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Specifications J ' Wov 21 07 07:53a Ryan Phelps 503 -252 -5451 p.2 rika6 Y P (.)07 — 06 ( 8 _ E NOV 2 1 zoo/ , CiTy0F r, -...A. atilLOING" DIVIsioN 5 ' A4Or-Ea - - - — / $E P -2 < ris, / �� / r 1 l,' rii _ City of Tigard ra r•v-d Plans it 2( ri gy p ptk Date qe Z& 2-/O T P ff- t le -, ' C„, It E , r g In . , 6 ` V ;T .i1 ...Jr , Z. - 40W OFFICE COPY ; i + FA.,7y 4 :4: :4 znr ;;1 rp 4' ' ' m+ n h`Y�C�.{ t k tr. �e��.4`i,: : : 7 ` 4 . 77 t fit ' At'd ;;4 4f4i r+jn -574 - J i4 .';.`7:-=-' . 4?. . r • i e x 1.'4 r . , L k . vt k "'' r .k.' 1 ' ri� a S 3 t i t 4} i •,� :, , f s' r k RC §i\ , a } r .:. ,1 �`p � y r ti ix4:;ta p,,y M o del , 5048 ___ S ' Y ? . 0O anE .. „.,% r ,, 5 i r i •'r) ' � 7 ' 7..,' 4 a` r:'_ 11 r y a n t ` i. SINGLE F CKAGE `ROOFTOP ,' ° . ` ` . ' , ,`.� � � �f. `. IZ x 036 - 150 ,: r ra t w �� x ✓ 3 i ■ G x � H 1,T/E , CO 1=E S , } x r 6 rY : Y y ,3 to 12 To , . AS L , f .c ; %';`5",:'''' is ♦ r; , tin .. r, i 4 f- �" t .7 p ! 1 Z' ', r i r ,i � i • i_ 4', r 1 z l'''; S' ? r _ . a . 4' e k. t �.i i 5 . `y , , . ?. ..: ?' RECERNED CTv TU..4...iiPiacAi\ U, 1 1 1001 of liGARD S E R 1 E S cUILDiNiE DwlsIoN .,....„...„,_._.. .. .....-_... . „ __________ ■IIIIIIIpellmaomr 1 -- _,,,---,--- - "--7-_•—, :-.......--- Imi i 1 .,-,.-,,,, :.,... __ r=15 gl 1 --- -..... 1........___....._---......._ ,... \ . ' .! � Unit 581B036-072 Unit 581B090-150 Bryant has designed the Tundra n' series based on customer • high- pressure switch needs and requests to be the most efficient and reliable ever. • freeze - protection thermostat • internal compressor overload FEATURES/BENEFITS • exdusive Cyde -LOC' circuit board that provides anti- com- pressor cyding • Efficient rooftop line for cooling using scroll compressor • refrigerant fitter drier technology The cabinet is constructed of galvanized steel, bonderized, and • Effort rooftop line for heating using dimpled heat coated with a prepainted baked enamel finish. The paint finish is exchangers a non - chalking type, and is capable of exceeding Federal Test • High reliability — non - corrosive condensate pans, prepainted Method Standard No. 141 (Method 6061) 500 -hour Salt Spray cabinets and primed interior panels, and all units are fully pro- Test. In addition, all cabinet interior surfaces are primed, allow - tected by internal safeties ing the entire unit to have longer life and a more attractive • Quiet operation — isolated compressor plate. All compressors appearance. mounted on independent vibration isolators. Standard, belt- EASY MAINTENANCE AND INSTALLATION driven evaporator fan motors on all units self diagnostics on the In - All Units are Factory Shipped in the Vertical Discharge Con - • Ease of maintenance achieved by a9 figuration for ft-up to standard roof subs. (One accessory curb tegrated Gas Controller (IGC), standard size filters, no tool fiI- fits sizes 036-072; another accessory curb fits sizes 090 -150.) ter access, simple compressor access, permanently Contradors can order and install the roof curbs early in the con- lubricated fan motors, optional disconnect switch, and op- sttidion stage, before decisions on size requirements have tional 115 -v convenience outlet been made. BRYANT MEANS TOP QUALITY AND REUABIUTY — Each All Units Feature Heavy -Gage Roll Formed Baserail design component utilized in the Tundra series is designed and with forklift slots on 3 sides of the unit and rigging holes for tested for a minimum of 15 years operation under the harshest easier maneuvering and installation. Stretch -wrap packaging conditions. protects the unit during shipment and storage. Every unit is thoroughly run tested at the factory in each oper- Units are Easily Converted from vertical to horizontal applica- ating mode and evacuated prior to final charging. Every coil is lions to make retrofit and add-on jobs easier. To convert from leak tested with helium particles. Automated run testing allows vertical to horizontal discharge, simply exchange 2 panels. The accurate, undisputed tests and measurements which are sec- same basic unit can be used for a variety of applications and and to none in the industry. can be quickly modified at the jobsite. Each unit contains a factory printout indicating tested pressures, Standard high - performance, high - static, belt- driven evaporator - amperages, dates, and inspectors, providing certification of the fan motors enable 581 B036 -150 units to operate in most duct- unit's status at the time of manufacture. work configurations. • Units are equipped with valuable safety controls designed to per* Connections are Made Easy by the logical 2 to 1 monitor and protect for the life of the unit. The standard safeties aspect ratio. On vertical discharge units, ductwork attaches di- indude: redly to the roof curb. • low- pressure/loss -of- charge switch Form No. PDS 581B.36.4 • FEATURES /BENEFITS (cont) FACTORY - INSTALLED REFRIGERATION OPTIONAL SYSTEM BALL BEARING, PERMANENTLY DISCONNECT SWITCH PROTECTION LUBRICATED MOTORS • 0 _ ��► mss"_ ___ » A" 1 = • G 0 0- -- Mir /u i\ i•_�'� k I `� ...,■...\::: m M =. lye ° _. -' A pr\ ,_.„..... 1 / li '"........, ---■ --■°---4-: 11110-1?.41-ro /1k 4.1 liti.j., keiA 111 li1�l ►�. , : ,, )) , ; ° kit io, mil,% (; � ° % � : . m 7;:\?-11115—"11 � *OA CO FACTORY-INSTALLED PREMIUM QUALITY DIMPLED HEAT BELT DRIVEN OPTIONAL SCROLL COMPRESSORS EXCHANGERS EVAPORATOR FANS CONVENIENCE OUTLET SINGLE PIECE NO TOOL SLEEVE BEARING PERMANENTLY- TOP PANEL FILTER ACCESS LUBRICATED MOTORS I II C I I I I t I I I I 1111: I I I I II I 41 I I I . I it o I I I I I I I I I I I I I I I il I I I I I I . I I I I I I I I I I I I I I I I I 1 N.4 / .. 000, 00.: ON -SITE CONVERTIBILITY A' 511 FROM VERTICAL TO , — HORIZONTAL DISCHARGE . N44.444-.4111110L41444 [ .. 1 t. n Olt t All HIGH - EFFICIENCY ;.� � � COILS AND 6.11 ACUTROLnI . .0 I REFRIGERANT ` \ METERING DEVICE 0 SLOPED, �� NON - CORROSIVE CONDENSATE HIGH- EFFICIENCY COILS DRAIN PAN FULLY MODULATING DURABLADE ECONOMIZER (OPTION OR ACCESSORY) . • FEATURES /BENEFITS (cont) Thru - the - Bottom Service Connection Capability comes LP Conversion Kit — Standard units are designed for natural standard with the rooftop unit to allow power and control wiring gas. An LP Conversion Kit is available as an acces -sory, if re- to be routed through the unit's basepan, thereby minimizing roof quired. Installation of the accessory LP kit simply involves penetrations (to prevent water leaks). Both power and control changing the gas orifices to accommodate liquid propane gas. connections are made on the same side of the unit to simplify Refrigerant Circuit Protection assures dependability. All units installation. have standard: The Non-Corrosive, Sloped, Condensate Drain Pan is stand- 1) loss- of-charge/low- pressure protection switch which allows and and in conformance with ASHRAE (American Society of operation at lower ambient conditions while protecting Heating, Refrigeration, and Air Conditioning Engineers) Stand- against low- charge operation and 62 to meet many Indoor Air Quality (IAQ) specifications. The 2) freeze - protection thermostat, which protects against evapo- condensate drain pan offers both bottom and end drain caps- rator coil frost build -up bility to minimize roof penetrations. The bottom drain can be 3) high - pressure switch, which protects against above normal used in conjunction with thru- the - bottom connections. An exter- operating pressure nal trap must be field supplied. 