The URL can be used to link to this page

Plans `)FFICF COPY 'IFFICE COPY mic2020-OOFAizi r. /32t S UBMMI`'IT4L MicroMetl UPFLOW UNITS PART NUMBER: FORM NUMBER: 7845-2P Q Iv • DATE: 01/2010 .. COMPANY; \ xt;k` . a DRAWN BY: JD C0 JOB WEIGHT: N/A C- C. \'S 00 C 1 FEATURES V5\-05)`"� o * FACTORY ASSEMBLED LU ? * FULLY INSULATED < * GALVANIZED CONSTRUCTION "' • * MULTIPLE CONFIGURATIONS" * FREIGHT INCLUDED 3 0 m Io f MB ld-L_DFi A L2_ C` I QDB I .rBEL J 1 FAMILY PRODUCT ., - ACTUATOR GROUP NW:HONEYWELL L.___ - ----r - - BEL:BELIMO a BEL3:BELIAAO(FLOATING POINT) • FURNACE TYPE ! NA:NO ACTUATOR E UF:UPFLOW F1JRNACE •• r DP:DOWNFLOW FURNACE .-__. - CONTROLS 03 4 ' i I AK AIR HANDLER DESIGN DATA T ADS:ADJUSTABLE DRY BULB r A `-`I --- PDB:FIRED DRY BULB +- A:AICABINEE ENT:ENTHALPY 0 B:B CABINET NC :NO CONTROLS Q- U NIT# I C:C CABINET - D:D CABINET OUTSIDE AIR DAMPER CFM E:E CABINET _• • • .._. _- _ ... .. .__..1C:CoO p A:AaE X DAMPER CONFIGURATION i I B:B _ O ILLUSTRATION 1:B&CaD 1 00 • 2:B&AorE • O/A SIDE • 3:G&D Approved by: z 4:A&E Date: x ACTUATOR 5 ca D&A Openings and tlimensions may vary 8:C&A from contract.An order .4 CONTROLS i D&E constitutes acceptance of these variances THIS DOCUMENT IS THE PROPERTY OF MICROMETL CORPORATION AND IS GELIVEHED UPON THE EXPRESS CONDITION THAT THE CONI SSTS WILL NOT BE DISCLOSED OR USED WITHOUT MICROMETLS WRITTEN CONSENT. MANUFACTUER RESERVES THE RIGHT TO DISCONTINUE,OR CHANGE AT ANYTIME,SPECIFICATIONS&DESIGNS WITHOUT ANY NOTICE AND WIT HOOT INCURING OBLIGATIONS.COPYRIGHT MICROMETL CORPORATION 19e9.ALL RIGHTS RESERVED 09 MICROMETL CORPORATION'3035 N.SHADELAND AVE.,SUITE 300'INDIANAPOLIS,IN 48226'1.800-8823822"'MICROMETL WEST`905 SOUTHERN WAY'SPARKS,NV 89431.1-000-884-4662 F-: . 1 SUBMITTAL MicroMet! MIXING BOX FOR PART NUMBER: UPFLOW FURNACES MB-UF-* DATE: 01/2010 (page 2 of 2) SUBMITTED TO: - MMC PIN DAMPER WEIGHT A B C D AIRFLOW COMPANY: 14" DRAWN BY: JD MB-UF-A' 960 Ft/Min 55 lbs. 24 112" 13 1/4" or 10" I�120D CFM22" JOB NAME: - WEIGHT: SEE TABLE 1067 Ft/Min 16" MB-UF-B" @ 1600 CFM 60 Ibs. 241/2" 16 1/4" or 12" - 22" FEATURES 1100 Ft/Min 20" * FACTORY ASSEMBLED MB OF-C' 0 2200 CFM �`Ibs. 241/2" 19314" or 16" * FULLY INSULATED * GALVANIZED CONSTRUCTION 920 Ft/Min 22" * MULTIPLE CONFIGURATIONS MB-UF-D' 2300 CFM 701bs. 24 1/2" 231/2" or 20" 24" * FREIGHT INCLUDED 1120 Ft/Min 14" MB-OF-E' 1400 CFM 55Ibs. 22" 13" or 10" 22" 1200 Ft/Min 16" MB-UF-F' 1g00CFM 58Ibs. 22" 161/4" or 12" 22" 1250 FUMin 20" d MB OF-G' 250D CFM 63 lbs. 22" 19 3/4" or 16" 22" VERTICAL 1000Ft/Min 22" ro ORIENTATION MBUF-H• Oa2500CFM 681bs. 22" 231/2" or 20" 24" p EXAMPLE PART NUMBER: O N D MB UFLDSA-ADB BLANK USE FIELDT SIDESUPPL ED MOUNT A OFF A I N A "A'CABINET SIDE MOUNT APPLICATION E AP o I W 9 Q B R� 6" \ �, 18" N 1/2" TYP. ' Q g C TYP. x '!i ' D x �C' ',... 28.500 C` D DAMPER m SIZE A A -6 �, E co s) co ....„Alli 1141 A I- oi E C* A D B x E m R / A ONLY VERTICAL ORIENTATION B IS SHOWN PLEASE NOTE TOP, Z B �/ FURNACE{AS SHOWN)FRONT,AND RIGHT IWHEN 2 *THE "C" DIMENSION DEPENDS CHOSING MIXING BOX ORIENTATION. Y ON DAMPER CONFIGURATION ALL 3 MOUNTING OPTIONS THE SMALLEST POSSIBLE MAY NOT BE AVAILABLE ON -0 DIMENSION WILL BE USED. THE FURNACE OR AIR HANDLER. 0 TH IS DOCUMENT IS TH£PROPERTY OF MICROMETL CORPORATION AND IS DELIVERED UPON THE EXPRESS CONDITION THAT THE CONTENTS WILL NOT BE DISCLOSED ORUSED V) WITHOUT MICROMETL'S WRITTEN CONSENT.MANUFACTU£R RESERVES THE RIOM 1I DISSCOOpNTINUE.OR CHANGE AT ANYTIME.SPECIFICATIONS A DESIGNS WITHOUT ANY NOTICE AND WITHOUT INCURING 081IGATION5.COPYRIGHT MICROMETL CORPORATION t899.ALL RIGHTS RESERVED F MICROMETL CORPORATION'3035 N.SHADELAND AVE..SUITE 300'INDIANAPOLIS,IN 46226'1-800-662-4822"'MICROMETL WEST-905 SOUTHERN WAY•SPARKS,NV 89431'1-B00-8E144692 r SL�BMI'11'= L MicroMetl MIXING BOX EXAMPLES MB-UF-*1*-***-*** MB-UF-*2*_***:** MB-UF-k>*_**, *** DAMPER CONFIGURATION#1 DAMPER CONFIGURATION#2 DAMPER CONFIGURATION#3 iCi C A � :, .:4116.>"-.• � A .. � '''.. dA B1j' �\\• i , ,„,. 40.. ,.., Ci C ' L^ 11,10„, o rCLI CV h MB-UF * * **k *** MB_UF_*5*-**k *** MB-UF_*6* *** *** O' DAMPER CONFIGURATION#4 DAMPER CONFIGURATION#5 DAMPER CONFIGURATION#6 > a '' 47,11114 >01P* ' >- A /4B� 15 A B A BC 1iiir o / C 1-1 x CD ` x THIS DOCUMENT IS THE PROPERTY OF MIC ROMETL CORPORATION AND IS DELIVERED UPON THE EXPRESS CONDITION THAT THE CONTENTS WILL NOT BE DISCLOSED OR USED WITHOUT MIOROME TLS WRITTEN CONSENT. 7 MANUFACTUER R ES EAVES THE RIGHT TO DISCONTINUE,OR CHANGE AT ANYTIME.SPECIFICATIONS 8 DESIGNS WITHOUT ANY NOTICE AND WITHOUT INCURINO OBLIGATIONS. COPYRIGHT MICROMETL CORPORATION 1999.ALL RIGHTS RESERVED p co MICROMETL CORPORATION•3035 N.SHADELAND AVE.,SUITE 306•INDIANAPOLIS,IN 46226•1-800-662'4822 G•'MICROMETL WEST•S05 SOUTHERN WAY'SPARKS,NV 89431*1.860-884-4682 Air Conditioners Air RA13 Series Rjeem The new degree of comfort:" ‘ Rheem Classic® Series Air Conditioners `';1 RA13 Series Efficiencies up to 15 SEER/13 EER -� y Nominal Sizes 11/2 to 5 Ton [5.28 to 17.6 kWJ Cooling Capacities 17.3 to 60.5 kBTU [5.7 to 17.7 kW] orr cum `"' w- "Proper sizing and installation of equipment is cdticat to achieve optimal a mm" t � a performance.Split system air conditioners and heat pumps must be 3 j r: matched with appropriate coil components to meet Energy Star. t f :o-, Ask your Contractor for details or visit www.energystargov." • Composite base pan-dampens sound,captures louver panels, • Diagnostic service window with two-fastener opening- eliminates corrosion and reduces number of fasteners needed provides access to the high and low pressure. • Powder coat paint system-for a long lasting professional finish • External gauge port access-allows easy connection of • Scroll compressor-uses 70%fewer moving parts for higher "low-loss"gauge ports efficiency and increased reliability • Single-row condenser coil-makes unit lighter and allows • Modern cabinet aesthetics-increased curb appeal with visu- thorough coil cleaning to maintain"out of the box" ally appealing design performance • Curved louver panels-provide ultimate coil protection, • 35%fewer cabinet fasteners and fastener-free base-allow enhance cabinet strength,and increased cabinet rigidity for faster access to internal components and hassle-free • Optimized fan orifice-optimizes airflow and reduces unit panel removal sound • Service trays-hold fasteners or caps during service calls • Rust resistant screws-confirmed through 1500-hour salt • QR code-provides technical information on demand for spray testing faster service calls • PlusOneTM Expanded Valve Space-3"-4"-5"service valve • Fan motor harness with extra long wires allows unit top to be space-provides a minimum working area of 27-square removed without disconnecting fan wire. inches for easier access • PlusOneTM Triple Service Access-15"wide,industry lead- ing corner service access-makes repairs easier and faster. The two fastener removable corner allows optimal access to internal unit components. Individual louver panels come out once fastener is removed,for faster coil cleaning and easier cabinet reassembly INTEGRATED HOME COMFORT FORM NO.A11-221 REV.8 =DD Air Table of Contents RA13 Series TABLE OF CONTENTS Standard Feature 3 Available SKUs 3 Features&Benefits 4-5 Model Number Identification 6-7 General Data/Electrical Data 8 Accessories 9 Weighted Sound Power 9 Unit Dimensions 10 Clearances 11 Wiring Diagrams 12 Application Guidelines 12 Refrigerant Line Size Information 13-16 Performance Data 17 Guide Specifications 18 Limited Warranty 19 • 2 =, INTEGRATED HOME COMFORT v..v Air Standard Feature/Available SKUs -0 RA13 Series • Standard Feature Table STANDARD FEATURES Feature 18 24 30 36 42 48 60 R-410a Refrigerant V V V V V V V Maximum SEER 14.5 14.0 15.0 15.0 14.0 13.5 13.5 Maximum EER 12.5 12.0 13.0 13.0 12.0 11.5 11.5 Scroll Compressor V V V V V V V Field Installed Filter Drier V V V V V V V Front Seating Service Valves V V V V V V V Internal Pressure Relief Valve V V V V V V V Internal Thermal Overload V V V V V V V Long Line capability V V V V V V V Low Ambient capability with Kit V V V V ✓ V V 3-4-5 Expanded Valve Space V V V V V V V Composite Basepan V V V V V V V 2 Screw Control Box Access V V V V V V V 15'Access to Internal Components V V V V V V V Quick release louver panel design V V V V V V V No fasteners to remove along bottom V V V V V V V Optimized Venturi Airflow V V V V V V V Single row condenser coil V V V V V V V Powder coated paint V V ✓ ✓ ✓ ✓ ✓ Rust resistant screws V V V V V V V QR code V V ✓ ✓ ✓ ✓ ✓ External gauge ports V V V V V V V Service trays V V V V V V V ✓=Standard Available SKUs Available Models Description RA1318AJ1 NA Classic°Series 1 1/2 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1318AJ1NB Classic°Series 1 1/2 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1324BJ1 NA Classic°Series 2 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1324BJ1NB Classic°Series 2 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1330AJ1NA Classic°Series 21/2 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1330AJ1NB Classic°Series 21/2 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1336AC1 NB Classic°Series 3 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1336AD1 NB Classic°Series 3 ton 13 SEER Single-Stage Air Conditioner-460/3/60 RA1336AJ1 NA Classic°Series 3 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1336AJ1 NB Classic°Series 3 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1342AC1 NB Classic°Series 31/2 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1342AD1 NB Classic°Series 31/2 ton 13 SEER Single-Stage Air Conditioner-460/3/60 RA1342AJ1 NA Classic°Series 31/2 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1342AJ1 NB Classic°Series 31/2 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1348AC1 NB Classic°Series 4 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1348AD1 N8 Classic°Series 4 ton 13 SEER Single-Stage Air Conditioner-460/3/60 RA1348AJ1NA Classic°Series 4 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1348AJ1 NB Classic°Series 4 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1360AC1 NB Classic°Series 5 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1360AD1 NB Classic°Series 5 ton 13 SEER Single-Stage Air Conditioner-460/3/60 RA1360AJ1 NA Classic°Series 5 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 RA1360AJ1 NB Classic°Series 5 ton 13 SEER Single-Stage Air Conditioner-208/230/1/60 4 INTEGRATED HOME COMFORT V Air Features&Benefits . I RA13 Series Introduction to RA13 Air Conditioner The RA13 is our 13 SEER air conditioner and is part of the Rheem air conditioner product line that extends from 13 to 20 SEER.This highly featured and reliable air conditioner is ® ---7- designed for years of reliable,efficient operation when matched with Rheem indoor aluminum evaporator coils and furnaces or `. ; air handler units with aluminum evaporators. Our unique composite base(I)reduces sound emission,elimi- ' 13 nates rattles,significantly reduces fasteners,eliminates corro- If in the rare event,greater access is needed to internal compo- sion and has integrated brass compressor attachment inserts nents,such as the compressor,the entire corner of the unit can (t3).Furthermore it has incorporated into the design,water be removed along with the top cover assembly to have unprece- management features,means for hand placement(0)for unit dented access to interior of the unit(ta). Extra wire length is maneuvering,screw trays(®)and inserts for lifting off unit incorporated into each outdoor fan and compressor so top pad.(❑s ) cover and control panel can be positioned next to the unit.With minimal effort the plug can be removed from the compressor and the outdoor fan wires can be removed from the capacitor to CD allow even more uncluttered access to the interior of the unit(E D. Outdoor coil heights range from as short as 22"to 28",aiding access to the compressor.Disassembly to this degree and com- plete reassembly only takes a first time service technician less ❑ Ei p than 10 minutes.(ts) a is is Service Valves(©)are rigidly mounted in the composite base with 3" between suction and discharge valves,4"clearance below service valves and a minimum of 5"above the service valves,creating industry leading installation ease.The minimum 27 square-inches around the service valves allows ample room to remove service valve schrader prior to brazing,plenty of clear- El is ance for easy brazing of the suction and discharge lines to ser- vice valve outlets,easy access and hookup of low loss refriger- All units utilize strong formed louver panels which provide indus- ant gauges(0),and access to the service valve caps for try leading coil protection. Louver removal for coil cleaning is opening.For applications with long-line lengths up to 250 feet accomplished by removing one screw and lifting the panel out of total equivalent length,up to 200 feet condenser above evapora- the composite base pan.(17)All RA13 units utilize single row tor,or up to 80 feet evaporator above condenser,the long-line coils(+s)making cleaning easy and complete,restoring the instructions in the installation manual should be followed. performance of the air conditioner back to out of the box perfor- mance levels year after year mow., a+, � a io-r�5 1000. CD Controls are accessed from the comer of the unit by removing only two fasteners from the control access cover,revealing the The outdoor fan motor has sleeve bearings and is inherently industry's largest 15" wide and 14"tall control area(©).With all protected.The motor is totally enclosed for maximum protection this room in the control area the high voltage electrical whip(Q) from weather,dust and corrosion.Access to the outdoor fan is can easily be inserted through the right size opening in the bot- made by removing four fasteners from the fan grille.The outdoor tom of the control area.Routing it leads directly to contractor fan can be removed from the fan grille by removing 4 fasteners lugs for connection.The low voltage control wires(ED are easily in the rare case outdoor fan motor fails. connected to units low voltage wiring.If contactor or capacitor (f t)needs to be replaced there is more than adequate space to Each cabinet has optimized composite(+s)fan orifice assuring make the repair.Furthermore,if high pressure and low pressure efficient and quiet airflow. model was not purchased but is desired to be installed in the field,the service window(+z)can be removed by removing two screws,to access the high and low side schrader fittings for easy 41r 19 field installation.The entire corner can be removed providing ultimate access to install the high and low pressure switch.(13) —$01111111111111111111111 - 1114% wit 4 INTEGRATED HOME COMFORT —e w i Air Features&Benefits Z1 RA13 Series The entire cabinet has powder post paint(0)achieving 1000 Optional Accessories hour salt spray rating,allowing the cabinet to retain its aesthetics (Refer to accessory chart for model#) throughout its life. Compressor Crankcase Heater Protects against refrigerant migration that can occur during low ambient operation Compressor Sound Cover • Reinforced vinyl compressor cover containing a 1'/z inch thick batt of fiberglass insulation •Open edges are sealed with a one-inch wide hook and loop fastening tape Scroll compressors with standard internal pressure relief and Compressor Hard Start Kit internal thermal overload are used on all capacities assuring •Single-phase units are equipped with a PSC compressor longevity of high efficient and quiet operation for the life of the motor,this type of motor normally does not need a potential product. relay and start capacitor Each unit is shipped with filter drier for field installation and will •Kit may be required to increase the compressor starting trap any moisture or dirt that could contaminate the refrigerant torque,in conditions such as low voltage system. Low Ambient Kit •Air conditioners operate satisfactorily in the cooling mode down to 55°F outdoor air temperature without any additional ® controls •This Kit can be added in the field enabling unit to operate ¢, properly down to 0°in the cooling mode •Crankcase heater and freezestat should be installed on com- pressors equipped with a low ambient kit All cabinets have industryleading structural strength due to the 3"/6"/72" composite pasta pan(0),interlocking corner post(®),formed •Gray high density polyethylene feet are available to raise unit curved louver panels(0)and drawn top cover(®)making it off of mounting surface away from moisture the most durable cabinet on the market today. Low Pressure Each RA13 capacity has undergone rigorous psychometric test- •Can be added in field enabling the unit to shut off compressor ing to assure performance ratings of capacity,SEER and EER on loss of charge per AHRI Standard 210/240 rating conditions.Also NOTE: Unit can be purchased with high and low pressure each unit bears the UL mark and each unit is certified o©'r installed at factory.(Refer to SKU list) to UL 1995 safety standards. Isla High Pressure Each unit has undergone specific strain and modal testing to •Can be added in field enabling unit to shut off compressor if assure tubing(©)is outside the units natural frequency and that unit loses outdoor fan operation. the suction and discharge lines connected to the compressor withstand any starting,steady state operation or shut down NOTE:Unit can be purchased with high and low pressure forces imposed by the compressor. installed at factory.(Refer to SKU list) All units have been sound tested in sound chamber to AHRI 270 Decorative Top rating conditions,and A-weighted Sound Power Level tables •Can be installed on fan grille produced,assuring units have acceptable noise qualities(see page 9).Each unit has been ran in cooling operation at 95°F and 82°F and sound ratings for the RA13 range from as low as 73 dBA to 79 dBA. All units have been ship tested to assure units meet stringent "over the road"shipping conditions. As manufactured all units in the RA13 family have cooling capa- bility to 55°F.Addition of low ambient control will allow the unit to operate down to 0°F.Factory testing is performed on each unit.All component parts meet well defined specification and continually go through receiving inspections. Each component installed on a unit is scanned,assuring correct component uti- lization for a given unit capacity and voltage.All condenser coils are leak tested with pressurization test to 550#'s and once installed and assembled,each units'complete refrigerant system is helium leak tested.All units are fully charged from the factory for up to 15 feet of piping.All units are factory run tested. The RA13 has a 10-year conditional compressor and parts war- ranty(registration required). INTEGRATED HOME �,� O COMFORT Air Conditioners* , dila R A 13 24 A J 1 N A , n Brand Product SEER Capacity Major Series* Voltage Type Controls Minor Series** Option a $ Category BTU/HR Code W Rheem A-Air Conditioners 13- 13 SEER 18-18,000 [5.28 kW] A-1st Design J-1 ph, 208-230/60 1 -Single-stage N - Non-Communicating A- 1st Design N/A 3 24-24,000 [7,03 kW] B-2nd Design C-3ph,208-230/60 B -2nd Design $ ]o 30-30,000 [8.79 kW] D -3ph,460/60 s 36-36,000 [10.55 kW] a 42-42,000 [12.31 kW] 48-48,000 [14.07 kW] 60-60,000 [17.58 kW] "See page 3 for available SKU's. 4 €€€ Heat Pumps (For Reference)-` R P 14 24 A J 1 N A * z - - c Brand Product SEER Capacity Major Series* Voltage Type Controls Minor Series"" Option a Category BTU/HR Code m Rheem P-Heat Pump 13-13 SEER 18-18,000 [5.28 kW] A-1st Design J-1 ph,208-230/60 1 -Single-stage C-Communicating A-1st Design N/A O 14-14 SEER 24-24,000 [7.03 kW] C-3ph,208-230/60 2-Two-stage N-Non-Communicating o 15 15 SEER 30-30,000 [8.79 kW] D-3ph,460/60 V-Inverter m 17-17SEER 36-36,000[10.55 kW] P-Piston o 20-20 SEER 42-42,000[12.31 kW] o 48-48,000[14.07 kW] 0 60-60,000[17.58 kW] ml Furnace Coils (For Reference)** R C F 24 17 S T A M C A * Brand Product Type Capacity Width Efficiency Metering Major Orientation Casing Minor Series** Option Category BTU/HR Device Series' Code Rheem C-Evap Coil F-Furn Coil 24-24,000 [7.03 kW] 14-14' S-Standard Eff. T-TXV A-1st Design M-Multipoise C-Cased A-1st Design N/A H-Air-Handler 36-36,000[10.55 kW] 17-17.5" M-Mid Eff. E-EEV V-Vertical only/ U-Uncased Coil 48-48,000[14.07 kW] 21 -21" H-High Eff. P-Piston convertible 60-60,000[17.58 kW] 24-24.5" H-Ded. Horizontal only **Model number ID's are for reference only.See available SKU page of applicable spec sheet for table of available SKU's for a specific model. [ ]Designates Metric Conversions 90%+ AFUE Gas Furnaces (For Reference)** R 96 V A 70 2 3 17 M S A Brand Series Motor Major Rev Input Stages Air Flow Cabinet Configuration Nox Minor Rev BTU/HR Width Rheem 90-90 AFUE V-Variable speed A-1st Design 040- 42,000[12.31 kW] 1 -Single-stage 3-up to 3 ton 14-14" M-Multi X-Low Nox A-1st Design 92-92 AFUE T-Constant 060- 56,000[16.41 kW] 2 -Two-stage 5-3 1/2 up to 5 ton 17-17.5" S-Standard 95-95 AFUE Torque 070- 70,000[20.51 kW] M-Modulating 21-21" 96.96 AFUE (X-13) 085- 84,000[24.62 kW] 24-24 5, 97-97 AFUE P-PSC 100- 98,000[28.72 kW] 115-112,000[32.82 kW] 80% AFUE Gas Furnaces (For Reference)** R 80 2 V A 075 3 17 M S A Brand Series Stages Motor Major Rev Input Air Flow Cabinet Configuration Nox Minor Rev BTU/HR Width Rheem 80-80+AFUE 1 -Single-stage V-Variable speed A-1st Design 050- 50,000[15 kW] 3-up to 3 ton 14-14' M-Multi X-Low Nox A-1st Design doe 2 -Two-stage T-Constant Torque(X-13) 075- 75,000[22 kW] 4-21/2 to 4 ton 17-17.5" D -Down S-Standard P-PSC premium 100-100,000[29 kW] 5-31/2 up to 5 ton 21 -21" Z -Down& €€€ S-PSC standard 125-125,000[37 kW] 24-24.5" zero clearance 150.150,000[44 kW] down flow z H m Air Handlers (For Reference)** m R H 1 T 36 17 S T A N A A 000 " 0 x a Brand Product Stages of Motor Type Capacity Width Coil Size Metering Major Controls Voltage Minor Factory Heat Option m Category Airflow BTU/HR Device Series* Series** Cap Code 0 Rheem H-Air 1-Single-Stage V-Variable 24-24,000 [7.03 kW] 14-14' S•Standard T-TEV A-1st Design C-Communicating A-1 ph,115/60 A-1st Design 00-no 'TBD o Handler 2-Two-Stage Speed 36-36,000[10.55 kW] 17-17.5" Eff. E-EEV N-Non-comm J-1 ph,208-240/60 factory heat y M-Modulating T-Constant 48-48,000[14.07 kW] 21 -21' M-Mid Eff. P-Piston D-3ph,480/60 with option Torque 60-60,000[17.58 kW] 24-24.5" H-High Eff. code P-PSC **Model number ID's are for reference only.See available SKU page of applicable spec sheet for table of available SKU's for a specific model. [ ]Designates Metric Conversions I cJ? L. o 4 m N Z ® I W Q m it N J i O SU O 0 Compressor Type Scroll Outdoor Coil Net face area-Outer Coil 5.9 9.1 9.1 12.1 14.2 14.8 18.8 Net face area-Inner Coil - - - - - - - Tube diameter-in. 3/8 3/8 3/8 3/8 3/8 3/8 3/8 Number of rows , 1 1 1 1 1 1 1 Fins per inch 22 18 22 22 22 22 22 Outdoor Fan Diameter-in. 20 20 20 20 20 24 26 Number of blades 2 2 3 3 2 3 2 Motor hp 1/8 1/8 1/4 1/4 1/8 1/6 1/5 CFM 2040 2325 2795 2900 2465 4145 3870 RPM 1075 1075 1075 1075 1075 850 820 watts 144 137 189 186 176 279 235 Shipping weight-lbs. 127 142 163 164 195 202 235 Operating weight-lbs. 120 135 156 157 188 195 228 Electrical Data Line Voltage Data(Volts-Phase-Hz) 208/230-1-60 208/230-1-60 208/230-1-60 208/230-1-60 208/230-1-60 208/230-1-60 208/230-1-60 Maximum overcurrent protection(amps), 20 25 30 35 40 50 60 Minimum circuit ampacity3 13 15 18 23 24 29 35 Compressor Rated load amps 9.7 11.2 12.8 16.7 17.9 21.8 26.4 Locked rotor amps 48 60.8 64 83.9 112 117 134 Condenser Fan Motor Full load amps 0.7 0.7 1.3 1.3 0.7 1 1.2 Locked rotor amps 1.3 1.3 2.5 2.6 1.3 2.2 2.0 Line Voltage Data (Volts-Phase-Hz) - - - 208/230-3-60 208/230-3-60 208/230-3-60 208/230-3-60 Maximum overcurrent protection(amps), - - - 20 30 30 35 Minimum circuit ampacity3 - - - 15 18 19 22 Compressor Rated load amps - - - 10.4 13.2 13.7 16 Locked rotor amps - - - 73 88 83.1 110 Condenser Fan Motor Full load amps - - 1.3 0.7 1 1.3 Locked rotor amps - 2.6 1.3 2.2 2.0 Line Voltage Data (Volts-Phase-Hz) - - - 480-3-60 480-3-60 480-3-60 480-3-50 Maximum overcurrent protection(amps), - - - 15 15 15 15 Minimum circuit ampacity3 - - - 8 8 9 11 Compressor Rated load amps - - - 5.8 6.0 6.2 7.8 Locked rotor amps - - - 38 44 41 52 Condenser Fan Motor Full load amps - - - .6 .3 .6 .6 Locked rotor amps - - - 2.5 .9 1.6 1.1 1Refrigerant charge sufficient for 15 ft.length of refrigerant lines.For longer line set requirements see the installation instructions for information about set length and additional refrigerant charge required. 