2400 2600 3000 EconoMlSer . 0 05 0.09 0.13 0.17 _ 0.22 0.27 0.32 0.39 0.45 0.53 LEGEND , The static pressure must be added to external static pressure. The FlOP - Factory Installed Option sum and the evaporator entering -air cfm should then be used in con- junction with the Fan Performance tables to determine blower rpm and watts. . ACCESSORY/FlOP STATIC PRESSURE' (In. wg) - 580F090 - 150 CFM . . - • COMPONENT ' 2200 2500 3000 3500 4000 4500 5000 5500 6000 6250 EconoMiSer 0.07 0.09 0.13 0.18 0 23 0.30 _ 0.36 - - - • . LEGEND The static pressure. must be added to external static pressure. The FlOP - Factory- Installed Option sum and the evaporator entering -air cfm should then be used in con- junction with the Fan Performance tables to determine blower rpm and • • • watts. • - - i . . . • . • . • 63 • PERFORMANCE DATA (cont) . t1 FAN RPM AT MOTOR PULLEY SETTINGS' MOTOR PULLEY TURNS OPEN UNIT 580F 0 I/, 1 1 2 2 3 3 4 4 5 5'/ 6 036f 1000 976 952 928 904 880 856 832 808 784 760 - - 036" i 1455 , 1423 1392 1360 1328 1297 1265 1233 1202 1170 1138 1107 1075 X 0381 1185 1150 1115 1080 1045 1010 975 940 905 870 835 - - 048" 1455 1423 1392 1360 1328 1297 1265 1233 1202 1170 1138 1107 1075 ■ 050t 1300 1280 1220 1180 1140 1100 1060 1020 980 940 900 - - 060" 1685 1589 1557 1525 1493 1460 1428 1396 1364 1332 1300 - - 072,073tt 1460 1420 1380 1345 1305 1265 1225 1185 1150 1110 1070 - - 072,073" 1685 1589 1557 1525 1493 1460 1428 1396 1364 1332 1300 - - 090,091tt 840 815 790 765 740 715 690 665 635 615 590 - - 090,091'" 935 910 885 860 835 810 785 760 735 710 685 - - 090,091" 1080 1025 1072 988 970 952 933 915 897 878 860 - - 102tt 935 910 885 860 835 810 785 760 735 710 685 - - 102" 1080 1025 1072 988 970 952 933 915 897 878 860 - - 120,12111 935 910 885 860 835 810 785 760 735 710 685 - - 120,121" 1085 1060 1035 1010 985 960 935 910 885 860 835 - - 120,121t 1130 1112 1087 1062 1037 1121 987 962 937 912 887 862 830 15011 1080 1060 1035 1015 990 970 950 925 905 880 860 - - 1501 1260 1220 1185 1155 _ 1130 1100 1075 1045 1015 990 960 930 900 'Approximate Ian rpm shown. f Indicates alternate motor and drive package. "Indicates high - static motor and drive package. ttlndicates standard motor and drive package. "Indicates alternate drive package only ALTITUDE COMPENSATION' - 580F036 -073 ALTITUDE COMPENSATION' - 580F090 -150 72,000 AND 115,000 150,000 STUN 125,000,180,000, AND 224,000 250,000 BTUH BTUH NOMINAL INPUT NOMINAL INPUT BTUH NOMINAL INPUT NOMINAL INPUT ELEVATION Natural Liquid Natural Liquid ELEVATION Natural Liquid Natural Liquid (ft) Gas Propane Gas Propane (h) Gas Propane Gas • Propane Orifice Orifice Orifice Orifice Orifice Orifice Orifice Orifice Sizet Slzet SIzet Sizet Sizet Sizet Sizet Sizet 0- 2,000 33 43 30 38 0- 2,000 31 41 30 38 2,000 34 43 30 39 2,000 32 42 30 39 • 3,000 35 44 31 40 3,000 32 42 31 40 4,000 36 44 32 41 4,000 32 42 32 41 5,000 36 44 33 42 5,000 33 43 33 42 6,000 37 45 34 43 6,000 34 43 34 43 7,000 37 45 35 43 7,000 35 44 35 43 8,000 38 46 36 44 8,000 36 44 36 44 9,000 39 47 _ 37 44 9,000 37 45 37 44 10,000 