4) filter driers, which trap moisture and debris in the refrigera- Standard 2-in. Throwaway Filters are easily accessed tion system. through an easily removable filter access panel located directly 5) Carrier's exdusive Acutrol"' metering device, which pre - above the air intake hood; no tools are required to change the asey controls refrigerant flow, preventing slugging and filters. floodback, while maintaining optimum unit performance by All Units are Designed with a Single Continuous Top Piece metering the circuits individually. to eliminate leaking at the seams or gasketing, which tends to Two Independent Compressor Circuits (all 71/2 to 12' ton deteriorate over time and shift during rigging procedures. units) provide pinpoint comfort control, im proved efficiency, and Belt- Driven Evaporator -Fan Motors allow maximum on -site -up capability. flexibility without changing motors or drives. The Standard Control System is readily adaptable to all con- Low-Voltage Wiring Connections are easily made due to the ventional thermostats. large terminal board which is conveniently located for quick, Integrated Gas Unit Controller (IGC) — All ignition compo- simple access. nents are contained in the compact Integrated Gas Controller QUIET, EFFICIENT OPERATION AND DEPENDABLE ( IGC) that is easily accessible for service. The IGC provides QU QURFORMACCE built in diagnostic capabilities. An LED simplifies troubleshoot- ing by providing visual fault notification and system status infor- AlI Units are Equipped With Scroll Compressors which are matte. The IGC board provides exdusive anti-cycle protection fully hermetic with internal vibration isolators for extremely quiet for its gas heat operation. The IGC also contains burner control operation. The scroll compressors are quieter and more reliable logic for dependable heating operation. The LED is visible with - than reciprocating designs. Compressors are mounted on an in- out removing the unit control box access panel. The 581 B units dependent plate for additional sound integrity and structural maximize heating efficiency through the IGC's control of evapo- support. Efficient condenser fan and motor design permits OP- rator fan ON/OFF delays. The IGC helps make 581B units reli- eration at low sound levels. able for many years. Totally Enclosed Condenser -Fan Motors and permanently lu- Patented Cycle -LOCh Protection System provides protec- bricated bearings provide additional dependability. tion against compressor cyding by monitoring compressor cur- All Coils Use State-of- the -Art Internally Enhanced Copper rent draw. When lack of compressor current exists, the Cycle - Tubing — Coils are thoroughly tested with helium particles as LOC circuit board locks out the compressors. The Cycle -LOC well as pressure tested at the factory. Condenser coils have lou- board may be manually reset by simply switching thermostat to vered, aluminum lanced fins to provide maximum heat transfer OFF, and then back to the Cooling or AUTO modes. No manipu- for optimum efficiency and easy deaning. lation of the unit disconnect switch is needed. Exclusive Dimpled Heat Exchangers optimize heat transfer for improved efficiency. The tubular design permits hot gases to TABLE OF CONTENTS make multiple passes across the path of the supply air. In ad- Page dition, dimpled heat exchanger tubes act as baffles, forcing the Features/Benefits 1-4 hot gases to stay in close contact with the cell walls to maximize Model Number Nomenclature 4 heat transfer and efficiency. ARI capacities 5 The California Air Quality Management NO requirement of Options and Accessories 6-8 40 nanogramsloule or less is met when Low NO kit Physical Data 9,10 CRLOWNOX001A00 is installed on 036 -060 sizes. Base Unit Dimensions 11,12 The Induced Draft Combustion System eliminates the un- Accessory Dimensions 13,14 sightly appearance of flue stacks, and diminishes the effects of Selection Procedure 15 winds on heating operation. The inducer fan draws hot combus- Performance Data 16-33 tion gas through the heat exchanger at the optimum rate for the Electrical Data 34,35 most effective heat transfer. The induced draft also prevents Application Data 36 contaminants from entering the supply air if a leak in the heat Typical Piping and Wiring 37 exchanger occurs. Typical Wiring Schematic 38,39 The Direct Spark Ignition System saves operating expense Controls 40,41 when compared to old -style pilot ignition systems. No crossover Guide Specifications 42-44 tube is required, therefore no sooting or pilot fouling problems can occur. FEATURES /BENEFITS (cont) INDOOR AIR QUALITY (IAQ) Easily Accessible Refrigerant Access Ports on all discharge, The Quality of Building Air is Improved as the Tundra", suction, and liquid lines permit easy and accurate measure - series utilizes certain key features that assist in improving in- ments as well as simple accessibility. door air quality. A sloped condensate pan eliminates possible Resettable 24-v Circuit Breaker On 581B090 -150 Units al- biological growth in the rooftop unit. A face -split evaporator coil lows room for error without replacing transformers or fuses. design proves effective in removing additional moisture from the Single-Side Utility Connections provide easy access to per - supply air. Two -in. filters are standard in all rooftop units and an form any necessary service. optional filter status sensor is available. Standard enthalpy con- Color-Coded Wires permit easy tracing and diagnostics. trol on the Parablade economizer regulates humidity in the building. Belt -Driven Motors are accessible through a single access door to facilitate servicing and adjusting after installation. SERVICEABIUTY Components for the complete Tundra line of Compressors and Safety Switches are Easily Accessible for Standardized Com Po pI troubleshooting and system analysis. products are found in all safety devices, condenser -fan motors, evaporator -fan motors, and control boards, while the gas sec- tions use common inducer motors, limit switches, and rollout switches. This allows for greater inventory control, familiarity of parts, and fewer stocked parts. MODEL NUMBER NOMENCLATURE 581B E V 090 180 A A 581 B — Single Package High - Efficiency Gas/Electric Unit Voltage Designation E — 460.360 Evaporator -Fan Motor J — 208/230-1-60 A — Bett Drive Motor P — 208/230 -3-60 T — 575360 Factory- Installed Options* Fuel and Control Type A — Standard Unit V — Natural Gas/Direct Spark Ignition Nominal Tone Gas Heat Input (Btuh) 036 — 3 090 — 71/2 072 — 72,000 180 — 180,000 048 — 4 102 — 81/2 115 — 115,000 220 — 224,000 060 — 5 120 — 10 125 — 125,000 250 — 250,000 072 — 6 150 — 121 /2 150 — 150,000 *Refer to the Trade Prices for ordering codes of factory- installed options. • ARI' CAPACITIES UNIT NOMINAL STANDARD COOLING TO SEERt EER SOUND RATING IPLV" 5810 TONS CFM (Btuh) kW (Bets) 036 3 1200 36,000 3.21 13.00 11.20 7.6 - 048 4 1450 47,000 4.25 13.00 11.05 7.6 - 060 5 1750 60,000 5.55 13.00 11.00 8.0 - 072 6 2100 74,000 6.70 - 11.00 8.0 - 090 7.5 3000 90,000 8.18 - 11.00 8.2 11.6 102 8.5 3000 102,000 9.44 - 10.80 8.2 10.9 120 10 3200 120,000 10.91 - 11.00 8.4 9.7 150 12.5 4300 140,000 14.04 - 9.50 8.6 9.8 LEGEND Bets - Sound Levels (1 bel = 10 decibels) EER - Energy Efficiency Ratio IPLV - Integrated Part -Load Value SEER - Seasonal Energy Efficiency Ratio *Air- Conditioning & Refrigeration Institute. "The IPLV is not applicable to single-compressor units NOTES: 1. Rated in accordance with ARI Standard 210/240 (size 036 -120 units) or 360 (size 150 unit) and 270 (size 036 -150 units). 2. Ratings are net values, reflecting the effects of circulating fan heat. Ratings are based on: Cooling Standard: 80 F db, 67 wb indoor entering -air temperature and 95 F db outdoor entering -air temperature. , IPLV Standard: 80 F db, 67 F wb indoor entering -air temperature and 80 F db outdoor entering -air temperature. ....,, (as, „,,._ i' i ,.1 tip . y il 41 13 , 0 ZV Sizes 036 -120 Size 150 only Only HEATING CAPACITIES AND EFFICIENCIES HEATING INPUT HEATING OUTPUT HEATING INPUT HEATING OUTPUT STEADY STATE CALIFORNIA UNIT Single-Phase (Btuh) nits Units° First Stage/ First Stage/ Sin Ie -Phase 3 -Phase Unitst 3 -Phase Unitst TEMPERATURE AFUE EFFICIENCY EFFICIENCY 581 B RISE (� (%) (96) ( %) First Stage First Stage Second Stage Second Stage 036072 72,000 57,100 50,000/ 72,000 41,000/ 59,040 15-45 82 82 78.7 036115 115,000 89,000 82,000/115,000 65,600 / 92,000 55-85 80 80 77.3 048072 72,000 57,100 50,000/ 72,000 41,000/ 59,040 15-45 82 82 78.7 048115 115,000 92,000 82,000/115,000 66,420/ 93,150 35-65 81 81 77.7 048150 150,000 118,000 120, 000 /150,000 96,000/120,000 50-80 80 80 76.9 060072 72,000 57,100 50,000/ 72,000 41,000/ 59,040 15-45 82 82 78.7 060115 115,000 92,000 82,000/115,000 66,420/ 93,150 35-65 81 81 77.8 060150 150,000 118,000 120, 000 /150,000 96,000/120,000 50-80 80 80 76.9 072072 - - 50,000/ 72,000 41,000/ 59,040 15-45 82 82 78.7 072115 - - 82,000/115,000 66,420/ 93,150 35-65 81 81 77.8 072150 - - 120,000/150,000 96,000/120,000 50-80 80 80 76.9 HEATING INPUT OUTPUT CA P A CITY TEMPERATURE AFUE STEADY STATE CALIFORNIA UNIT RISE ( °F) ( %) EFFICIENCY ( %) SEASONAL 581B First Stage/Second (Btuh) c Stage First Stage/Second TEMPERATURE Stage EFFICIENCY ( %) 090125 90,000/125,000 72,900/102,500 20-50 82 82 77.5 090180 120,000 /180,000 98,400/147,600 35-65 82 82 79.4 090220 180,000/224,000 147,600/183,700 45-75 82 82 102125 90 ,000/125,000 72,900/102,500 20-50 82 82 78.4 102180 120,000/180,000 98,400 /147,600 35-65 82 82 78.4 102220 180,000/224,000 147,600/183,700 45-75 82 82 79.4 120180 120 ,000/180,000 98,400 /147,600 35-65 82 82 78.4 120220, 150220 180,000/224,000 147,600/183,700 35-65 82 82 79.3 120250, 150250 200,000250,000 160,000/200,000 40-70 80 80 76.4 LEGEND