2HACR type circuit breaker of fuse. 3Refer to National Electrical Code manual to determine wire,fuse and disconnect size requirements. �' INTEGRATED HOME COMFORT �r Air General Data/Electrical Data �i i RA13 Series Physical Data PHYSICAL DATA Model No. RA1318 RA1324 RA1330 RA1336 RA1342 RA1348 RA1360 Nominal Tonnage 1.5 2.0 2.5 3.0 3.5 4.0 5.0 Valve Connections Liquid Line 0.D.—in. 3/8 3/8 3/8 I 3/8 1 3/8 3/8 3/8 Suction Line 0.D.—in. 3/4 3/4 3/4 3/4 7/8 7/8 7/8 Refrigerant(R410A)furnished oz., 54 60 72 86 105 106 148 So Air Accessories/Weighted Sound Power -D RA13 Series Accessories Model No. RA1318 RA1324 RA1330 RA1336 RA1342 RA1348 RA1360 Compressor crankcase heater* 44-17402-44 44-17402-44 44-17402-44 44-17402-44 44-17402-45 44-17402-45 44-17402-45 Low ambient control RXAD-A08 RXAD-A08 RXAD-A08 RXAD-A08 RXAD-A08 RXAD-A08 RXAD-A08 Compressor sound cover 68-23427-26 68-23427-26 68-23427-26 68-23427-26 68-23427-25 68-23427-25 68-23427-25 Compressor hard start kit SK-A1 SK-Al SK-Al SK-Al SK-Al SK-A1 SK-Al Compressor time delay RXMO-B01 RXMD-B01 RXMD-B01 RXMD-B01 RXMD-B01 RXMD-B01 RXMD-B01 Low pressure control RXAC-A07 RXAC-A07 RXAC-A07 RXAC-A07 RXAC-A07 RXAC-A07 RXAC-A07 High pressure control RXAB-A07 RXAB-A07 RXAB-A07 RXAB-A07 RXAB-A07 RXAB-A07 RXAB-A07 Liquid Line Solenoid Solenoid Valve 200RD2T3TVLC 200RD2T3TVLC 200RD2T3TVLC 200RD2T3TVLC 200RD2T3TVLC 200RD3T3TVLC 200RD3T3TVLC (24 VAC,50/60 Hz) Solenoid Coil 61-AMG24V 61-AMG24V 61-AMG24V 61-AMG24V 61-AMG24V 61-AMG24V 61-AMG24V Liquid Line Solenoid Solenoid Valve 200R02T3TVLG 200RD2T3TVLC 200R02T3TVLC 200RD2T3TVLC 200RD2T3TVLC 200R03T3TVLC 200RD3T3TVLC (120/240 VAC,50/60 Hz) Solenoid Coil 61-AMG120240V 61-AMG1201240V 61-AMG120/240V 61-AMG120/240V 61-AMG120/240V 61-AMG120/240V 61-AMG120/240V Top Cap w/1abe1 91-101123-21 91-101123-21 91-101123-21 91-101123-21 91-101123-21 91-101123-21 91-101123-21 *Crankcase Heater recommended with Low Ambient Kit. Weighted Sound Power Level (dBA) RA13 Sound Power Level Full Octave Linear Sound Power Level dB-Center Frequency-Hz Model Sound Power LevelldB(A)1 125 250 500 1000 2000 4000 8000 RA1318 72.0 51.7 58.3 61.5 61.1 57.0 54.0 47.0 RA1324 75.0 55.4 60.3 64.7 66.4 62.6 58.0 52.4 RA1330 78.0 51.4 67.1 67.5 68.2 65.5 59.8 53.6 RA1336 77.0 55.1 66.1 66.9 68.2 64.6 60.7 55.6 RA1342 73.0 48.9 56.1 62.9 62.2 61.1 55.2 50.2 RA1348 76.0 51.4 59.6 65.2 65.9 64.3 58.5 53.7 RA1360 78.0 51.7 60.9 66.9 70.4 63.5 57.4 53.8 NOTE:Tested in accordance with AHRI Standard 270-08(not listed in AHRI) INTEGRATED HOME COMFORT 9 'f1 Air Unit Dimensions •-0 RA13 Series Unit Dimensions OPERATING SHIPPING MODEL H(Height) L(Length) W(Width) H(Height) L(Length) W(Width) NO. INCHES mm INCHES mm INCHES mm INCHES mm INCHES mm INCHES mm RA1318 27 685 29.75 755 29.75 755 28.75 730 32.38 822 32.38 822 RA1324 25 635 29.75 755 29.75 755 26.75 679 32.38 822 32.38 822 RA1330 25 635 29.75 755 29.75 755 26.75 679 32.38 822 32.38 822 RA1336 27 685 29.75 755 29.75 755 28.75 730 32.38 822 32.38 822 RA1342 31 787 29.75 755 29.75 755 32.75 831 32.38 822 32.38 822 RA1348 27 685 33.75 857 33.75 857 28.75 730 36.38 924 36.38 924 RA1360 31 787 35.75 908 35.75 908 32.75 831 38.38 974 38.38 974 ALLOW 6d'[1524 mm] OF CLEARANCE A R -a------------- w 5 04-( -1%-101- n Lo .tt_- ,.�, E Ill)�)liii. H '' r s. � !)t 1 l f ,, �f-- _ _ • , �- �~ SERVICE PANELS/ INLET CONNECTIONS/HIGH&LOW VOLTAGE ACCESS ALLOW 24"[610 mm]OF CLEARANCE AIR INLET LOUVERS ALLOW 6"[152 mm]MIN.OF CLEARANCE ALL SIDES 12"[305 mm] RECOMMENDED [ ]Designates Metric Conversions ST-A1226-02-00 10 INTEGRATED HOME COMFORT CLEARANCES WALL WALL 6" (152.4) 24" (609.6) Service 24" 12" 12" (609.6) (304.8) (304.8) Service r- 6" (152.4) 6" iss (152.4) tti 12" z (304.8) H m n m m 0 WALL m 0 24" 24" 24" o (609.6) (609.6) (609.6) Service Service Service 18" 24" 24" (457.2) (609.6) (609.6) 24" recommended 24" recommended 9" minimum 9" minimum 4 NOTE: NUMBERS IN () = mm IMPORTANT:When installing multiple units in an alcove,roof well or partially enclosed area,ensure there is adequate ventillaton to prevent re-circulation of discharge air. �l0 D ( m ST-A1225-01-00 tFa. 'm o N w Air Wiring Diagram/Application Guidelines RA13 Series Control Wiring FIGURE 2 *IF MAXIMUM OUTLET TEMPERATURE RISE IS DESIRED,IT IS RECOMMENDED THAT CONTROL WIRING FOR GAS OR OIL FURNACE WI(WIBK)AND W2(WBL)BE JUMPERED TOGETHER. TYPICAL THERMOSTAT TYPICAL THERMOSTAT FOR TYPICAL GAS OR OIL HEAT SUBBASE FOR TYPICAL ELECTRIC HEAT SUBBASE BR -BROWN WIRE YL -YELLOW WIRE BR-BROWN WIRE X -WIRE CONNECTION R-RED WIRE YL-YELLOW WIRE WBK-WHITE WIRE WITH BLACK STRIPE G/BK-GREEN WIRE WITH BLACK STRIPE PU-PURPLE WIRE(NOT USED) X-WIRE CONNECTION TYPICAL GAS OR TYPICAL ELECTRIC HEAT OIL FURNACE LOW VOLTAGE JUNCTION BOX * t`n X WBL TYPICAL CONDENSING --O TYPICAL CONDENSING X R- X WBK X GUBK G YL x \ O YL x x YL BR x © BR X X BR PU Application Guidelines 1. Intended for outdoor installation with free air inlet and outlet.Outdoor fan external static pressure available is less than 0.01 -in.wc. 2.Minimum outdoor operation air temperature for cooling mode without low-ambient operation accessory is 55°F(12.8°C). 3. Maximum outdoor operating air temperature is 125°F(51.7°C). 4.For reliable operation,unit should be level in all horizontal planes. 5.Use only copper wire for electric connections at unit.Aluminum and clad aluminum are not acceptable for the type of connector provided. 6.Do not apply capillary tube indoor coils to these units. 7.Factory-supplied filter drier must be installed. 12 INTEGRATED HOME COMFORT Refrigerant Line Size Information 13-16 SEER Single-Stage Air-Conditioners Apply Long Line Equivalent Length(Feet) Allowable Allowable Guidelines it Linear Line Unit Size Liquid Line Suction Line Length B Those Show 4 Shown Belo ww (Feet) <25 26-50 51-75 76-100 101-125 126-150 151-175 176-200 201-225 226-250 Size Size (-)A13 AB Maximum Vertical Rise(Outdoor Unit Below Indoor Unit)*/Capacity Multiplier 1/4" 5/8' N/A 25/1.00 50/0.99 62/0.98 43/0.98 24/0.97 5/0.97 NR NR" NR NR 5/16" 5/8" N/A 25/1.00 50/0.99 75/0.98 98/0.98 93/0.97 88/0.97 83/0.96 78/0.96 73/0.95 68/0.94 1.5 Ton 3/8" 5/8" 178 25/1.00 50/0.99 75/0.98 100/0.98 100/0.97 100/0.97 100/0,96 100/0.96 100/0.95 100/0.94 * TEE NOTE 3 1/4" 3/4"** N/A 25/1.00 50/1.00 62/0.99 43/0.99 24/0.99 5/0.99 NR NR NR NR 5/16" 3/4"* N/A 25/1.00 50/1.00 75/0.99 98/0.99 93/0.99 88/0.99 83/0.99 78/0.98 73/0.98 68/0.98 3/8" 3/4"** 178 25/1.00 50/1.00 75/1.00 100/0.99 100/0.99 100/0.99 100/0.99 100/0 98 100/0.98 100/0.98 1/4'' 5/8" N/A 25/0.99 50/0.98 21/0.97 "' ;: NR NR NR NR NR 5/16' 5/8" 213 25/0.99 50/0.98 75/0.97 87/0.96 77/0.95 69/0.94 61/0.93 53/0.92 45/0.91 37;0.90 d1b 2 Ton 3/8" 5/8" 142 25/0.99 50/0.98 75/0.97 100/0.96 100/0.95 100/0.94 98/0.93 95/0.92 92/0.91 89;0.90 1/4" 3/4" N/A 25/1.00 50/1.00 21/0.99 NR NR NR NR NR NR NR €€€ 5/16" 3/4" 213 25/1.00 50/1.00 75/0.99 87/0.99 77/0.98 69/0,98 61 i 0.98 53,0,97 45/0.97 37/0.96 3/8" 3/4° 142 25/1.00 50/1.00 75/0.99 100/0.99 100/0,98 100/0.98 98/0.98 95/0,97 93/0,97 90/0.96 E. 5/16" 5/8' N/A 25/0.99 50/0.98 75/0.96 70/0.94 59/0.93 48/0.91 36/0.90 NR NR NR m O 3/8" 5/8° 142 25/0.99 50/0.98 75/0.96 100/0.94 98/0.93 94/0.91 90/0.90 NR NR NR 9 2.5 Ton m 5/16" 3/4" 213 25/1.00 50/0.99 75/0.99 70/0.98 59/0.98 48/0.97 36/0,96 25/0.96 13/0.95 NR m 3/8" 3/4' 142 25/1.00 50/0.99 75/0.99 100/0.98 98/0.98 94/0.97 90/0.96 86/0.96 82/0.95 78/0.95 g. 5/16" 5/8" N/A 25/0.99 50/0.97 66/0.94 49/0.92 32/0.90 NR` ' NR NR NR NR O 3/8" 5/8' 108 25/0.99 50/0.97 75/0.94 95/0.92 89/0.90 NR NR NR NR NR i 5/16" 3/4' N/A 25/1.00 50/0.99 66/0.98 49/0.98 32/0.97 15/0.96 NR NR NR NR xr p 3Ton 3/8" 3/4' 108 25/1.00 50/0.99 75/0.98 95/0.98 89/0.97 84/0.96 78/0,95 72/0.94 67/0.93 61 /0.93 1/2" 3/4' 54 25/1.00 50/0.99 75/0.98 100/0.98 100/0.97 100/0.96 100/0.95 100/0.94 100/0.93 100/0,93 5/16" 7/8' N/A 25/1.00 50/1.00 66/1.00 49/0.99 32/0.99 15/0.99 NR NR NR NR 3/8" 7/8" 108 25/1.00 50/1.00 75/1.00 95/0.99 89/0.99 84/0.99 78/0.98 72/0.98 67/0.98 61/0.97 1/2" 7/8' 54 25/1.00 50/1.00 75/1.00 100/0.99 100/0.99 100/0.99 100/0.98 100/0.98 100/0.98 100/0.97 3/8" 3/4" 150 25/0.99 50/0.98 75/0.97 88/0.96 80/0.95 72/0.94 65/0.92 57/0.91 49/0.90 dit, 3.5 Ton 1/2 3/4" 75 25/0.99 50/0.98 75/0.97 100/0.96 100/0.95 100/0.94 100/0.92 100/0.91 100/0.90 , ,;; y 3/8" 7/8" 150 25/1.00 50/1.00 75/0.99 88/0.99 80/0.99 72/0.98 65/0.97 57/0.97 49/0.96 42/0.96 1/2" 7/8" 75 25/1.00 50/1.00 75/0.99 100/0.99 100/0.99 100/0.98 100/0.97 100/0.97 100/0.96 100/0.96 a x NOTES: w 8. 1)Do not exceed 200 ft linear line length. g) m i'n 2) *Do not exceed 100 ft vertical separation if outdoor unit is above Indoor unit. 3)**3/4"suction line should only be used for 1.5 ton systems if outdoor unit is below or at same level as indoor to assure proper oil return. 5 4)Always use the smallest liquid line allowable to minimize refrigerant charge. (D 5)Applications shaded in light gray indicate capacity multipliers between 0.90 and 0.96 which are not recommended,but are allowed. o 6)Applications shaded in dark gray are not recommended due to excessive liquid or suction pressure drop. ID 5 0 3 m 0 Refrigerant Line Size Information (con't.) dl, a 13-16 SEER Single-Stage Air-Conditioners n Apply Long Line Equivalent Length(Feet) Guidelines it Linear Line MI a Allowable Allowable Length Exceeds Those Unit Size Liquid Line Suction Line Shown Below (Feet) <25 26-50 51-75 76-100 101-125 126-150 151-175 176-200 201-225 226-250 Co m Size Size m m (-)A13 A/B Maximum Vertical Rise(Outdoor Unit Below Indoor Unit)*/Capacity Multiplier P. 3 m 3/8" 3/4' 148 25/0.99 50/0.98 75/0.96 77/0.95 67/0.93 57/0.92 46/0.91 NR NR NR up N 1/2" 3/4" 74 25/0.99 50/0.98 75/0.96 100/0.95 100/0.93 100/0.92 100/0.91 NR NR NRCD 4 Ton •3/8" 7/8" 148 25/1.00 50/0.99 75/0.99 77/0.98 67/0.97 57/0.97 46/0.96 ! 36/0.96 26/0.95 15/0.95 o 1/2'' 7/8" 74 25/1.00 50/0.99 75/0.99 100/0.98 100/0.97 100/0.97 100/0.96 i 100/0.96 99/0.95 97/0.95 S 3/8' 3/4" 78 25/0.99 50/0.97 75/0.94 61/0.92 46/0.90 NR NR NR NR NR 1/2" 3/4" 39 25/0.99 50/0.97 75/0.94 100/0.92 100/0.90 NR NR NR NR NR 3/8" 7/8" 78 25/1.00 50/0.99 75/0.98 61/0.97 46/0.96 32/0.95 18/0.94 NR NR NR 5 Ton 1/2'' 7/8" 39 25/1.00 50/0.99 75/0.98 100/0.97 100/0.96 100/0.95 97/0.94 95/0.94 92/0.93 89/0.92 cll.) 3/8" 1-1/8" 78 25/1.01 50/1.01 75/1.00 61 /1.00 46/0.99 32/0.99 18/0.99 NR NR NR (((((( 1/2'' 1-1/8" 39 25/1.01 50/1.01 75/1.00 100/1.00 100/0.99 100/0.99 97/0.99 95/0.99 92/0.99 89/0.98 C(( NOTES: 1)Do not exceed 200 tt linear line length. z 2) *Do not exceed 100 ft vertical separation if outdoor unit is above indoor unit. m 3)_*3/4.suction line should only be used for 1.5 ton systems if outdoor unit is below or at same level as indoor to assure proper oil return. c1 4)Always use the smallest liquid line allowable to minimize refrigerant charge. > 5)Applications shaded in light gray indicate capacity multipliers between 0.90 and 0.96 which are not recommended,but are allowed. rn 6)Applications shaded in dark gray are not recommended due to excessive liquid or suction pressure drop. = 0 m 0 0 71 o. O a Refrigerant Line Size Information . 13-16 SEER Single-Stage Air-Conditioners Apply Long Line Equivalent Length(Meters) Allowable Allowable Guidelines if Linear Line Liquid Line Suction Line Length Exceeds Those Unit Size Size Size Shown Below (Meters) '8 8-15 16-23 24-30 31-38 39-46 47-53 54-61 62-69 70-76 min[in.] min tin.] (-)A13 A/B Maximum Vertical Rise(Outdoor Unit Below Indoor Unit)*/Capacity Multiplier 6.35 [1/4] 15.88[5/8] N/A - 8/1.00 15/0.99 19/0.98 13/0.98 7/0.97 2/0.97 NR NR NR NR 5.3 kW 7.94[5/16] 15.88[5/8] N/A 8/1.00 15/0.99 23/0.98 30/0.98 28/0.97 27/0.97 25/0 96 24/0.96 22/0.95 21 /0.94 [1.5 Ton] 9.53 [3/8] 15.88[5/8] 54 8/1.00 15/0.99 23/0.98 30/0.98 30/0.97 30/0.97 30/0.96 30/0.96 30/0.95 30/0.94 **SEE 6.35 [1/4] 19.05[3/4]** N/A 8/1.00 15/1.00 19/0.99 13/0.99 7/0.99 2/0.99 NA NR *..,A5 4,.= NOTE 3 7.94[5/16] 19.05[3/4]** N/A 8/1.00 15/1.00 23/0.99 30/0.99 28/0.99 27/0.99 25/0.99 24/0.98 22/0.98 21/0.98 9.53 [3/8] 19.05[3/4]*" 54 8/1.00 15/1.00 23/0.99 30/0.99 30/0.99 30/0.99 30/0,99 30/0.98 30/0.98 30/0.98 6.35 [1/4] 15.88[5/8] N/A 8/0.99 15/0.98 6/0.97 *, m NR NR`' 7.94 15/16] 15.88[5/8] 65 8/0.99 15/0.98 23/0.97 27/0.96 23/0.95 21/0.94 19/0,93 16/0.92 14/0.91 11 /0.90 flit, 7.0kW 9.53 [3/8] 15.88[5/8] 43 8/0.99 15/0.98 23/0.97 30/096 30/095 30/0.94 30/0.93 29/0.92 28/0.91 27/0.90 [2 Ton] 6.35 [1/4] 19.05[3/4] N/A 8/1.00 15/1.00 6/0.99 ,. .., ,} ..., ,„A ,,. ;: ,,,. R NR €22 7.94[5/16] 19.05[3/4] 65 8/1.00 15/1.00 23/0.99 27/0.99 23/0.98 21 /0.98 19/0.98 16/0.97 14/0.97 11/0.96 9.53 [3/8] 19.05[3/4] 43 8/1.00 15/1.00 23/0.99 30/0.99 30/0.98 30/0.98 30/0.98 29/0.97 28/0 97 27/0 96 m 7.94[5/16] 15.88[5/8] N/A 8/0.99 15/0.98 23/0.96 21/0.94 18/0.93 15/0.91 11/0.90 NR NR xl o 8.8 kW 9.53 [3/8] 15.88[5/8] 43 8/0.99 15/0.98 23/0.96 30/0.94 30/0.93 29/0.91 27/0.90 NR NR NR y [2.5 Ton] 7.94[5/16] 19.05[3/4] 65 8/1.00 15/0.99 23/0.99 21/0.98 18/0.98 15/0.97 11/0.96 8/0.96 4/0.95 NA m o= 9.53 [3/8] 19.05[3/4] 43 8/1.00 15/0.99 23/0.99 30/0.98 30/0.98 29/0.97 27/0.96 26/0.96 25/0.95 24/0.95 K 7.94[5/16] 15.88[5/8] N/A 8/0.99 15/0.97 20/0.94 15/0.92 10/0.90 NR NR NR NR NR m 0 9.53 [3/8] 15.88[5/8] 33 8/0.99 15/0.97 23/0.94 29/0.92 27/0.90 NR NR NR NR NR x 7.94[5/16] 19.05[3/4] N/A 8/1.00 15/0.99 20/0.98 15/0.98 10/0.97 5/0.96 NR NR NR NR A 10.6 kW 9.53 [3/8] 19.05[3/4] 33 8/1.00 15/0.99 23/0.98 29/0.98 27/0.97 26/0.96 24/0.95 22/0.94 20/0.93 19/0,93 [3 Ton] 12.7 [1/2] 19.05[3/4] 17 8/1.00 15/0.99 23/0.98 30/0.98 30/0.97 30/0.96 30/0.95 30/0.94 30/0.93 30/0.93 7.94[5/16] 22.23[7/8] N/A 8/1.00 15/1.00 20/1.00 15/0.99 10/0.99 5/0.99 _ NR NR NR NA. 9.53 [3/8] 22,23[7/8] 33 8/1.00 15/1.00 23/1.00 29/0.99 27/0.99 26/0.99 24/0.98 22/0.98 20/0.98 19/0.97 1/2 [12.7] 22.23[7/8] 17 8/1.00 15/1.00 23/1.00 30/0.99 30/0.99 30/0.99 30/0.98 30/0.98 30/0.98 30/0.97 9.53 [3/8] 19.05[3/4] 46 8/0.99 15/0.98 23/0.97 27/0.96 24/0.95 22/0.94 20/0.92 17/0.91 15/0.90 rik.< eilti 14, 12.3 kW 12.7 [1/2] 19.05[3/4] 23 8/0.99 15/0.98 23/0.97 30/0.96 30/0.95 30/0.94 30/0.92 30/0.91 30/0.90 i..w .4 ,, D [3.5 Ton] 9.53 [3/8] 22.23[7/8] 46 8/1.00 15/1.00 23/0.99 27/0.99 24/0.99 22/0.98 20/0.97 17/0.97 15/0.96 13/0.96 12.7 [1/2] 22.23[7/8] 23 8/1.00 15/1.00 23/0.99 30/0.99 30/0.99 30/0.98 30/0.97 30/0.97 30/0.96 30/0.96 xi m NOTES: w m 1)Do not exceed 61 meters linear line length. r 1 2)*Do not exceed 30 meters vertical separation if outdoor unit is above indoor unit. 3)*19.05 mm[3/4 in.]vapor line should only be used for 1.5 ton systems if outdoor unit is below or at same level as indoor unit to assure proper oil return. r 4)Always use the smallest liquid line allowable to minimize refrigerant charge. 'm 5)Applications shaded in light gray indicate capacity multipliers between 0.90 and 0.96 which are not recommended,but are allowed. u, 6)Applications shaded in dark gray are not recommended due to excessive liquid or suction pressure drop. (13 5 w 0 Refrigerant Line Size Information (con't.) deb c 13-16 SEER Single-Stage Air-Conditioners . a Apply Long Line Equivalent Length(Meters) Allowable Allowable Guidelines it Linear Line y xi Liquid Line Suction Line Length Exceeds Those 'w Unit Size Size Size Shown Below (Meters) <8 8-15 16-23 24-30 31-38 39-46 47-53 54-61 62-69 70-76 mm[In.] mm[in.] m (-)A13 NB Maximum Vertical Rise(Outdoor Unit Below Indoor Unit)*/Capacity Multiplier S 3 9.53[3/8] 19.05[3/4] 45 8/0.99 15/0.98 23/0.96 24/0.95 20/0.93 17/0.92 14/0.91 'NA NR NR H 14.1 kW 12.7[1/2] 19.05[3/4] 23 8/0.99 15/0.98 23/0.96 30/0.95 30/0.93 30/0.92 30/0.91 NR NR NR m (4 Ton] 9.53[3/8] 22.23[7/8] 45 8/1.00 15/0.99 23/0.99 24/0.98 20/0.97 17/0.97 14/0.96 11 /0.96 8/0.95 5/0.95 3 12.7[1/2] 22.23[7/8] 23 8/1.00 15/0.99 23/0.99 30/0.98 30/0.97 30/0.97 30/0.96 30/0.96 30/0.95 30/0.95 ?: o` 9.53[3/8] 19.05[3/4] 24 8/0.99 15/0.97 23/0.94 19/0.92 14/0.90 '• NR NR NR NR NR 12.7[1/2] 19.05[3/4] 12 8/0.99 15/0.97 23/0.94 30/0.92 30/0.90 NR NR NR NR NR 17.6 kW 9.53 13/8] 22.23[7/8] 24 8/1.00 15/0.99 23/0.98 19/0.97 14/0.96 10/0.95 5/0.94 NR NR NR [5 Ton] 12.7[1/2] 22.23[7/8] 12 8/1.00 15/0.99 23/0.98 30/0.97 30/0.96 30/0.95 30/0.94 29/0.94 28/0.93 , 27/0.92 d�b 9.53[3/8] 28.58[1-1/8] 24 8/1.01 15/1.01 23/1.00 19/1.00 14/0.99 10/0.99 5/0.99 NR NR I NR 6 12.7[1/2] 28.58[1-1/8] 12 8/1.01 15/1.01 23/1.00 30/1.00 30/0.99 30/0.99 30/0.99 29/0.99 28/0.99 27/0,98 €€€ NOTES: 1)Do not exceed 61 meters linear line length. 2)*Do not exceed 30 meters vertical separation it outdoor unit is above indoor unit. y 3)*19.05 mm[3/4 in.]vapor line should only be used for 1.5 ton systems it outdoor unit is below or at same level as indoor unit to assure proper oil return. is 4)Always use the smallest liquid line allowable to minimize refrigerant charge. 5)Applications shaded in light gray indicate capacity multipliers between 0.90 and 0.96 which are not recommended,but are allowed. m 6)Applications shaded in dark gray are not recommended due to excessive liquid or suction pressure drop. 0 x 0 m m 0 0 m 0 Performance Data Air RA13 Series • Performance Data 6 AHRI Standard Conditions- Cooling Designated Tested Combination(DTC) Outdoor Total Capacity Net Sensible Net Latent Indoor CFM Unit Indoor Coil BTU/II[kW] BTUAI[kW] BTUIN[kW] SEER ER [Us] RA1318 RCF2417STA 17600 [5.2] 12600 [3.7] 5000[1.5] 13.00 11.00 600[283.2] RA1324 RCF2417STA 23400 [6.9] 17500 [5.1] 7000[2.1] 13.00 11.00 800[377.6] RA1330 RCF3617STA 28400 [8.3] 21000 [6.2] 7400[2.2] 13.00 11.00 1000[471.9] RA1336 RCF3617STA 34600[10.1] 23400 [6.9] 11200[3.3] 13.00 11.00 1025[483.7] RA1342 RCF4821 STA 40500[11.9] 28700 [8.4] 11800[3.5] 13.00 11.00 1400[660.7] RA1348 RCF4821 STA 47500[13.9] 34000[10.0] 13500[4.0] 13.00 11.00 1500[707.9] RA1360 RCF6024STA 56000[16.4] 39600[11.6] 16400[4.8] 13.00 11.00 1600[755.1] Note:Additional ratings and system match ups can be accessed on MyRheem.com at:https://my.rheem.com/staticlprivate/ahriresidential.html Additional ratings and system match ups and downloadable ratings certificates can be accessed from the AHRI website:www.ahridirectory.org [ ]Designates Metric Conversions INTEGRATED HOME COMFORT 17 fie+ Air Guide Specifications RA13 Series GUIDE SPECIFICATIONS General AIR-COOLED,SPLIT-SYSTEM AIR CONDITIONER System Description RA13 Outdoor-mounted, air-cooled, split-system air conditioner com- 1-1/2 TO 5 NOMINAL TONS posite base pan unit suitable for ground or rooftop installation. Fans Unit consists of a hermetic compressor, an air-cooled coil, pro- — Condenser fan will be direct-drive propeller type, discharging peller-type condenser fan, suction and legend line service valve, air upward. and a control box.Unit will discharge supply air upward as shown — Condenser fan motors will be totally enclosed, 1-phase type on contract drawings.Unit will be used in a refrigeration circuit to with class B insulation and permanently lubricated bearings. match up to a coil unit. Shafts will be corrosion resistant. Quality Assurance — Fan blades will be statically and dynamically balanced. — Unit will be rated in accordance with the latest edition of AHRI — Condenser fan openings will be equipped with coated steel Standard 210. wire safety guards. — Unit will be certified for capacity and efficiency, and listed in Compressor the latest AHRI directory. — Compressor will be hermetically sealed. — Unit construction will comply with latest edition of ANSI/ASHRAE and with NEC. — Compressor will be mounted on rubber vibration isolators. — Unit will be constructed in accordance with UL standards and Condenser Coil will carry the UL label of approval. Unit will have c-UL-us — Condenser coil will be air cooled. approval. — Coil will be constructed of aluminum fins mechanically bonded — Unit cabinet will be capable of withstanding ASTM B117 1000- to copper tubes. hr salt spray test. Refrigeration Components —Air-cooled condenser coils will be leak tested at 150 psig and — Refrigeration circuit components will include liquid-line shutoff pressure tested at 550 psig. valve with sweat connections, vapor-line shutoff valve with — Unit constructed in IS09001 approved facility. sweat connections,system charge of R-410A refrigerant, and Delivery,Storage,and Handling compressor oil. — Unit will be shipped as single package only and is stored and — Unit will be equipped with filter drier for R-410A refrigerant for handled per unit manufacturer's recommendations. field installation. Warranty(for inclusionOperating Characteristics byspecifying pecifying engineer) — U.S.and Canada only. —The capacity of the unit will meet or exceed Btuh at a suction temperature of °F/°C. The power consumption Products at full load will not exceed kW. Equipment — Combination of the unit and the evaporator or fan coil unit will have a total net cooling capacity of_ Btuh or greater at Factory assembled, single piece, air-cooled air conditioner unit. conditions of CFM entering air temperature at the evap- Contained within the unit enclosure is all factory wiring, piping, orator at °F/°C wet bulb and °F/°C dry bulb, and controls,compressor,refrigerant charge R-410A,and special fea- air entering the unit at °Fre. tures required prior to field start-up. —The system will have a SEER of Btuh/watt or greater at Unit Cabinet DOE conditions. — Unit cabinet will be constructed of galvanized steel, bonder- Electrical Requirements ized,and coated with a powder coat paint. — Nominal unit electrical characteristics