41 48 38 45 10,000 38 46 38 45 11,000 43 48 39 45 11,000 39 47 39 45 12,000 44 49 40 46 _ 12,000 - 40 47 40 46 13,000 44 49 41 47 13,000 41 48 41 47 14,000 45 50 42 47 14,000 42 48 42 47 'As the height above sea level increases, there is less oxygen per cubic fool 'As the height above sea level increases, there is less oxygen per cubic foot of arr. Therefore, heat input rate should be reduced at higher altitudes of air. Therefore, heat input rate should be reduced at higher altitudes. 1 available through your local Bryant distrbutor. 1 available through your local Bryant dlstnbutor ALTITUDE DERATING FACTOR' ELEVATION MAXIMUM HEATING VALUE (ft) (Btu/t1 0 -2,000 1,100 2,001 -3,000 1,050 3,001.4,000 1,000 4,001-5,000 950 5,001.6,000 900 'Derating of the unit Is not required unless the heating value of the gas exceeds the values listed in the table above, or if the elevation exceeds 6000 II Derating conditions must be 4% per thousand ft above sea level For example, at 4000 ft, it the heating value of the gas exceeds 1000 Btu/ft the unit will require a 16% derating. For elevations above • 6000 ft, the same formula applies. For example, at 7000 ft, the unit will require a 28% derating of the maximum heating value per the National Fuel Gas Code. 64 • PERFORMANCE DATA (cont) EVAPORATOR -FAN MOTOR EFFICIENCY UNIT 580E MOTOR EFFICIENCY (76) 035,048 75 080 74,84 072.073 84 • 090.121 80 150 87 'Single p aseShreeyvase. NOTE. Al idrlu-(an motors 5 hp end larger meet the rnnim,m di- ccrreenr1ccyy requirements as established by the Enemy Piny Art of 1992 (EMU) eleWve October 24, 1997 EVAPORATOR -FAN MOTOR PERFORMANCE • UNIT EVAPORATOR-PAN UNIT MAXIMUM ACCEPTABLE MAXIMUM ACCEPTABLE MAXIMUM 580F MOTOR VOLTAGE CONTINUOUS BHP OPERATING WATTS AMP DRAW _ 208/230 2 8 Standard 460 034 440 1 3 575 1 3 _ 206230 4.8 .l.,-- 036 Alternate 480 100 1000 21 575 2.1 208230 6 0 • HIM Stela 460 2.40 2120 3 0 575 3 0 206230 3.5 • Standard 480 0 75 850 1 8 575 1.8 . — 208230 4.9 048 Ahern :de _ 460 100 1000 2 1 575 2.1 208230 _ 6.0 high Static 460 _ 2 40 2120 3.0 575 3 0 206233 5.9 • _ Standard 460 1 20 1340 3 2 575 3 2 - 208230 6 6/5 2T _ 080 Alternate 460 1.30/2 401 2120 2 6 575 30 208230 _ 8 6 I igh Stabs 460 2 90 2562 3 9 575 3 9 208230 5 2 . Standard 460 2 40 2120 3 0 575 30 I 072,073 208230 8 6 High Static 460 2 90 2562 3 9 575 3 9 208230 6 7 Standard, 460 2 40 2120 3 0 Alternate 575 30 1 090,091 208230 12 2 High Static 460 3 70 3313 5 5 • 575 55 208230 _ 6 7 Standard 460 _ 240 2120 3 0 _ : 575 3.0 102 208230 12 2 _ High Slane — 480 370 3313 5 5 575 5.5 208230 _ _ 8.7 • Standard 460 2.40 2120 30 575 3.0 2081230 8 8 • 120,121 Alternate 480 290 2615 — a9 575 as 208230 17 3 Nigh Static _- 480 525 4400 8.5 575 8 5 208230 12.2 • — Standard 460 3 70 3313 5 5 • 575 5.5 150 208230 17.3 Alternate 460 525 4.400 8.5 575 85 LEGEND NOTES: N —Blake Horsepower 1 All rrdooraan motors 5 M and larger meet the nUtlnm elndefy requirements as estab- 'Eatenave moor and etednua testaoep on these 1nts ensures mat the full norsepow6 range d H - by c 1 for not Pos Ad n single-phase (p hase e0ecave October 24, 1997 nee �9 2. High-static mote not avaiatle on sirgleynese ants the motors Can be ublized with conOda Uyrg your tin ,,done up to lib tn16epower retries , shown n this tatle wet n011651711 in rursenaa tnpping or pmmahae IT tallura Una warranty wet not be effected. 