AFUE - Annual Fuel Utilization Efficiency *Single-phase units are rated for output capacity in accordance with f 1 U.S. Government Standard Tests. C . ) us t1 47 units Standard for gas - fired. central ffumaoes accordance with . ANSI Z2 ' OPTIONS AND ACCESSORIES ITEM OPTION' ACCESSORYt Integrated Economizer — Durablade X X Integrated Economizer — Parablade X Manual Outdoor -Air Damper X Convenience Outlet X Unit Mounted Disconnect X Two - Position Damper (25% Open) X Two.. Position Damper (100% Open) X Roof Curb (14 in.) X Roof Curb (24 in.) X Thru-the-Bottom Service Connections X Flue -Hood Protector Assembly X Thermostat and Subbase X Tune Guard® 11 Control Circuit (3 -Phase Units Only) X Matonnaster® Low Ambient Control X Motomrastea 11 Low Ambient Control X Accusensor 11 Enthalpy Control X Accusensor Ill Differential Enthalpy Sensor X Liquid Propane Conversion Kit X Condenser Coil Hail Guard X NO, Reduction Kit (sizes 036-060)" X Flue Discharge Deflector X Coil Guard Grille X Parablade Economizer and Power Exhaust X Fan/Filter Status Switch X 'Indicates a factory- installed option. tlndicates a field - installed accessory. "Mows the unit to meet the California Air Quality Management NO, requirement of 40 nanograms/joule or less. • LOW AMBIENT CONTROLS LIQUID PROPANE CONVERSION KIT The 5616036 -150 standard units are designed to operate in cooling at outdoor tem- peratures down to 25 F. With accessory Motormaster control (condenser -fan speed modulation), or Motonnaster II control (condenser -fan cycling), units can operate at outdoor temperatures down to –20 F. The head pressure controls, which mount in �� the condenser section, control the condenser -fan motor to maintain correct con- I ` densing temperature. 114, -101 IIPP li '' I ! 1iL BURNER SPUDS (ORIFICES) 1 lI r rx - j MOTORMASTER I MOTORMASTER II i in : n Liquid propane conversion kit allows the r a ) unit to utilize a liquid propane fuel supply in areas where natural gas is not avail - s s ( ,�i.o��j_- 41 able. (Kit shown is for sizes 036 -072.) B M L; � .' 0 is l TIME GUARD 11 CONTROL I i$ 11 ' ® Time Guard 11 Control automatically prevents compressor from restarting ° � '1 for at least 5 minutes after a shutdown. Field- installed accessory prevents `r,ar i � ` , la\ , short cyding of compressor if thermostat is rapidly changed. Time Guard II 03 d r ,. q;, i t,�i��ta ' 0 e isnot required when control programmable thermostat is appliedGuard II device • OPTIONS AND ACCESSORIES (cont) UNIT MOUNTED DISCONNECT PARABLADE ECONOMIZER (04A1 q—u' o 10 00 • e ® 8 c-__ 0:4110:04,011:11.0:0 t411•••••••• . E;;s 6 All 50HJ50075.3 / �. = =• =:! to r wr pi 11/i \ I OM 10 ' AA I 111 CEO ° ° ° �° I �� 5 11 ■11111MINNINIMak i V „, AMIN MINIMININIMININNIMINIIIMI■11111•MMI I 7-iir 111. •••■••■■■■■•■ . - ? Q Factory- installed, intemally-rnounted, NEC (National Electrical ' ; ° • . _ Ieo Code) and UL (Underwriters' Laboratories) approved non -fused C■•`• switch provides unit power shutoff with disconnect lockout protection tt: r ) capability. The switch is accessible from outside the unit. Factory- installed Parablade economizer utilizes parallel opposed - blade dampers, a motor with built-in spring return for dose upon power loss, standard enthalpy controls, and 30% (sizes 036 -072) or 45% (sizes 090- 150) barometric capability for added flexibility in high outdoor -air applications. NOTE: Parablade economizer is only available for vertical ductwork CONVENIENCE OUTLET applications. It is factory- installed only. W- DURABLADE ECONOMIZER L • gin r CON 1 . 0 I Dr IP 1 : • ■ •• ■#: t) � ;i,� . A.0:...1,) tlt_tlta�_�i�illi�ifi�- ' 41111111w# 'VI • + • i L 0 Factory-installed, internally mounted 4 f and external accessible 115 -v fe- I M m ale receptad .Includes 15-amp GFI ; ° • (Ground Fault Interrupter) receptacle with independent fuse protection. Volt- age required to operate convenience • outlet is provided by a factory- installed •' *of transformer. aolOne ... l_____ C Exdusive Durablade economizer damper design saves energy while providing economical and reliable cooling. A sliding plate on the face of the economizer controls the amount of outdoor air entering the system. When the sliding plate is dosed, it provides a leakproof seal which prevents ambient air from seeping in or conditioned air from seeping out. It can be easily adjusted for 100% outdoor air or any proportions of mixed air. Equipped with standard controls and 30% barometric relief capabilities. e • S AND ACCESSORIES (cont) OPTIONS HAIL GUARD ACCUSENSOR II ENTHALPY CONTROL - o I \_1 r �� , / / /// IdN l,_jr " // fir,: ��, /� \ a r auw / /l�j o ,-.----V1` II 4� w 1 '4 �11 j' P∎ / ' ;CO 11111 ® ® r -. Hail guard accessory (field installed) protects condenser coils against damage from hail and other flying debris. e!,. ACCUSENSOR 11I DIFFERENTIAL ENTHALPY COIL GUARD GRILLE _ • 1111111 p::.;ii:E�;:c2E:- iii::.:::: : :; :n /� • iii % %:1 '' Accusensor economizer controls help provide efficient, economical � � / economizer operation. The Accusensor 1 dry-bulb sensor measures outdoor temperature and is standard with the Durablade economizer (not required with Parablade economizer). u A / The a Accusensor II solid -state enthalpy control senses � both dry and wet bulb of the outdoor air to provide an accurate en- thalpy reading. Accusensor II is standard with the Parablade econo- Coil guard grille protects coils against large objects and vandalism. mazer and available as a field- installed accessory for the Durablade economizer. The accessory Accusensor 111 differential enthalpy sensor control compares outdoor temperature and humidity to retum -air tempera- ture and humidity and determines the most economical mixture of air. Accusensor III is available for both Durablade and Parablade economizers. , r IIIIIMMIEMIIIMI Oil THERMOSTAT Thermostat (24 v) provides one- or 2 -stage cooling for control of unit Matching subbases are available with or without tamperproof switches and automatic changeover. IIIIIIII • . r . • PHYSICAL DATA BASE UNIT 681B 036 048 060 072 NOIMNAL CAPACITY 3 4 5 6 F`3 �,�d 4 �^'7CM i'�y r ti` k .,, S M ' r 9 d F -,-4-w.(-2-1t'.4= C . r 71 6 ?'i OPE RATING WEIGHT Ibl� ... ;r,..5. ,.• ` 'J. & .�.' ,: '" Mr .,, °``.c'.' * Vx,;at *,r�.' ' 5 -',I #�S k . s k,F _ r ''r+ 433.7* V' . - , . . . j �k.. 3. t= , . S � ,. .. __. v., ,. .,.. 'IA ,aur . �' r. w .ae x. �•! Unit 530 540 560 615 With Durablade Economizer 564 574 594 649 With Parablade Economizer 572 582 602 657 Roof Curb 115 gg 115 115 115 y r i + v ' -£. 1 } M - w J. ` � ?i rs ' ±C i e + ,i.. r lr+ .� : �pY` :-' -' F .r :l ,,,, 9 3. 'r, 4 :44 r 4 *. # a .g . _ " : "0,. E �" ;;, _ �,+' " Fr'I ... ' ._ ; w Quantity 1 1 1 1 50 60 ¶R 00 R G ) E P A N_r, TY E P Y-Et$ ,°l �` ` `I'':�+c "i wfI', _ W`SvrA ^ : `,J � ; � F t'riwjra '.x°".t4va. T2 , . <. 'z. �` '..' -* { ht i a Operating Charge (Ib -oz) 5-8 8-0 10-0 a : - ru r r y7. F r 2° x .k7.. 3- t r _UN 0ENSEP F AN v .m a y,l� 3 t { 8 + r.,P � r q�e k u�5- w.�n�� Pa »�. K. _. , .a4tt°i , �, w'..G,t_ Y, 'Sxa§Ta.�lcr,.� s;w•a�'!�" y Z�93�Y' `�' i,'�. ; .- Quantity .Diameter (In.) 1..22 1...22 1...22 1...22 Nominal Cfm 3500 3500 4100 4100 Motor H 14...825 14825 14-.1100 14_1100 Watts Inotal) 180 180 320 320 c r + F' .� ,x''k R f, *! ! '''''`F.--"'" -" 3 w a c w..: 7tz W?'e, u4r, CONCtNSEP � -3. i� >�� 3;'l � . ! , ...... ,4.., ' ,,. , a .b'...._i ra`,rr., ilx& �:7e% "" � �3u L`rs Rowa,_FInsM. 1..17 2...17 2...17 2...17 Total Face Area (sq ft) 14.6 16.5 16.5 �r� pp 16.5 EVAP ORATOR -,FAN " V .;"4. * e r•'r a1• 'ti" r, �.' `�' ^"'lt�trq . r - ni 347,,, "-Y ty. 4 7 Size(in.) 10x10 10x10 10x10 10x10 4(amimal Chn 1200 1600 2000 2400 BOaximum Continuous Bhp 1.20 1.20 2.40 2.40 Motor Frame Size 48 48 56 se Fan Rpm Range 760 - 1090 840 -1185 1020 -1460 1120 -1585 illiotor !Hardman Fan Rpmmm 2100 2100 2100 2100 filotor Purley Pitch Diameter AIB (In.) 1.9/2.9 1.9/2.9 2.4/3.4 2.4/3.4 Nominal Motor Shaft Diameter (in.) 14 16 1 % Fan Pulley Pitch Diameter (in.) 4.5 4.0 4.0 3.7 Belt - Type-Length (In.) . A...33 A...36 A...40 A...38 Pulley Center Lime Distance (In.) 10.0 -12.4 10.0 -12.4 14.7 -15.5 14.7 -15.5 Speed Change Per FuU Tum of 65 70 75 95 &loveble m, Flange m (�) Movable u Full 5 5 6 5 Toms from Closed Position Factory Setthig - Full Tums Open 3 3 3 3 F 890 9 � . �s_ ti µ 1240 1305 Factory Setting (rpm) Fan Shaft Diameter at Purley (in.) � �'6 r tk+ !` 1 M s M �( ` ♦ "'.. r.t -'- �r "'i• "z' -'+3* 3,3 tans -.v ' `.p` �. t�a',ra``'7 tE A PO .,I r01L " y '" r, a' y .. C �. � .. .. ..-.i .. _.. �.. ,��x� � < , a r �.% . .,, 9. . �„c �_�; a l � r,r''Y 4 > ° . � � � .i.,., ,• ,... �--ss,a.., �i:. _ «w. �: , i , .t,, �,_ .,.. irl .