will be v, single —All units constructed with louver coil protection and corner post. phase,60 hz.The unit will be capable of satisfactory operation Louver can be removed by removing one fastener per louver within voltage limits of v to v. panel' — Nominal unit electrical characteristics will be v, three phase,60 hz.The unit will be capable of satisfactory operation within voltage limits of v to v. — Unit electrical power will be single point connection. — Control circuit will be 24v. Special Features — Refer to section of this literature identifying accessories and descriptions for specific features and available enhancements. INTEGRATED HOME COMFORT Limited Warranty Air RA13 Series GENERAL TERMS OF LIMITED WARRANTY* Rheem will furnish a replacement for any part of this product Conditional Parts which fails in normal use and service within the applicable (Registration Required) Ten(10)Years period stated, in accordance with the terms of the limited warranty. *For complete details of the Limited and Conditional Warranties,including applicable terms and conditions,contact your local contractor or the Manufacturer for a copy of the product warranty certificate. INTEGRATED HOME COMFORT 19 • Reem The new degree of comfort In hcwing with its poky of continuous progress and product improvement,Rheem reserves the right to make changes without notice. Rheem Heating,Cooling&Water Heating • 5600 Old Greenwood Road Rheem Canada Ltd./Ltee • 125 Edgeware Road,Unit 1 Fort Smith,Arkansas 72908 • www.rheem.com Brampton,Ontario • LEY OP5 INTEGRATED HOME COMFORT PRINTED IN U.S.A.6/19 OG FORM NO.A11-221 REV.8 Air Conditioners PPPP • Air RAWL Series ee 14lm The new degree of comfort:" Rheem Commercial High-Efficiency Condensing Units RAWL High-Efficiency Series Nominal Sizes 6.5 &7.5 Ton [22.86 & 26.38 kW] C®U5 A CEPT141ERA usnig INTEGRATED AIR&WATER FORM NO.A11-194 REV 4 Air Table of Contents —0 RAWL Series TABLE OF CONTENTS Features&Benefits 3-5 Model Number Identification 6 Physical Data/Electrical Data 7 Condensing Unit Accessories/Selection Procedure 8 Gross Capacity and Power Tables 9 Unit Dimensions 10 Clearances 11 AHRI Ratings 12 Performance Data 13-15 Piping and Installation 16-17 Guide Specifications 18 Limited Warranty 19 2 INTEGRATED AIR&WATER —CIfl Air Features&Benefits BAWL Series Standard Features • New composite ham pan-dampens sound,captures louver • Service trays-hold fasteners or caps during service calls panels,eliminates corrosion and reduces number of fasteners • OR code-provides technical information on demand for needed faster service calls • Powder coat paint system-for a long lasting professional finish • Fan motor harness with extra long wires allows unit top to be • Scroll compressor-uses 70%fewer moving parts for higher removed without disconnecting fan wire. efficiency and increased reliability • Low ambient control-a pressure sensitive fan cycling control • Modem cabinet aesthetics-increased curb appeal with visu- allows operation of units down to 0°F[-18°C]. ally appealing design • High pressure control-manual reset control deactivates sys- • Curved louver panels-provide ultimate coil protection, tern if abnormally high pressure occurs. enhance cabinet strength,and increased cabinet rigidity • Low pressure control-automatic reset control deactivates • Optimized fan orifice-optimizes airflow and reduces unit system if abnormally low pressure or refrigerant loss occurs. sound • Service valves-standard on liquid and suction lines. • Rust resistant screws-confirmed through 1500-hour salt • Condenser fan motors-direct drive,single-phase spray testing permanently lubricated ECM motors with inherent overload • PlusOnerm Expanded Valve Space-3"-4"-5" service valve protection. space-provides a minimum working area of 27-square • Transformer-50VA step-down incheseP type,from Line to 24 volts. for easier access • PlusOneTM Triple Service Access-15'wide,industry leading • Contactor-the contactor is an electrical switch which oper- ates the compressor and condenser fans. Its 24 volt coil is corner service access-makes repairs easier and faster. The activated through the High Pressure Control and Low Pres- two fastener removable corner allows optimal access to inter- sure Control on a call for cooling. nal unit components. Individual louver panels come out once fastener is removed,for faster coil cleaning and easier cabi- • Equipment ground-lug for field connection of ground wire. net reassembly • Testing-all units are run tested at the factory prior to ship- ment.• Diagnostic service window with two-fastener opening- Units are shipped with a holding charge of nitrogen. provides access to the high and low pressure. • Compressor time delay control-compressor will remain off • External gauge port access-allows easy connection of for five minutes after power or thermostat interruption,allowing "low-loss"gauge ports system pressures to equalize.(Model No.RXMD-B01) • 35%fewer cabinet fasteners and fastener-free base-allow • Filter/Drier-a liquid line filter drier is shipped with each unit for faster access to internal components and hassle-free for field installation. panel removal INTEGRATED AIR &WATER 3 Features&Benefits ''. RAWL Series Introduction to RAWL- Air Conditioner Our unique composite base( +]])reduces sound emission,elimi- If in the rare event,greater access is needed to internal compo- nates rattles,significantly reduces fasteners,eliminates corm- nests,such as the compressor,the entire corner of the unit can sion and has integrated brass compressor attachment inserts removed along with the top cover assembly to have unprece dented access to interior of the unit( (0).Furthermore it has incorporated into the design,water +a).Extra wire length is management features, means for hand placement(0)for unit incorporated into each outdoor fan and compressor so top maneuvering,screw trays(®)and inserts for lifting off unit minimaln and control panel can e removed ofr next to the unit.With pad.(®) effort the plug can be from the compressor and the outdoor fan wires can be removed from the capacitor to allow even more uncluttered access to the interior of the unit(ED. 0 Pr— -. 11111 Outdoor coil heights range from as short as 27'to 48",aiding access to the compressor. Disassembly to this degree and corn- plete reassembly only takes a first time service technician less than 10 minutes.(is ® © 16 D o ID ® o Service Valves(0)are rigidly mounted in the composite base with 3" between suction and discharge valves,4'clearance below service valves and a minimum of 5"above the service valves,creating industry leading installation ease.The minimum is is 27 square-inches around the service valves allows ample room to remove service valve schrader prior to brazing,plenty of clear- All units utilize strong formed louver panels which provide Indus- ance for easy brazing of the suction and discharge lines to ser- try leading coil protection.Louver removal for coil cleaning is vice valve outlets,easy access and hookup of low loss refriger- accomplished by removing one screw and lifting the panel out of ant gauges(0),and access to the service valve caps for the composite base pan.(+7)All RAWL units utilize single row opening. For applications with long-line lengths up to 250 feet coils(+s)making cleaning easy and complete,restoring the total equivalent length, up to 200 feet condenser above evapora- performance of the air conditioner back to out of the box perfor- tor,or up to 80 feet evaporator above condenser,the long-line mance levels year after year. instructions in the installation manual should be followed. tt, t� ..eF , Controls are accessed from the corner of the unit by removing The outdoor fan motor has sleeve bearings and is inherently only two fasteners from the control access cover,revealing the protected.The motor is totally enclosed for maximum protection industry's largest 15'wide and 14"tall control area(©).With all from weather,dust and corrosion.Access to the outdoor fan is this room in the control area the high voltage electrical whip( s]) made by removing four fasteners from the fan grille.The outdoor can easily be inserted through the right size opening in the bot- fan can be removed from the fan grille by removing 4 fasteners torn of the control area. Routing it leads directly to contractor in the rare case outdoor fan motor fails. lugs for connection.The low voltage control wires CD are easily Each cabinet has optimized composite([s)fan orifice assuring connected to units low voltage wiring.If contactor or capacitor efficient and quiet airflow. (0)needs to be replaced there is more than adequate space to make the repair.Furthermore,if high pressure and low pressure model was not purchased but is desired to be installed in the E field,the service window(E2)can be removed by removing two screws,to access the high and low side schrader fittings for easy field installation.The entire corner can be removed providing ultimate access to install the high and low pressure switch.(+a) I. '* -; ,. ,t +a 1 w INTEGRATED AIR 8 WATER Features&Benefits Air "0 RAWL Series The entire cabinet has powder post paint(®)achieving 1000 All units have been sound tested in sound chamber to AHRI 270 hour salt spray rating,allowing the cabinet to retain its aesthetics rating conditions,and A-weighted Sound Power Level tables throughout its life. produced,assuring units have acceptable noise qualities(sec page 8).Each unit has been ran in cooling operation at 95°F and m 82°F and sound ratings for the RAWL range from as low as 70.7 dBA to 76.6 dBA. © All units have been ship tested to assure units meet stringent l, "over the road"shipping conditions. 0, Factory testing is performed on each unit.All component parts ® meet well defined specification and continually go through receiving inspections. Each component installed on a unit is scanned,assuring correct component utilization for a given unit Scroll compressors with standard internal pressure relief and capacity and voltage.All condenser coils are leak tested with internal thermal overload are used on all capacities assuring pressurization test to 550#'s and once installed and assembled, longevity of high efficient and quiet operation for the life of the each units'complete refrigerant system is helium leak tested.All product. units are factory run tested. Each unit is shipped with filter drier for field installation and will Optional Accessories trap any moisture or dirt that could contaminate the refrigerant (Refer to accessory chart for model#) system. Compressor Crankcase Heater Protects against refrigerant migration that can occur during low ambient operation Compressor Sound Cover • Reinforced vinyl compressor cover containing a 11/2 inch thick batt of fiberglass insulation •Open edges are sealed with a one-inch wide hook and loop fastening tape All cabinets have industry leading structural strength due to the 3"/6"/12" composite base pan(2i),interlocking corner post(®),formed •Gray high density polyethylene feet are available to raise unit curved louver panels(aa❑)and drawn top cover(2a)making it off of mounting surface away from moisture the most durable cabinet on the market today. Decorative Top Each RAWL capacity has undergone rigorous psychometric •Can be installed on fan grille testing to assure performance ratings of capacity, IEER per AHRI Standard 210/240 rating conditions.Also each unit bears the UL mark and each unit is certified to 'Gs us UL 1995 safety standards. u� Each unit has undergone specific strain and modal testing to assure tubing(®)is outside the units natural frequency and that the suction and discharge lines connected to the compressor withstand any starting,steady state operation or shut down forces imposed by the compressor. INTEGRATED AIR 8 WATER 5 Air Model Number Identification -o • RAWL Series MODEL IDENTIFICATION TR A W L- 079 C A Z R=RHEEM 1 T Z=SCROLL COMPRESSOR CONDENSING UNIT I DESIGN VARIATION A=STANDARD TYPE W=COMMERCIAL ELECTRICAL DESIGNATION C=208-230-3-60 DESIGN SERIES D=460-3-60 NOMINAL TONNAGE 079=6.5 TONS[22.86 kW] [ ]Designates Metric Conversions RAWL =7.5 TONS[26.38 kW] 6 v INTEGRATED AIR &WATER Arc I Physical Data/Electrical Data • 'V RAWLSeries Physical Data (RAWL-) Model No. 079 091 Condensing Unit: Operating Weight(Ibs)[kg] 245[111.1] 307[139.2] Shipping Weight(Ibs)[kg] 252[114.3] 313[141.9] Compressor: Quantity 1 1 Type Scroll Scroll RPM 3500 3500 Condenser Fans: Quantity 1 1 CFM[Us] 5700[2690] 5700[2690] Diameter(in.)[mm] 26[660] 26[660] Motor Horsepower(ea.)[W] 1/2[373] 1/2[373] Type ECM ECM RPM 975 975 Condenser Coil: Quantity 1 1 Rows 1 2 Fins per Inch 22 22 Square Feet[m2] 28.38[2.64] 32.44[3.01] Fins/Tubes Aluminum/Copper Aluminum I Copper 3/8[10] 3/8[10] Electrical Data (RAWL-) Model No. 079CA2 079DAZ 091CAZ 091DAZ Compressor Motor: Electrical Characteristics 208/230-3-60 460-3-60 208/230-3-60 460-3-60 Operating Current: Rated Load Amps 25 11.8 27.9 13.6 Locked Rotor Amps 149 83 164 100 Condenser Fan Motors: Volts&Phase 208/230-1 460-1 208/230-1 460-1 Full Load Amps(each) 5.3 2.2 5.3 2.2 System Characteristics: Unit FLA 27.7 15.9 30.3 17.5 Mlnmum Circuit Ampacity 34 19 37 21 Max.Fuse Size or HACK 50/40 25/25 60/45 30/25 Circuit Breaker Ampacity Disconnect Size 60 30 65 35 NOTE:N.E.C.,C.E.C.and local codes take precedence over suggested wire and fuse size. [ ]Designates Metric Conversions -- = INTEGRATED AIR&WATER 7 Air Condensing Unit Accessories/Selection Procedure RAWL Series CONDENSING UNIT ACCESSORIES ACCESSORY DESCRIPTION MODEL NUMBER SIZES USED ON Anti-Short Cycle Timer Kit RXAT-A01 RAWL-079,091 Sight Glass RXAG-A048 RAWL-079,091 Liquid Line Solenoid Valve* RXAV-CD078 RAWL-079,091 °May be used as isolation valve only.Do not use as a pump-down solenoid. Refer to system wiring diagram. SELECTION PROCEDURE- MATCHED SYSTEMS Example 1: Determine the Net System Performance of Condensing Unit RAWL-091 with RHGL-090 at 3360 CFM [1586 Us]©.30" [.07 kPa]external static pressure, 80°F[27°C] DB/67°F[19°C]WB entering indoor air and 95°F[35°C] DB outdoor ambient. From Performance Data-Condensing Unit RAWL-091 with Air Handler RHGL-090Z: Total Cap. (gross)= 92.4 x 1000 =92,400 BTUH [27.07 kW] Sens.Cap. (gross)= 67.2 x 1000 =67,200 BTUH[19.69 kW] Power(gross)= 7.1 x 1000 = 7,100 WATTS From Commercial Air Handler,Wet Coil Airflow Performance Data: Power= 1,056 WATTS = 1,056 x 3.412=3,603 BTUH[1.06 kW] Therefore,the Net Performance is: Total Cap.(Net)= 92,400-3,603 =88,797 BTUH[26.02 kW] Sens.Cap(Net)= 67,200-3,603 =63,597 BTUH[18.63 kW] Power(Net)= 7,100+1,056=8,156 WATTS EER= 88,797-8,156= 10.89 BTUH [3.16 w/w]WATT Example 2: Determine the Sensible Net Capacity at 75°F[27°C] DB entering indoor air with the other conditions from Example 1 being the same. From Performance Data-Condensing Unit RAWL-091 with Air Handler RHGL-090 Sens.Cap(Net)=63,597 BTUH [18.63 kW] (from Example 1) Adjust Capacity for temperature other than 80°F[27°C]entering air: Adjustment:[1.1 x 2,725 x(1-.09)x(75-80)]=-13,638 BTUH[3.99 kW] Therefore, Sensible Capacity(Net)at 75°F[24°C]entering air is: 63,597-13,638=49,959 BTUH[14.64 kW](Sens.) Example 3: Determine Net System Capacity Performance with 150 feet[45.7 m]equivalent length of 13/e° [34.9 mm]O.D.vapor line, with other conditions in example 1 being the same. From piping chart, Vapor Line System Capacity Loss, in this booklet: Capacity Loss=1.3% per 100[30.5m]feet of line The condensing unit Performance Data includes 25 feet[7.6 m]of recommended vapor line;therefore,calculate the System performance with 125 feet[38.1 m]of additional line: Total Cap. (gross)=92,400-[(.013 x 125_ 100)x 92,400] =90,898 BTUH [26.63 kW] Sens.Cap(gross)=67,200-[(.013 x 125-100)x 67,200] =66,108 BTUH [19.37 kW] Thus,the Net Performance is: Total Cap.(Net)= 90,898-3,603=87,295 BTUH[25.58 kW] Sens.Cap.(Net)= 66,108-3,603=62,505 BTUH[18.31 kW] [ ]Designates Metric Conversions 8 INTEGRATED AIR& WATER Gross Capacity and Power Tables Air RAWL Series CONDENSING UNIT-GROSS CAPACITY AND POWER RAWL-079 °F 1°C] SATURATED EVAPORATOR TEMPERATURE OUTDOOR 40[4] 45[7] 50[10] AMBIENT TEMPERATURE MBH[kW] KW MBH[kW] KW MBH[kW] KW 75[24] 86.1 [25.2] 4.9 93.9[27.5] 5.0 104.6[30.7] 4.3 80[27] 83.6[24.5] 5.1 91.2[26.7] 5.2 102.5[30.0] 4.5 85[29] 81.2[23.8] 5.4 88.6[26.0] 5.4 96.4[28.3] 5.5 90[32] 78.7[23.1] 5.6 85.9[25.2] 5.7 93.6[27.4] 5.8 95[35] 76.2[22.3] 5.9 83.2[24.4] 6.0 90.7[26.6] 6.0 100[38] 73.6[21.6] 6.2 80.5[23.6] 6.2 87.7[25.7] 6.3 105[41] 70.7[20.7] 6.5 77.7[22.8] 6.5 84.4[24.7] 6.6 110[43] 68.0[19.9] 6.8 74.5[21.8] 6.9 81.4[23.8] 7.0 115[46] 61.4[18.0] 9.6 69.5[20.4] 9.5 76.8[22.5] 9.3 RAWL-091 °F 1°C] SATURATED EVAPORATOR TEMPERATURE OUTDOOR 40[4] 45[7] 50[10 AMBIENT ] TEMPERATURE MBH[kW] KW MBH[kW] KW MBH[kW] KW 75[24] 103.4[30.3] 6.0 112.1 [32.8] 6.1 121.3[35.6] 6.3 80[27] 100.7[29.5] 6.3 109.2[32.0] 6.4 118.3[34.7] 6.6 85[29] 97.9[28.7] 6.6 106.2[31.1] 6.7 115.1 [33.7] 6.9 90[32] 95.0[27.9] 6.9 103.2[30.3] 7.0 111.9[32.8] 7.2 95[35] 92.1 [27.0] 7.2 100.2[29.4] 7.3 108.5[31.8] 7.6 100[38] 89.2[26.1] 7.6 96.9[28.4] 7.7 104.9[30.7] 7.9 105[41] 86.0[25.2] 7.9 93.2[27.3] 8.1 101.3[29.7] 8.3 110[43] 82.8[24.3] 8.3 89.8[26.3] 8.5 97.6[28.6] 8.7 115[46] 79.9[23.4] 8.6 88.4[25.9] 8.8 95.5[28.0] 9.0 KW -Condensing Unit Power(Compressor+Fan) MBH-Gross Capacity X 1000 BTUH NOTES:1. All values at approximately 20°F[11.1°C]subcooling 2. Data includes 25 feet[7.62 m]of recommended vapor and liquid lines [ ]Designates Metric Conversions ...AA., INTEGRATED AIR&WATER 9 2D Air Unit Dimensions -r RAWL Series Unit Dimensions (-)AWL -079 -091 Height"H"Inches[mm] 45 [1143] 51 [1295] Length"L"Inches[mm] 35.75 [908] 35.75 [908] Width"W"Inches[mm] 35.75 [908] 35.75 [908] ALLOW 60"[1524 mm] OF CLEARANCE s AR A ii�s�(htr. �. e ---- SERVICE PANELS/ INLET CONNECTIONS/HIGH&LOW VOLTAGE ACCESS ALLOW 24"[610 mm]OF CLEARANCE - AIR INLET LOUVERS ALLOW 6"[152 mm]MIN.OF CLEARANCE ALL SIDES 12"[305 mm]RECOMMENDED [ ]Designates Metric Conversions ST-Al 226-02-00 6.5 Ton [22.86 kW], 7.5 Ton [26.38 kW] Corner Weights (Lbs.) [kg] TOTAL WEIGHT CORNER WEIGHTS,LBS.[kg] UNIT MODEL LBS[kg] A B C D RAWL-079 245 71 54 84 36 RAWL-091 313 91 69 107 46 10 ,D0 H INTEGRATED AIR&WATER CLEARANCES WALL WALL 6" (152.4) 24" (609.6) Service 24" (609.6) r 12" 12" Service (304.8) (304.8) r- 6" (152.4) 6" d�b (152.4) €€€ 12" (304.8) Z -, m L) rn WALL 24" 24" 24" m (609.6) (609.6) (609.6) Service Service Service 18" 24" 24" (457.2) (609.6) (609.6) 24" recommended 24" recommended 6" minimum 6" minimum 4 NOTE: NUMBERS IN () = mm n • IMPORTANT When installing multiple units in an alcove,root well or partially enclosed area,ensure there is adequate ventillation to prevent re-circulation of discharge air. a n ST-A1225-01-00 m r. N N I .moo Air AHRI Ratings -0i RAWL Series Performance Data @ AHRI Standard Conditions Model Numbers 80°F[26.5°C1 DB 67°F 119.5°C1 WB Indoor Air 95°F[35 C]DB Outdoor Air Sound Rated Indoor Outdoor Unit Indoor Coil And/Or Total Capacity Net Sensible Net Latent Rating CFM[L/s1 RAWL- Air Handler BTU/H[kW] BTU/H[kW1 BTU/H[kW] EER IEER 079CAZ RHGL-090Z ® 77,000[22.5] 56,700[16.6] 20,300[5.95] 11.50 12.90 8.6 2575[1215] 079DAZ RHGL-090Z 77,000[22.5] 56,700[16.6] 20,300[5.95] 11.50 12.90 8.6 2575[1215] 091CAZ RHGL-090Z O 90,000[26.4] 64,400[18.9] 25,600[7.501 11.50 12.90 8.6 2725[1286] RHGL-120Z 92,000[26.9] 65,500[19.2] 26,500[7.70] 11.60 13.00 8.6 2800[1321] 0910A2 RHGL-0907 90,000[26.4] 64,400[18.9] 25,600[7.50] 11.50 12.90 8.6 2725[1286] RHGL-120Z 92,000[26.9] 65,500[19.2] 26,500[7.70] 11.60 13.00 8.6 2800[1321] (1)Highest sales volume tested combination required by D.O.E.test procedures. [ ] Designates Metric Conversions 12 INTEGRATED AIR &WATER COOLING PERFORMANCE DATA-RAWL -079 + RHGL -090Z ENTERING INDOOR AIR 0 80°F[26.7°C]dbE O wbE 71°F[21.7°C] 67°F[19.4°C1 63°F[17.2°C] 61°F[16.1°01 59°F[15.0°C] CFM[Us] 3120[14721 2575[12151 2080 19821 3120(14721 2575[1215] 2080[9821 3120[14721 2575 112151 2080[9821 3120 11472] 2575[12151 2080[9821 312011472] 2575[12151 2080 19821 DR 0.14 0.1 0.08 0.14 0.1 0.06 0.14 0.1 0.05 0.14 0.1 0.06 0.14 0.1 0.06 75 Total MR[kW] 95.5[28.0] 92.0[26.9] 88.7[26.0] 90.5[26.5] 87.1[25.5] 84.1[24.6] 84.0[24.61 80.8[23.7] 76.0[22.9] 80.1[23.5] 77.2[22.6] 74.5[21.8] 75.9[22.2] 73.1[21.4] 70.6[20.7] Sens BTUH[kW] 59.1[17.3] 53.8[15.8] 48.9[14.3] 69.8[20.4] 63.5[18.6] 57.8[16.9] 78.2[22.9) 71.2[20.9] 64.8[19.0] 80.1[23.5] 74.2[21.7] 67.5[19.8] 75.9[22.2] 73.1[21.4] 69.8[20.5] [234 Power 5.3 5.2 5.1 5.2 5.2 5.1 5.2 5.1 5.0 5.2 5.1 5.0 5.1 5.0 4.9 Total BTUH[kW] 93.7[27.5] 90.2[26.4] 87.1[25.5) 88.7[26.0] 85.4[25.0] 82.4[24.1] 82.1 [24.1] 79.1[23.2] 76.3[22.4] 78.3[22.9] 75.4[22.1] 72.8[21.3] 74.1[21.7] 71.4[20.9] 68.9[20.2] so [28 71 Sens BTUH[kW] 58.1[17.0] 52.9[15.5] 48.2[14.1] 68.8[20.2] 62.6[18.41 57.0[16.71 77.2[22.6] 70.3[20.6] 64.0[18.8] 78.3[22.9] 73.3[21.5) 66.8[19.6] 74.1[21.71 71.4[20.9] 68.9[20.2) Power 5.6 5.5 5.4 5.5 5.4 5.3 5.4 5.3 5.2 5.4 5.3 5.2 5.4 5.3 5.2 u Total BTUH peng 91.8[26.9] 88.4[25.9] 85.3[25.0] 86.8(25.41 83.6[24.5) B0,7[23.6] 80.3[23.5] 77.3[22.7] 74.6[21.9] 76.4[22.4] 73.6[21.6] 71.0[20.8) 72.2[21.2] 69.6[20.4] 67.1[19.7] T 85 Sens BTUH[kW] 57.2[16.8] 52.1 [15.3] 47,4[13.9] 67.9[19.9] 61.8[18.1] 56.3[16.5] 76.3[22.4] 69.5[20.4] 63.2[18.5] 76.4[22.4] 72.5[21.2] 66.0[19.3] 72.2[21.2] 69.6[20.4] 67.1[19.7] D [29'4] Power 5.8 5.7 5.6 5.8 5.7 5.6 5.7 5.6 5.5 5.7 5.6 5.5 5.6 5.5 5.4 O Total BTUH[kW] 89.9[26.3] 86.6[25.4] 83.5[24.5] 84.9[24,9] 81.7[24.0] 78.9[23.1] 78.4[23.0] 75.5[22.1] 72.8[21.3] 74.5[21.8] 71.8[21.0] 69.3[20.3] 70.3[20.6] 67.7[19.8] 65.4[19.2] R 90 Sens STUN[kW] 56.3[16.5] 51.2[15.0] 46.7[13.7] 67.0[19.6] 61.0117.9] 55.5[16.3] 75.4[22.11 68.6[20.1] 62.5[18.3] 74.5[21.8] 71.7[21.0] 65.2[19.1] 70.3[20.6] 67.7[19.8] 65.4[19.2] D .2] Power 6.1 6.0 5.9 6.1 5.9 5.8 6.0 5.9 5.8 6.0 5.8 5.7 5.9 5.8 5.7 Fi Fi Total BTUH[kW] 87.9[25.8) 84.7[24.8] 81.7[23.9] 82.9[24.3] 79.9[23.4] 77.1[22.6] 76.4[22.4] 73.6[21.6] 71.0[20.8] 72.6[21.3) 69.9[20.5] 67.4[19.8] 68.4[20.0] 65.8[19.3] 63.5[18.6] Sens BTUH[kW] 55.4[16.2] 50.4[14.8] 45.9[13.5] 66.1[19.4] 60.2[17.6] 54.8[16.0] 74.5[21.8] 67.8[19.9] 61.7[18.1] 72.6[21.3] 69.9[20.5] 64.5[18.9] 68.4[20.0] 65.8[19.3] 63.5[18.6] B 1351 Power 6.4 6.3 6.2 6.4 6.2 6.1 6.3 6.2 6.1 6.3 6.1 6.0 6.2 6.1 6.0 dli2 L Total BTUH[kW] 85.9[25.2] 82.8[24.21 79.9[23.4] 80.9[23.7] 77.9[22.8] 75.2[22.01 74.4[21.8] 71.6[21.0] 69.1[20.3] 70.6[20.7] 68.0[19.91 65.6[19.2] 66.4[19.4] 63.9[18.7] 61.7[18.1] (CC 8 WO Sens BTUH[kW] 54.5[16.0] 49.6[14.5] 45.2[13.2) 65.2[19.1] 59.4[17.4] 54.0[15.8] 73.6[21.6] 67.0[19.6] 61.0[17.9] 70.6[20.7] 68.0(19.9] 63.8[18.7] 66.4[19.4] 63.9[18.7] 61.7 118.1] T 137'81 Power 6.7 6.6 6.5 6.7 8.5 6.4 6.6 6.5 6.4 6.6 6.5 6.3 6.5 6.4 6.3 E Total BTUH[kW] 83.9[24.6] 80.8[23.7] 78.0[22.8] 78.9[23.1] 76.0[22.3] 73.3[21.5] 72.4[21.2] 69.7[20.4] 67.2[19.7] 68.5[20.11 66.0[19.3] 63.7[18.7] 64.3[18.8] 61.9[18.1] 59.8[17.5] z M 105 Sens BTUH[kW] 53.7[15.7] 48.8[14.3] 44.4[13.0] 64.3[18.9] 58.6[17.2] 