1 phase/three-phase . 67 ELECTRICAL DATA ELECTRICAL DATA (Without Convenience Outlet) VOLTAGE COMPR OFM COMBUSTION DISCONNECT UNIT NOMINAL IFM RANG (ea) (ea) IFM FAN MOTOR POWER SUPPLY SIZE _ 580E VOLTAGE TYPE Min Max RLA LRA Hp FLA FLA FLA MCA MOCPt FLA LRA • Std 3.5 25.2/25 2 35/35 24/24 106/106 208/230 -1 -60 Alt 187 254 16.2 96.0 V, 1.4 4.9 6 26.6/26.6 40/40 26/26 111 /111 Std 3.5 17.7/17.7 25/25 17/17 85/85 208/230-3-60 All 187 254 10.2 75 0 1 /, 1.4 4.9 .6 19.1/19.1 25/25 19/19 90/90 -‹ d-- ' -- High 5 2 19.4/19 4 25/25 19/19 109/109 036 Sid 1.3 1 7.6 15 7 45 (3 Tons) 460 -3 -60 Alt 414 508 4.4 40.0 1 /, 0.8 2.1 3 8.4 15 8 48 High 2.6 8.9 15 9 57 Std 1.3 6.3 15 6 35 575 -3 -60 Alt 518 632 3.7 31.0 1 / 4 0.8 2.1 .3 6.9 15 7 37 High 2.6 7 3 15 7 45 ' Std 3 5 34.0/34.0 40/40 32/32 129/129 ' 208/230 -1 -60 Alt 187 254 23.3 118 0 1 /, 1.4 4 9 .6 35.4/35.4 45/45 34/34 133/133 Std 3.5 242/24.2 30/30 23/23 101/101 208/230-3-60 Alt 187 254 15.4 90.0 1 /, 1.4 4.9 6 254/25.6 30/30 25/25 105/105 High 52 25.9/25.9 30/30 25/25 124/124 048 Std 1.8 13.0 20 13 51 (4 Tons) 460 -3-60 Alt 414 508 8.3 45.0 1 /, 0.8 2.1 .3 13.3 20 13 53 High 2.6 13.8 20 13 62 Std 1.8 10.1 15 10 41 575 -3-60 Alt 518 632 6.4 36.0 1 /, 0.8 2.1 .3 10.3 15 10 42 High 2.6 10.7 15 10 50 Std 5.9 43.3/43.3 60/60 42/42 161/161 208/230 -1 -60 Alt 187 254 28.8 147.0 V, 1.4 6.6 .6 44.0/44.0 60/60 42/42 184/184 Std 5.9 27.3/27.3 35/35 27/27 128/128 208/230-3-60 Alt 187 254 16 0 114.0 1 /, 1 4 5.2 6 26.6/26.6 35/35 26/26 148/148 • High 7.5 28.928.9 35/35 29/29 174/174 060 Std 3.1 13.2 20 13 72 (5 Tons) 460 -3 -60 AR 414 508 7.4 64.0 1 /, 0.8 2.6 .3 12.7 15 12 81 High 3.4 13.5 20 13 94 Std 3.1 10.9 15 11 58 575 -3 -60 Alt 518 632 6 2 52.0 V, 0.8 2.6 .3 10.5 15 10 66 . High 3.4 11.1 15 11 76 Std 5 2 32.4/32.4 40/40 31/31 180/180 • 208/230-340 High 187 254 20.6 146.0 V, 1.4 7 5 .6 34.7/34.7 40/40 34/34 205205 012.073 Std 2.6 15.3 20 15 90 (6 Tons) 460-3-60 High 414 508 9.5 73.0 /, 0.9 3.4 .3 16.1 20 16 103 ' Sid 2.6 12.1 15 12 75 575-3-60 High 518 632 7.6 58.4 V, 0.6 3.4 .3 12.7 20 13 88 • Std 5.8 40.1/40.1 45/45 42/42 229/229 208/230 -3 -60 Alt 187 254 14.0 91.0 1 /, 1.4 5.8 .6 40.1/40.1 45/45 42/42 229/229 • High 10.6 44.9/44.9 50/50 48/48 273/273 Std 2.6 18.4 20 19 108 460 -3-60 Alt 414 508 6.4 42.0 V, 0 7 2.6 .3 18.4 20 19 108 High 4.8 20.6 25 22 130 Std 2.6 14.9 20 16 97 575 -3-60 Alt 518 632 5.2 39.0 V, 0 7 2.6 .3 14.9 20 16 97 High 4 8 16.7 20 18 114 208/230-3-60 Std 187 254 16.0 137.0 V, 1.4 5'8 44.6/44.6 50/50 47/47 321/321 6 High 10.6 49.4/49.4 60/60 52/52 365/365 102 Std 2.6 22.7 25 24 162 (8 Tons) 460-3-40 414 508 8.3 69.0 /, 0.7 .3 High 4.8 24.9 30 26 184 Std 2.6 17.6 20 18 135 575 -3 -60 High 518 632 6.4 58.0 V, 0 7 4.8 3 19.4 25 20 152 See Legend and Notes on page 69. . 68