+�r,�..� �Y E9 r ,'•s hS1 Rows-Fins/In. 2...15 2...15 4...15 4 Total Face Area (sq ft) 5.5 5.5 5.5 5.5 4>•`i � 9' 'Sk' P t 0,r,G u � - Tt '4 N�a '+� tr+k �} .fi71:a� i t .. ." 9x3,04 Q m`► t. 7 1. k.FUR Er T1 O N , S o f ;aPwa '.8.' da a>,F r µ . , 'di' r 4 k?,§ i 3;•. ? x w 3•. r 1, . �'S ,eJ #: _ -.. ,,w -, _ z ... k. ,, �l, ,e fit'.. .. � ti� a y ax ��_ �� . a �, . �� . . Rollout Switch Cutout Temp (F)" 195 195 195 195 Burner Orifice Diameter (in. --drill stze)t Natural Gas - Std .113...33 .113...33/.113...33 /.129...30 .113...33/.113...33 /.129...30 .113...33/.113...33 /.129...30 liquid Propane - Alt" .089...43 .089...43/.089...43 /.102...38 .089...43/.089...43 /.102...38 .089...43/.089...43 /.102...38 Thermostat Heat Anticipator Setting (amps) First at .14 .14 .14 .14 Second Stage .14 .14 .14 .14 Gas Input (Btuh) Single -Phase Units First Stage 72,000/115,000 72,000/115,000/150,000 72,000/115,000/150,000 - ENicle (Steady State) ( %) 82/80 82/81/80 82/81/80 - Gas input (Btuh) 3 -Phase Units Fist Stage 50,000/ 82,000 50,000/ 82,000/120,000 50,000/ 82, 000 /120,000 50,000/ 82,000 /120,000 Second Stage 72, 000 /115,000 72,000/115,000 /150,000 72,000/115, 000 /150,000 72,000/115,000 /150,000 Efficiency (Steady State) ( %) 82/80 82/81/80 82/81/80 82/81/80 Temperature Rise Range 15- 45/55 -85 15-45/35-65/50-80 15- 45/35-65/50 -80 15- 45/35-65/50-80 OAanifold Pressure (In. wg) Natural Gas - Std 3.5 3.5 3.5 3.5 Liquid Propane - Alt" 3.5 3.5 3.5 3.5 Maximum Static Pressure (in. wg) 1.0 1.0 1.0 1.0 Field Gas Connection Size (In.) / / 1/2 / ' HIGH SWI )siC . I Nv ri , ; ry ak.;SFdtr.: ,7 1 t :e r In, `Sd' .. w wS1r 4lir :e }L` �'twi�'rP '9'$ 7 Y ":p,J , _._, C :' 1 J �� ' .� S`..�'�.,n�1'��r�^"- �'�ol�,�L �Fat'.�s' T .sic., c ,+Cr«r�"'�+Yv�tltk :46a 4��i .k+�.+4y. e ak r ? �o,`.i.•�`.rv.. Standard Compressor internal Relief 450 ± 50 Cutout 428 Reset (Auto.) 320 PLOSS1CFCHP:RG OoV" PR ESSUR EIS WITrH r . -. �r i A r 't2 FI '4`11i"",u :',4 -i' ti� S ''' µ 3 '"7tS �� M ,7:4 q r 3.r:- ,, Y �v, _. " 4y.4� 7G .7, , y F w r4 ti ♦1 >S� t > Jw ' y � y to } [• + i - K ' , _b '�C4�lLiCluid L nCl(f)yig ■ rlT:r�. .� ,'r, � d re ti tr ... '� ��,.d:� - r - � .�. r m . - - 1 b s'� '� ' ¢r . ,a. -,. Cutout 7 ± 3 a ,'e51 "- . �+� . t k, � _s�� 1'��.� t [ � ., .. a... y Reset (AIRO.) i G"'r'Y R *s* ^ "'" 7:4' lr'�"b�4 ' � `'' 5 +''q ' r .t , " - ' a: t'.'''' N '£�7L," ' FREE -.. .., O:TECT - _ ... ERP.�OS _ ..." m. a>•'Fe . .-,3: Kri....:,_' a,:,41.i . , l r .ks.u.,rw±`"H.h�..t;k -_a .n ; . 4 r ' ' r'.,. "i.°.\ - :t` :a').`T:.1... .v.. .�,.. Closes peens F) 301 5 0. 001D ")� ;' F • -.. INLF-T .��, f *'� .'"]yyvv Ps,iia ,' 1 1 5. 1. ,rY*i . , tom + [ ) ;;n..i 451 _ ' '$ '�'J q(` two=" i " ) a'' 3�. r �: C CP Et "'� ` 5.��`.f:�a"C �` Y,�s 4�4�a�!.w .� �'� K , ;ro 3 x 5 , •� 9 � . „n� .. _ F'r ti . r .;r a t 1 �' .... Qua ...Size (In.) 1...20 x 2 1 : f d' ,-,a 1°, zr Z s ,e' 24 ' g s '. 1 q'C `' ab '. i .e t (3.° X ¢ ' '.. � _I �FII - r 1 5�3� 4 iM^ik t. . 2 '311 :r . ' J y " ,1 , .)44,,..,%. i _ , 33. . L ....3 aart f> t wi s P, .F " ,L4t , .3, 13. .1.: 41. . n ` - ,?i Q (In.) 2...16 x 25 x 2 LEGEND indicates automatic reset Bhp - Brake Horsepower t58113038072 -072 -072 units have 2 bumers. 5818038115 - 072115 and 5816048150-072150 units have 3 burners. An LP conversion ICt is available as an accessary PHYSICAL DATA (cont) BASE UNIT 48HJ 090 102 120 180 NOMINAL CAPACITY (tons) 734 8' 10 121 Z n O P,ERATING, EIGHT ill ZA ::ar' F�'•4AW".f:' T.r .trS 7" r S .s_t, e:63r 0tiR.,i.Y{ a* : v r, s:°' k:1- -- C - o;'Z Unit 870 880 1035 1050 With Durablade Economizer 914 924 1079 1094 With Parabiade Economizer 932 942 1097 1112 Roof Curb 143 143 143 143 :og r ta s ar g - --.. "'?," R ,N; , w. 5J7 -,7 `va a '^,�u ` } c O M P., EK E S, S_G R'it,Y tr�.r"i,R'' +f:. i._ iR r' v:�`i "u^ � . w'4!�i'as -..w' T r (QT" ,.w. i' ' ? � ,.. .: 7 'x s.. '�+`.7 r Al f.,�a.. dk2'b°. '' a 4'i,'� 574 ...,.: �2 .. n?......r. ._ . - 53 f. W 53 a`a,. qi t ,� - ;.ors ct " �*?- i"^',' .; (e ^yR1T 50 60 Oil fob each „� :14 REFPI TrPiG r" w' .y 1'3 ter"w 1 - V71vv R i W a�� .1 ' ifi'i'- +taei.' t _ ; 7 `_:'3 +mss:: x >.y Charge (lb -oz) 7 -10 7 -14 9-3 9-8 Cbtult 2 8- 2 8- 5 10-3 l. 9-5 ru „, u.- ate=.rr t r `4'0 aMlu& y : .o^,;_ . . +*u qqyy ,,,, i•" 'i J', rA.ej : l'r = ,, s" s a : ,� .ry ., y'.4 ,,rx- �.. N L � ( � � r ': t' � ` ^ � xr w w. f .�� :1,. �'�" vDFIYk-. �}'�„� .`z('�:n:`'+I�_ . ; �s y �,^' y e_..,.�alc ,.x,ti ,,.haa -Ra+ >..,..a ..- at'Wf"'p s•� _v U ... _._. _ b ` ._ .. ..., e "u ,_ „t",..? �`a �'.c^ ,. +',ik�r'�V�:a"�:r .� t �. � ... ,,,,1„ "R��,C,' t N uantltI Diameter (tn.) 2...22 2...22 2...22 2...22 ominal�Cffm� 6500 8500 7000 7000 filotor r Wad input (Total) ,e; ' a4 ' s s � trru C a #"x ya w . �" i � 2 a 34_1100 650 i " i y t _ . 2 sf`.a "` 650 s � = 11 �, ',� f s - ,a€r`". �i N ? E�r r ., :u.= . ;�,a.+.�,�i..., +;8`,'iE �,,.,�SM'�aa �', a�"�' 1�'ik'+C'h>,.�JF �,S "a.!t�.irrv..� .v_;,:.F ;,......::i .. 1 � .�: �z .. � it Rows...Finsfn. 2...17 2...17 2...17 2...17 Total Face Area (sq ft) yµ wq y ,a 20.5 y� 20.5 25.0 1,i r A P . R .+ r R r ' Nr" s* 5 .v - x s � '£'T 1.,: �k." 4P, w l�nu' Y'Xa4�'rl�t P r r � 4�fi mod' . '. F.; _ ry n 1+; IM f ., A!�P,'!."^tl4.. ' .?, ; 1yr .,? l''`Z .a . t" { m '1�Yo� ■ Szo(I n 15x15 15x15 15x15 15x15 Dr(ve Belt Belt Belt Belt 3000 3400 4000 5000 Maximum Contlnuous Bhp 2.90 2.90 3.70 5.25 58 56 56 56 Fan Ron � 840- 1085 840-1085 860- 1080 900 -1260 Motor Ball Ball Ball Ball Maximum an R 2100 2100 2100 2100 Motor Pulley Pitch Diameter 3.4/4.4 3.4/4.4 4.0/5.0 2.8/3.8 Nominal AB (o . ) > > A A Fan Pugey Diameter (in.) (� 7.0 7.0 8.0 5.8 Belt - TIP-Length (m,) A..51 A...51 A...51 BX...48 Pulley Center Line Distance (in.) 18.75 -19.25 18.75 -19.25 15.85 -17.50 15.85 -17.50 Speed Change Full Full ibmtoof 50 50 45 80 Movable �Pulley Maximum Frill Thins from Closed Position 5 5 5 8 Factory Full Turns Open 5 5 Factory Speed 8ewnq 840 840 880 960 Fan Shaft Diameter at Pulley (In.) 1 1 1 1 4 1 '� ll •. 'Fi'J'r `gr• s - �.r w , -- ?r,-. - x P 7 r *. °` ea p -.:+. ' w ii FC fr-f N E J� P O R TOP C 0.1 l :�`.ti�' 7 � i ?lE,.'$, - ' .? t 1: ,_ 7 a .: <+. . a �7!. _:....s.,.,.: ,;. a ...Y n. + ,: ,� as s, �`•G°.. Rows...Finslin. 3...15 3...15 4...15 4...15 Total Face Area (sq ft) 8.9 8.9 11.1 11.1 .- n +.Nr i,i ' 1 .ar)S,Y. '. rr - 7t,iA °°1i sr4d, 2.�5. ` 'X'nlW 41'1 C. - : 'ti�F'uc ti't .ry I j .. �Y6�,�i �R NPt E aT:l,O H.-, .t,a.:r� . r�?V?. ��s�, �?l''� 'G�;t,.a c.� '.,�z.�4:s;a.« ,_�_�54,.'��Ct r ✓+ x,:�. r�, 1 '7 k,',' �r'� � M �' -�'' s� Rollout Switch Cutout (Temp (F) 195 195 195 195 Burner Orifice Diameter (in. _.drill size)t Natural Gas _ Std .120...31 .120...31 .120...31/.120...31 /.129...30 .120...31/.129...30 Liquid Propane - Alt" .096...41 .096...41 .096...41/.096...41 /.102...38 .098...41/.102...38 Thermostat Heat Anticipator Setting (amps) Stage 1 .141.14/.14 .14/.14/.14 .14 14 Stage 2 .14/.201.20 .14/.20/.20 .20 .20 Gas Input Stage 1 90,000/120, 000 /180,000 90,000 /120,000/180,000 120,000/180,000 /200.000 180,000/200,000 125,000/180,000 /224,000 125,000/180,0001224,000 180, 000 /224,000/250,000 224,000 /250,000 E Stage 2 (Steady State) (%) 82/82/82 82/82/82 82/82/80 82/80 T Rise Range 20-50/35-65/45-75 20-50/35-65/45-75 35-65/35-65/40-70 35-65/40 -70 Pressure (in. wg) Natural Gas - Std 3.5 3.5 3.5 3.5 UL1qquid Propane Alt- 3.5 3.5 3.5 3.5 Field Gas Commotion Size (in.) .50/.75/.75 .50/.75/.75 .75/.75/.75 .75/75 - c t I r =. zw .? s ^'ue r *� a --..0 r �, f sf,+*- 3rir;'s t a�sl a, r u r*, z mti va 'ti 1y �� H IC'n,� F tES�I.F- 5� i.:, ^� ��slj�2�rf �:,�� ±...,r?I�'��,�E -.� �.'.�"11.��" x"`��.�au"� , k..�� t.>.t.. ;_:: �_�fi�e i z�� - ;,.�-;�::�` .; 'i _?� Standard Compressor Internal Relief 450 t 50 Cutout 428 Reset (Auto.) 320 9 !r I ,I F f �JIT,C r1 f.Jlr -" - U iZF .�i { f 49 t-E : 7 ' r 1 Fr - 'Jr f P ; vi ry � �,rc:;r Y 'V VA 5 ° fA .. i,'1.7 4 , l ad. .e" 7 f fif 1 . G � S �� O � t t .�'r1(E I I r u F , >: { .c. Y � r . _ :: l,=r f � - S its ih r - l 4 t o � Y. ', 3 �. . I 1 - 'c i .7 , S ?, w.,. '.'x^:'E ,h ., 3'; 74 ' . . c l .tt s; .;; 'I1e+, .1 va,� r K s. 1.';i t � I • CI 111 I � I .: 111 ` � �w�.rk.t �� -# i�A ,.. lLs I � 7 _ r s • f ' -.. - ..., _ .. _: - Cutout 7 t 3 `F -I LL. (Auto.) , II( EJ _, 4.'� _Ltir �iaet �^x v^ �'dM �, y., t ry 22 t 5 ,, 5- • r :.4 . . ,1fm ,: "•t + k i Reset P I l i r N E R4 t aA ,>��rs,'� t 7^. .S,�n .�.l� M �� r *��.:v^.. _. '�iu A4'3�o- ... ",�� .lrr. ._ �� . +QAL, r b. ''.r ., , ... . ... � .., � 1 ., r.. *}. .'!��,r Fl h .: r . J�hd.r��..� daaw i r. ,. ,r...: ( 301 5 ( 4515 Jl .T nl, } U - ' _! "'IX r 1 T �L� ._. I � 5 1^1 1 , 4F.' tnw.: 'L' ' - AK ,( gy 3F"A" . ..Yr; Vi F fi' 'n. , �1 y « : y. :.: __.._ . "k. i.