53.3[15.6] 72.4[21.2] 66.2[19.4] 60.3[17.7] 68.5[20.1] 66.0[19.3] 63.0[18.5] 64.3[18.8] 61.9[18.1] 59.8[17.5] m E [40.61 Power 7.1 6.9 6.8 7.0 6.9 6.8 6.9 6.8 6.7 6.9 6.8 6.7 6.9 6.7 6.6 y R Total BIN[kW] 81.8[24.0] 78.8[23.1] 76.0[22.3) 76.8[22.5] 73.9[21.7] 71.3[20.9] 70.3[20.6] 67.6[19.8) 65.3[19.11 66.4[19.5] 64.0[18.7] 61.7[18.1] 62.2[18.2] 59.9[17.6] 57.8[16.9] am o T [110 Sens BTUH[kW] 52.8[15.5] 48.0[14.1] 43.7[12.8] 63.5[18.6) 57.8[16.9] 52.6[15.4] 70.3[20.6] 65.4[19.2] 59.6[17.5] 66.4[19.5] 64.0[18.7] 61.7[18.1) 62.2[18.2] 59.9[17.6] 57.8[16.9] U Power 7.4 7.3 7.2 7.4 7.2 7.1 7.3 7.2 7.0 7.3 7.1 7.0 7.2 7.1 7.0 I.5i E Total BTUH[kW] 79.6[23.3] 76.7[22.5] 74.0[21.7] 74.6[21.9] 71.9[21.1] 69.4[20.3] 68.1 [20.0] 65.6[19.2] 63.3[18.5] 64.3[18.8] 61.9[18.1] 59.7[17.5] 60.1[17.6] 57.8[16.9] 55.8[16.4] 9. F 115 [�1] Sens BTUH[kW] 51.9[15.2] 47.3[13.9] 43.0[12.6] 62.6[18.41 57.0[16.7] 51.9[15.2] 68.1 [20.01 64.7[18.9] 56.9[17.2] 64.3[18.8] 61.9(18.1] 59.7[17.5] 60.1[17.6] 57.8[16.9] 55.8[16.41 ° y Power 7.8 7.6 7.5 7.7 7.6 7.4 7.7 7.5 7.4 7.6 7.5 7.4 7.6 7.5 7.3 m [°O] Total BTUH[kW] 77.4[22.7] 74.6[21.9] 72.0[21.1] 72.4[21.2] 69.8[20.4] 67.3[19.7] 65.9[19.3] 63.5[18.6] 61.2[17.9] 62.1[18.2] 59.8[17.5] 57.7[16.9] 57.9[17.0) 55.7[16.3] 53.8[15.8] Sens BTUH[kW] 51.1[15.0] 46.5[13.6] 42.3[12.4] 61.8[18.1] 56.2[16.5] 51.2[15.0] 65.9[19.3] 63.5[18.6] 58.2[17.0] 62.1[18.2] 59.8[17.5] 57.7[16.9] 57.9[17.0] 55.7[16.3] 53.8[15.8] WM Power 8.2 8.0 7.9 8.1 8.0 7.8 8.0 7.9 7.8 8.0 7.9 7.7 8.0 7.8 7.7 Total BIM[kW] 75.2[22.0] 72.4[21.2] 69.9[20.5] 70.2[20.6] 67.6[19.8] 65.2[19.1) 63.7[18.7] 61.3[18.0] 59.2[17.3] 59.8[17.5] 57.6[16.9] 55.6[16.3] 55.6[16.3) 53.6[15.7] 51.7[15.1] C5125 Sens BTUH[kW] 50.3[14.7] 45.8[13.4] 41.7[12.2] 61.0[17.9] 55.5[16.3] 50.5[14.8] 63.7[18.7] 61.3[18.0] 57.5[16.8] 59.8(17.51 57.6[16.9] 55.6[16.31 55.6[16.3] 53.6[15.7] 51.7[15.1] Power 8.6 8.4 8.3 8.5 8.3 8.2 8.4 8.3 8.1 8.4 8.2 8.1 8.4 8.2 8.1 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTE:O When the entering air dry bulb is other than 80°F 127°C],adjust the sensible dbE-Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding[1,10 x CFM x(1-DR)x(dbE-80)]. [ 1 Designates Metric Conversions wbE-Entering air wet bulb Power-KW input et, n ri � rf o 3 gi L1 w o m m COOLING PERFORMANCE DATA-RAWL -091 + RHGL -090Z JP" ENTERING INDOOR AIR 0 80°F(20.rci dbE D Z.. wbE 71°F(21.1°C1 87°F 119.4°C1 63°F[11.2°C] 61°F 116.1°C] 59°F 115.0'Cl CFM[Ifs] 3360[15861 2725[12861 2240[10571 3360 115861 2725 112861 2240[10571_3360[15861 2725[12861 2240 110571 3350 115861 2725(12861 2240[10571 3360[15861 2725112851 2240110571 DR OO 0.18 0.09 0.06 0.13 0.09 0.08 0.13 0.09 0.08 0.13 0.09 0.08 0.13 0.09 0.08 Total BIN[kW] 107.9[31.6] 103.5[30.3] 100.2[29.4] 102.9[30.1] 98.7[28.9) 95.5[28.0] 96.3[28.2] 92.4[27.1] 89.4[26.2] 92.4[27.1] 88.7[26.0] 85.8[25.1] 88.2[25.9] 84.6[24.8] 81.9[24.0] r 3 75 Sens BTUH[kW] 65.4[19.2] 59.0[17.3] 54.1[15.9] 77.6[22.8] 70.0[20.5] 64.2[18.8] 87.7[25.7] 79.1[23.2] 72.5[21.3] 91.9 126.9] 82.9[24.3] 76.0[22.3] 88.2[25.9] 84.6[24.8] 79.1[23.2] r 3 Power 6.0 5.9 5.8 5.9 5.8[21015.7 5.8 5.7 5.6 5.7 5.6 5.5 5.7 5.5 5.5 a2 Total BTUH NOV] 106.7[31.31 102.4(30.0] 99.0[29.0] 101.6[29.8] 97.5[28.6] 94.3[27.6] 95.1[27.9] 91.2[26.7] 88.2[25.9] 91.2[26.7] 87.5[25.6] 84.7(24.8] 87.0[25.5] 83.5[24.5] 80.8[23.7] 0 90 Sens BTUH[kW] 64.8[19.0] 58.5[17.1] 53.6[15.7] 77.1[22.6] 69.5[20.4] 63.7[18.7] 87.1(25.5) 78.6[23.0] 72.1[21.1] 91.2[26.7] 82.4(24.1] 75.6[22.1] 87.0[25.5] 83.5(24.5] 78.6[23.0] a [2631 Power 6.3 6.2 6.1 6.2 6.1 6.0 6.1 6.0 5.9 6.0 5.9 5.8 6.0 5.9 5.8 u Total BTUH[kW] 105.2[30.8] 100.9[29.6] 97.6[28.6] 100.1[29.3] 96.0[28.1] 92.9[27.2] 93.5[27.4] 89.7[26.3] 86.8[25.4] 89.7[26.3] 86.1[252] 83.3[24.4] 85.5[25.1] 82.0[24.0] 79.4[23.3] 85 T Sens BTUH[kW] 64.1[18.8) 57.8(16.9] 53.0[15.5] 76.3[22.4] 68.9[20.2] 63.1[18.5] 86.4[25.3] 77.9[22.8] 71.5[20.9] 89.7[26.3] 81.8(24.0] 75.0[22.0] 85.5[25.1] 82.0[24.0] 78.0122.9] D [29'4[ Power 6.6 6.5 6.4 6.5 6.4 6.3 6.4 6.3 6.2 6.4 6.2 6.1 6.3 6.2 6.1 O R Total BTUH[kW] 103.4[30.3] 99.2[29.1] 96.0[28.1] 98.3[28.8] 94.3[27.6] 91.3[26.7] 91.8[26.9) 88.0[25.8] 85.2[25.0] 87.9[25.8] 84.3[24.7] 81.6[23.9] 83.7[24.5] 80.3[23.5] 77.7[22.8] Sens BTUH[kW] 63.2[18.5] 57.0[16.7] 52.3[15.3] 75.5[22.1] 68.1[19.9] 62.4[18.3] 85.5(25.1] 77.2[22.6] 70.7[20.7] 87.9[25.8] 81[23.71 74.2[21.8] 83.7[24.5] 80.3[23.5] 77.3[22.7] D [322! Power 7.0 6.9 6.8 6.9 6.8 6.7 6.8 6.7 6.6 6.7 6.6 6.5 6.7 6.5 6.4 R Total STUN(kW) 101.3[29.7] 97.2[28.5) 94.1[27.6] 96.3[28.2] 92.4[27.1] 89.4[26.2] 89.7[26.3] 86.1[25.2] 83.3[24.4] 85.9[25.2] 82.4(24.1] 79.7[23.4] 81.6[23.9] 78.3[23.0] 75.8[22.2] Y 95 Sens BTUH[kW] 62.2[18.21 56.1(16.4] 51.5[15.1) 74.5[21.8] 67.2[19.7] 61.6[18.0] 84.5(24.8] 76.2[22.3] 69.9[20.5] 85.9[25.2] 80.1[23.5] 73.4[21.5] 81.6[23.9] 78.3[23.0] 75.8(22.2] B 1351 Power 7.4 7.2 7.1 7.3 7.1 7.0 7.2 7.0 6.9 7.1 7.0 6.9 7.1 6.9 6.8 `]t[' L 100 Total BTUH(kW] 99.0[29,01 95.0[27.8] 91.9[26.9) 93.9[27.5] 90.1[26.4] 87.2[25.6] 87.4[25.6] 83.8[24.6] 81.1[23.8] 83.5[24.5] 80.1[23.5] 77.5[22.7] 79.3[23.2] 76.1[22.3] 73.6[21.6]_ B 131 a1 Sens BTON[kw] 61.1[17.9] 55.1[16.1] 50.5[14.8] 73.3[21.5] 66.1[19.4] 60.6[17.8] 83.4(24.41 75.2[22.0] 68.9[202] 83.5[24.5] 79.0[23.2] 72.4[21.2] 79.3(23.2] 76.1[22.3] 73.6[21.6) T Power 7.8 7.6 7.5 7.7 7.5 7.4 7.6 7.4 7.3 7.5 7.4 7.3 7.5 7.3 7.2 E Total STUN[kW] 96.4[28.2] 92.5[27.1] 89.5[26.2] 91.3[26.8] 87.6[25.7] 84.8[24.8] 84.8[24.8] 81.3[23.8) 78.7[23.1] 80.9[23.7] 77.6[22.7] 75.1[22.0] 76.7[22.5] 73.6[21.6] 71.2[20.9] '2 M 105 Sens BTUH[kW] 59.7[17.5] 53.9[15.8] 49.4[14.5] 72.0[21.1] 64.9[19.0] 59.5[17.4] 82.0(24.0] 74.0[21.7] 67.9[19.9] 80.9[23.7] 77.6(22.7] 71.4(20.9] 76.7[22.5] 73.6[21.6] 71.2[20.9] m P E [�'6[ Power 8.2 8.1 7.9 8.1 7.9 7.8 8.0 7.8 7.7 7.9 7.8 7.7 7.9 7.7 7.6 I. R Total BTUH[kW) 93.5[27.4] 89.7[26.3] M.8[25.4] 88.4[25.9] 84.8[24.9] 82.1[24.1] 81.9[24.0] 78.5[23.0] 76.0[22.3] 78.0[22.9] 74.9(21.9] 72.4[21.2] 73.8[21.6] 70.8[20.7] 68.5[20.1] T7 Sens BTUH( W 58.817.1] 52.815.4] 48,2(14.l] 70.520.7] 63.8[ 8.6] 58. [ 7.1] 80.$(4.6] 72. [ 1.3] 66.8[i9.5] 78.8[ 2.9] 74.9[21.9] 70.1(P0.8] 73.8(31.6] 70.(20.7] 68.5120.1] U Power[ 10 o 7 56 4 82 $3 � 8.1 8.2 8.0 5-5 R Total BTUH[kW] 90.3[26.5] 86.7[25.4] 83.9[24.6] 85.3[25.0] 81.8[24.0) 79.2[23.2] 76.7(23.1) 75.5[22.1] 73.1[21.4] 74.9[21.91 71.8[21.0) 69.5[20.4] 70.6[20.7] 67.8[19.9] 65.6[19.2] O. E 115 Sens BTUH[kW] 56.7[16.6] 51.1[15.0] 46.9[13.7] 68.9(20.2] 62.1[18.2] 57.0[16.7] 78.7[23.1] 71.2[20.9] 65.3[19.1] 74.9[21.9] 71.6[21.0] 68.8[20.2] 70.6[20.7) 67.8[19.9] 65.6119.2] n °F (48.1) Power 9.1 8.9 8.8 9.0 8.8 8.7 8.9 8.7 8.6 8.9 8.7 8.5 8.8 8.6 8.5 m ['Cl Total BTUH[kOr] 86,9[25.5] 83.4[24.4] 80.7[23.6] 81.8[24.0] 78.5[23.0] 76.0[22.3] 75.3(22.1] 72.2[21.2] 69,9[20.5] 71.4[20.9] 68.5[20.11 66.3[19.4] 67.2[19.7] 64.5[18.9] 62.4[18.3] CO 120 Sens BTUH[kW] 54.9[16.1] 49.5[14.5] 45.4[13.3] 67.1[19.7] 60.6[17.7] 55.5[16.3] 75.3[22.1] 69.6[20.4] 63.9[18.7] 71.4[20.9] 68.5[20.1] 66.3[19.4] 67.2[19.7] 64.5[18.9] 62.4[18.3] [40'01 Power 9.6 9.4 9.3 9.5 9.3 9.2 9.4 9.2 9.1 9.3 9.2 9.0 9.3 9.1 9.0 Total BTUH[kW] 83.2[24.4] 79.8[23.4] 77.2[22.6] 78.1[22.9] 74.9(22.0] 72.5[21.3] 71.6[21.0] 68.7[20.1] 66.4[19.5] 67.7[19.8] 65.0[19.0] 62.9[18.4] 63.5[18.6) 60.9[17.9] 58.9 117.3] 125 Sens BTUH[kW] 53.0[15.5] 47.8[14.0] 43.8[12.8] 65.2[19.1] 58.8[17.2] 53.9[15.8] 71.6[21.0] 67.9[19.9] 62.3[18.2] 67.7[19.8] 65.0[19.0] 62.9[18.4] 63.5[18.6] 60.9[17.9] 58.9[17.3] Power 10.1 9.9 9.8 10.0 9.8 9.7 9.9 9.7 9.6 9.8 9.7 9.5 9.8 9.6 9.4 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: r0)When the entering alr dry bulb is other than 80°F[27°C],adjust the sensible dbE-Entering alr dry bulb Sens -Sensible capacity x 1000 STUN capacity from the table by adding[1.10 x CFM x(1-DR)x(dbE-80)]. [ ]Designates Metric Conversions wbE-Entering air wet bulb Power-KW input COOLING PERFORMANCE DATA-RAWL -091 + RHGL -120Z ENTERING INDOOR AIR C 80°F[26.7°C]dbE(1 wbE 71°F121.7°C1 67°F[19.4°C] 63°F 117.2°C1 51°F[16.1°CI 59°F(15.0°C] CFM[Us] 3360[15861 2800 113211 2240[10571 3360[15881 2800 113211 2240[1057] 3360115861 2800 113211 2240[10571 3360[15861 2800113211 2240110571 3360[1585] 2890 113211 2240[11157] DR a 0.14 0.11 0.08 0.14 0.11 0.08 0.14 0.11 0.08 0.14 0.11 0.08 0.14 0.11 0.08 75 Total BTUH[kW] 109.4[32.1] 105.5[30.9] 101.7[29.8] 104.3[30.6] 100.7129.5] 97.0[28.4] 97.8[28.7] 94.4[27.7] 90.9[26.7] 94.0[27.51 90.7[26.6] 87.4[25.6] 89.8[26.3] 86.6[25.4] 83.5[24.5] Sens BTUH[kW] 65.3[19.1] 59.7[17.5] 54.1[15.9] 77.3[22.7] 70.7[20.7] 64.1[18.8) 87.3(25.6) 79.8[23.4] 72.4[21.2] 91.4 126.8] 83.6(24.5] 75.8[22.2] 89.8[26.3] 86.6[25.4] 78.8[23.1] PA Power 6.1 6.0 5.9 6.0 5.9 5.8 5.9 5.8 5.7 5.8 5.7 5.6 5.8 5.7 5.6 80 Total BTUH[kW] 108.2[31.7] 104.4[30.6] 100.6[29.5] 103.1[30.2] 99.5[29.2] 95.9[28.1] 96.6[28.3] 93.2[27.3] 89.8126.31 92.8[27.2] 89.5[26.2] 86.3[25.3] 88.6[26.0] 85.5[25.0] 82.4 124.11 Sens BTUH[kW) 64.7 119.0] 59.2[17.3] 53.7[15.7] 76.8[22.5] 70.2[20.6] 63.7[18.7] 86.7[25.4] 79.3[23.2] 71.9[21.1] 90.9[26.6] 83.1[24.4] 75.3[22.1] 88.6[26.0] 85.5[25.0] 78.4[23.0] 121171 Power 6.4 6.3 6.2 6.3 6.2 6.1 6.2 6.1 6.0 6,1 6.0 5.9 6.1 6.0 5.9 U as Total BTUH[kW] 106.7[31.3] 102.9[30.2] 99.2[29.1] 101.6[29.8] 98.0[28.7] 94.5[27.7] 95.1[27.9] 91.7[26.9] 88.4[25.9] 91.3[26.7] 88.1[25.8] 84.9[24.9] 87.1[25.5] 84.0[24.6] 81.0[23.7] T 129.4] Sens BTUH[kW] 64.0[18.8] 58.5[17.2] 53.1[15.51 76.0[22.3] 69.6[20.4] 63.1[18.5] 86.0[25.2] 78.6(23.0] 71.3[20.9] 90.2[26.4] 82.5[24.2] 74.8[21.9] 87.1[25.5] 84.0[24.6] 77.8[22.8] 0 Power 6.7 6.6 6.5 6.6 6.5 6.4 6.5 6.4 6.3 6.5 6.4 6.2 6.4 6.3 6.2 R Total BTUH[kW] 104.9[30.7] 101.2129.7] 97.5[28.6] 99.8[29.3] 96.3[28.2] 92.8[27.2] 93.3[27.3) 90.0[26.4) 86.8[25.4] 89.5126.2] 86.3[25.3] 83.2[24.41 85.3[25.0] 82.3[24.1] 79.3[23.2] (3 0 D 21 Sens BTUH[kW] 63.1 [18.5] 57.7[16.9] 52.4[15.3] 75.2[22.0] 68.8[20.2] 62.4[18.3] 85.1[24.91 77.9[22.8] 70.6[20.7] 89.3[26.2] 81.7[23.9] 74.0[21.7] 85.3[25.0] 82.3[24.1] 77.1[22.6] Power 7.1 7.0 6.8 7.0 6.9 6.7 6.9 6.8 6.6 6.8 6.7 6.6 6.8 6.7 6.5 R Total BTUH[kW] 102.8[30.1] 99.2[29.1] 95.6[28.0) 97.8[28.7] 94.4[27.6] 90.9[26.6] 91.3 126.7] 88.1[25.8] 84.9[24.9] 87.4[25.6] 84.4[24.7] 81.3[23.8] 83.2[24.4] 80.3[23.5] 77.4[22.7] Y gs Sens BTUH[kW] 62.1(18.2] 56.8[16.7] 51.5[15.1] 74.2[21.7] 67.9[19.9] 61.5[18.0] 84.1[24.7] 76.9[22.5] 69.8[20.4] 87.4[25.6] 80.8[23.7] 73.2[21.5] 83.2[24.41 80.3[23.5] 76.2[22.3] dlio B [351 Power 7.5 7.3 7.2 7.4 7.2 7.1 7.3 7.1 7.0 7.2 7.1 7.0 7.2 7.0 6.9 Total BTUH[kW] 100.5[29.5] 97.0[28.4] 93.5[27.4] 95.5[28.0] 92.1[27.0] 88.8[28.0] 88.9[26.1] 85.8[25.1] 82.7[24.2] 85.1[24.9] 82.1[24.1] 79.1[23.2] 80.9[23.7] 78.1[22.9] 75.2[22.0] C B 100 Sens BTUH[kW] 61.0[17.9] 55.8[16.3] 50.6[14.8] 73.0[21.4) 66.8 119.6] 60.6[17.7] 83.0[24.3] 75.9[22.2] 68.8[20.2) 85.1[24.9] 79.7[23.4] 72.3[21.2] 80.9[23.7] 78.1[22.9] 75.2[22.0] T 11 Power 7.9 7.7 7.6 7.8 7.6 7.5 7.7 7.5 7.4 7.6 7.5 7.3 7.6 7.4 7.3 E 1� Total BTUH[KW] 97.9[28.7] 94.5[27.7] 91.0[26.7] 92.9[27.2] 89.6[26.3] 86.4[25.3] 86.3[25.31 83.3[24.4] 80.3[23.5] 82.5[24.2] 79.6[23.3] 76.7[22.5] 78.3[23.0] 75.6[22.1] 72.8[21.3] M [�� Sens BTUH[kW] 59.7[17.5] 54.6[16.0] 49.5[14.5] 71.7[21.0] 65.6[19.2] 59.5[17.4] 81.7[23.9] 74.7[21.9] 67.7[19.8] 82.5[24.2] 78.5[23.0] 71.2[20.9] 78.3[23.0] 75.6[22.1] 72.8[21.3] m E Power 8.3 8.2 8.0 8.2 8.1 7.9 8.1 7.9 7.8 8.0 7.9 7.8 8.0 7.8 7.7 n RA 110 Total BTUH[kW] 95.0[27.9] 91.7[26.9] 88.4[25.9] 90.0[26.4] 86.8[25.4] 83.7[24.5] 83.5[24.5] 80.5[23.6] 77.6[22.7] 79.6[23.3] 76.9[22.5] 74.1[21.7] 75.5[22.1] 72.8[21.3] 70.2 120.6] o T Kam S BTUH[kW] 58.2[17.1] 53.3U Power 8.7 615.6] 48.3�14.2] 70.8 620.6] 64.3[18.8] 58.3[37.1) B0.8 23.5] 73.421.5] 66.5 5 8.4 8[29.5] 79.6[53.3[ 76.9[32.5j 70.0[20.5] 75.5 8 22.1] 72.8 4 [31.3] 70.2 8[20.6] .1 E 115 Total BTUH[kW] 91.9[26.9] 88.7[26.0) 85.4[25.0] 86.9[25.5] 83.8[24.6] 80.8[23.7] 80.3[23.5] 77.5[22.7] 74.7[21.9] 76.5[22.4] 73.8[21.6] 71.1[20.8] 72.3[21.2) 69.8[20.4] 67.2[19.7] ° Sens BTUH[kW] 56.6[16.6] 51.8[15.2] 47.0[13.8] 68.7[20.1) 62.8[18.4] 57.0[16.7] 78.6[23.0] 71.9[21.1] 65.2[19.1] 76.5[22.4] 73.8[21.6] 68.7[20.1] 72.3[21.2] 69.8[20.4] 67.2[19.7] * °F '7j Power 9.2 9.0 8.9 9.1 8.9 8.8 9.0 8.8 8.7 8.9 8.8 8.6 8.9 8.7 8.8 n [°C] 120 Total BTUH[kW] 88.5[25.9] 85.4[25.0] 82.3[24.1] 83.4[24.5] 80.5[23.61 77.6[22.7] 76.9[22.5) 74.2(21.7] 71.5[21.0] 73.1 [21.4] 70.5[20.7] 68.0[19.9] 68.9[20.2] 66.5[19.5] 64.1 [18.8] Sens BTUH[kW] 54.9[16.1] 50.2[14.7] 45.5[13.3] 67.0[19.6] 61.3[17.9] 55.5[16.3] 76.9[22.5] 70.3[20.6] 63.8[18.7] 73.1[21.4] 70.5[20.7] 67.2[19.7] 68.9[20.2] 66.5[19.5] 64.1 [18.8] [48'91 Power 9.7 9.5 9.4 9.6 9.4 9.3 9.5 9.3 9.1 9.4 9.3 9.1 9.4 9.2 9.0 125 Total BIUH[kW] 84.8[24.81 81.8[24.0] 78.8[23.1] 79.7[23.4] 76.9[22.5] 74.2[21.7] 73.2[21.5] 70.7[20.7] 68.1[20.0] 69.4[20.3] 67.0[19.6] 64.5[18.9] 65.2[19.1] 62.9[18.4] 60.6[17.8] 151 Sens 811IX[kW] 53.0[15.5] 48.5[14.2] 44.0[12.9] 65.1[19.1] 59.5[17.4] 54.0[15.8] 73.2[21.5] 68.6[20.1] 62.2[18.2] 69.4[20.3] 67.0[19.6] 64.5[18.9] 65.2[19.1] 62.9[18.4] 60.6[17.8] Power 10.2 10.0 9.8 10.1 9.9 9.7 10.0 9.8 9.6 9.9 9.8 9.6 9.9 9.7 9.5 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTES:0 When the entering air dry bulb is other than 80°F[27°C],adjust the sensible dbE-Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding[1.10 x CFM x(1-DR)x(dbE-80)]. [ ]Designates Metric Conversions wbE-Entering air wet bulb Power-KW input cita a a v s 'e O r 3 L u y 'o $ 6' 0 r Air Piping and Installation =19I RAWL Series TYPICAL REFRIGERANT PIPING RECOMMENDATIONS General Notes: 1.Vertical risers not to exceed 60 feet[18.29 m]. 2. Locate the condensing unit and evaporator(s)as close together as possible to minimize piping runs. 3. Condensing units are shipped with a nitrogen holding charge.Evacuate condensing unit before charging with refrigerant. EQUIVALENT LENGTH(FT.)[m]OFSIRAIGHT TYPE"L"TUBING FOR RECOMMENDED VAPOR AND LIQUID LINE NON-FERROUS VALVES&FITTINGS(BRAZED) SIZES FOR VARIOUS LENGTHS OF RUN TUBE SIZE, SXORT LONG TEE TEE LINEAR LIQUID LINE O.D. VAPOR LINE O.D. INCHES SOLENOID ANGLE RADIUS RADIUS UNE BRANCH LENGTH SIZES(IN.)[mm] SIZES(IN.)[mm] [mm]0.D. VALVE VALVE ELL ELL FLOW ROW [Ft)[m] 079 091* 079 091 1/2[13.00] 12[3.7] 8.3 [2.5] 1.610.5] 1.0[0.3] 1.0[0.3] 3.1[0.9] 0-15[0-4.51] Vz[12.7] 1/2[72.7] 11/8[28.58] 11/8[28.58] 5/8[16.00] 15[4.6] 10.4 [3.2] 1.9[0.6] 1.2[0.4] 1.2[0.4] 3.6[1.1] 16-50[4.88-15.24] Vz[12.7] 1/2[7 2.7] 1 V6(28.58j 11/8[28.58] 3/a[19.00] 18[5.5] 12.5 [3.8] 21[0.7] 1.4[0.4] 1.4[0.4] 4.2[1.3] 51-100[15.54-30.48] V2[12.7j 1/2[12.7] 1 Va[28.58j 13l6[34.93] 7/8[22.00] 21[6.4] 14.6 [4.4] 24[0.7] 1.6[0.5] 1.6[0.5] 4.8[1.5] 101-150[30.78-45.72] 1/2[12.7] 1/2[12.7] t a/s[34.93] 13l8[34.93] 11/6[29.00] 12[3.7] 18.8 [5.7] 3.0[0.9] 20[0.6] 20[0.6] 6.0[1.81 NOTE: Runs between condenser and evaporator not to exceed 150'[45.7 m]linear length. 13/6[35.00] 15[4.6] 22.9 [7.0] 3.6[1.1] 2.4[0.7] 2.4[0.7] 7.2[22] *See note®under liquid line pressure drop chart.Use 5/a" [15.88 mm) 15/6[41.00] 18[5.5] 27.1 [8.3] 4.2[1.3] 2.8[0.8] 2.8[0.8] 8.4[2.6] liquid line with solenoid valve. 25/8[54.00] 21[6.4] 35.4[10.8] 5.3[1.6] 3.5[1.1] 3.5[1.1] 10.7[3.3] VAPOR LINE SYSTEM CAPACITY LOSS LIQUID LINE PRESSURE DROP PER 100 FEET[30.48 m] IN PERCENT PER 100 FEET(30.48 m] EQUIVALENT LENGTH(TYPE L COPPER TUBING) EQUIVALENT LENGTH (TYPE L COPPER TUBING) 25[87.91 25 017.91 '►11,11-.1U 26rN.91 --►o-►, 1♦■s1.►.,m11111.1♦ 20 poll a ''A.9- �i".,� .■.,■._II.�'"'' 1,A a/U!I •■ ,5,52.., ,a � � ti� r ,$ 1,r. r Y m[3521 \UII111II►11 mill►,a I4. 3 AL I o- �'..// W 8131.7f .\�i�w��rIS61 _ .d o. X\ NM Y m[95.Zf O Z [26.11 0'. ant. EBf'i a: ■t\�I/ial 7124.81 r��mmor� 1•1*°�0• ••orrT 6[2611 c121.1 z 7(2a.6] M/. � o ►� ��M I 5m,61 ��I��i%�� I. ��A�ft .m.,1 L=\\ .r..?Ol`" ., INS I- 4[1411 Nomn%i ��1111 �* !%■ 11:,1,..�. 111c 6[17.6, •um ' dI�°ii., m% "/%MN11!i s'IN q"`,1.° ":111�1� a s[m. 4[44.11 -nor a 2 217.61 -- 1INE ; 'il1111/�lLI a '%• 3[m% ,, 'I► eP�� ,'� ~ 1.6 t5.97 ■„ 'I'1'�',.1,.1�""■. W 2.SI6.61 M�3, IL 1.1•/ �� p 2(7.0]31 ,■„"', (1'," W t[3 6J .1 .16 .2 .26.3 .a .5 .6.7 B.6 1.0 1.5 2 25 3 4 5 6 7 6 210 15 26 1.5[5.31 '.11' , !'',' NOTES: CAPACITY LOSS IN PERCENT(%) 11s 5l / '/, 1) The minimum velocity line(700 ipm)13.6 m/s]is recommended. 2.5 4 6 6 m 20 30 2) For vapor pressure drop(PSIG)(6.9 kPa],multiply percent(%)loss by 1.18. [17-21 [27.61 141.47 [55.21 165.91 [137.61 t206.6] 3) Size vapor lines for no more than 2°F[1.1°C]loss which corresponds to Izo 77 Is+sl[48.31 1�_,1 Itui.al f772.41 approximately 5 PSIG[34.4 kPaj pressure drop. PRESSURE DROP-PSIG[kPa 4) Pitch all horizontal vapor lines downward in the direction of flow(1/2"[12.7 NOTES: ] mm]to10'[3.0 m]run). 1) When evaporator coil is above condenser,the pressure drop due to vertical lift(.5 PSIG per toot of lift)[1.05 kPa per meter]must be added to the pres- sure drop derived from this curve. WARNING 2) Size liquid line for no more than 10°F[5.6°C]loss(approximately Do not use oxygen to purge lines or pressure system for 50 PSIG[344.7 kPa]total pressure drop). leak test.Oxygen reacts violently with oil,which can cause 3) Do not oversize liquid line.Oversized liquid lines add significantly to the an explosion resulting in severe personal injury or death. amount of refrigerant required to charge the system. 4)The maximum recommended velocity with solenoid valves or other quick closing devices in the liquid line is 300 FPM[1.5 m/s]. COIL ABOVE CONDENSING UNIT IS TO SOLENOID VALVE BE WIRED ISOLATION ONLY,NOT PUMP DOWN. [ ]Designates Metric Conversions 16 `�"...*.1'^" INTEGRATED AIR&WATER Air Piping and Installation RAWL Series TYPICAL REFRIGERANT PIPING RECOMMENDATIONS (cont.) REQUIRED OZS.R-410A CHARGE PER FT.[m]OF TUBING TUBE SIZE LIQUID VAPOR O.D.(IN.)[mm] (OZ.) [g] (OZ.) [g] 1/2 [12.7] 1.06[30.0] .04 [1.13] 5/8[15.88] 1.65[46.7] .07 [1.98] 3/4[19.05] 2.46[69.7] .10 [2.83] 7/a[22.23] 3.28[92.9] .13 [3.68] 1 V8[28.58] .22 [6.23] 13/8[34.93] .34 [9.63] 15/s[41.28] .48[13.60] 21/8[53.98] .84[23.81] Quantities based on 110°F liquid and 45°F vapor. GENERAL INSTALLATION The condensing unit should be installed outdoors. It should be located as near as possible to the evaporator section to keep connecting refrigerant tubing lengths to a minimum. The unit must be installed to allow a free air flow to the con- denser coils. If several units are installed adjacent to each other,care must be taken to avoid recirculation of air from one condenser to another. In all installations,adequate space must be provided for installation and servicing. BASIC SYSTEM CHARGE* UNIT BASIC SYSTEM MODEL CHARGE,OZ,[g]` RAWL-079 219 [62091 RAWL-091 400[11340] "System with 0 feet[m]of tubing. [ ]Designates Metric Conversions 17 INTEGRATED AIR&WATER Guide Specifications Air RAWL Series GUIDE SPECIFICATIONS Furnish and install as shown on the drawing Rheem Model removal of service panels without affecting operation of the air cooled condensing unit suitable for outdoor unit.Airflow shall be drawn through design providing uniform air application. distribution across the coil surface. COMPRESSOR—Unit shall have(1)compressor. It is to be of CASINGS—Casings shall make unit suitable for outdoor instal- the welded hermetic type with durable insulation on the motor lation.Casing,base pan and framework shall be manufactured windings. It shall be externally mounted on rubber grommets to of galvanized sheet metal subjected to multistage cleaning,pre- reduce vibration transmission and noise to surrounding area. treated and finished with a durable powder coat paint,capable Maximum power input shall not be more than on of withstanding a 1000-HR salt spray test per ASTM B 117.Units 6.5 nominal ton[22.86 kW]units and on 7.5 nominal shall have stamped louver panels offering 100%protection of the ton[26.38 kW]units at conditions specified. condenser coil face.Openings shall be provided for power.Dimen- LOW AMBIENT CONTROL All units shall have standard head sions of entire assembly shall be not more than inches[mm] pressure controls that cycle the condenser fan motors to maintain high, inches[mm]long and inches[mm]wide. condensing pressures for operation down to 0°F[°C]ambient. REFRIGERATION CIRCUIT—Shall include the compressor, CAPACITY—Capacity shall be BTU/HR when operating the condenser coils,all internal refrigerant piping,a liquid line at °F[°C]saturated suction temperature. service valve. Refrigerant stubs shall be extended through the cabinet for external field connection without affecting accessi- MOTORS&FANS—Each unit shall have one(6.5&7.5 ton) bility to compressor compartment. [22.86&26.38 kW]sleeve bearing,permanently lubricated motor(s) CONTROL PANEL—The panel shall be designed for single fixed with direct-drive, multi-bladed fan(s).Motor(s)shall be power source to the compressor and fan motors)and shall include equipped with inherent overload protection.Motors)&fan(s)shall low ambient fan cycling control,and compressor across-the- be mounted on hinged top panel for easy access.Condenser air line contactor. shall discharge vertically. COILS—Colts shall be fabricated of 3/e"[9.53 mm]O.D.seam- SAFETY CONTROLS—Manual reset high pressure and automatic less copper tubing and aluminum fins with die-formed collars reset low pressure control shall be provided. mechanically bonded to tubes arranged in a staggered pattern. FACTORY TESTING All units shall be test run at the factory. All coils shall be submitted to an air pressure test of up to 300 They shall experience the following control testing procedures: PSIG after fabrication and dehydrated.Units shall be shipped high pressure control,switching of electrical components,and with a dry nitrogen holding charge.Coil design shall permit compressor operation. 18 INTEGRATED AIR&WATER Limited Warranty Air RAWL Series GENERAL TERMS OF LIMITED WARRANTY* Rheem will furnish a replacement for any part of this product Compressor Five(5)Years which fails in normal use and service within the applicable Any Other Part One(1)Year period stated, in accordance with the terms of the limited warranty. *For complete details of the Limited and Conditional Warranties,including applicable terms and conditions,contact your local contractor or the Manufacturer for a copy of the product warranty certificate. INTEGRATED AIR &WATER 19 deem The new degree of comfort" In keeping with its policy of continuous progress and product improvement,Rheum reserves the right to make changes without notice. Rheem Heating,Cooling&Water Heating • P.O.Box 17010 Rheem Canada Ltd./Ltee • 125 Edgeware Road,Unit 1 Fort Smith,Arkansas 72917 • www,rheem.com Brampton,Ontario • L6Y OP5 INTEGRATED AIR&WATER PRINTED IN USA 1/16 00 IORM NO.A11-194 REV.4 Gas Furnaces Air R95T Series eem The new degree of comfort:" RF(R i 5 Rheem Classic Plus® Series C T ��r ,iS. �r ? Multi-position Gas Furnaces BUILOINC-';;DIV` R95T- Series 95% A.F.U.E.t Input Rates from 40 to 115 kBTU [11.72 to 33.71 kW] 'Itemzer rya m MED tA.EU.E.