��°C .r6 » .., �1 YX 4 _, L .�;.' , �i �c t ��. :�.,. 4_. _. 3 s Quantity-Size (o,) 1...20x25 x1 1...18x25x1 'iC ; } :,n i• `r r 3M y �3sa 4 „i r AEC: e uR � rr�ei"h.'t ': rZt r' rf' v , y t,r t,. ,i ; � q r , v , s , . +� R 7T I r I .. � (� f� r P M n , _�` _ K.. .V. � . ikG .,�.t�� >; 9G .e-. 1 . � 1k �r ue y . u..,w. . 5 ., .r..�,, A`. �a:u .< , ■ Mau � ( . �`i ...ts,�� Quantity-Size 4...16x20x2 4...16x20x2 4..20x20x2 4...2 x2 LEGEND *Indicates automatic reset t5816090125, 102125 units have 3 burners. • Bhp - Brake Horsepower 5816090180- 120180 units have 4 burners. 5818090220-150220 units; and 5816120250, 150250 units have 5 burners. An LP Conversion KO is available as an accessory. BASE UNIT DIMENSIONS - 581 B036 -072 STANDARD DURABLADE PARABLADE CORNER CORNER CORNER CORNER CONNECTION SIZES UNIT UNIT ECONOMIZER ECONOMIZER WEIGHT WEIGHT WEIGHT WEIGHT A lib' Dia (35] Field Power Supply Hole 6818 WEIGHT WEIGHT WEIGHT (A) (B) (C) (D) B 1 Die [51] Power Supply Knockout Lb Kg Lb Kg Lb Kg Lb Kg Lb Kg Lb Kg Lb Kg 036 530 240 34 15.4 42 19.1 127 57.6 122 55.3 138 62.6 143 64.9 C tiG' Dia [44] Charging Pal Hole 048 540 . 245 34 15.4 42 19.1 129 58.5 124 56.2 141 64.0 . 146 66.2 D W Dia (221 Field Control Wring Hole 060 560 254 34 15.4 42 19.1 134 60.8 129 58.5 146 66.2 151 68.5 E W-14 NPT Condensate Drain 072 615 279 34 15.4 42 19.1 147 66.7 142 64.4 160 72.6 166 75.3 F W-14 NPT Gas Comedian G 214' Dia (64] Power Supply Knockout NOTES: 1. Dsnensicns in ( j are in millimeters. 2. ® Center of gravity. 1' - 7 3/16• Cr 13/16' p87.4] 3. % Direction of airflow. / " ' err id y t 4. On vertical discharge units. ductwork o be attached to accessory roof cub only. For horizontal discharge units. field- euppfied flanges should be attached to horizontal dia l i � E 14000 'I FACTORY SUPPLIED charge openings. and a0 ductwork should be attached to the . / /// l' r u 5. Mnanum clearance (local codes or Jurisdiction may prevail). h hr i a. Between unit, flue side and combustible surfaces. 48 inches. (18 n. when using ac- I cessay flue discharge deflector) 2' - 9 5/18' ( CONDENSER COIL std ,;i*. A -1 b. Bottom of unit to combustible surfaces (when not using cub), 1 inch. 1 ^ Bottom d combustible su base rail to combustible rfaces (when not using curb) 0 inches. [816.9 p ci . 1 1. 1' 5/16 c. C �& p • 38 n. one side, 12 in. the other. The aide getting tie greater 4 " h - LJ C414.9 k y d. Overhead, 60 n. to assure proper oor derheer fan operation. il` Ail OF F UNIT M ,,k 1011 e. Between units, coned box side. 42 in. per NEC (National Electrical Code). y R' r y h L Between unit and ungrounded surfaces, control box side. 36 n. par NEC. i!! .. ` ` " : 1 0'-6 5/8 g. Between unit end block or concrete walls and other grounded surfaces, control box [166.2] h. Horizontal su and return end, 0 aches. 6. Wilk the exoeptian of the dearanoe for the condenser coil and combustion side as stated 0' • 16" 3' 3/16"----77---- 1 in notes 5a, b and c, a removable fence a barricade requires no clearance. 0115.67 L , -2 B 7. Units ELECTAIGIL 7 s may be installed on combustible flans made from wood or Class A B. or C roof 1 R] LEFT S I DE DIISCONNECT covering maters eat on rent OUTSIDE AIR FILTER ACCESS PANEL mISPOSAOLE FILTERS REAR • S + 2• -015 161.,1 S .. - ill 47 FILTER/EC0NONIZE1 ACCESS PAIEL -f ' \-CONOBISER COIL OPTIMAL I PANEL FuC01mMIZER H00D 1'-0 3 . C416] MOIR "A" 2 -7 1/2 1 3/4 �I�CORIEA - e" 06003 r E453 _ _ 1 � J 2 - -1 11/16- e0' -3 3/16" �. 00 I 19517 , cell RIGHT SIDE LEFT II r - -21 I , vl eu S S IDE ;; _ E Y L TDR I RETURN AIR OPENING I : 0' -10 15/16" RETURN AIR II VERTICAL t tam 11 ©i C - - -- 1 r + 01377 11 • r i BOTTOM POWER CHART, THESE HOLES 3'-9" I . 1 h REQUIRED FOR USE WITH ACCESSORY C11443 , 1 i E r - - I I PACKAGES (WC, 1 TTMPWR001A00 11 i o TILT. COIOBI"•hATE 1 I 1 -0 . -2 9/16" 1 1 r // / 0•-3' IN I BASEPAN I 9JPP LY AIRI I 1 ' -5 3 /4• t o suppLy THREADED WIRE REQURED I I • • [76.27 OPENING 1 (4513 AIR CONDUIT USE �j 6 SIZ ES 1 1 / i + I VERTICAL I I 1•-0• -. - - - + ' -0 ' - 1 15/16' I w 24V % (22.2) ` - - - ' - - Ye Power 114" ]28.4] e _ 2' -0 1/4" � " A 0'-5 7/16 i 0616] i ... A 199.47 1138 1yr Power* 1i! ] x'41 SEE MAMBO PC*" , NOTE ee - F RONT f soled either Vs' a 1W a power, depending COMER "0 " v _ 2' -11 11116" -« 0' -3 1/16' y , '-0 1/11,1, ::-.07--;-.3;3fi--CORNER on wire size. I 176) 13063 ®1 ] 191 3 •I 6' -1 11/16" 018723 0' -7 1/4" 11647 1'-5 5/1." •' -10 1311. 0'-4 1/16" 0'-0 439. 0774. ' 1103.27 FILTER ACCESS PANEL CONTROL [103 - - CDISPOBABLE FILTERS 1 1 ACCESSORY BIAe®t� I - _ PAID i 1 1 2' -1 11116' Mil IIIII. 4i7 I ® i'-6 7/16" 19.52.57 HOOD FILTER I AIR h r k l9 r _ INDOOR FAN ROTOR 8 I A OPENING FILMIER ACCESS PANEL 1 4attl Fk c T S1 ^1 I ` II I ZONTAL / / //. 4" r 'i f k 5 1- �c 111 I 0' - 1 7 /8' 9RPLY AIR $I 1 1 r , � e l ? r' v ' , .e] OPBIING 1 0177.63 4 OUTSIDE AIR r * I ' , 0 i I : :W..., , C91.03 18- FgRI7 +1 I 2' TRUCK SUM 0'-5 3/4 �� ' -1 15/1 • / 1 O'-5 11116" [746.21" 0'-e 7/1 1146] j/ 1958.151 j 1144.31 c2143 0' -2 1 /4'0IA OF PANE SUPPLY AIR RETURN AIR RIGHT SIDE • FRONT m 7] E STD. CRATE DRAIN • BASE UNIT DIMENSIONS — 581B090 -150 STANDARD DURABLADE PARABLADE CORNER CORNER CORNER CORNER UNIT T WEIGHT ECONOMIZER ECONOMIZER WEIGHT WEIGHT WEIGHT WEIGHT 'H' "J" "K" V EIGHT WEIGHT WEIGHT (A) (B) (C) ( Lb Kg Lb Kg Lb Kg Lb Kg Lb - Kg Lb Kg Ran. mm Ran. mm ft-In. nun Ran. mm Ran. nun 090 870 395 44 20 62 28.1 189 86 161 73 239 109 280 127 270 632 3-534. 1050 2- 9 856 2- 2 672 ' 102 880 399 44 20 62 28.1 191 87 163 74 - 242 110 284 129 1 -2 378 3.5346 1050 2 -9 856 2- 234e 672 120 1035 469 44 20 62 281 225 102 192 87 285 129 333 151 1 -24 378 4134a 1253 3036 924 2 -10 875 160 1050 476 44 20 62 281 228 103 195 88 289 131 338 153 1 -2!6 378 4-1946 1253 3-0Ve 924 2 -10 875 NOTES: 1. Denensicns in [ ] are in millimeters. 2. ® Center of gravity. 'H' 0' -7 3/8' 3. % // Direction of airflow. .\ ua 0 41 313/16' 4. On vertical discharge orals, ductwork to be attached to accessory rod curb only. For 1977 horizontal discharge units, field - supplied flanges should be attached to horizontal dis- „ 'I FACTORY SUPPLIED charge openings, and all ductwork should be attached to the flanges. FLUE HOOD 5. Minimum clearance (local codes or jurisdiction may prevail). a Between unit, flue side and combustible surfaces. 48 inches. (18 in. when using ac- b. Bottom of unit to to om s (when not using cub), 1 inch. , COIL Bottom d base rail to combustible surfaces (when not using curb) 0 inches. 'J' in Condenser coil, for proper airflow, 38 b. one side, 12 m. the other. The side getting 2 3/8' the greater clearance is optional. 1 .193 d. Overhead, 60 in. to assure proper condenser fan operation. e. Between units, control box side, 42 Al. per NEC (National Eledrical Code a , f. Between unit and ungrounded surtaxes, control box side, 36 in. per NEC. . - • i g. Between unit and block or xamxete walls and doer grounded surfaces, control box — - -- side, 42 in. per NEC. i ' � T E hn. Horizontal supply end reban end. 0 inches. 6. Wltn the exception of the clearance for the condenser coil and combustion side as stated 0'-4 9/16' 0' -5 3/4' in notes 5a, b and c, a removable fence or barricade requires no clearance. (1163 4'-5 7/8" (1463 7. Units may be installed on bk� le floors made from wood or Class A, B. or C root 0'- 1_ [13®7 \ ELECTRICAL ooversg material if set on base DM LEFT SIDE DISCO)®ECT LOCATION CONNECTION SIM A 116' Dia (35) Field Power Supply Hole B 2W Dia 1641 Pacer Supply Knockout C I Dia 1441 Chwginp -Pat Hite REAR • is,- 2 "'/z � 0'-3 9/16' D L6' Die [22] Field Control Wrvg Hole ISO7 E 3'a -14 NPT Condensate Drain FILTER/E 1I7ER ACCESS PANEL OUTSIDE AIR 7 r- /. CORNER '8' - W -14 NPT Gas Cxrnedion 58111-V090125 and COMM COIL F 5818- V102125 —3'{ X5/16• — n - 1 3? -14 NPT Gas Connection (ail other units) [10917 1'-5 /8 G ? Die [51] Power Supply Knockout ECONONIZ81 HOOD CORNER 'A' �, 0' 9 Ire' \-, EYAPO[tATOR _ K -� -. 0 if COIL 1 ml =wail f1 f ,, ,, W RETIJ<IN AIR OPENING 1 1 1%0 5re' . i / /: a I I VERTICAL t PAIR / /%i �I . ©. j RETURN AIR N 2 13(16' ill . 4 [14671 11 --- ALT. CONDENSATE — — 1 , t 0 -2 9/16' 171.53 RI DRAIN OPENING 1 SUPPLY I 1 V1E6 5-5 7 00 0 LEFT ` it INS SAMPAN i aPONiN9� i 2(13x1/4. CHART. R I GHT SIDE TIES HOLES aEa "o FoR1LS£ S IDE 0O, 191 - SE 1VERTICAU , NI Cp80 1A0O (1 3/4' NI . ) 11 i I // , t7Wlrplil0�A0g CI • .1 1/4') 1' -11 1/4 E NOTE s8 , 71 BITMI NIAE AEO'D HOLE 6917 I SUPPLY AIR 1 • -1/8 0' -1 15/16' 0 ' - 4 11/16' - - - CC0 JIT I& SI)E9 Si YE OMXJ I [ ; 148.5] r [1 2D7 ,/2` 24Y 7/8'122.23 SEE BRITON I0•-5 7/16' 3/4' POMMY 1 1/8 CHARTtBEC. MI D I U 1 -r (1387 1 t /4' POULIN 1 3/4 CORNER '0' �_2 -4 Ire' 1 —, [� le - 99BCT EITHER 3/4' at 1 1/4' 1791.ND FRONT 0'-3 are' 'C' FOR POIN81. � DINB an WIRE WE. d'' 1/4' '-8 3/16 L793 "-- [10737 [2087 3'-4 1 /4' —+J 0' -7 5/16' 0'-4 ' [10?27 7. _3 3/8' -w [1857 11011 Q2193 0 " [103 ' - 2• C71g7 16• 1,'-O 5/8 P - FILTER ACCESS PANE. 4 111 • .- WISPOSAB.E FILTERS) "L' a d, k' ACCESSORY CONTROL BOX/ COMPRESSOR/ 1 SLOWER FAN ACCES PANEL h } T A L 4 BURNER ACCESS Sl0E • PAl� L SIR•Pl Y AIR z' 11 h OUTSIDE AIR IS, 1._11 Ire' i OPE ►INO ' 4 4 lir 2 7/16- W l (352.3 1 HGtImI+tAL a I _ . 0' -3 X16' 1 F , j L _ _ — .. 1 0'-7 1/16' [1793 3' .-' V-1 t.0'-7' 1787 LO' [1 11/16 4 " i ____ TRIO: SLOTS ° (2143 OW 5) OF PANEL � / t RIGHT SIDE FRONT SUPPLY AIR RETURN AIR STD. CONDENSATE GRAIN ACCESSORY DIMENSIONS — 581B036 -072 CONNECTION SIZES UNIT SIZE "A" ROOF CURB "D" ALT "E" CONNECTOR 5816 ACCESSORY UNIT SIZE "B" "C" DRAIN E POWER CONTROL ACCESSORY 1 -2' [358] CRRFCURBOO1A00 5818 HOLE GAS PACKAGE 036072 2'-0'[610] CRRFCURBOO2A00 W NPT Y; NPT 14' NPT CRBTMPWROO1AOp 036-072 1' -9"/+e 1'-4' 11/; 45] (Thru the Bottom Connections) NOTES: [551) [408] [ W NPT 1'/; NPT 14' NPT CRBTMPWR002A00 1. Roof curb accessory is shipped unassembled. (Thnrthe- Bottom Connections) 2. Insulated panels. 3. Dimensions in [ ] are in millimeters. 4. Roof curb: galvanized steel. C 5. Attach ductwork to curb (flanges of duct rest on NO. s 8. Service clearance 4 ft on each side. 7. /// Direction of airflow. ®•1 ,I \\ \\ 8. Control and power service plates are part of a C i . separately shipped accessory package. 1 9. Either accessory Connector package can be used i ' 1 — — '1 with either accessory roof curb. L ''_'� -- 1 / j 4 � , 6_x/0 i1, [767 //'k O Z . 6i — �—r. 1 4 -- - -- % �, CV 44,V/ 1 GAS C76) 1 � [91PPL IED tlITN CURED - . —r ]•-7 S/9' Will 0 1,4'[71 1 01303) i . .... _ lX `M% / TYPICAL CO SIDES 1 " =� . i COUNTER FLASHING � i , - - ;• - - \ .. IT IELD SUPPLIED) t } 7/16 ff1ELD SlYPL1ElA � • �. INB fgT I ffIELO 9JPPLIEO) 0.-0 117 '-7 1 1 i 7 3 /15' 1're' I ' . C T HAD 1:5041 '`--y 13341 I 0'-0 [117 \ WIT STRIP SECTION "C -C" (BOLT HEADS) ffIEID STlPPLIFA) SCALE 1.4 1761 \ CF IELD S S ROOF I L PPLIED) O'-0 7/18 3' -0' 0'-0 7/15' \ A T [11 L911)T • A \\ OPENING F061 BASEPIIN L I Q \.� \ \ \\\\ \\\\ ENTRY SERVICE \ 0' -2 1/2' (WI 51010 I I18 LAT I Cal 0 1/4' ffIELD 9.,PLIEm [U) � a 7 T 3/t6" SEE 11DTE .2 '' • • / 44 • • SERVICE • PLATE 1' -4 13/16' I 0 *-0 1/4"M ® • [427] 1 • P _ © _ , - (INSIDE) , 1 0 -40110 � " ' / "? `� , 1 p / TVP O SUPPLY AIR RETURN AI ‘ ,,,, 0' 2 are' V/ VIEW "A —A• [6U , 1 HEAD of BO BE TO ON ► INSIDE OF FLANGE o' -I Ire ( / 4 , 1 • -.-1,.. ,„: , mow I � I 15/1 A ' 0 3 -05/ CJ6 1 I VIEW 'B' i� ` mI P. ALL CORIt SEE VIEW .8 - - - 1 Roof Curbs r Form 4a Project Name: Frye Electronics Page: SYSTEMS — GENERAL >R"iFrF. ,,...A.isrft%4nA :ie:`EYX'... ..,, ,,PiLl.'.LYMAIWIRi 5£:37F'L a%!cekliCAIM:M 'aU'3,i1014501Pki..0" iE1.: 1MM4R�N er,V 1Pr`s!'' W�%01 .—.4 LYY�ffJ+3 0-IV/Cr/At" tic 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? El 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 ❑ - ❑ - ❑ -3 Area: Exception ❑ - ❑ -2 ❑ -3 Area: Exception ❑ - ❑ - ❑ - ❑ Form Not Required. This project does not contain work required to comply with code. 2. Simple or Complex Systems (Section 1317.9 or 1317.10) El Simple System. Building contains only Simple HVAC System(s). Complete this form (4a) and equipment efficiency worksheets as required. Form 4b is not required. ❑ Complex System. Project includes a Complex System. Complete this form (4a), form 4b and equipment efficiency worksheets as required. 3. Equipment Performance (Section 1317.5) ❑ No New HVAC Equipment. The building plans do not call for new electrical HVAC equipment, combustion heating equipment, or heat - operated cooling equipment. El Complies. All new HVAC equipment have efficiencies not less than those required by code. The following equipment efficiency worksheets are attached: El -4a 0 -4b El -4c El -4d ❑ -4e ❑ -4f ❑ -4g ❑ -4h ❑ -41 ❑ -4 4: ii�1. A.'!+. wlR, e., Vu:.) 2! n' �e., R'!' n!' n14: fw::!! 8'. . i7. M✓!: �INS:: 3f.'. �.1fiLMt.1�'f..SaY.fl'G.w,i.:� -..� IR' 4+-^ A+ h'/ �JRi! fYii{:, �`+ a+. Y. 1�.' .2:K!!llClJ.3ilC�!3(.`i1t'1 3`�ti^.Y..R. iO'h'�'L•& iPf►:k :': 'KIR: 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. GI Complies. The plans and specifications call for all air - handling ducts and plenums to be insulated and sealed as reauired by Sections 1317.7 &1317.8. 5. Distribution Transformers (Section 1316.1) ❑ No Distribution Transformers. The plans/specs do not call for new distribution transformers. El Complies. All new distribution transformers comply with efficiency, testing, and labeling requirements of Section 1316.1.1. ❑ Exception. The project qualifies for an exception per Section 1316.1.1, Exceptiion: 0-1 0-2 0-3 0-4 0-5 0-6 0-7 ❑-a ❑ -s 0-10 0-1 0-12 0-13 0-14 Attach relevant documentation for appropriate exception. The plans/specs show compliance in the . following locations: 7 See Attatched Documentation � sty!±...ko „tatt `ipi t'ri's,:.4 4,, ti.0 - .', 4 - 1.11Min murtart .+amr iar if sesits ?osa?�L'r' 3it'•5 :sor�!►` y' oic 4-1 April 2005 Compliance with OSSC, effective 01/01/05 Form 4a Project Name: Frye Electronics Page: SYSTEMS - GENERAL 6. HVAC Controls (Section 1317.4) 6.1 System Thermostat /Zone Controls (Section 1317.4.1) Complies. All new HVAC systems include at least one temperature control device responding to temperatures within the zones. ❑ Exception. HVAC system qualifies for an exception from zone control requirements. The applicable code exception is Section 1317.4.2, Exception 0 0 Portions of the building that qualify: The plans /specs show compliance in the following locations: See Attatched Documentation 6.2 Off -hour Controls - Auto Setback or Shutdown (Section 1317.4.3) D 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 0 0 The plans /specs show compliance in the following locations: 6.3 Control Capabilities (Sec. 1317.4.2.1) Complies. Zone thermostats are capable of being set to the temperatures described in Sec. 1317.4.2.1. Where used to control both heating and cooling, zone controls shall be capable of providing a temperature range or deadband of at least 5 degrees F within which the supply of heating and cooling energy to the zone is shut off or reduced to a minimum. ❑ Exception. The building qualifies for an exception to the deadband requirements. The applicable code exception is Section 1317.4.2.1 Exception 0 0 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 r. the use of supplemental heat as defined in Section 1317.4.4. " ` The ::5:::h compliance in the following locations ..:xi : _� !b.} ' � ;`. ¢ ,' . " ...;? . + "- N . ..,_ r!►r p , .. • .., ., ... _.. 4 -2 Co-npiianoo withte o avo 01/01/G5 • Form 4a Project Name: Frye Electronics Page: SYSTEMS - GENERAL ..., —:_ .. 1':: -:... „_s.. < , ,. ,x F. . ..k >.. .. a. .,.s 1^ },.•''y '.. .... .s .. o a17. ....r. ,.: -;,n s .nr`li! . _ ...,. .. 7. Economizer Cooling (Section 1317.3) ❑ No Cooling. The building plans do not call for a new fan system with mechanical cooling. IS Complies. Each new fan system has an air economizer capable of modulating outside -air and retum -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 ❑ -1 ❑ -2 ❑ -3 ❑ -4 ❑ -5 ❑ -6 ❑ -7 If Exception 3 is selected complete the following: (a) Total cooling capacity of exempt units (Btu/hr) 60,000 (b) Total installed building cooling capacity (Btu /hr) 300,000 ❑ 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 & Integration (Section 1317.3.1 and 1317.3.2) ❑ No Economizers Required. Project does not contain a new fan system requiring economizers. Overpressurization Complies. The drawings specifically identify a pressure relief mechanism for each fan system that will relieve the extra air introduced by the economizer. ❑ 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: See Attatched Doumentation 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 Rated Cooling Capacity Max Hot Gas Bypass <240,000 Btu /hr 50% \6b;/ >240,000 Btu /hr 25% ❑ Exception. Unitary packaged system with cooling capacity no greater than 90,000 Btu /h 4 -3 April 2005 Compliance with OSSC, effective 01/01/05 • • Form 4a Project Name: Frye Electronics Page: SYSTEMS - GENERAL .;:fit. ...,r,. :,:. 1 i.: : ,;�.F, _ ....'l". Y r:. 9. I:,..^t;, r7s�d.1:.,3 .."'!i"'WP,.6iaf �i r.6:a•! .. .. _ .... . 7Ys, .. _ r a.. 