(Annual Fuel Utilization Efficiency)calculated in accordance with Department of Energy test procedures. • 95% residential gas furnace CSA certified • Blower Shelf design-serviceable in all furnace orientations • 4 way multi-poise design • Pre marked hoses-insures proper system drainage • PlusOne''Diagnostics 7-Segment LED all units • Vent with 2"or 3" PVC • PlusOnet'Ignition System-DSI for reliability and longevity • Replaceable Collector box • PlusOne''Water Management System with patented Blocked • Hemmed edges on cabinet and doors Drain Sensor • Constant Torque electrically commutated motor • Heat exchanger is removable for improved serviceability. • Quarter turn fasteners for tool less access Aluminized steel primary and stainless steel secondary con- struction provide maximum corrosion resistance and thermal • Integrated control boards feature dip switches for easy fatigue reliability. system set up • Low profile"34 inch"cabinet ideal for space constrained • Self priming condensate trap installations. • Solid bottom included = INTEGRATED HOME COMFORT FORM NO.G11-538 REV.6 Air i Table of Contents R95T Series TABLE OF CONTENTS Standard&Optional Equipment 3 Physical Data&Specifications 4 Model Number Identification 5 Dimensional Data 6 Blower Performance Data 7 Accessories 8 Limited Warranty 9 2 • INTEGRATED HOME COMFORT -8 Air Standard&Optional Equipment R95T Series REMOTE SENSOR / 1111101ilskts rim" y it; DIRECT SPARK IGNITION& REMOTE SENSOR PRIMARY AND SECONDARY HEAT EXCHANGER _ GAS VALVE AND MANIFOLD IN-SHOT BURNERS 111' 4". Q "1.kwor ? t� DRAFT INDUCER PRESSURE SWITCHES a x b "tiior BLOCKED DRAIN SENSOR Nam 49114) CONSTANT TORQUE CONTROL ME ELECTRICALLY BOARD COMMUTATED MOTOR STANDARD EQUIPMENT OPTIONAL EQUIPMENT Completely assembled and wired;blocked drain sensor,7 Side and bottom filter racks;return air cabinet for all sizes. segment LED and marked hoses;heat exchanger;primary: NOTE: Furnace is not listed for use with fuels other than natural aluminized steel,secondary:29-4C stainless steel;solid bot- or L.P.(propane)gas. torn; induced draft; pressure switches;redundant main gas All models can be converted by a qualified distributor or local control;blower compartment door safety switch;solid state service dealer to use L.P. (propane)gas without changing burn- time on/off blower control; limit controls;manual shut-off ers. Factory approved kits must be used to convert from valve; 100%safety lock out;cool fan off delay;field selectable natural to L.P.(propane)gas and may be ordered as optional heat fan off delay;one hour automatic retry;power and self- accessories from a parts distributor. test diagnostics;flame sense current diagnostics;electronic air cleaner connections;twinning(built-in)features; humidifier For L.P.(propane)operation,refer to Conversion Kit Index Form. connections;humidifier on/off delay;low speed continuous fan option;single speed option for heating and cooling applica- tions;transformer;direct drive,multi-speed Constant Torque electrically commutated motor.(Please note:a thermostat is not included as standard equipment.) THIS FURNACE IS NOT APPROVED OR RECOMMENDED FOR USE IN MOBILE HOMES 3 INTEGRATED HOME COMFORT �r Physical Data&Specifications fl Air R95T Series Physical Data and Specifications-Upflow Models U.S.and Canadian Models MODEL NUMBERS R95T(-)0401317MSA R95T(-)0601317MSA R95T(-)0701317MSA R95T(-)0851521MSA R95T(-)1001521MSA R95T(-)1151524MSA HIGH FIRE INPUT BTU/HR[kW]0 42,000[12.31] 56,000[16.41] 70,000[20.50] , 84,000[24.61] 98,000[28.72] 112,000[32.82] HEATING CAPACITY BTUMR[kW] 41,000[12.02] 54,000[15.83] 68,000[19.93] 82,000[24.03] 95,000[27.84] 108,000[31.65] HIGH ALTITUDE OUTPUT 36,288[10.64] 48,384[14.18] 60,480[17.72] 72,576[21.28] 84,672[24.81] 96,768[28.36] 10%DERATE[kW]© BLOWER(DxW) 11x7 11x8 11x8 11x10 11x10 11x11 [mm] [279 x 178] [279 x 203] [279 x 203] [279 x 254] [279 x 254] [279 x 279] MOTOR H.P.[WI- 1/2[373]-5-Contstant 1/2[373]-5-Contstant 1/2[373]-5-Contstant 1 [746]-5-Contstant 1 [746]-5-Contstant 1 [746]-5-Contstant TYPE Torque ECM Torque ECM Torque ECM Torque ECM Torque ECM Torque ECM MIN.CIRCUIT AMPACITY 8.00 10.00 10.00 13.00 15.00 14.00 MIN.OVERLOAD 15.00 15.00 15.00 20.00 20.00 20.00 PROTECTION DEVICE MAX.OVERLOAD 15.00 15.00 15.00 20.00 20.00 20.00 PROTECTION DEVICE MOTOR FULL LOAD AMPS 4.0 6.8 6.8 8.3 8.3 8.3 HEATING SPEED MED-LOW MED-LOW MEDIUM MED-LOW MED-LOW MED-LOW COOLING SPEED HIGH HIGH HIGH HIGH HIGH HIGH MINIMUM EXT.STATIC PRESSURE -18[.045] .20[.050] .23 1.057] .28[.070] .28[.070] .28[.070] (IN.W.C.)[kPa] MAXIMUM EXT.STATIC PRESSURE 9[0.224] .9[0.224] .9[0.224] .9[0.224] .9[0.224] .9[0.224] (IN.W.C.)[kPa] HEATING CFM @.2°1.049 kPa] 982[463] 913[431] 1113 1525] 1574[743] 1651 [779] 1524[719] W.C.E.S.P.[Us] COOLING CFM @.5"[.124 kPa] 1239[585] 1227[579] 11981565] 1833[865] 1975[932] 1748[825] W.C.E.S.P.[Us] TEMPERATURE RISE-HIGH FIRE 25-55 35-65 40-70 35-65 35-65 45-75 RANGE IN DEGREES°F(°C] [14-31] [19-36] [22-39] [19-36] [19-36] [25-42] APPROX.SHIPPING WEIGHT 123.5 56 128[58] 132[60] 147.5 67 152[69] 165 75 (LBS.)[kg] [ ] [ ] [ ] AFUE O 95.00% 95.00% 95.00% 95.00% 95.00% 95.00% NOTES: All models are 115V,60HZ,1 phase Gas connection size for all models is Vz"[13 mm]N.P.T. O Installation Instructions for high altitude derate. ©Canadian installations only. OO In accordance with D.O.E.test procedures. *S=Standard Models NOTE:Standard model complies with California low NOx requirements. This furnace does not meet air district requirements of 14 ng/J NOx emissions limit,and thus is subject to a mitigation fee of up to$450.This furnace Is not eligible for the Clean Air Furnace Rebate Program:www.CleanAirFumaceRebate.com. This furnace is to be installed for propane firing only in air districts requiring 14 ng/J NOx emission limits.Operating In natural gas mode is in violation of these Rules. [ I Designates Metric Conversions 4 - . v.ni INTEGRATED HOME COMFORT Air Model Number Identification R95T Series Model Number Identification R 95 T A — 040 1 3 17 M S A Rheem Series Motor- Design Series Input Stage-Single Airflow Cabinet Width Configuration- S=Standard Revision- 95% Constant A=1st Design BTU/HR 3-Up to 3 Tons 17=17.5' Multi-Position Marketing Efficient Torque B=2nd Design 040= 42,000[12.31 kW] 5-Up to 5 Tons 21 =21.0" (A-First Time C=3rd Design 060= 56,000[16.41 kW] 24=24.5" Release) 070= 70,000[20.51 kW] 085= 84,000[24.62 kW] 100= 98,000[28.72 kW] 115=112,000[32.82 kW] [ ]Designates Metric Conversions 4 = INTEGRATED HOME COMFORT 5 Dimensional Data Air R95T Series FRONT BOTTOM TOP [42 mml� r[41 mm] B B OPTIONAL OPTIONAL We we EN 01M5 COMBUSTION AIR KN[16 mm]—~ [16 mm] rig INLET KNOCKOUT A at SUPPLY AIR O r 9�7/3e" 1 II A 24�is" [504 mm] a [631 mm] 26Va" L 24" RETURN 23rhz" I667 mm] w [633 mmJ AIR I mini 9�s/9x [502 mm] \ / 34" _ [884 mm] // T o [17 mm) O T T � I ---PI ` [1s/s" I 1mfW C t(45 mm] It-[42 mm] O A T • 263/+e"[665 mm] ► • 253he"[658 mm] • 28s/s"[752 mmJ • 25rhe"[646 mm] • 28+/+e'[713 mm] 1 • 23she"[593 mm] OPTIONAL CONDENSATE OPTIONAL --i •--1+/e" [[[444 18n/sz"[504 mm]—s- y/e. • 225/14'[567 mm] ► DRAIN(DOWNFLOVY) CONDENSATE DRAIN I28 mm] —► [16 mm) v (DOWNFLOW) .At OPTIONAL TRAP ••— i I . • 223+/32. • LOCATION �•: " [583 mm] . (HORIZONTAL) r p— C GAS ONAI. 32r/d' GAS COMJECnON [632 mm] / TRAP LOCATION CONNECTIONjp I (HORIZONTAL) 29y1B" L. 23+3/+e° e" OPTIONAL COMBUSTION OPTIONAL TRAP [605 mm] LOCATION [738 mm] VENT LOCATION 28+/3z" (HORIZONTAL) ]738 mini 1 1 OPTIONAL CONDENSATE •. DRAIN NPFLD'M r dPTIONAL VENT t 26Ve" AIR INLET 17+/z" [583 mm] 17he" r I [445 mm] [443 mm] OPTIONAL LOW VOLTAGE CONDENSATE DRAIN 263114" • WIRING NPFLOWI law32�+/. [665 mm] O•� [358!mm) ELECTRICAL CONNECTION • ' • . [461 mm] [829 mm] OPTIONAL LINE VOLTAGE LINE VOLTAGE WIRING ELECTRICAL CONNECTION L LOW VOLTAGE + J i + — • • • V T f T T T T T T T -:. Li . E 226/e"[575 mm] 23'[584 mm] 243h4"[814 mm] 8" 11+/84' 11" 8" 26ehe"[668 mm] > [203 rrm] [280 mm] [279 mm] [203 mm] RIGHT SIDE LEFT SIDE UNIT DIMENSIONS (CLEARANCE TO COMBUSTIBLES) MODEL LEFT MINIMUM CLEARANCE(IN.)[mm] SHIP FLANGE DIMENSIONS R95T SIDE RIGHT BACK TOP FRONT VENT WGTS. A B C SIDE 040 0 0 0 1 [25] 2[51] 0 123.5[56] 171/2[445] 1617/64[413] 1613/64[412] 060 0 0 0 1 [25] 2[51] 0 128 [58] 171/2[445] 1677/64[413] 1613/64[412] 070 0 0 0 1 [25] 2[51] 0 132 [60] 171/2[445] 1617/64[413] 1673/64[412] 085 0 0 0 1 [25] 2[51] 0 147.5[67] 21 [533] 1999/64[502] 1945/64[500] 100 0 0 0 1 [25] 2[51] 0 152 [69] 21 [533] 1949/64[502] 1945/64[500] 115 0 0 0 1 [25] 2[51] 0 165 [75] 241/2[662] 2317/64[591] 2313/64[589] *A service clearance of at least 24"is recommended in front of all furnaces [ ]Designates Metric Conversions Supply and return depicted as upflow configuration. Flange configuration will vary depending on installation orientation. 6 INTEGRATED HOME COMFORT BLOWER MOTOR MOTOR CFM ILle1 AIR DELIVERY FURNACE SIZE H.P. MOTOR LEAD WIRE SPEED EXTERNAL STATIC PRESSURE INCHES WATER COLUMN[kPal MODEL [mm1 [W] TAP COLOR 0.1(.021 0.21.051 0.31.071 0.41.101 0.51.121 0.6(.151 0.7 1.171 0.81.191 0.9[.221 1 Red Low 874[413] 820[387] 765[361] 710[335] 658[311] 575[271] 523[247] 482[228] 448[211] 2 Yellow Medium Low 1029[486] 982[463] 930[439] 881 [416] 833[393] 780[368] 716[338] 665[314] 621 [293] (-)95T(-) 11 x 7 1/2 3 Purple Medium 1098[518] 1055[498] 1008[476] 962[454] 920[434] 870[411] 822[388] 755[356] 705[332] 0401317MSA [279 x 178] [373] 4 Blue Medium High 1253.6[592], 1209.1 [571] 1164.4[550] 1128.1 [532] 1082.2[511] 1043.7[493] 1000[472] 960[453] 907.2[4281 5 Black High 1380.6[652] 1345.5[635] 1313.1 [620] 1278[602] 1239.2[585] 1202.3[567] 1166[550] 1132.7[535] 1098.9[519] . 1 Red Low 818[386] 766[362] 720[340] 668[315] 594[280] 548[259] 494[233] 444[210] 416[196] 2 Yellow Medium Low 968[457] 913[431] 885[418] 841 [397] 796[376] 739[349] 685[323] 641[303] 596[281] (-)95T(-) 11 x 8 1/2 3 Purple Medium 1018[480] 981 [463] 931 [439] 903[426] 860[406] 815[385] 756[357] 703(332] 656[310] 0601317MSA [279 x 203] [373] 4 Blue Medium High 1173[554] 1142[539] 1108[523] 1059[500] 1025[484] 989[467] 951[449] 912[430] 855[404] 5 Black High 1338[631] 1327[626] 1268[608] 1245[588] 1227[579] 1193[563] 1165[550] 1134[535] 1099[519] 1 Red Low 947[447] 908[429] 871 [411] 834[394] 796[376] 755[358] 716[338] 681[321] 656[310] 2 Yellow Medium Low 1044[493] 997[471] 968[457] 934[441] 902[426] 862[407] 828[391] 795[375] 765[361] 01317M)SA 11 x 8 1/2 3 Purple Medium 1148[542] 1113[525] 1092[515] 1056[498] 1029[486] 995[470] 962[454] 928[438] 895[422] 07 [279 x 203] [373] 4 Blue Medium High 1213[572] 1180[557] 1155[545] 1126[531] 1096[517] 1062[501] 1032[487] 993[469] 969[457] cl(, 5 Black High 1324[625] 1283[606] 1254[592] 1221 [576] 1198[565] 1169[552] 1141[538] 1107[522] 1080[510] 1 Red Low 1459[689] 1407[664] 1359[642] 1297[612] 1248[589] 1200[567] 1152[544] 1102[520] 1066[503] €€€ 2 Yellow Medium Low 1656[782] 1621[765] 1574[743] 1533[723] 1485[701] 1434[677] 1375[649] 1328[627] 1281 [605] (-)95T(-) 11 x 10 1 3 Purple Medium 1692[799] 1653[780] 1606[758] 1557[735] 1508[712] 1459[689] 1409[665] 1363[643] 1312[619] 0851521MSA [279 x 254] [746] —1 4 Blue Medium High 1881 [888] 1831[864] 1804[851] 1757[829] 1713[808] 1668[787] 1628[768) 1568[740] 1528[721] 5 Black High 1978[934] 1942[917] 1906[900] 1862[679] 1833[865] 1793[848] 1751 [826] 1702[803] 1652[780] a H 1 Red Low 1637[773] 1593[752] 1545[729] 1494[705] 1441 [680] 1382[652] 1329[627] 1274[601] 1236[583] 0 2 Yellow Medium Low 1745[824] 1697[801] 1651[779] 1600[755) 1560[736] 1500[708] 1443[681] 1394[658] 1342[633] o 01521M) [279 x 254]0 1 3 Purple Medium 1766[833] 1723[813] 1686[796] 1633 1771] 1585[748] 1537[725] 1482[699] 1428[674] 1380[651] m 1001521MSA x [746] 4 Blue Medium High 1967[928] 1929[910] 1895[894] 1852[874] 1805[852] 1754[828] 1708[808] 1668[787] 1612[761] o 5 Black High 2137[1009] 2102[992] 2062[973] 2020 1953] 1975[932] 1946[918] 1908[900] 1817[858] 1685[795] 0 1 Red Low 1476[697] 1432[676] 1406[664] 1332[629] 1291[609] 1247[589] 1207[570] 1163[549] 1117[527] -Di 2 Yellow Medium Low 1615[762] 1568[740] 1524[719] 1487[702] 1452[685] 1401 [661] 1356[640] 1325[625] 1278[603] 1151524M8A [279 x 279] [746]11 x 11 1 3 Purple Medium 1709[807] 1674[790] 1633[771] 1591[751] 1551[732] 1519[717] 1477[697] 1436[678] 1397[659] 4 Blue Medium High 1772[838] 1746[824] 1706[805] 1667[787] 1627[768] 1593[752] 1553[733] 1521[718] 1482[699] 5 Black High 1887[891] 1852[874] 1828[863] 1784(842] 1748[825] 1713[808] 1678[792] 1648[778] 1619[764] This table is for reference. The technician/installer must verify furnace is operating within the published rise range before completing the installation. [ ]Designates Metric Conversions. 4 n a CO N Ey y� 5 N D D . 3 m n m 0 m m Air Accessories R95T Series VENT TERMINATION KITS: = FOR HIGH ALTITUDES: RXGY-E02:Vertical/Horizontal Concentric Vent Termination Kit NOTE:For Canadian installations only,an optional derate(manifold 2" Pipe(US Only) gas pressure reduction)method may be used to adjust the furnace for altitude.See Installation Instructions for more RXGY E02A:Vertical/Horizontal Concentric Vent Termination Kit information.This optional method may NOT be used for U.S. 2 Pipe(US&Canadian) installations.See installation instructions as appropriate orifice RXGY E03:Vertical/Horizontal Concentric Vent Termination Kit change is required. 3" Pipe(US Only) RXGY-E03A:Vertical/Horizontal Concentric Vent Termination Kit L.P.CONVERSION KIT:RXGJ FP38 3" Pipe(US&Canadian) CONDENSATE PUMP KIT:PROSTOCK&1 PCB151TUL RXGY-G02: Direct Vent Furnace Side Wall Vent 2"or 3"(US Only) DOWNFLOW/HORIZONTAL CONVERSION KIT:RXGY-CK RXGY-D05:Combustion Air Drain Kit 2" DOWNFLOW/HORIZONTAL LEFT ZERO CLEARANCE CONVERSION KIT:RXGY-ZK RXGY-D06:Combustion Air Drain Kit 3" COMBUSTIBLE FLOOR BASE: RXGC-B17 NEUTRALIZER KIT:RXGY-A01 RXGC-B21 (Replacement Cartridge 54-22120-01) RXGC-B24 EXTERNAL BOTTOM FILTER(UPFLOW/HORIZONTAL)RACK: RXGF-CB [ ]Designates Metric Conversions EXTERNAL SIDE(UPFLOW)FILTER RACK:RXGF-CD EXTERNAL(DOWNFLOW)FILTER RACK:RXGF-CC FILTER RACK FILTER SIZES'INCHES[mml RXGF-CB RXGF-CD RXGF-CC MODEL (UPFLOW/ (UPFLOW) (DOWNFLOW) HORIZONTAL) R95T()040 153/4 x 25 153/4 x 25 14 x 20 [400 x 635] [400 x 635] [356 x 508] R95T(-)O60 153/4 x 25 153/4 x 25 14 x 20 [400 x 635] [400 x 635] [356 x 508] R95T(-)070 153/4 x 25 153/4 x 25 14 x 20 [400 x 635] [400 x 635] [356 x 508] R95T(-)085 191/4 x 25 153/4 x 25 14 x 20 [489 x 635] [400 x 635] [356 x 508] R95T(-)100 191/4 x 25 153/4 x 25 14 x 20 [489 x 635] [400 x 635] [356 x 508] R95T(-)115 223/4 x 25 153/4 x 25 14 x 20 [578 x 635] [400 x 635] [356 x 508] INDOOR COIL CASINGS MODEL NUMBER RXBC-D17A1 RXBC-021A1 RXBC-D21B1 RXBC-D24A1 8 INTEGRATED HOME COMFORT -r Limited Warranty Air R95T Series GENERAL TERMS OF LIMITED WARRANTY* Rheem will furnish a replacement for any part of this product Conditional Parts which fails in normal use and service within the applicable (Registration Required) Ten(10)Years period stated,in accordance with the terms of the limited Heat Exchanger Limited Lifetime warranty. 'For complete details of the Limited and Conditional Warranties,including applicable terms and conditions,contact your local contractor or the Manufacturer for a copy of the product warranty certificate. 9 INTEGRATED HOME COMFORT �� Air I Notes —0 R95T Series 10 INTEGRATED HOME COMFORT Air Notes R95T Series INTEGRATED HOME COMFORT 11 , (1 The new degree of comfort." In keeping with its policy of continuous progress and product Improvement,Rheem reserves the right to make changes without notice. Rheem Heating,Cooling&Water Heating • P.O.Box 17010 Rheem Canada Ltd./Ltee • 125 Edgeware Road,Unit 1 Fort Smith,Arkansas 72917 • www.rheem.com Brampton,Ontario • L6Y OP5 INTEGRATED HOME COMFORT PRINTED IN U.S.A.9/18 OG FORM NO.G11-538 REV 6 z i c�� c oI— c L q 0 � '.',',LiC.. iL C� N - O , A c' off. 1 _R i '.i h J vJ 0 S t N a I'J i U� L � S w fa)— y 9�PI in in Cl) vnd J TO ,6 ;g J - -5o < L6 a o c ccz2 ccza To '5 ! �, ,,"::: (I) V C w C 3 + 3 Ea) � 8 1 0 g ,, . 1,i ,,,, ,,, . ci- .6 -' E , cu u. s •2) c I1111/lllllllllllllllllllllllit//llllllllllG///%%//'/.4. , ` g CC I c.> ` illl�lllfillffillllllllllllll%ll%91��//;A ;7. �� 1/l/1/I///I%%//JI///i/lf%//gf/itei' ' 91P I, ' . ,. 7. Sat Air Table of Contents -o RAWL series TABLE OF CONTENTS Standard Unit Features 3 Model Number Identification 4 Condensing Unit Accessories 5 Gross Capacity and Power Tables 6-7 Unit Dimensions 8-9 Physical Data/Electrical Data 10 Performance Data 11-13 General Installation 14 Piping Recommendation 15-16 Sequence of Operation 17 Guide Specifications 18 Limited Warranty 19 2 INTEGRATED AIR 8 WATER AD Air Standard Unit Features —0 RAWL Series STANDARD UNIT FEATURES • CABINET—Galvanized steel with a durable finish. Stamped • FILTER DRIER—Standard(uninstalled)on all models. Helps louvered panels offer 100% protection for the condenser coil. ensure refrigerant cleanliness. • COMPRESSOR—The Scroll Compressor is hermetically • TRANSFORMER—Step-down type,line to 24 volts. Provides sealed with internal overload protection and durable insulation control circuit voltage. on motor windings.The entire compressor is mounted on • CONTACTOR—The contactor is an electrical switch which rubber grommets to reduce vibration and noise. operates the compressor and condenser fans. • CONDENSER COIL—Constructed with copper tubes and • HIGH PRESSURE CONTROL—Opens the contactor circuit aluminum fins mechanically bonded to the tubes for maxi- on high refrigerant pressure; manual reset. mum heat transfer capabilities. • LOW PRESSURE CONTROL—Stops compressor operation • BASE PAN—Galvanized steel. in the event of loss of refrigerant. • REFRIGERANT CONNECTIONS—Field piping connections • CONDENSER FAN MOTOR(Direct Drive)—Ball bearing 1075 are made through a fixed panel.This allows removal of RPM motors are mounted to minimize vibration and noise access panels after piping connections have been made. problems.These are permanent split capacitor types. ECM • CRANKCASE HEATERS—Standard, all models. Prevents fan motor(10 Ton) refrigerant migration to compressor(s). • TESTING—All units are run tested at the factory prior to ship- • LOW AMBIENT CONTROL—A pressure sensitive fan cycling ment. Units are shipped with a holding charge of nitrogen. control to allow unit operation down to 0°F[-17.8°C]is standard. • EXTERNAL GAUGE PORTS—Allows pressures to be checked • SERVICE VALVES—Standard on liquid and suction lines. without removing access panel. Allows outdoor section to be isolated from indoor coil. • COIL LOUVERS—Helps prevent damage to outdoor coils. • SERVICE ACCESS—Control box as well as the compressor • TIME DELAY—Supplied on tandem compressor models to and other refrigerant controls are accessible through access provide a delay between stages. panels.Control box may be open without affecting the normal • EQUIPMENTGROUND—Lug for field connection of ground wire. operation of the unit.Condenser fan motors are accessible by removing wire grilles. [ I Designates Metric Conversions WHY USE A HIGH EFFICIENCY, AIR COOLED SPLIT SYSTEM? • The size ranges offered by Rheem®allow you to mix or match • Remote mounting of the already quiet condensing unit keeps components to meet actual job requirements,thus eliminating the compressor and condenser fan noise outside,and the ver- the need to use oversized or undersized equipment. Equip- tical discharge fans carry the sound up and away from the sur- ment sized to meet the actual load will provide better operating rounding area. economy, better humidity control,and longer equipment life. • Because of the simple design of the Rheem condensing unit, • With an air cooled system, you have no water or sewer con- installation is quick and simple, and very little maintenance nections to make,and no troublesome and costly water treat- is required. ment problems. • Since the condensing unit is located outside the building, and the low profile air handling unit can be installed in the drop ceil- ing or in the conditioned space, you will not need a separate equipment room which takes up valuable building space. INTEGRATED AIR S. WATER 3 Air Model Number Identification -0 • RAWL Series MODEL IDENTIFICATION R A W L- 121 C A Z Z-Scroll Compressor Design Variation A-Standard Electrical Designation C-208-230-3-60 D-460-3-60 Y-575-3-60 Nominal Tonnage 121=10.0 Tons[35.2 kWJ (Single Compressor) 150=12.5 Tons[44.0 kW] (Tandem Compressor) 180=15.0 Tons[52.8 kW] (Tandem Compressor) 240=20.0 Tons[70.3 kW] (Tandem Compressor) Design Series(R-410A) Type W-High Efficiency Commercial Condensing Unit Rheem [ ]Designates Metric Conversions INTEGRATED AIR 8 WATER 2D Air Condensing Unit Accessories RAWL Series CONDENSING UNIT ACCESSORIES ACCESSORY DESCRIPTION MODEL NUMBER SIZES USED ON Sight Glass RXAG-A048 121 Sight Glass RXAG-A020 180,240 Liquid Line Solenoid Valve` RXAV-CD120 121,150 Liquid Line Solenoid Valve* RXAV-CD1 BO 180,240 'Cannot be used as a pump down solenoid. w INTEGRATED AIR&WATER 5 �r Gross Capacity and Power Tables Air RAWL Series CONDENSING UNIT- GROSS CAPACITY AND POWER RAWL-121 °F[°C] SATURATED EVAPORATOR TEMPERATURE°F[°C] OUTDOOR AMBIENT 40 [4.4] 45[7.2] 50[10.0] TEMPERATURE MBH[kW] KW MBH[kW] KW MBH[kW] KW 75[24] 112.3 6.8 122.3 6.9 133.0 7.0 80[27] 110.3 7.1 120.3 7.3 130.9 7.4 85[29] 107.9 7.5 117.6 7.6 128.0 7.8 90[32] 104.5 7.9 114.6 8.0 124.6 8.1 95[35] 101.3 8.3 110.7 8.4 120.8 8.5 100[38] 97.4 8.7 106.8 8.8 116.8 8.9 105[41] 93.5 9.2 102.7 9.2 111.9 9.4 110[43] 89.3 9.6 98.4 9.7 107.7 9.8 115[46] 87.0 10.1 94.3 10.2 101.3 10.3 RAWL-150 °F[°C] SATURATED EVAPORATOR TEMPERATURE°F[°C] OUTDOOR 40[4.4 AMBIENT ] 45[7 2] 50[10.0] TEMPERATURE MBH[kW] KW MBH[kW] KW MBH[kW] KW 75[24] 151.6[44.42] 9.5 164.3[48.13] 9.6 177.2[51.90] 9.7 80[27] 147.0[43.06] 10.0 159.4[46.69] 10.1 172.0[50.39] 10.3 85[29] 142.3[41.70] 10.6 154.5[45.26] 10.7 166.8[48.88] 10.8 90[32] 137.7[40.33] 11.1 149.5[43.82] 11.2 161.7[47.36] 11.3 95[35] 133.0[38.97] 11.6 144.6[42.38] 11.7 156.5[45.85] 11.9 100[38] 128.3[37.61] 12.1 139.7[40.94] 12.3 151.3[44.34] 12.4 105[41] 123.7[36.24] 12.7 134.8[39.50] 12.8 146.2[42.82] 12.9 110[43] 119.0[34.88] 13.2 129.9[38.07] 13.3 141.0[41.31] 13.4 115[46] 114.4[33.51] 13.7 125.0[36.63] 13.8 135.8[39.80] 14.0 KW -Condensing Unit Power(Compressor+Fan) NOTES:1. All values at approximately 20°F[11.1°C]subcooling MBH -Gross Capacity x 1000 BTUH[kW] 2. Data includes 25 feet[7.62 m]of recommended vapor and liquid lines [ ]Designates Metric Conversions ( = INTEGRATED AIR&WATER Air Gross Capacity and Power Tables RAWL Series CONDENSING UNIT-GROSS CAPACITY AND POWER (cont.) RAW L-180 °F[°C] SATURATED EVAPORATOR TEMPERATURE°F[°C] OUTDOOR 40[4.4] 45[7.2] 50[10.0] AMBIENT TEMPERATURE MBH[kW] KW MBH[kW] KW MBH[kW] KW 75[24] 200.8[58.84] 11.4 216.3[63.38] 11.8 222.7[65.24] 12.2 80[27] 194.3[56.94] 12.2 209.8[61.47] 12.6 217.8[63.82] 12.9 85[29] 187.8[55.03] 13.0 203.3[59.56] 13.3 213.0[62.40] 13.7 90[32] 181.3[53.12] 13.8 196.7[57.64] 14.1 208.1 [60.98] 14.5 95[35] 174.8[51.22] 14.5 190.2[55.73] 14.8 203.3[59.56] 15.2 100[38] 168.3[49.31] 15.3 183.7[53.82] 15.6 198.4[58.14] 16.0 105[41] 161.8[47.40] 16.1 177.1 [51.90] 16.3 193.6[56.72] 16.7 110[43] 155.3[45.50] 16.9 170.6[49.99] 17.1 188.7[55.30] 17.5 115[46] 148.8[43.59] 17.6 164.1 [48.08] 17.8 183.9[53.88] 18.2 ' - RAWL-240 °F[°C] SATURATED EVAPORATOR TEMPERATURE°F[°C] OUTDOOR 40[4.4] 45[72] 50[10.0] AMBIENT TEMPERATURE MBH[kW] KW MBH[kW] KW MBH[kW] KW 75[24] 272.7[79.90] 17.6 294.3[86.23] 18.0 316.7[92.79] 18.5 80[27] 264.1 [77.39] 18.5 285.6[83.67] 18.9 307.7[90.14] 19.4 85[29] 255.6[74.88] 19.4 276.9[81,12] 19.9 298.6[87.50] 20.3 90[32] 247.0[72.37] 20.4 268.1 [78.56] 20.8 289.6[84.86] 21.3 95[35] 238.5[69.87] 21.3 259.4[76.01] 21.7 280.6[82.22] 22.2 100[38] 229.9[67.36] 22.2 250.7[73.45] 22.6 271.6[79.58] 23.1 105[41] 221.3[64.85] 23.1 242.0[70.89] 23.5 262.6[76.94] 24.1 110[43] 212.8[62.35] 24.0 233.2[68.34] 24.4 253.6[74.29) 25.0 115[46] 204.2[59.84] 24.9 224.5[65.78] 25.3 244.5[71.65] 25.9 KW -Condensing Unit Power(Compressor+Fan) NOTES:1. All values at approximately 20°F[11.1°C]subcooling MBH -Gross Capacity x 1000 BTUH[kW] 2. Data includes 25 feet[7.62 m]of recommended vapor and liquid lines [ ]Designates Metric Conversions INTEGRATED AIR&WATER 7 so Air Unit Dimensions RAWL Series UNIT DIMENSIONS AND WEIGHTS MODEL TOTAL WEIGHT Corner Weights,Lbs.[kg] LBS.[kg] A B C D RAWL-121 557[253] 137 [62] 148 [67] 131 [59] 142 [64] RAWL-150 650[295] 160 [72] 171 [78] 154 [70] 165 [75] RAWL-180 746[338] 183 [83] 196 [89] 177 [80] 189 [86] RAWL-240 952[432] 234[106] 251 [114] 226[103] 241 [110] 10-12.5 TON [35.2-44 kW] BOTTOM VIEW BASEPAN SUPPORT 4 2s/s^ �4 313/is '� [701 Bmm] [TyP m) / �383/e" [96.9 mm]—I �— "� 1'j 7 T r ._ r [974.7 mm] >- I 1 I -.* -f� 2' 723/d ij x' _ I ,� I s ��.��..__�[50.8 mm] ' TVP. 7838 mm] 282� [0 m [1I 61'0 mm] [7 I�/�"mm] [�57 2 sco3/ [1726 mm] [7877 mm] .. 19 5 11 �I. - 2+Vis" 23Nsa" mm][1290.5 mm] 7113/6a" �� ' ` „� �"f I [68.2 mm] [586.2 mm] MIDDLE BASE RAIL [1806.5 mm] -0 �" 36Vi" 353/a" � R '^ .-'' ] 443p" v [927.1 mm] [898.7 mm] Y , [1137 mm]-.. ."-- -,7_,. i [50.8 mm] ,I ...1 / ? i ; i4 (� Is _] I M , 1 [ �®� [50.8 mm] II [50.8 mm] [50 8 mm] [1074 msm] 114 I M j i M •!" [50.8 mm] J fa T r 6. liN,14 O--v 8 \+•-, INTEGRATED AIR R.WATER ..w �� Air Unit Dimensions RAWL Series UNIT DIMENSIONS (cont.) 15 TON & 20 TON [52.8 kW & 70.3 kW] 363/a [974.7 mm] 873/e" [2219 mm] li, I�t.40tit, >r °n. 8 • [1143473imemi " r 1 Ir II jl I 1�• • i�i�!i li I !�11 ii a ii !! II i IS i. it ?.. it .l r i l ;. Ii ., OD II ., - p .. II{, .. " 1. I;Ali . BOTTOM VIEW ®� �� BASEPAN SUPPORT 4• slim- [20�� [101.6 mmJ [TYP. mm] i [98.9 mmj I iA - I 1 © 0.8 s 1;[ } TyP J c [1347.7 mm] 82aVI"Flew 0" qs 35�/ea" [2107.0 mm] [2257.8 mm] [0 mm] [150 8 mm] /'�898.3 mmJ [1481.1[1 mm) 861/ie 300 2^he" [776.7 mm] [2189.5 mm] [68.2 mm] -MIDDLE BASE RAIL CONTROL ACCESS 44" ! 42�/e° SIDE VIEW n1�7.8 mm] -. [1089.2 mm]- Ili r. m 2 2" IIh --, �[508 m ] 50.8 mm] [50.8 mm] HIGH VOLTAGE 391. ` % 13/4"[44.5 mm] [50.8 m] [1ola4 mmJ DIA.HOLE J. 1 I ...;.. ! /-LOW VOLTAGE 7/a"[22.2 mmj DIA.HOLE LIQUID LINE 7/a'[22.2 mm15.9 ]DIA.I .(20 TON)OM --SUCTION LINE 131a"[35 mm]DIA.I.D.(10-12.5 TON) 15/e"[41.3 mm]DIA LD.(15-20 TON) rd- f [191.8 mm] , ' , 83/a^ [ ]Designates Metric Conversions �_-L •J [ ] ' C [222 mm] 11Va 1 [285.8 mm]--I `, 28V+" [412.6 mmJ 1982 [719.7 mm] I mm] `-.. 311/e [795.9 mm] ALL MODELS INTEGRATED AIR &WATER 9 ELECTRICAL & PHYSICAL DATA: RAWL cis o ELECTRICAL PHYSICAL . D Model Compressor Full Load Minimum Fuse or HACK Phase AmperesCircuit Outdoor Coil Weight Am No. Circuit Refrig.Per a -a Frequency(Hz) Rated Load Locked Rotor (FLA) Breaker f D. RAWL- Ampacity Circuit Oz.[g] r- Voltage(Volts) Amperes Amperes Fan Amperes Minimum Maximum Face Area No. CFM s Net Ship (RLA) (LRA) Motor Amperes Amperes Sq.Ft.[Sq.m] Rows ] Lbs.[kg] Lbs.[kg] m c a 121 CAZ 3-60-208/230 32.6/32.6 240 3.5 44/48 60/60 80/80 32.88[3.05] 2 8000[3775] 437[12389] 557[253.0] 597[271.0] m 121042 3-60-460 14.8/14.8 130 1.6 26 30 40 32.88[3.05] 2 8000[3775] 437[12389] 557[253.0] 597[271.0] a 150CAZ 3-60-208/230 22.4/22.4 149 4.8 56/56 70/70 70/70 32.88[3.05] 2 8000[3775] 378[10716] 650[294.8] 690[313.0] 150DAZ 3-60-460 10.6 75 2.8 27 30 35 32.88[3.05] 2 8000[3775] 378[10716] 650[294.8] 690[313.0] 18OCAZ 3-60-208/230 25/25 164 7.2 64/64 70/70 80/80 40.38[3.75] 2 12000[5663] 506[14345] 746[338.4] 786[356.5] 180DAZ 3-60-460 12.2 100 4.2 32 35 40 40.38[3.75] 2 12000[5663] 506[14345] 746[338.4] 786[356.5] 240CAZ 3-60-208/230 33.3/33.3 239 7.2 83/83 100/100 110/110 40.38 13.751 3 12000[5663] 655[18569] 952[431.8] 992[450.0] 240DAZ 3-60-460 17.9 125 3.3 44 50 60 40.38[3.75] 3 12000[5663] 655[18569] 952[431.8] 992[450.0] 240YAZ 3-60-575 12.8 80 2.4 32 35 40 40.38[3.75] 3 12000[5663] 655[18569] 952[431.8] 992[450.0] deb ig [ ]Designates Metric Conversions - z -1 a zi D m 0 n a 10 n -4 m a =9fl Air Performance Data "a RAWL Series PERFORMANCE DATA 0 AHRI STANDARD CONDITIONS-COOLING: RAWL MODEL NUMBERS 80°F[26.5°C]DB/67°F[19.5°C]WB INDOOR AIR 95°F[35°C]DB OUTDOOR AIR SOUND OUTDOOR INDOOR TOTAL NET NET RATING INDOOR UNIT COIL AND/OR CAPACITY SENSIBLE LATENT EER IEER dB CFM[Us] RAWL- AIR HANDLER BTU/H[kW] BTU/H[kW] BTU/H[kW] 121CAZ RHGN-H120CR 0 113,000[33.1] 82,100[24.1] 30,900 [9.1] 11.20 12.9 88 3,735[1762] 121DAZ RHGN-H120DR0 113,000[33.1] 82,100[24.1] 30,900 [9.1] 11.20 12.9 88 3,735[1762] 150CAZ RHGL-180Z 0 146,000[42.8] 112,000[32.8] 34,000[10.0] 11.10 14.6 88 5,000[2360] 150DAZ RHGL-180Z 146,000[42.8] 112,000[32.8] 34,000[10.0] 11.10 14.6 88 5,000[2360] 180CAZ RHGL-180Z 0 178,000[52.2] 125,000[36.6] 53,000[15.5] 11.00 13 88 5,100[2407] 180DAZ RHGL-180Z 178,000[52.2] 125,000[36.6] 53,000[15.5] 11.00 13 88 5,100[2407] 240CAZ RHGL-240Z 0 244,000[71.5] 169,000[49.5] 75,000[22.0] 10.00 12.7 88 6,900[3256] i 2400AZ RHGL-240Z 244,000[71.5] 169,000[49.5] 75,000[22.0] 10.00 12.7 88 6,900[3256] 1 240YAZ RHGL-240Y 244,000[71.5] 169,000[49.5] 75,000[22.0] 10.00 12.7 88 6,900[3256] O Highest sales volume tested combination required by D.O.E.test procedures. N/A=Not applicable [ ]Designates Metric Conversions INTEGRATED AIR &WATER 11 AI Performance Data "D RAWL Series COOLING PERFORMANCE DATA WITH • CONDENSING RAWL-150 COOLING RHGL-180 UNIT COIL ENTERING INDOOR AIR 0 80°F[26.7°C]dbE 10 wbE 71°F[21.7°C] 67°F(19.4°C] 63°F[172°C] CFM[Us] 6000[ ] 5000[2360] 4000 n8881 6000(2832) 5000[2360] 4000[1888] 6000[2832] 5000[2360] 4000[1888] DR 0 .06 .01 .14 .06 .01 .14 .06 .01 .14 75 Total BTUH[kW] 159.8[46.8] 154.2[45.2] 148.6[43.6] 164.1 [48.1] 158.3[46.4] 152.6[44.7] 157.5[46.2] 152.0[44.5] 146.5[42.9] [23 9] Sens BTUH[kW] 108.4[31.8] 93.5[27.4] 79.7[23.4] 135.8[39.8] 118.4[34.71 102.2[30.0] 151.0[44.3] 132.6[38.9] 1152[33.8] p Power 10.5 10.3 10.1 11.5 11.3 11.1 12.4 12.2 12.0 U Total BTUH[kW] 159.9[46.9] 154.3[45.2] 148.7[43.6] 164.2[48.1] 158.4[46.4] 152.7[44.8] 157.7[46.2] 152.1 [44.6] 146.6[43.0] o '� Power BTUH[kN[] 108.8[31.9] 93.11.1 9 97.5] 80.1 O 3.5] 136.2 09 9] 116.8[34.8] 102.5[30.0] 151.5[0.4] 133.0[39.0] 115.6.8 [363.9] O Total BTUH[kW] 159.0[46.6] 153.5[45.0] 147.9[43.3] 163.3[47.9] 157.6[46.2] 151.9[44.5] 156.8[46.0] 151.3[44.3] 145.8[42.7] R g5Sens BTUH[kW] 108.6[31.8] 93.8[27.5] 80.0[23.5] 136.0[39.9] 118.7[34.8] 102.5[30.0] 151.3[44.4] 132.9[39.0] 115.5[33.9] D �'4] Power 11.7 11.5 11.3 12.7 12.5 12.2 13.7 13.4 13.2 R• 90 Total BTUH[kW] 157.2[46.1] 151.7[44.5] 146.1 [42.8] 161.4[47.3] 155.8[45.7] 150.1[44.0] 154.9[45.4] 149.5[43.8] 144.0[42.2] B ] Sens BTUH[kW] 107.7[31.6] 93.0[27.3] 79.2[23.2] 135.0[39.6] 117.9[34.6] 101.7[29.8] 150.3[44.1] 132.1 [38.7] 114.8[33.7] U ▪ Power 12.4 12.1 11.9 13.3 13.1 12.9 14.3 14.1 13.8 L Total BTUH[kW] 154.3[45.2] 148.9[43.6] 143.5[42.1] 158.6[46.5] 153.0[44.8] 147.5[43.2] 152.0[44.5] 146.7[43.0] 141.4[41.4] Et �] Sens BTUH[kW] 106.1[31.1] 91.6[26.9] 78.2[22.9] 133.5[39.1] 116.5[34.2] 100.6[29.5] 148.7[43.6] 130.7[38.3] 113.7[33.3] T Power 13.1 12.8 12.6 14.0 13.8 13.5 15.0 14.8 14.5 EM 100 Total BTUH[kW] 150.5[44.1] 145.2[42.6] 139.9[41.0] 154.7[45.3] 149.3[43.8] 143.9[42.2] 148.2[43.4] 143.0[41.9] 137.8[40.4] P [37.8 Sens BTUH[kW] 103.8[30.4] 89.6[26.3] 76.4[22.4] 131.1 [38.4] 114.5[33.6] 98.9[29.0] 146.4[42.9] 128.7[37.7] 112.0[32.8] E Power 13.8 13.5 13.3 14.8 14.5 14.3 15.7 15.5 15.2 R 105 Total BTUH[kW] 145.6[42.7] 140.5[41.2] 135.4[39.7] 149.9[43.9] 144.6[42.4] 139.4[40.9] 143.3[42.0] 138.3[40.5] 133.3[39.1] T• 14161 � Sens BTUH[kW] 100.7[29.5] 87.0[25.5] 74.3[21.8] 128.1 [37.6] 111.9[32.8] 96.7[28.3] 143.3[42.0] 126.1[37.0] 109.8[32.2] Power 14.6 14.3 14.1 15.5 15.3 15.0 16.5 16.2 15.9 R Total BTUH[kW] 139.8[41.0] 134.9[39.5] 130.0[38.1] 144.1[42.2] 139.0[40.7] 133.9[39.2] 137.5[40.3] 132.7[38.9] 127.9[37.5] E [ ° Sens BTUH[kW] 97.1[28.5] 83.9[24.6] 71.6[21.0] 124.4[36.5] 108.7[31.9] 93.9[27.5] 137.5[40.3] 123.0[36.1] 107.2[31.4) °F Power 15.4 15.1 14.8 16.4 16.1 15.8 17.3 17.0 16.7 ['p1 115 Total BTUH[kW] 133.0[39.0] 128.3[37.6] 123.6[36.2] 137.2[40.2] 132.4[38.8] 127.6[37.4] 130.7[38.3] 126.1 [37.0] 121.5[35.6] [46.1] Sens BTUH[kW] 92.7[27.2] 80.1 [23.5] 68.4[20.1] 119.9[35.1] 104.9[30.8] 90.8[26.6] 130.7[38.3] 119.1 [34.9] 103.8[30.4] Power 16.2 15.9 15.7 17.2 16.9 16.6 18.2 17.9 17.6 CONDENSING RAWL-180 coo WON RHGL-180 UNIT COIL ENTERING INDOOR AIR 0 80°F[26.7°C]dbE 10 wbE 71•F 121.7°C] 67°F[19.4°C] 63°F[172°C] CFM[Us] 6120[2888] 5100[2407] 4080[1926] 6120[2888] 5100[2407] 4080[1926] 6120[2888] 5100[2407] 4080[1926] DR J Al .07 .14 Al .07 .14 .01 .07 .14 75 Total BTUH[kW] 238.4[69.9] 230.0[67.4] 221.6[64.9] 217.6[63.8] 210.0[61.5] 202.4[59.3] 210.9[61.8] 203.5[59.6] 196.1 [57.5] [23 9] Sens BTUH[kW] 148.4[43.5] 127.3[37.3] 107.8[31.6] 164.2[48.1] 142.6[41.8] 122.4[35.9] 180.8[53.0] 158.0[46.3] 136.5[40.0] p Power 15.8 15.6 15.3 14.5 14.2 14.0 13.1 12.9 12.6 U Total BTUH[kW] 232.3[68.1] 224.1[65.7] 216.0[63.3] 211.5[62.0] 204.1 [59.8] 196.7[57.6] 204.8[60.0] 197.6[57.9] 190.4[55.8] T 80 p '7 SensPow BTUH[kW] 145.6 r [442.7] 125.0[36.6] 106.0 31.1] 161.5[447.3] 140.3[441.1] 120.535.3] 17813[52.2] 15573[45.6] 134.6[39.5] .1 .4 13.2 R 0 Total BTUH[kW] 226.4[66.4] 218.5[64.0] 210.5[61.7] 205.7[60.3] 198.5[58.2] 191.2[56.0] 198.9[58.3] 192.0[56.3] 185.0[54.2] Sens BTUH[kW] 142.9[41.9] 122.8[36.0] 104.1[30.5] 158.8[46.5] 138.0[40.5] 118.5[34.7] 175.3[51.4] 153.4[45.0] 132.7[38.9] D [29'] Power 17.0 16.7 16.4 15.7 15.4 15.1 14.3 14.0 13.8 R• 9D Total BTUH[kW] 220.8[64.7] 213.0[62.4] 205.3[60.2] 200.0[58.6] 193.0[56.6] 186.0[54.5] 193.3[56.7] 186.5[54.7] 179.7[52.7] Sens BTUH[kW] 140.1 [41.1] 120.3[35.3] 102.1[29.9] 155.9[45.7] 135.6[39.8] 116.6[34.2] 172.5[50.6] 151.0[44.3] 130.7[38.3] B [ 2] Power 17.7 17.4 17.1 16.3 16.0 15.7 14.9 14.7 14.4 L 95 Total BTUH[kW] 215.3[63.1] 207.8[60.9] 200.2[58.7] 194.6[57.0] 187.7[55.0] 180.9[53.0] 187.8[55.0] 181.2[53.1] 174.7[51.2] B 35) Sens BTUH[kW] 137.1 [40.2] 117.9[34.6] 100.0[29.3] 153.1 [44.9] 133.1[39.0] 114.5[33.6] 169.6[49.7] 148.5[43.5] 128.7[37.7][ T Power 18.4 18.1 17.7 17.0 16.7 16.4 15.6 15.4 15.1 E 100 Total BTUH[kW] 210.1 [61.6] 202.7[59.4] 195.3[57.2] 189.3[55.5] 182.7[53.5] 176.1 [51.6] 182.6[53.5] 176.2[51.6] 169.8[49.8] P [37.8] Sens BTUH[kW] 134.2[39.3] 115.3[33.8] 97.8[28.7] 150.0[44.0] 130.6[38.3] 112.4[33.0] 166.5[48.8] 145.9[42.8] 126.5[37.1] E Power 19.1 18.8 18.4 17.7 17.4 17.1 16.4 16.1 15.8 R 105 Total BTUH[kW] 205.1 [60.1] 197.9[58.0] 190.7[55.9] 184.3[54.0] 177.9[52.1] 171.4[50.2] 177.6[52.0] 171.4[50.2] 165.1 [48.4] T [40.6] Sens BTUH[kW] 131.1 [38.4] 112.7[33.0] 95.7[28.1] 146.9[43.1] 128.0[37.5] 110.2[32.3] 163.5[47.9] 143.3[42.0] 124.2[36.4] U Power 19.9 19.5 19.2 18.5 18.2 17.9 17.1 16.8 16.5 E• 110 Total BTUH[kW] 200.3[58.7] 193.3[56.7] 186.2[54.6] 179.5[52.6] 173.2[50.8] 166.9[48.9] 172.8[50.6] 166.7[48.9] 160.7[47.1] [� Sens BTUH[kW] 127.9[37.5] 110.0[32.2] 93.3[27.4] 143.8[42.2] 125.2[36.7] 107.8[31.6] 160.4[47.0] 140.6[41.2] 122.0[35.8] °F ▪ Power 20.7 20.3 20.0 19.3 19.0 18.6 17.9 17.6 17.3 [°C] Total BTUH[kW] 195.7[57.4] 188.8[55.3] 182.0[53.3] 175.0[51.3] 168.8[49.5] 162.7[47.7] 168.2[49.3] 162.3[47.6] 156.4[45.8] 115 [ 1] Sens BTUH[kW] 124.6[36.5] 107.1 [31.4] 90.9[26.7] 140.6[41.2] 122.4[35.9] 105.4[30.9] 157.1 [46.1] 137.8[40.4] 119.6[35.1] Power 21.5 21.1 20.8 20.1 19.8 19.4 18.8 18.4 18.1 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: dbE-Entering air dry bulb Sens -Sensible capacity x 1000 BTUH 0 When the entering air dry bulb is other than 80°F[27°C],adjust the sensible capacity from wbE-Entering air wet bulb Power-KW input the table by adding[1.10 x CFM x(1-DR)x(dbE-80)]. ©Data includes 25 feet(7.62 m]of recommended suction/liquid lines. [ ]Designates Metric Conversions 12 INTEGRATED AIR&WATER COOLING PERFORMANCE DATA __ Air Performance Data RAWL Series CONDENSING RAWL-180 AIIR RHGL-240 • UNIT HANDLER ENTERING INDOOR AIR 0 80°F[26.7°C]dbE O wbE 71°F[21.7°C] 67°F[19.4°C) 63°F[17.2°C] CFM[1./s] 8040[3794] 6700 131621 5360[2530) 8040[3794] 6700[3162) 5360[2530) 8040[3794] 6700[3162] 5360[2530] DR O .013 .01 .13 .06 .01 .13 .06 .01 .13 Total BTUH[kW] 251.1[73.6] 242.3[71.0] 233.5[68.4] 230.4[67.5] 222.3[65.1] 214.2[62.8] 223.7[65.6] 215.8[63.2) 208.0[61.0] 75 Sens BTUH[kW] 172.1[50.4] 148.6[43.6] 126.8[37.2] 188.1[55.1] 163.9[48.0] 141.3[41.4] 204.7[60.0] 179.3[52.6] 155.5[45.6] O 123'81 Power 16.2 15.9 15.6 14.8 14.6 14.3 13.4 13.2 13.0 T Total BTUH[kW] 245.1 [71.8] 236.5[69.3] 227.9[66.8] 224.3[65.7] 216.4[63.4] 208.6[61.1] 217.6[63.8] 209.9[61.5] 202.3[59.3] • 80 P BTUH[kW] 169. [89.7] 146 [42.9] 72.5 ; S66] 185.2 5[54.3] 161.4 5[47.4] 139..1 4[9.9] 201 [O.2] 177.3[81.9] 1533[55.0]D• [26.� wer 6 6 & 4 1 O Total BTUH[kW] 239.2[70.1] 230.8[67.6] 222.4[65.2] 218.4[64.0] 210.8[61.8] 203.1 [59.5] 211.7[62.0] 204.3[59.9] 196.8[57.7] R 85Sens BTUH[kW] 166.7[48.9] 144.1 [42.2] 129.0[36.1] 182.5[53.5] 159.3[46.7] 137.4[40.3] 199.1 [58.4] 174.7[51.2] 151.6[44.4] D [28'4] Power 17.4 17.1 16.8 16.0 15.7 15.5 14.6 14.4 14.1 y 90 Total BTUH[kW] 233.5[68.4] 225.3[66.0] 217.1[63.6] 212.8[62.4] 205.3[60.2] 197.9[58.0] 206.0[60.4] 198.8[58.3] 191.6[56.2] B [32.2) power BTUH[kW] 163.8[48.0] 141.6[41.5] 120.9[35.4] 179.7[52.7] 156.9[46.0] 135.5[39.7] 196.3[57.5] 172.3[50.5] 149.7[43.9] Power 18.0 17.7 17.4 16.7 16.4 16.1 15.3 15.0 14.8 L 95 Total BTUH[kW] 228.1 [66.8] 220.1 [64.5] 212.1[62.2] 207.3[60.8] 200.1 [58.6] 192.8[56.5] 200.6[58.8] 193.6[56.7] 186.5[54.7] B [ ] Sens BTUH[kW] 160.9[47.2] 139.2[40.8] 119.0[34.9] 176.8[51.8] 154.5[45.3] 133.5[39.1] 193.4[56.7] 169.9[49.8] 147.6[43.3] T Power 18.7 18.4 18.1 17.4 17.1 16.8 16.0 15.7 15.4 E Total BTUH]kW] 222.9[65.3] 215.0[63.0] 207.2[60.7] 202.1[59.2] 195.0[57.1] 187.9[55.1] 195.4[57.3] 188.5[55.2] 181.7[53.3] P [37 8] Sens BTUH[kW] 158.0[46.3] 136.6[40.0] 116.8[34.2] 173.8[50.9] 151.9[44.5] 131.3[38.5] 190.4[55.8] 167.2[49.0] 145.4[42.6] E Power 19.5 19.1 18.8 18.1 17.8 17.5 16.7 16.4 16.1 R Total BTUH[kW] 217.8[63.8] 210.2[61.6] 202.6[59.4) 197.1[57.8] 190.2[55.7] 183.3[53.7] 190.4[55.8] 183.7[53.8] 177.0[51.9] T 105 [40.6] Sens BTUH[kW] 154.8[45A] 134.0[39.3] 114.6[33.6] 170.8[50.1] 149.3[43.8] 129.1 [37.8] 187.3[54.9] 164.6[48.2] 143.2[42.0] u Power 20.2 19.9 19.5 18.9 18.5 18.2 17.5 17.2 16.9 R Total BTUH[kW] 213.1 [62.5] 205.6[60.3] 198.1 [58.1] 192.3[56.4] 185.6[54.4] 178.8[52.4] 185.6[54.4] 179.1 [52.5] 172.6[50.6] E 110 Sens BTUH[kW] 151.8[44.5] 131.3[38.5] 112.2[32.9] 167.6[49.1] 146.6[43.0] 126.8[37.2] 184.2[54.0] 162.0[47.5] 141.0[41.3] °F [43.3] Power 21.0 20.7 20.3 19.7 19.3 19.0 18.3 18.0 17.6 [Oi 115 Total BTUH[kW] 208.5[61.1] 201.2[59.0] 193.8[56.6] 187.7[55.0] 181.2[53.1] 174.6[51.2] 181.0[53.0] 174.6[51.2] 168.3[49.3] [46.1] Sens BTUH[kW] 148.5[43.5] 128.5[37.7] 109.8[32.2] 164.3[48.2] 143.8[422] 124.4[36.5] 180.9[53.0] 159.1 [46.6] 138.5[40.6] Power 21.9 21.5 21.1 20.5 20.1 19.8 19.1 18.8 18.4 WITH CONDENSING RAWL-240 RHGL-240 UNIT HANDLER ENTERING INDOOR AIR 4$80°F[26.7°C]dhE CO wbE 71°F[21.7°C] 67°F[19.4°C] 63°F[17.2°C] CFM[Us] 8640[4078] 7200[3398] 5760[2718] 8640[4078] 7200[3398] 5760[2718] 8640[4078] 7200[3398] 5760[2718] DR OO .0 .01 .07 .0 .01 .07 .0 Al .07 75 Total BTUH[kW] 299.6[87.8] 289.1 [84.7] 278.6[81.6] 286.3[83.9] 276.3[81.0] 266.2[78.0] 278.9[81.7] 269.2[78.9] 259.4[76.0] Sens BTUH[kW] 198.4[58.2] 171.0[50.1] 145.5[42.7] 229.1 [67.2] 199.5[58.5] 171.7[50.3] 260.1 [76.2] 228.2[66.9] 198.0[58.0] O '1 Power 17.9 17.6 17.3 17.5 17.2 16.9 17.1 16.8 16.5 TU Total STUN[kW) 292.6[85.8] 282.3[82.7] 272.0[79.7] 279.3[81.9] 269.5[79.0] 259.7[76.1] 271.9[79.7] 262.4[76.9] 252.8[74.1] D I26 Sens BTUH[kW] 194.7[57.1] 167.8[49.2] 142.8[41.9] 225.3[66.0] 196.3[57.5] 169.1 [49.6] 256.4[75.2] 225.0[66.0] 195.3[57.2] O Power 18.9 18.6 18.3 18.5 18.2 17.8 18.1 17.7 17.4 R• Total BTUH[kW] 285.4[83.6] 275.4[80.7] 265.4[77.8] 272.2[79.8] 262.6[77.0] 253.1 [74.2] 264.8[77.6] 255.5[74.9] 246.2[72.2] [284] Sens BIN[kW] 191.0[56.0] 164.7[48.3] 140.3[41.1] 221.7[65.0] 193.2[56.6] 166.6[48.8] 252.8[74.1] 221.9[65.0] 192.8[56.5] O Power 20.0 19.6 19.3 19.6 19.2 18.9 19.1 18.8 18.5 y 90 Total BTUH[kW] 278.1[81.5] 268.3[78.6] 258.6[75.8] 264.8[77.6] 255.5[74.9] 246.2[72.2] 257.4 V5.4] 248.4[72.8] 239.4[70.2] B I32 2] Sens BTUH[kW] 187.3[54.9] 161.5[47.3] 137.6[40.3] 217.9[63.9] 190.0[55.7] 163.8[48.0] 249.0[73.0] 218.7[64.1] 190.1 [55.7] Power 21.1 20.8 20.4 20.7 20.3 20.0 20.3 19.9 19.6 L 95 Total BTUH[kW] 270.6[79.3] 261.1[76.5] 251.6[73.7] 257.3[75.4] 248.3[72.8] 239.3[70.1] 249.9[73.2] 241.2[0.7j 232.4[68.1] B ,, Sens BTUH[kW] 183.6[53.8] 158.4[46.4] 135.0[39.6] 214.2[62.8] 186.9[54.8] 161.3[47.3] 245.2[71.9] 215.6[63.2] 187.5[55.0] T Power 22.3 21.9 21.5 21.9 21.5 21.1 21.5 21.1 20.7 E inn Total BTUH[kW] 262.9[77.0] 253.7[74.4] 244.5[71.7] 249.7[73.2] 240.9[70.6] 232.2[68.1] 242.3[71.0] 233.8[68.5] 225.3[66.0] a [ �] Sens BTUH[kW] 179.7[52.7] 155.2[45.5] 132.4[38.8] 210.5[61.7] 183.7[53.8] 158.7[46.5] 241.5[70.8] 212.4[62.3] 184.9[54.2] E Power 23.6 23.2 22.8 23.2 22.8 22.4 22.7 22.3 21.9 R Total BTUH[kW] 255.1[74.8] 246.2[72.2] 237.2[69.5] 241.9[70.9] 233.4[68.4] 224.9[65.9] 234.5[68.7] 226.3[66.3] 218.0[63.9] A 105 Sens BTUH(kW] 176.1 [51.6] 152.2[44.6] 129.8[38.1] 206.9[60.6] 180.7[53.0] 156.1 [45.8] 234.5[68.7] 209.4[61.4] 182.3[53.4] L)T [40.6] Power 24.9 24.5 24.1 24.5 24.1 23.6 24.1 23.6 23.2 R Total BTUH[kW] 247.1 [72.4] 238.5[69.9] 229.8[67.3] 233.9[68.5] 225.7[66.1] 217.5[63.7] 226.5[66.4) 218.6[64.1] 210.6[61.7] E 110 Sens BTUH[kW] 172.4[50.5] 149.1 [43.7] 127.3[37.3] 203.1 [59.5] 177.6[52.1] 153.6[45.0] 226.5[66.4] 206.2[60.4] 179.7[52.7] °F [43.3] Power 26.3 25.9 25.4 25.9 25.4 25.0 25.5 25.0 24.6 [°C) 115 Total BTUH[kW] 239.0[70.0] 230.6[67.6] 222.2[65.1] 225.8[66.2] 217.9[63.9] 209.9[61.5] 218.4[64.0] 210.7[61.8] 203.1 [59.5] [�1] Sens BTUH[kW] 168.7[49.5] 145.9[42.8] 124.7[36.6] 199.4[58.4] 174.5[51.2] 151.0[44.3] 218.4[64.0] 203.1 [59.5] 177.3[52.0] Power 27.8 27.3 26.8 27.3 26.9 26.4 26.9 26.5 26.0 DR - Depression ratio Total -Total capacity x 1000 BTUH NOTES: dbE-Entering air dry bulb Sens -Sensible capacity x 1000 BTUH O When the entering air dry bulb is other than 80°F[27°C],adjust the sensible capacity from wbE-Entering air wet bulb Power-KW input the table by adding[1.10 x CFM x(1-DR)x(dbE-80)]. Ct)Data includes 25 feet[7.62 m]of recommended suction/liquid lines. [ ]Designates Metric Conversions w INTEGRATED AIR&WATER 1; General Installation Air —0 RAWL Series LIFTING BEAM SPREADER BAR r A CABLE OR—\ 61' RIGGING CHAIN ROOFTOP INSTALLATION K6*:4- If rooftop installation is required, make certain that the , V . building construction is adequate for the weight of the unit. (Refer to physical data chart.) Before placing the unit on -�" " the roof, make certain that the nylon rigging slings are oflibsufficient length to maintain equilibrium of the unit when 1 i .r • • I • • lifting.Under no circumstances should the unit be lifted by I ' ' ,I•°. only one corner for rooftop installation. ! 114 l , ki,,I i d 1 '1:: ! A ( I iI . l "- 5/a [15.9 mm]SHACKLE (EACH CORNER) Illwindion ST-A0890-17 talR'; GENERAL INSTALLATION SLAB INSTALLATION The condensing unit should be installed outdoors. It should be Condensing units should be set on a solid level foundation. located as near as possible to the evaporator section to keep When installed at ground level,the unit should be placed on a connecting refrigerant tubing lengths to a minimum. The unit cement slab. If the pad is formed at the installation site, do not must be installed to allow a free air flow to the condenser coils. pour the pad tight against the structure,otherwise vibration will If several units are installed adjacent to each other, care must be transmitted from the unit through the pad. be taken to avoid recirculation of air from one condenser to The unit must not be connected to any duct work. Do not locate another. In all installations, adequate space must be provided unit under a roof drip; if necessary, install gutters, etc.,to pre- for installation and servicing. vent water run-off from hitting the unit.To prevent air recircula- tion, it is recommended that the unit not be installed under an CLEARANCES overhang, but if necessary allow a minimum of 60 inches [1524 mm]above the unit for air discharge. I36"min.[914 mm] I [ ]Designates Metric Conversions I I 1 I I Condensing Unit Condensing Unit 24"min. 24"min. I I [61' Om [61,' Om Control Box End Control Box End 36"min.[914 mm] I I I 14 '0 INTEGRATED AIR&WATER Piping Recommendation Air 'a RAWL Series EQUIVALENT LENGTH(FT.)[m]OF STRAIGHT TYPE"L"TUBING FOR RECOMMENDED VAPOR AND LIQUID UNE NON-FERROUS VALVES&RTTINGS(BRAZED) SIZES TO VARIOUS LENGTH OF RUN EQUIVALENT LIQUID UNE O.D. VAPOR UNE OD. TUBE SIZE, SOLENOID ANGLE SHORT LONG TEE TEE LENGTH TO (IN.)[mm] (IN.)[mm] INCHES VALVE VALVE RADIUS RADIUS LINE BRANCH EVAPORATOR COOLING MODEL COOLING MODEL [mm]O.D. ELL ELL FLOW FLOW (FT)[1n] 121 121 Ur[13.00] 12[3.7] 8.3 [2.5] 1.6[0.5] 1.0[0.3] 1.0[0.3] 3.1[0.9] 1-15[1-4.57] 5/8[15.9] 13/8[34.9] 5/3[16.00] 15[4.6] 10.4 [3.2] 1.9[0.6] 1.2[0.4] 1.2[0.4] 3.6[1.1] 16-50[4.88-15.24] 5/a[75.9] 13/e[34.9] 3/a[19.00] 18[5.5] 12.5 [3.8] 2.1[0.7] 1.4[0.4] 1.4[0.4] 4.2[1.3] 7/8[22.00] 21[6.4] 14.6 [4.4] 2.4 .7] 1.6[0.5] 1.6[0.5] 4.8[1.5J 51-100[75.54-30.48] sla[15.9] 13/8[34.9] [0 P/e[29.001 12[3.7] 18.8 [5.7] 3.0[0.9] 2.0[0.6] 2.0[0.6] 6.0[1.8] 101-150 p0.78-45.72J 5/a[15.9] is/a[41.3] 13/8[35.00] 15[4.6] 22.9 [7.0] 3.6[1.1] 2.4[0.7] 2.4[0.7] 7.2[2.2] 15/a[41.00] 18[5.5] 27.1 [8.3] 4.2[1.3] 2.8[0.8] 28[0.8] 84[2.6] RECOMMENDED VAPOR AND LIQUID LINE 25/e[54.00] 21[6.4] 35.4[10.8] 5.3[1.6] 3.5[1.1] 3.5[1.1] 10.7[3.3] SIZES TO VARIOUS LENGTH OF RUN EQUIVALENT LIQUID LINE O.D. VAPOR LINE 0.D. LENGTH TO ON.)[mm] (IN.)