'r 10. Shutoff Dampers (1317.4.3.3) o 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 CIA ❑ -2 ❑ -3 ❑ —4 ❑ -5 ❑ -6 The plans /specs show compliance in the following locations: 10.1. Shutoff Damper Controls (Section 1317.4.3.3.1) El 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) El Complies. Motorized outdoor air supply and exhaust air dampers have a maximum leakage rate of 4 cfm/ft2 at 1.0 in w.g. when tested in accordance with AMCA Standard 500 -1998. ❑ 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) o 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 ❑ -1 ❑ -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 Section1203.4.1, Exception. Attach worksheet 4m. The plans /specs show compliance in See Attatched Documentation the following locations: The plans/specs show compliance ,4 ✓r on the following pages: i k - ,. • jz CI, . • c, ,. el . .r: :.c .. i ; ;,; , _ _,, •u;i :' • y.T « .:.: dr' fA4 .. 3 .N C '+'�., :M. .W2i� L ,. ... _ . ' . ',..? 'F'rr ._sc.: '0 tl r -,. , ..r. J• , ;;«,, ,- .1e. ., ■ ,...!i 4-4 compumas mg • Form 4a Project Name: Frye Electronics Page: SYSTEMS - GENERAL 13. High Occupancy Ventilation (Section 1317.2.2) ❑ Complies. HVAC systems with ventilation air capacities of 1,500 CFM or greater that serve areas having an average occupant load of 20 square feet per person or less from Table 1004.1.2 have a means to automatically reduce outside air intake. Identify applicable systems: Plans /specs indicate where equipment (i.e. carbon dioxide sensor) and sequence is specified: ❑ Exception. HVAC systems are equipped with an energy recovery device with at least 50% recovery effectiveness. O No High Occupancy Systems. Project does not contain an HVAC system as described above. 14. Exhaust Air Heat Recovery (Section 1318.3) O Not Regulated. HVAC system does not have: 1) design supply air cap. of >10,000 cfm, and 2) min. outside air supply >70 %, and 3) at least 1 exhaust fan rated at 75% of min outside air supply. ❑ Complies. Heat recovery system increases outside air temperature by 20 °F (Climte Zone 1) or 30 °F (Zone 2) and has provision to provide bypass during air economizer mode. ❑ Exception. An HVAC system qualifies for an exception to this requirement. Applicable exception from Section 1318.3 Exception0-1 0-2 0-3 0 0 0-6 0-7 The plans /specs show compliance in the following locations: 15. Large Volume Fan Systems (Section 1318.4.2.4) O 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) O Not Regulated. The building plans or specifications do not call for fan and pump motors 10 horsepower and greater that serve variable -flow air or liquid systems. ❑ Complies. All fan and pump motors 10 hp and greater which serve variable -flow air or liquid systems are controlled by a variable -speed drive. ❑ Exception. The building qualifies for an exception to the variable -speed drive requirement. Portions of the building that qualify: Applicable code exception is Section 1317.10.3.1, Exception The plans /specs show compliance in the following locations: 17. Service Water Heating (Sec. 1315) O No New Water Heating. The building plans and specifications do not call for new water heaters, hot water storage tanks or service hot water distribution systems. ❑ Complies. All new water heaters, hot water storage tanks or service hot water distribution systems comply with the requirements of the Section 1315. ❑ Exception. The applicable code exception is Section: Exception: r0* J Portions of the building that qualify: ° The plans /specs show compliance in the following locations: =rax I, ♦r,' .,„ -� S ..r` 7 ,.': - .n .tf.; Z 4 -� .N..,.Y ,5:`:' >.,: {,-i/ ..:fii t.,ro t .. w. ., Y:. , \d sa -.,- .r awr. ,, i.:i:'r 4 -5 Compliance with oitR af 01/01/05 Form 4a Project Name:,Frye Electronics Page: SYSTEMS - GENERAL .,., ....,., „ >.;.'" D . 1! . • '. t1 ; lA� : "��%,.-' ■ I "?:<:' ° . - 'k* o.':i^1!k r • ,A- :;'. , YM - V_ , ' . A; A .i: { . 1U,_ `i5M , •",.. ,_':''k;; ; ..,....., .'. ii + + ° ;■ . n -, 1 ?' , e“ , .. I"M Y.... r .. 18. Swimming Pools, Spas and Hot Tubs (Section 1315.5) o No New Pools. The building plans and specifications do not call for new, swimming pools, spas or hot tubs. ❑ On /Off Controls Complies. Spa and hot tub heaters are equipped with a readily accessible ON /OFF switch as required by Section 1315.5.1. ❑ Ventilation Controls Complies. Pool ventilation system is controlled based on humidity. ❑ Cover Complies. All heated pools, hot tubs and spas are equipped with a cover. ❑ Heat Recovery Complies. Pools, Spas, and hot tubs, over 200 ft utilize recovered heat as required by Section 1315.5.3. ❑ Exception. Heat recovery is not necessary as pool is heated by renewable energy or waste heat recovery sources capable of providing at least 70 percent of the heating energy required over an operating season. 19. Fume Hoods (Section 1317.2.1.) El No Fume Hoods. The building plans do not call for fume hood systems that have a total exhaust rate greater than 15,000 cfm. ❑ Complies. Fume hood systems have at least one of the following features: ❑ Variable air volume hood exhaust and room supply systems capable of reducing exhaust and makeup air volume to 50% or less of design values. ❑ Direct makeup (auxiliary) air supply equal to at least 75% of the exhaust rate, heated no warmer than 2° F below room set point, cooled no cooler than 3° F above room set point, no humidification added, and no simultaneous heating and cooling used for dehumidification control. ❑ Heat recovery systems to precondition makeup air from fume hood exhaust in accordance with 1318.3 - Exhaust Air Energy Recovery, without using any exception. The plans /specs show compliance in the following locations: 20. Parking Garage Ventilation (Section 1317.2.3) o No Enclosed Garages. The building plans and specifications do not call for enclosed Group S -2 parking garages with a ventilation exhaust rate greater than 30,000 CFM. ❑ Complies. The plans and specifications call for carbon monoxide sensing devices as required by Section 1317.2.3. ❑ Exception. Open parking garages. 21. Kitchen Hoods (Section 1317.11) El Not Regulated. The plans /specs do not call for any new kitchen hoods with exhaust capacity greater than 5,000 cfm each. ❑ Complies. All new kitchen hoods with a total exhaust capacity greater than 5,000 cfm have at least 50 percent of the required makeup air; (a) unheated or heated to no more than 60 °F; and (b) uncooled or evaporatively cooled. A �% c-. The plans /specs show compliance in the following locations: 22. Outside Heating Systems (Section 1317.12) El 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. a f _ _. R 4-6 Compliance with OSSO 0501/05 Form 4b Project Name: Frye Electronics Page: COMPLEX HVAC SYSTEMS qlr. r,. .:r::'. ,ri . . ......Mel. ..ti .: r r .-.t ✓:a ro .. .... ..w'.. rc"...1 sr r <...'. ... - -.. n7.+ -:' - k .w-. 'T ._.. r r ;a* Y • rr -la +a: Applic 1. Simple or Complex Systems (Section 1317.9, 1317.10 and 1318) ability Note: This form is required for complex systems only. If your plans qualify as a simple system Discussion of as defined by the code, this form is not required. qualifying excep- tions c in 2 Air Transport Energy (Section 1318.4.2 instructions P 1aY ( 1318.4.2) section. 0 Not Regulated. Each HVAC system does not have total fan nameplate horsepower of 7.5 HP Fan Motor or greater (include sum of all supply, retum, & exhaust fans operating at design conditions). Energy ❑ Brake Horsepower Complies. The energy demand of all HVAC fan systems meets code See section p 1318.4.2 for q re uirements. Complete and attach Worksheet 41. maximum horse- ❑ Nameplate Horsepower Complies. Selected fan motors have nameplate ratings no larger power allowed. than is allowed by Section 1218.4.2.3. (Complete Worksheet 4L.) ❑ Exception. Section 1318.4.2, Exception 0 0 0 -3 0 -4 Portions of the building that qualify: The plans /specs show compliance in the following locations: Cooling 3. Cooling Tower Fans (Section 1317.5.4.1) Tower El No Cooling Tower There is no cooling tower in this project. Fans ❑ Complies. Cooling tower fans have control devices that vary flow by controlling leaving fluid temperature or condenser temperature /pressure of the heat rejection device. The plans /specs show compliance in the following locations: 4. Simultaneous Heating and Cooling (Section 1318.2.1) CI No Cooling. The building HVAC system has no cooling. ❑ Complies. Controls prevent reheating, recooling or mixing of mechanically heated and mechanically cooled air. ❑ Exception. Code exception is Section 1318.2.1, Exception 0 0 0 -3 0 -4 0 -5 If exception 1 is used, complete and attach Worksheet 4k Portions of the building that qualify: The plans /specs show compliance in the following locations: 5. Electric Motor Efficiency (Section 1317.10.3 & Table 13 - T) ID Not Regulated. There are no NEMA