[mm] EVAPORATOR COOLING MODEL COOUNE MODEL LIQUID LINE PRESSURE DROP PER 100 FEET[30.48 m] (FT)[m] 150 180 240 150 180 240 EQUIVALENT LENGTH(TYPE L COPPER TUBING) 1-15[1-4.57] 5/e[15.9] 4/8115.9] 7/8[22.2] 13/8[34.9] 15/8[41.3] ls/e[41.3] 25[67.9] ',, � 16-50[4.88-15.24] 5/a[15.9] s/e[15.9] 7/8[222] 15/8[41.3] 13/e[41.3] 15/s[41.3] Efi'20 70.3] ,•/-•111, 51-100[15.54-30.48] 5/e[15.9] 3/4[19.1] r/e[22.2] 13/s[41.3] 15/s[41.3] 21/a[53.9] .,r a"( ,III dl, 101-150[30.78-45.72] 5/e[15.9] 3/4[19.1] 7/8[222] 21/s[53.9] 2/e[53.9] 21/a[53.9] 15[62.81 ,' /0 NOTE: Runs between condenser and evaporator not to exceed an equiva- F,o �i eo. 0' ,m, lent length greater than 150[45.7 m]feet. 6�1� �� a. MIL\�II�■ to e[zeal =MI - ■MIS��! O 7ru.61 I■W. ■ o. ►./��■ I 5 m.,1 PUINki .N;1+�r\.d&rr°2b ME VAPOR LINE SYSTEM CAPACITY LOSS I- 5117.6] ��- %�il-P3-a, ME IN PERCENT PER 100 FEET[30.48 m] 2 ,114.1] ,ME►,"g 1I_° �� EQUIVALENT LENGTH(TYPE L COPPER TUBING) T O a[10.s, ' ,,�.'f' op ,�, 20poi] �.■■.■� 7��1♦M0111.1�� '�' ••► A. -I♦� 20[7 + qe''' ,.,+ 1 .M r u s2.e] .�.,�.,: o-'* 1.off,, i, i 2.52 I'a • ,.' 00�,'{N� ,-• I „_1',_' ''1?.6 ,P.' r"'o8 1 ] ♦,�950-' , Y 101as.x] '111111 1�Ng:, 1_./„1�P� ,_ 1S I5.37 ,■,,;�, ��' N 9131'1 �ry�da��IMIN�zdN lIa Rm..N\ % - �� 1 o 5128.1] ��metammwiimil� ,1.�a:00 ammesi e A [3.51 2.5 4 6 8 ,0 20 a0 ~ 4114.1] 1._.,�•2,', ',';� 3 52 1111� [17.2] 127.6] 141.41 155.21 I8-61 [,37.8] 1206.51 MI ,,�.,'1!till f�'.- o /• 120.71 134.51148.31 13 5 7 e2.,1 [103.4] 1172.41 u z.5[e.el I� �\,m■irsO \►■ +:a III 1.1111 PRESSURE DROP-PRIG[Wail 217.01 -M tY. 4UUI,,� .,•I .110' \""li t.s ls.31 .■ �IIIP! . ��1. ki/'11-E NOTES:When evaporator coil is above condenser,the pressure drop due to vertical 1(3,5, ■•' '''f�.g .4•"""■• lift(.5 PSIG per foot of lift)[1.05 kPa per meter]must be added to the pres- sure drop derived from this curve. ., _+s .2 .zs.3 .4 .5 .6.7.e 9 1.0s 2 2.5 3 4 5 6 7 e e 1515 m 2) Size liquid line for no more than 10°F[5.6°C]loss(approximately CAPACITY LOSS IN PERCENT(%) 50 PSIG[206.8 kPa]total pressure drop). 3) Do not oversize liquid line.Oversized liquid lines add significantly to the NOTES: amount of refrigerant required to charge the system. 1)The minimum velocity line(700 fpm)[3.6 m/s]is recommended. 4) The maximum recommended velocity with solenoid valves or other quick 2) For vapor pressure drop(PSIG)[6.9 kPa],multiply percent(%)loss by 1.18. closing devices in the liquid line is 300 FPM[1.5 m/s]. 3) Size vapor lines for no more than 2°F[1.1°C]loss which corresponds to approximately 5 PSIG[20.7 kPa]pressure drop. [ ]Designates Metric Conversions 4) Pitch all horizontal vapor lines downward in the direction of flow(1/2" [12.7 mm]to10'[3.0 m]run). WARNING Do not use oxygen to purge lines or pressure system for leak test.Oxygen reacts violently with oil,which can cause an explosion resulting in severe personal injury or death. INTEGRATED AIR&WATER 15 �r Piping Recommendation Air -i , RAWL Series TYPICAL REFRIGERANT PIPING RECOMMENDATIONS (cont.) COIL ABOVE CONDENSING UNIT NOTE:LIQUID LINE SOLENOID VALVE MUST NOT BE INSTALLED FOR PUMP DOWN.LIQUID LOOP TO TOP LINE SOLENOID VALVE MAY BE INSTALLED VALVE OF COIL FOR"REFRIGERANT ISOLATION"ONLY SOLENOID r P DURING THE OFF-CYCLE.THE SOLENOID VALVE SHOULD BE CLOSED WHEN THE ,C VALVE ; c p vv THERMOSTATS SATISFIED(VALVE CLOSED I ' . I �\c,.‘' WHEN"Y"IS DE-ENERGIZED)FOR EFFECTIVE • " "REFRIGERANT ISOLATION". L SIGH- GLASS Co4 O UNFTS/NG REQUIRED OZS.[g]R410A CHARGE PER FT.[m]OF TUBING TUBE SIZE LIQUID VAPOR O.D.(IN.)[mm] (OZ.) [g] (OZ.) [g] 1/2 [12.7] 1.06[30.0] .04 [1.13] 5/8[15.88] 1.65[46.7] .07 [1.98] 3/4[19.05] 2.46[69.7] .10 [2.83] 7/8[22.23] 3.28[92.9] .13 [3.68] 11/8[28.58] .22 [6.23] 13/8[34.93] .34 [9.63] 15/8[41.28] .48[13.60] 21/8[53.98] .84[23.81] Quantities based on 110°F liquid and 45°F vapor. BASIC SYSTEM CHARGE* RAWL-121 RAWL-150 RAWL-180 RAWL-240 437 oz. 378 oz. 506 oz. 655 oz. [12389 g] [10716 g] [14345 g] [18569 g] 'System with 0 feet[m]of tubing. [ ]Designates Metric Conversions 16 v..v INTEGRATED AIR &WATER ft Air Sequence of Operation •-0 RAWL Series SEQUENCE OF OPERATION RAWL-121, Two Speed 1. When the room thermostat is set on "Cool", "Fan Auto", and 5. The system will continue cooling at maximum capacity, as the temperature is higher than the thermostat setting,the ther- long as the room thermostat is demanding full load and all mostat"Y1"circuit closes and energizes the first speed of the safety device contacts are closed. The low ambient control compressor by energizing compressor contactor (CC1). (LAC)will open and close, allowing the outdoor fans to main- Power to the crankcase heater(CCH)will be de-energized by tain discharge pressure between 250 and 450 psig. the auxiliary contacts(AUX). 6. As the temperature at the thermostat drops enough to satisfy 2. Simultaneously, the "G" circuit provides power to the indoor "Y2", the circuit will open and de-energize the second corn- blower motor circuit and starts indoor air circulation through pressor speed and continues operating on the first speed of the evaporator coil. the compressor. 3. When the discharge pressure increases to 450 psig,the con- 7. When continued cooling satisfies the "Y1" circuit, it will open tacts on the low ambient control(LAC)will allow supply power and de-energize the compressor contactor (CC1), stopping to start the outdoor fan motors(ODF)which begins to pull air the compressor operation and closing the auxiliary contacts through the condenser coils. The system is now in the first (AUX),which energizes the crankcase heater(CH). stage cooling, operating at near sixty percent of full load capacity. 8. The thermostat"G"circuit will stop blower operation. 4. If the temperature at the thermostat continues to increase,the thermostat"Y2" circuit clocca and energizes the both speeds of the compressor which is now full load capacity. SEQUENCE OF OPERATION RAWL-150, 180, 240, Two Stage 1. When the room thermostat is set on "Cool", "Fan Auto", and 5. The system will continue cooling at maximum capacity, as the temperature is higher than the thermostat setting,the ther- long as the room thermostat is demanding full load and all mostat "Y1" circuit closes and energizes the number one safety device contacts are closed. The low ambient control compressor contactor(CC1)through the closed cooling relay (LAC)will open and close,allowing the outdoor fans to main- (R)contacts. Power to the crankcase heater(CCH1)will be de- tain discharge pressure between 250 and 450 psig. energized by the auxiliary contacts(AUX-1). 6. As the temperature at the thermostat drops enough to satisfy 2. Simultaneously, the "G" circuit provides power to the indoor "Y2",the circuit will open and de-energize the compressor con- blower motor circuit and starts indoor air circulation through the tactor(CC2), stopping compressor operation and closing the evaporator coil. auxiliary contacts (AUX-2), which energizes the crankcase 3. When the discharge pressure increases to 450 psig,the heater(CCH2). con- tacts on the low ambient control(LAC)will allow supply power 7. When continued cooling satisfies the"Y1"circuit, it will open to start the outdoor fan motors (ODF) which begin to pull air and de-energize the compressor contactor (CC1), stopping through the condenser coils.The system is now in first stage compressor operation and closing the auxiliary contacts cooling,operating at near fifty percent of full load capacity. (AUX-1),which energizes the crankcase heater(CCH1). 4. If the temperature at the thermostat continues to increase,the 8. The thermostat"G"circuit will stop blower operation. thermostat "Y2" circuit closes and after a 30 second delay, power passes through the time delay control(TDC)and ener- gizes the number two compressor contactor(CC2)through the second set of closed cooling relay(R)contacts. Power to the crankcase heater(CCH2)will be de-energized by the auxiliary contacts(AUX-2). [ ]Designates Metric Conversions INTEGRATED AIR &WATER 17 �e of Air Guide Specifications �i . RAWL Series SAMPLE SPECIFICATIONS Furnish and install as shown on the drawing Rheem Model CASINGS—Casings shall make unit suitable for outdoor instal- air cooled condensing unit suitable for outdoor lation. Casing, base pan and framework shall be manufactured application. of galvanized sheet metal, capable of withstanding a 1000-HR COMPRESSOR—Unit shall have scroll compressor(s). It shall be salt spray test per ASTM B 117. Units shall have stamped louver externally mounted on rubber grommets to reduce vibration trans- panels offering d for protection of the condenser coil.Openings mission and noise to surrounding area.Maximum power input shall shall be provided for power. Dimensions of entire assembly shall not be more than at conditions specified. be not more than inches[mm]high, inches[mm]long and inches[mm]wide. LOW AMBIENT CONTROL—All units shall have standard head REFRIGERATION CIRCUIT—Shall include the compressor, the pressure controls that cycle the condenser fan motors to main- condenser coils,all internal refrigerant piping and liquid and suc- tain condensing pressures for operation down to tion line service valves. Refrigerant stubs shall be extended 0°F[-17.8°C]ambient(12.5 and 15 ton[44.0 and 52.8 kW]mod- through the cabinet for external field connection without affect- els only.) ing accessibility to compressor compartment. CAPACITY—Capacity shall be BTU/H when operating CONTROL PANEL—The panel shall be designed for single at °F[°C]saturated suction temperature. power source to the compressor and fan motor(s) and shall MOTORS&FANS—Each unit shall have 1075 RPM sleeve bear- include fan cycling control,and compressor contactor. ing, permanently lubricated motor(s)fixed with direct-drive, dual SAFETY CONTROLS—Manual reset high pressure and auto- bladed fan(s). Motor(s)shall be equipped with inherent overload matic reset low pressure control shall be provided. protection. Motor(s) &fan(s) shall be mounted on top panel for easy access.Condenser air shall discharge vertically. FACTORY TESTING—All units shall be test run at the factory. COILS—Coils shall be fabricated of 3/8" [9.53 mm] O.D. seamless copper tubing and aluminum fins with die-formed col- lars mechanically bonded to tubes arranged in a staggered pat- tern.All coils shall be submitted to a pressure test after fabrica- tion and dehydrated. Units shall be shipped with a dry nitrogen holding charge.Airflow shall be drawn through design providing uniform air distribution across the coil surface. [ ]Designates Metric Conversions 18 INTEGRATED AIR&WATER Air Limited Warranty —0 RAWL Series GENERAL TERMS OF LIMITED WARRANTY* Rheem will furnish a replacement for any part of this product Compressor Five(5)Years which fails in normal use and service within the applicable Any Other Part One(1)Year periods stated, in accordance with the terms of the limited For Complete Details of the Limited Warranty,Including Applicable Terms warranty. and Conditions,See Your Local Installer or Contact the Manufacturer for a Copy. INTEGRATED AIR&WATER 19 i She new riegiee lart L_ In keeping with its policy of continuous progress and product improvement,Rims!!reserves the right to make changes without notice. Rheem Heating,Cooling&Water Heating • P.O.Box 17010 Rheem Canada Ltd./Ltr e • 125 Edgeware Road,Unit 1 Fort Smith,Arkansas 72917 • www.rheem.com Brampton,Ontario • L6Y OP5 M INTEGRATED AIR&WATER PRINTED IN U.S.A.2/19 GG FORM NO.A11-209 REV.3 if < /11111.1' w INSTALLATION INSTRUCTIONS ', MicroMetl MB—GP MIXING BOXES .F�' a�> ,,,p y: y'f } 'srw "THE,wYCUBE -'. ,: ..,zowx--,.'/t= .mour,w74-?�Y k; i m,,.., n:^vT.' axign�i'-z'...izAt Sd'+'..a'}r"!�#.l l h.�... + s. -1. ... a` t r . SAFETY CONSIDERATIONS Installation and servicing of air-conditioning equipment can be Remove linkage rod it atri it hazardous due to system pressure and electrical components. ;, -,i Or D,It ,CU Only trained and qualified service personnel should install, repair, ` +'a , or service air-conditioning equipment. Untrained personnel can perform the basic maintenance func- ay, tions.All other operations should be performed by trained service .�� ; _ , personnel. When working on air-conditioning equipment, observe precautions in the literature, tags, and labels attached to the unit, If ` and other safety precautions that may apply. Follow all safety codes. Wear safety glasses and work gloves. 4"; Use quenching cloth for unbrazing operations. A CAUTION Equipment Damage Hazard ` .A Electrostatic discharge can short equipment circuitry. Ensure � a,j that you are properly grounded before handling the unit. FIGURE 1 -Remove linkage rod A WARNING Electrical Shock Hazard Can cause severe injury, death or property damage. Disconnect power supply before beginning wiring,or making wiring connec- tions,to prevent electrical shock or equipment damage. GENERAL This mixing box is not designed for simultaneous removal of both access doors- Remove only one access door at a time. Because \ are very large and heavy, it maybe necessary some mixing boxes ry g Y, Remove screws `��;A� to add support legs(field provided and installed).Use caution when installing screws into unit. Q I INSTRUCTIONS Please read instructions thoroughly before beginning. +: '� o 1. Unpack the mixing box from the shipping carton. `;, • ® e 2. Remove the cardboard box located inside of the mixing box —r e containing the JADE controller, a self adhesive gasket, self- ' /,&• n drilling screws, wiring harness, drybulb or enthalpy sensors, metal control box and cover. \ s 3. Confirm orientation required of the mixing box Return Air(RA) Detach RA damper and Outside Air(OA)dampers. from unit 4. Follow the instructions below to relocate one or both dampers. 5. Disconnect the linkage rod and set aside. See figure 1. FIGURE 2 -Detach RA damper from unit 6. Remove 12 screws around the perimeter of the existing RA damper to detach the damper from the mixing box and set aside. See figure 2. Form No.16776-2P Copyright MicroMetl Corporation 2013 All rights reserved. 1 MB-GP MIXING BOXES THE CUBE" 7. 'Remove screws on side panel where damper is to be relocated. 10. Reattach the RA to the desired location. See figure 5. See figure 3. 11. Reconnect the linkage rod. 8. Reattach the side panel to previous damper location. , relocate drewspa and �� .........7. relocate side panel. I 4,1°11.":N444111111111111 gg ® fen _� ��'` "� � � Reattach the RA damper PI � \ �� to the desired location. m I 1 I I I III*al I IleCIP :4_....ma 2.—- 1 il es.—.1 •a `�r ` • .�,3 S--� e o b FIGURE 3-Remove screws on side panel ® e ro • 9. Remove screws on the existing OA damper,rotate to the desired orientation,and reattach to mixing box.Be certain your damp- FIGURE 5-Reattach the RA damper ers or economizer is square when installing or repositioning to prevent binding of the blades. See figure 4. Remove screws on the existing 12. Mount the JADE controller in an accessable location external OA damper, rotate to the desired of the mixing box, duct work,or furnace/airhandler. orientation and reattach to the mixing box. — 4 4 T �� ': r — �, .o P . gig I % . r ` ` °m . I v�� JADE controller box. FIGURE 4- Remove screws on existing OA damper FIGURE 6-Mount JADE controller 2 MB-GP MIXING BOXES"THE CUBE" 13. 'Apply gasket,hold mixing box over return air section of the unit SENSOR & CONTROLS and secure with several sheet metal screws(to avoid damage to coils or blockage of filter racks, screw length should be no JADE requires a C7250A for mixed air sensing. The C7250A longer than 112").Screw on center of the top flange,screw from temperature sensors are 20k Negative Temperature Coefficient inside of unit into the mixing box flange.For proper economizer (NTC).The C7250A MA sensor is required for all applications and operation,the mixing box must be installed square to prevent must be mounted in the unit's mixed air stream (normally the fan damper binding. See figure 7. section) either directly to the sheet metal of the fan using self- tapping sheet metal screws, or in the air stream using the duct Apply gasket and secure the mounting kit. The C7250A must be wired into the two terminals mixing box to unit with sheet metal screws. on JADE labeled "MAT'. The C7250A sensor must be used in all applications. Optional Enthalpy or Dry Bulb Sensor Both are optional, but at least one must be chosen.The Dry Bulb Sensor C7250A, or the Enthalpy Sensor C7400S gets wired into 1 t..,.,, JADE's S-BUS terminals. Either must be placed under the Outside isAir stream,or in full exposure to the outside air weather conditions. " 7 Address Dip Switch array Shipped for OA applications • • • • 111•116•001/MO III , ;;i1 r 20k-Ohm Dry Bulb Sensor SylkBus Sensor —��- NOTE: The protective film on the dip switch is only necessary during the factory assembly process. Simply push through the film FIGURE 7-Apply gasket&attach the mixing box to the unit to set the dip switches;this will not harm the device. Once installed, a sensor can be changed to a different application by simply changing the DIP switch setting and relocating to the appropriate location. 14. Wire logic, actuator and sensors as noted on the included controls documentation. 15. Run wiring from OA sensor&actuator through grommet hole SW in control box housing to Jade controller. Mixed Air ` 0 16. Connect the red & black 4-pin connector to the color coded Temperature fil: T�O; yellow ACT terminal located at the bottom of the left terminal Sensor �� block on the Jade controller. Mounting . i`!> 17. Connect the brown 2-pin connector from the actuator to the Location color coded brown S-BUS terminal located at the top portion of the left terminal block. Typical C7250 Sensor Location 18. When OA sensor is for dry bulb change over, connect the brown 2-pin connector from the OA sensor to the color coded Differential Enthalpy Control orange OAT terminal located at the top portion of the left For differential enthalpy control,the Mixing Box controller uses terminal block. two enthalpy sensors,one in the outside air and one in the return 19. Run control system and check damper operation. Make airstream.The Mixing Box controller compares the outdoor air adjustments to dampers and motor if required. enthalpy to the return air enthalpy to determine Mixing Box use. 20. Attach duct work to RA and OA sections of mixing box. The controller selects the lower enthalpy air(return or outdoor) 21. Finish unit installation. for cooling. For example,when the outdoor air has a lower enthalpy than the return air and is below the set point,the Mixing Box opens to bring in outdoor air for free cooling. Replace the standard outside air dry bulb temperature sensor with the accessory enthalpy sensor in the same mounting location. Mount the return air enthalpy sensor in the return air duct.When using this mode of changeover control,turn the enthalpy set point potentiometer fully clockwise to the D setting. Optional CO2 Sensor Any CO2 Sensor which has a 0-10 Vdc output can be used. We recommend the MicroMetl 9901-0051 Wall or Internal Duct Mount, or the MicroMetl 9901-0052 External Duct Mount. CO2 connects to the IAQ outputs of the JADE Controller. 3 MB-GP MIXING BOXES THE CUBE" Opttonal Smoke Detector STARTUP INSTRUCTIONS The JADE Controller is designed to allow a shutdown command from devices similar to a Smoke Detector. A Smoke Detector Once the mixing box and all electronics are correctly installed and connects to theAUX inputs of the JADE Controller. However,if the wired. Apply power to the system and wait sixty minutes before JADE Controller is previously programmed to interface with a heat checking for alarms.This allows time for all the configured devices pump, this function may not be available.The only other option is (e.g. sensors, actuator) to become operational. The exception is to route the power to the JADE through a smoke detector,therefore the MA sensor which will alarm immediately! Upon power up (or removing the power if a fire or smoke is detected. Normal default after a power outage or brownout), the W7220 controller module for power off is often a complete closing of all outside dampers. begins a five minute power up delay before enabling mechanical cooling. Warning:Any circumstance which involves emergency shutdown should be carefully studied and written into company policy.Please Important Specifications and Reference Information adhere to all applicable electrical,local,and fire emergency codes See Honeywell Product Data Attached before integrating emergency devices into your HVAC scheme. We recommend the MicroMetl 9901-0091 Smoke Detector. • 24 Volt AC Powered(20 to 30 VAC RMS;50/60 Hertz)—Page 9 Optional Power Exhaust MicroMetl carries a large variety of Power Exhausts.To control the External Sensors Power Output: 21 Vdc +1- 5% © 48mA— Power Exhaust output, connect to (Ground)GND and EXH1-0 on Page 9 the JADE Controller. • A Mixed Air(MA)analog sensor is required on all W7220 units Actuator—Communicating —Page 9 This Actuator Communicates to the JADE Controller and is required by some codes. It works with JADE to provide improved • Actuator signal:2-10 Vdc; minimum actuator impedance is 2k control, field detection, diagnostics, and save time during setup ohm—Page 9 and testing. Connects to the S-bus and ACT 2-10,ACT COM, and ACT 24+on the JADE Controller. • All set points and advanced settings are restored after any power loss or interruption—Page 30 • Sensors are self-detecting and do not require programming from the W7220 JADE Controller. • When no buttons have been pressed for ten minutes, the • LCD displays a screen saver,which cycles through the Status 11.1., items. Each Status items displays in turn and cycles to the next item after 5 seconds—Page 20 0 ,`r • Operating Operafing Temperature:-40 to 150°F 40 to 65°C Exception o of display operation down to-4 °F with full recovery at -4 °F sal from exposure to-40°F—Page 9 Honeywell s co', • The JADE economizer controller can only have one va �. communicating actuator connected to it—Page 13 —3 1 I M8I606A21O L., MNml5Nm 6N Up to four non-communicating and two 2-position actuators(1 747V °VacAlc A Cl g 7V ,80 0 each on EXH1 and AUX1 O)—Page 13 092 yµ � NEMA2 .3012 24 • For S-BUS wiring, the sensors may be mounted up to 200 ft. (61 m) from the JADE controller. When the length of wire is over 100 feet use twisted pair shielded wire—Page 11 • All sensor wiring to the Sylk bus and analog sensors is polarity insensitive —Page 11 • Clearing Alarms—Page 31 • Sensor Mounting—Page 11 • Enthalpy Settings— Page 30 • Enthalpy&Dry Bulb Sensor—Page 9 4 M8-GP MIXING BOXES THE CUBE" WIRING DIAGRAM Outside Air C7250A Dry Bulb or C74005 Enthalpy Sensor W7220 Logic Module i CO �`m _ OS-BVS OR OAT xmai Note1 S-BUS connection used for C74005 OA sensor m COrc OAT connection used for C7250A OA sensor O SBUS OR OAT Note 2 Configurable for emergency shutdown,conventional heat(W), err es es n A-3 0'3 0 T2-2 or heat pump changeover(O/B)Inputs Accepts 24V signal In from heat pump W or smoke detector OY2-O Shutdown mode is not available In 2-speed fan mode "'1^,1 r - 0 MI If smoke detector shutdown and 2-speed fan mode are both required, smoke detector may be wired in series with W and economizer will 0 y1 -0 dose upon smoke detection ^ 0 C Note3 Configurable for exhaust fan 2,ERV or system alarm outputs Sends 24V signal out when active OR Note4 The W7220 logic module can have up to one communicating actuator RED v,. connected via 5-BUS and up so four non-communktng actuators C7250A Mixed Air Sensor(supplied) O MAT connected via the ACT 2-10 terminal Field-mount in blower compartment WO ,. O MAT OOCC GRN /1 E-GND --J-- ELK O AUX24 Wal RED O AUXI-O xuas Power Exhaust Fan Connecdon ELK O EXM1 BLU O IAQ 2-10 To optional r ELK I O IAOCOM CO sensor RED I O IAQ 24V+ O 5-BUS To optional return air BRN BRN D—t /5-BUS 09005 Enthalpy Sensor , v ERN 0 s-suss°°• Wiring to actuator ( BRN aou• Communlcadng actuators connect to O SBUS both 5-BUS terminals,ACT COM,and AR 24V+ PNK m" O ACT 2-10 Non-communicating actuators domed to ACT2-10,ACT COM,and ACT 24V+ BLK OAR COM Factory wiring will either include ACT 2-10 RED wiring ors-BUS wiring depending on which OAR 24V+ actuator Is purchased with the economizer 5 MB-GP MIXING BOXES"THE CUBE" , JADE WIRING BLACK 6" E-GRD[GREEN](6') 1101. MALE RED 6" 9901-0503 PIN 6 (INDY PN 9901-0862) OCC(12") BLACK 6" Y2-I(10') Y2-U(10') BLACK6" YI-ItIV] Y1-0(10') cp\ PIN 1 C(107 9901-J6IPP\I I � PIN 1 6 PIN CONNECTOR 6 PIN CONNECTOR 1.1 l l` LIEllil r 1 ii J,� NWI0yTOP HALF: IL_JI PIN 1 ON THE RIGHT BOTTOM HALF: MALE � h PIN 1 ON THE LEFT 9901-0503 ' (INDY PN 9901-0862) '` 41° I ,: ,,.,,:„ s kt , ;F,., , FEMALE 9901-0504 — ,.