Design A &B squirrel cage,T -frame induction, permanently wired polyphase motors of one horsepower or more which serve built up HVAC ❑ Complies. The efficiency of all regulated motors meets code requirements. Exceptions ❑ Exception. Section 1317.10.3, Exception 0 0 Discussion of qualifying Portions of the building that qualify: exceptions in instructions The plans /specs show compliance in the following locations: 6. VAV System Static Pressure Reset Controls (Section 1318.2.3) ❑ Not Regulated. The building plans or specifications do not call for a VAV system controlled by a static pressure sensor or direct digital control of individual zone boxes. ❑ Complies. The system static pressure set point automatically resets to the lowest point ,° possible while still providing the required air flow to the zones with the greatest demand. c.) ❑ Exception. Section 1318.2.3, Exception s The plans /specs show compliance in the following locations: Form 4b Project Name: Frye Electronics Page: COMPLEX HVAC SYSTEMS 7. VAV Terminal Units (Section 1317.4.2.1) O Not Regulated. Project does not contain VAV terminal units. ❑ Complies. VAV terminal units are programmed to operate at the minimum airflow setting without addition of reheat when the zone temperature is within the set deadband. Complete Worksheet 4k. ❑ Exception. Section 1317.4.2.1, Exception ❑ - 0 - The plans /specs show compliance in the following locations: 8. Supply - Air Temperature Reset Controls (Section 1318.2.5) O Not Regulated. The building plans or specifications do not call for multiple zone HVAC systems. ❑ Complies. Multiple zone HVAC systems include controls that automatically reset the supply -air temperatures in response to building Toads or outside air temperature. ❑ Exception. The building qualifies for an exception to the supply -air reset controls requirement. Applicable code exception is Section 1318.2.5, Exception 0 - ❑ -2 ❑ -3 Portions of the building that qualify: The plans/specs show compliance in the following locations: 9. Chilled and Hot Water Temperature Reset Controls (Section 1318.2.4) O Not Regulated. The building plans or specifications do not call for chilled or hot water systems with a design capacity exceeding 300,000 Btu /hr. ❑ Complies. Chilled and hot water systems include controls that automatically reset supply water temperatures by representative building loads or by outside air temperature. ❑ Exception. Section 1318.2.4, Exception 0 - 0 -2 Portions of the building that qualify: The plans /specs show compliance in the following locations: 10. Separate Air Distribution Systems (Section 1318.2.7) O Not Regulated. The building plans or specifications do not call for zones with special process temperature or humidity requirements. ❑ Complies. Separate air distribution systems serve zones with special process temperature or humidity requirements from those zones serving only comfort conditions, or supplementary control provisions are included so primary systems are specifically controlled for comfort purposes only. ❑ Exception. Section 1318.2.7, Exception ❑ - ❑ -2 Identify zones with special process requirements: The plans/specs show compliance in the following locations: 11. Zone Isolation Controls (Section 1318.2.6) O Not Regulated. Building plans or specifications do not call for HVAC systems serving multiple occupancies or floors with >240,000 Btu /hr cooling capacity, or >300,000 Btu /hr heating capacity. ❑ Complies. HVAC systems serving multiple occupancies or floors with >240,000 Btu/hr cooling capacity, or >300,000 Btu /hr heating capacity are equipped with isolation devices capable of automatically shutting off supply air to and from each isolated area. Each isolated area is controlled independently and satisfies temperature setback (Section 1317.4.2) and optimum start control requirements. Central fan system air volume is reduced through fan speed reduction. The plans/specs show compliance in the following locations: r. `o c.SLa .r , , ,S:,:F.: na %�,e �:..t- ?Y�%rd , e';d,. j ?1111 4- s.,.,., mu . April 2005 Compliance with OSSC, effective 01/01/05 Form 4b Project Name: Frye Electronics Page: COMPLEX HVAC SYSTEMS MS .... q c V ..t ? a r A : 3 � � 5;� »� _.. . • .,..: Y r bc .., ' F.x _... 4 t 4 'S .__... w t . ... +nor _.._ d 12. Humidity Controls (Section 1318.2.2) El No Moisture Added to Building. The building plans do not call for means to add moisture to maintain specific humidity levels. ❑ Complies. All new humidity control systems equipped with a humidistat when required. All humidifier preheating devices have an automatic value to shut off preheat when humidification is The plans /specs show compliance in f the following locations: 13. Hydronic System Controls (Section 1318.2.8) D No Hydronic System. The building plans or specifications do not call for a new hydronic system. ❑ Complies. The hydronic system complies as follows: 13.1 Variable Flow Controls (Section 1318.2.8.4) ❑ System does not have a 10 hp or greater motor ❑ Complies. System has controls capable of varying pump flow The plans /specs show compliance in the following locations: 13.2 Three -Pipe System (Section 1318.2.8.1) ❑ System does not have a common return system (a three -pipe system) for both hot water and chilled water. 13.3 Two -Pipe Changeover System (Section 1318.2.8.2) ❑ System is not a Two-Pipe Changeover System ❑ Complies. System is: a. Designed to allow a deadband between changeover from one mode to the other of at least 15 °F outside air temperature. b. Designed to operate and provided with controls that will allow operation in one mode for at least four hours before changing over to the other mode. c. Provided with reset controls that allow heating and cooling supply temperatures at the changeover point to be no more than 30 °F apart. The plans /specs show compliance in the following locations: 13.4 Hydronic (Water Loop) Heat Pump System (Section 1318.2.8.3) ❑ System is not a Hydronic (Water Loop) Heat Pump System ❑ Complies. Hydronic heat pumps connected to a common heat pump water loop with central devices for heat rejection (e.g., cooling tower) and heat addition (e.g., boiler) have the following: a. Controls installed capable of providing a heat pump water supply temperature deadband of at least 20 °F between initiation of heat rejection and heat addition by the central devices (e.g., tower and boiler). b. Closed -circuit tower (fluid cooler) has either an automatic valve installed to bypass all but a minimal flow of water around the tower (for freeze protection), or low- leakage positive closure dampers. c. Open - circuit tower installed directly in the heat pump loop has an automatic valve installed to bypass all heat pump water flow around the tower. Open - circuit towers used in conjunction with a separate heat exchanger to isolate the tower from the heat pump loop are controlled by shutting down the circulation pump on the cooling tower loop. F d. A two- position valve at each hydronic heat pump for hydronic systems �` having a total pump system power exceeding 10 hp. k -itt.A The lans /s cs show com liance in the followin plans/specs compliance 9 locations: 1 �.� r a . - wti :. a v* d i t a •: .,.�. ,.:�� &-w ., = >� ..�..,� a4;1 t1tr,1,(�t1�_a, 4 �. . �a, _ . . < -..i' .., �.: i ._. " ..;, :. �i9Sa, . . 4 -9 April 2005 LLmY6en� with 033C, ,rre 1i 01/01M3 • . 0 Worksheet 4e Project Name: Frye Electronics Page: PACKAGED TERMINAL A.C. - AIR COOLED Equipment (a) (b) (c) (d) (e) Proposed Code Enter the cooling capacity Minimum in column (c ). If capacity Cooling is less than 7,000 Btu/hr, Capacity EER EER use 7,000. If above Type of Equipment Equip. ID Model Designation (Btu/hr) (95 °F db) (95 °F db) 15,000, use 15,000. AC -1 581 -- 060115— 60,000 13.0 -0.3 Discussion of equipment ratings and equipment definitions on page 4-19. Units Installed in New Construction Replacement of Existing Units (installed prior to 10/01/03) ?' — OF t Required Indicate source of information Documentation ❑ ARI Unitary Directory, Section AC, page: ❑ ARI Applied Products directory, Section ULE, Page: p Product data (Attach data fumished by the equipment supplier, I.e., "cut sheets ") Code Calculate the code minimum EERs from the formulas below using the cooling capacity in column (c ). Required Enter the results I New Construction: EER © 95F Test Conditions = 12.5—(0.213x Cap/1000) Effficiencies Replacement Units : EER © 95F Test Conditions = 10.9—(0.213x Cap /1000) ,0. .�: �:;?' ....1`,;c;.Zrit-T A • ..;t'hr� ;', jkP i er5::x x .,1 ac Tk a'',f �r #. ._ _.. ..r. ,A 1.- r "-:,-; ..+ ! r ` 4. . ,_ , , ,... c. 4 -15 Q,...,A:,...— -Al. 000O - ff,..A:.,, 01/01/06 -