- ar - (INDY PN 9901-0283) I I :I I I ?5*•IMMI I, _ YELLOW ORANGE h - � �JJJ � .,_ _;' BLUE a.-C , 390 CON l 3 PIN CONNECTOR GRAY O ff Z du € REDb"�_� BROWN ry W cp O ,-o BLACK 6" RED v o — 1 o "' F_ 0/A(6') BROWN II 0/A(6') BROWN U1 9901-12PP MAT+ RED(12") 2 PIN CONNECTOR c) MAr-VIOLET(121 ALE 9901-0503 6 MB-GP MIXING BOXES`THE CUBE" ACTUATOR WIRIING OPTIONAL SECOND ACTUATOR(NON-COMUNICATING) / 1 9901-J4PP 9901-J2PP O ^ O 4 PIN CONNECTOR 2 PIN CONNECTOR O O � II1 � 1 � 1 1111 IIIII � 1 ) I � I � PIN 3 PIN 2 PIN 1 0 0 4321 54321 S-BUS BROWN(6') S-BUS BROWN(6') ACT+PINK(6') ACT-BLACK(6') ACT 24V RED(6') 7 Honeywell JADETM Economizer Module (MODEL W7220) PRODUCT DATA The W7220 Economizer Module automatically detects sensors by polling to determine which sensors are present. If • a sensor loses communications after it has been detected,the W7220 Economizer indicates a device fail error on its LCD. 4 owal r ` ;4 M I oneywell ,.c;„ System Components E 9i f The JADETM Economizer System includes an Economizer . Module,20k mixed air sensor, damper actuator, an optional CO2 sensor,and either a 20k outdoor air temperature sensor „ *� �1 or Sylk Bus sensors for measuring Outdoor Air and return air "44* MI ©. enthalpy,temperature,and humidity. vu Q� Economizer Module 9.* This is the core of the JADETM Economizer System and • includes the user interface for the system.The W7220 Economizer Module provides the basic inputs and outputs to provide simple economizer control.When used with the optional Sylk Bus sensors,the Economizer Module provides PRODUCT DESCRIPTION more advanced economizer functionality. The JADE"' Economizer System is an expandable Sylk Bus Sensors (optional) economizer control system,which includes a W7220 The Sylk Bus Sensor is a combination temperature and Economizer Module(controller)with an LCD and keypad.The humidity sensor which is powered by and communicates on W7220 can be configured with optional sensors. the Sylk Bus. Upto three sensors maybe configured with the Y 9 The W7220 Economizer Module can be used as a stand JADETM Economizer Module.See page 9 for details. alone economizer module wired directly to a commercial set back space thermostat and sensors to provide Outdoor Air CO2 Sensor (optional) dry-bulb economizer control. A CO2 sensor can be added for Demand Control Ventilation (DCV). The W7220 Economizer Module can be connected to optional Sylk Bus sensors for single or differential enthalpy control.The W7220 Economizer Module provides power and communications on the Sylk Bus for the Sylk Bus sensors. Contents Product Description 8 Specifications 9 Before Installation 10 Installation and Setup 10 Mounting 10 Wiring 11 Wiring Application Examples 14 Interface Overview 20 Setup and Configuration 20 Checkout 30 Troubleshooting 31 E ® us JHJU N 1U U 1 I I 63-2700-07 E4436 8 JADETM ECONOMIZER MODULE SPECIFICATIONS 4 Binary inputs: 1-wire 24 Vac+common GND(see page 5 for wiring details).24 Vac power supply:20 to 30 Vac 50/60Hz; W7220A Economizer Module 100 VA Class 2 transformer. The module is designed for use with any Honeywell 2 to 10 Outputs Vdc or Honeywell Sylkbus communicating actuator.The p module includes terminals for a CO2 sensor, Mixed Air sensor, 1 and an Outdoor Dry Bulb sensor. Enthalpy and other options Actuator signal: 2-10 Vdc; minimum actuator impedance is are available with Sylk Bus sensors. 2k ohm; Sylkbus two-wire output for Honeywell Sylkbus 1 communicating actuators. User Interface: Provides status for normal operation,setup parameters,checkout tests,and alarms and error Exhaust fan,Y1,Y2 and AUX1 0: conditions with a 2-line 16 character LCD display and a four All Relay Outputs(at 30 Vac): button keypad. Running: 1.5A maximum Inrush:7.5A maximum Electrical Environmental Rated Voltage: 20 to 30 Vac RMS; 50/60 Hz Operating Temperature: -40 to 150°F(-40 to 65°C). Transformer: 100 VA maximum system input Exception of display operation down to-4°F with full Nominal Power Consumption(at 24 Vac,60 Hz): 11.5 VA recovery at-4°F from exposure to-40°F without sensors or actuators Storage Temperature: -40 to 150°F(-40 to 65°C) Relay Digital Output Rating at 30 Vac(maximum power Shipping Temperature: -40 to 150°F(-40 to 65°C) from Class 2 input only): 1.5A run; 3.5A inrush © 0.45PF (200,000 cycles)or Relative Humidity: 5%to 95%RH non-condensing 7.5A inrush © 0.45PF(100,000 cycles) Dimensions(See Fig. 1 on page 9): External Sensors Power Output: 21 Vdc+/-5% © 48mA Height:4.98 inches(126.4 mm) Width: 6.3 inches(160 mm) IMPORTANT Depth: 1.34 inches(34 mm) All inputs and outputs must be Class 2 wiring. Weight: 0.58 lb.(0.265 kg) Inputs Approvals: UL listed(XAPX)for USA and Canada. 6-19/64(160) SENSORS: 1 NOTE: A Mixed Air(MA)analog sensor is required on all ----1___ � W7220 units;either an Outdoor Air(OA)sensor — for dry bulb change ochn OA Sylkbus sensor for outdoor enthalpyeMA change over is required Ret in - addition to the MA sensor.An additional Return — Air(RA)Sylkbus sensor can be added to the 4-63/64 — system for differential enthalpy or dry bulb zs) — changeover. For differential dry bulb changeover - . fl 2 a 20k ohm sensor is required in the OA and a Sylkbus sensor in the RA.Dip switch on RA _ Sylkbus sensor must be set in the RA position. J Dry Bulb Temperature(optional)and Mixed Air (required),C7250A: MOUNTING HOLE(X2) - 35/32(30) 2-wire(18 to 22 AWG); "' "" Temperature range-40 to 150°F(-40 to 65°C). Fig. 1. Dimensions in inches(mm)showing mounting holes. Temperature and Humidity,C7400S1000(optional): Sylk Bus;2-wire(18 to 22 AWG) Accessories Temperature: range-40 to 150°F(-40 to 65°C) Humidity: range 0 to 100%RH with 5%accuracy. — 50048926-001 2-pin edge connector for sensors(20 pieces per bag) NOTE: Up to three(3)SYLK Bus sensors may be — 50048926-002 6-pin edge connector for field wiring(20 connected to the JADETM Economizer module. pieces per bag) For outdoor air(OA),return air(RA)and — C7250A 20k sensor for MA or OA(dry bulb changeover) discharge(supply)air(DA). — C7400S Sylkbus sensor for enthalpy control in OA and/ or RA and RA for differential dry bulb changeover DCV(CO2)Sensor(C7232 or C7632): — W7220 PCMOD interface tool for JADE controller and 2-10 Vdc control signal; minimum impedance>50k ohm. Personal Computer. Go to www.customer.honey- well.com/economizertools for the software — 50053060-001 Duct mounting kit for sensors — C7632 or C7232 CO2 sensors 9 JADE ECONOMIZER MODULE BEFORE INSTALLATION IMPORTANT The module must be mounted in a position that allows Review the"Specifications"on page 9 before installing the The clearance for wiring,servicing, and removal. JADE.'" Economizer System. Mount the Economizer module on any convenient interior location using the two mounting holes provided on the When Installing This Product enclosure using#6 or#8 screws(screws are not provided and 1. Read these instructions carefully. Failure to follow them must be obtained separately). Use the dimensions in Fig. 1 on could damage the product or cause a hazardous condi- page 9 as a guide. tion. The Economizer module may be mounted in any orientation. 2. Check ratings given in instructions and on the product to However,mounting in the orientation shown in Fig. 1 on page 9 ensure the product is suitable for your application. permits proper viewing of the LCD display and use of the 3. Installer must be a trained,experienced service keypad. technician. 4. After installation is complete,check out product Sensor Location and Mounting operation as provided in these instructions. The JADETM Economizer W7220 uses digital and NOTE: Jade will be in the"set up" mode for the first 60 communicating sensors for control.The C7250 temperature minutes after powered.If a sensor for OA air or sensors(MAa and OAb)are 20k NTC.A MA sensor is required Sylkbus device(sensor,actuator)is disconnected for all applications and is mounted in the mixed air section of a during the set up mode,the Jade will not alarm rooftop unit either directly to the sheet metal using self tapping that failure.The MA sensor is a system "critical" sheet metal screws or in the air stream using the duct sensor, if the MA sensor is removed during the mounting kit. Duct mount kit is part number 50053060-001. set up mode,the Jade will alarm.After 60 minutes Optional OA,RA°and DAd Sylkbus sensors communicate with the Jade controller will change to operation mode and all components removed or failed will alarm the W7220 on the two-wire communication bus and can either in the operation mode. be wired using a two pin header or using a side connector. Each Sylkbus sensor includes a two pin side connector with the packaging.The SKU number of the Sylkbus sensor is INSTALLATION AND SETUP C7400S.All OA, RA and DA sensors are the same SKU number.The sensor is set for the appropriate type of sensing Theusing the three position DIP switch located on the sensor. OA following installation procedures should be performed in the order listed: position is OFF,OFF,OFF; RA is ON, OFF,OFF and DA is 1. Mounting—see page 10 OFF,ON,OFF. During installation the sensors are set for the usage desired.See"Sylk Bus Sensor Wiring"on pagel3for 2. Wiring—see page 11 DIP switch details. 3. Interface and Programming overview—see page 20 4. Setup and Configuration—see page 20 NOTE: The protective film on the dip switch is only nec- 5. Checkout—see page 30 essary during the factory assembly process.Sim- ply push through the film to set the dip switches; this will not harm the device. Troubleshooting and Alarms—see page 31 Once installed,a sensor can be changed to a different application by simply changing the DIP switch setting. MOUNTING This section describes the mounting procedures for the JADETM Economizer module and the sensors. Economizer Module Location and Mounting IMPORTANT Avoid mounting in areas where acid fumes or other a MA=Mixed Air deteriorating vapors can attack the metal parts of the b OA=Outdoor Air module's circuit board, or in areas where escaping ° RA=Return Air gas or other explosive vapors are present. d DA=Discharge Air 10 JADETM ECONOMIZER MODULE Sensor Mounting WIRING The sensors can be mounted directly on to the sheet metal of unit or can be mounted in the air stream using the duct All wiring must comply with applicable electrical codes and mounting kit(order separately). ordinances,or as specified on installation wiring diagrams. Module wiring in the field is terminated to the four screw The kit contains a rod to hold the sensor in the duct,a flange to terminal blocks located on the left and right sides. secure the sensor rod to the duct wall and fill the hole and a gasket to prevent air from leaking through the duct wall.There Module wiring at the OEM factory is terminated via the header are five(5)kits in each bag assembly.See Fig.2. pin terminals located on the left and right sides.The header terminal pins and the terminal blocks have common The rod has slots for threading the wire to prevent loose or terminations for the appropriate input or output.See OEM hanging wire in the duct and can be adjusted for 6 to 12 inch wiring diagram in Fig. 16. length.The flange has extended relief for ease of mounting. See Fig.3. The remainder of this section describes the wiring for the JADETM Economizer module,W7220A. A WARNING Electrical Shock Hazard. Can cause severe injury,death or property damage. Disconnect power supply before beginning wiring,or ROD-1 PIECE making wiring connections,to prevent electrical shock } or equipment damage. $ y. GASKET-1 PIECE to CAUTION FLANGE.1 PIECE M52281A Equipment Damage Hazard. Electrostatic discharge can short equipment Fig.2. Duct Mounting Kit(Part No.50053060-001). circuitry. Ensure that you are properly grounded before handling the unit. Economizer Module Wiring Method s Wire the sensors and outputs,then wire the power connection. Eo.r, Each terminal can accommodate the following gauges of wire: ' ,; • Single wire—from 18 AWG to 22 AWG solid or stranded • Multiple wires—up to two 22 AWG stranded • For the 24 Vac connections:single wire—from 14 to 18 AWG solid or stranded Mai • For S-BUS wiring,the sensors may be mounted up to 200 ft.(61 m)from the JADE controller.When the length of wire WIRE HOLDER LENGTH ADJUSTS is over 100 feet use twisted pair shielded wire. 6-12 INCHES • All sensor wiring to the Sylk bus and analog sensors is polarity insensitive. Prepare wiring for the terminal blocks,as follows: • 1. Strip 1/2 in.(13 mm)insulation from the conductor. rilill 2. Cut a single wire to 3/16 in.(5 mm). Insert the wire in the required terminal location and tighten the screw. 3. If two or more wires are being inserted into one terminal location,twist the wires together a minimum of three turns before inserting them to ensure proper electrical contact. See Fig.4 on page 12 EXTENDED RELIEF 4. Cut the twisted end of the wires to 3/16 in.(5 mm)before (FOR CORRECT MOUNTING) M32282A inserting them into the terminal and tightening the screw. Fig.3. Duct Mounting Adjustments. 5. Pull on each wire in all terminals to check for good mechanical connection. 11 JADETM ECONOMIZER MODULE • 1. STRIP 1/2 IN (13 MM) Table 1. Economizer Module-Left hand terminal blocks. FROM WIRES TO Label TypeDescription BE ATTACHED AT 1/2(13) ONE TERMINAL. Top Left Terminal Block )11///I/ MAT 20k NTC Mixed Air Temperature Sensor 2. TWIST WIRES VV MAT and (polarity insensitive connection) TOGETHER WITH ` COM PLIERS(A MINIMUM OF THREE TURNS). 7 i i OAT 20k NTC Outdoor Air Temperature Sensor OAT and (polarity insensitive connection) COM ��/ S-BUS SYLK Bus Sylk Bus sensor �� S-BUS (polarity insensitive connection) I 4 �J�, ®�61 ` IAQ 2-10 2-10 Vdc Air Quality Sensor Input �I �1 �� v ,,� (e.g.CO2 sensor) IAQ COM COM Air Quality Sensor Common IAQ 24V 24 Vac Air Quality Sensor 24 Vac Source 3. CUT TWISTED END OF WIRES TO 3/16IN.(5 MM)BEFORE INSERTING ACT 2-10 2-10 Vdc Damper Actuator Output(2-10 Vdc) INTO TERMINAL AND TIGHTENING SCREW THEN PULL ON EACH WIRE IN ALL ACT COM COM Damper Actuator Output Common TERMINALS TO CHECK FOR GOOD MECHANICAL CONNECTION. ACT 24V 24 Vac Damper Actuator 24 Vac Source W42 A n/a The bottom pin is not used. Fig.4.Attaching two or more wires at terminal blocks. Table 2. Economizer Module-Right hand terminal blocks. Economizer Module Wiring Details Label Type Description The wiring connection terminals for each module/sensor are: Top Right Terminal Block • "JADETM Economizer Module Wiring"on this page. n/a The first pin is not used • "Sylk Bus Sensor Wiring"on page 13. AUX2 I 24 Vac IN Shut Down(SD)or Heat(W) JADETM Economizer Module Wiring Conventional only Use Fig.5 and Tables 1 and 2 to locate the wiring terminals for Heat Pump Changeover(0/B)in the Economizer module. Heat Pump mode. NOTE: The four terminal blocks are removable.You can OCC 24 Vac IN Occupied/Unoccupied Input slide out each terminal block,wire it,and then E-GND EGND Earth Ground-System Required slide it back into place. EXH1 24 Vac OUT Exhaust Fan 1 Output AUX1 0 24 Vac OUT Programmable: Exhaust fan 2 output or ERV Itror.Av W JADE CONTROLLER any or vrs 4'. System Alarm output. III ;4. I -• I '771 Bottom Right Terminal Block .S ,: Y2-I 24 Vac IN Y2 in-Cooling Stage 2 Input from r, space thermostat " I Y2-0 24 Vac OUT Y2 out-Cooling Stage 2 Output to .. {„ stage 2 mechanical cooling 9 IRI. Y1-1 24 Vac IN Y1 in-Cooling Stage 1 Input from m space thermostat LEFT TERMINAL RIGHT TERMINAL Y1-O 24 Vac OUT Y1 out-Cooling Stage 1 Output to BLOCK LABEL BLOCK LABEL stage 1 mechanical cooling C COM 24 Vac Common NOTE:THE BOTTOM 4 PIN ACTUATOR HEADER IS NOT USED. M32283C R 24 Vac 24 Vac Power(Hot) Fig.5.W7220 Economizer module terminal connection labels. 12 'JADETM ECONOMIZER MODULE Sylk Bus Sensor Wiring NOTE: When using the Sylkbus sensors there will be a The labels on the sensors and controller are color coded for slight delay while the Jade controller and the sen- sorease of installation.Orange labeled sensors can only be wired communicate.Analog sensors do not commu- nicate on the Sylkbus and output a 20k ohm to orange terminals on the controller. Brown labeled sensors signal to the Jade controller so the response time can only be wired to S-bus(brown)terminals.Use Fig.6 and is instantaneous. Table 3 to locate the wiring terminals for each Sylk Bus sensor. Use Fig. 6 and Table 4 to set the DIP switches for the desired Actuator Wiring Options: use of the sensor. 1. The JADE economizer controller can only have one(1) communicating actuator connected to it. 2. Up to four(4) non-communicating and two(2)2-position actuators(1 each on EXH1 and AUX1 0) 3. One(1)communicating and up to four(4)non-communi- Y+ t cating and two(2)2-position actuators(1 each on EXH1, Hone m and AUX1 0).When using a 2-position actuator on the """=,11:= • AUX1 0,the AUX1 0 must be programmed for Exh2 and e(R the%open is the%open of the outdoor damper when 0 the 2-pos actuator opens.Connect 24 V to Exh1 and/or c I AUX1 0 and ground to the Jade"C"terminal. x 0 DIP H lSWITCH 9 LABEL a-• 0 CO2 Sensor Wiring ®T R DIP N 1/I. SWITCHES When using the C7232 Honeywell CO2 sensors the black and s.o�, (3) brown common wires are internally connected and only one is connected to'lAQ COM"on the Jade. Use the power from the ,I mom • Jade to power the CO2 sensor OR make sure the ground for €. '\ s.e�s the power supplies are common.See wiring diagram below for r r the C7232 and C7632 wiring diagrams. SYLK BUS SYLK BUS TERMINALS 2 PIN SIDE NOTE: When using the C7632(or any 0-10 Vdc CO2 sen- (1 AND 2) CONNECTOR sor)with the Jade you will need to set the N13.2271B CO2ZERO to 400 ppm and the CO2SPAN to 1600 Fig.6.Sylk Bus sensor DIP switches. ppm in the ADVANCED SETUP menu. Table 3. SYLK Bus Sensor Wiring Terminations. c7232 Terminal 1— RED - u 24V BLACK I I (HOT) Nbr Label Type Description u- L2A r+ YELLOW 1 S-BUS SYLK Sylk Bus Communications ANALOG (SensorBus)polarity insensitive BROWN Q Bus OUT POWER SUPPLY PROVIDE ORANGE DISCONNECT MEANS AND I 2 S-BUS SYLK Sylk Bus Communications i� OVERLOAD PROTECTION Bus (Sensor Bus)polarity insensitive GREEN AS REQUIRED. M175433 Table 4.SYLK Bus Sensor DIP Switch Settings. Fig.7.Wiring for C7232 DIP Switch Positions for Switches 1,2,&3 Use 1 2 3 LI C7632 I I (HOT) DAa OFF ON OFF L2 RAb ON OFF OFF OffOFF OFF OFF 00000 a DA= Discharge Air O-10 VDC b RA=Return Air A POWER SUPPLY. PROVIDE DISCONNECT MEANS c OA=Outdoor Air AND OVERLOAD PROTECTION AS REQUIRED. M34095 Fig.8.Wiring for C7632 13 JADE ECONOMIZER MODULE WIRING APPLICATION Stand-alone Economizer EXAMPLES The most basic configuration is the stand-alone Economizer (see Fig.9 and Fig. 11). This section shows the wiring configurations for the JADETM A stand-alone Economizer is directly wired to sensors, Economizer system. actuators,thermostat,and mechanical cooling controls in the roof top unit. It does not require Sylk Bus communications. t • ROOFTOP UNIT MA TEMP SENSOR 77 20K NTC W7220 ECONOMIZER CONTROLLER MODULE us Y1 WI G • • , 1 Q OCC Y2 W2 - MAT— n^' AUX2-I 1K1 • MAT— �,.. QOAT TEMP—OAT a� -OCC • SENSOR—OAT 'I -E-GND� 20K NTC 7 Rol ,fir —Aux1-o _Fro SENSOR—IAO COM tom/ - ', _yp 2.10VDC (OPTIONAL) ACT(2.10V)- "`" ti• -vio ACT COM— ACT 24V =C RBI • •fir• }� KI WY-ry M7215 R(,-) 24 VAC •• 0 Ca) M Q2 1Q NOTE THATTHE C7250 20K NTC SENSOR CAN BE MOUNTED IN THE OAT ONLY IN THIS CONFIGURATION. QWHEN USING A HEAT PUMP THERMOSTAT THERMOSTAT TERMINALS MAY DIFFER:WI MAY BE LABELED 0 THERMOSTAT OR B AND W2 MAY BE LABELED W. Q3 WHEN USING A HEAT PUMP WITH DEFROST FEEDBACK,ADD AN ISOLATION RELAY BETWEEN 0 AND C. MIMED Fig.9.Stand-alone dry bulb Economizer configuration with black motor M7215. EXH1 OR AUX1 O 1 c 1 ACTUATOR NOTE:ON/OFF ACTUATORS CAN BE USED ON THE EXH1 OR AUX1 O TERMINAL WITH GROUND TO THE C TERMINAL.WHEN PROGRAMMING THE EXH1 OR AUX1 0,THE%IS THE PERCENT OPEN POSITION OF THE OUTDOOR AIR DAMPER WHEN THE EXH1 OR AUX1 0 TERMINAL IS ENERGIZED AND THE 2-POS DAMPER GOES OPEN.IF USING THE AUX1 0 TERMINAL PROGRAM AUX1 0 FOR EXH2. M33E09 Fig.10.2-position actuator. EXH1 and EXH2 Wiring: If the inrush or FLA amps is above listed limits OR if the fan is a line voltage fan, an external relay will be required. You will not have to add an external relay for the power exhaust fans if the power draw of the fan is below these limits: If no relay is required,the EXH1 or AUX1 out is wired to one side of the fan and the other side is wired to system common Relay Digital Output Rating at 30 Vac(maximum power- "C"on the W7220 or equipment terminal board. (W7220 from Class 2 input only): 1.5A run; powered off the system transformer). 3.5A inrush @ 0.45PF(200,000 cycles)or 7.5A inrush @ 0.45PF(100,000 cycles) If a relay is required, the coil of the relay would be wired between the EXH1 or AUX1 and the C terminal of the W7220. 14 JADE,'"ECONOMIZER MODULE • . j N MA TEMP ROOFTOP UNIT SENSOR W7220 ECONOMIZER CONTROLLER MODULE 20K NTC 0/B Yi 1 WI G OCC Y2 W2 3 MAT— `-„. 1K1 MAT— �f` �AUX2-I 1 AOAT TEMP— OAT _ ` ..,. ,- -, _OCC • SENSOR OAT ,$,. "" GND-1 20KNTC r —AUX1-0 CO2 IAO(2-10V) $. J—Y21 SENSOR IAO COM— r e� _V20 2-10 VOC IA0 24V , '{..—Y11 (OPTIONAL) ACT(2-10V)— ' :" .viO ACT COM ACT 24V— `-- '.—C Rn „.s: JI I 1K1 © 24VAC R(.) • O MS7503OR MS7505 CO :-- © A ANOTE THAT THE 20K NTC SENSOR CAN BE MOUNTED IN THE OAT TERMINALS ONLY IN THIS CONFIGURATION. THERMOSTAT 2Q WHEN USING A HEAT PUMP THERMOSTAT,THERMOSTAT TERMINALS MAY DIFFER:W1 MAY BE LABELED 0 OR B AND W2 MAY BE LABELED W. nWHEN USING A HEAT PUMP WITH DEFROST FEEDBACK,ADO AN ISOLATION RELAY BETWEEN 0 AND C. M3e,640 Fig. 11.Stand-alone dry-bulb Economizer configuration with Honeywell MS75O3 or MS75O5 Direct Coupled Actuator. 15 JADETM ECONOMIZER MODULE • , ROOF TOP UNIT MA TEMP SENSOR W7220 ECONOMIZER CONTROLLER MODULE 20K NTC O/H Yi W1 G OCC Y2 W2 • X Q1 AMATopio 1K1 -AUX2-I�� OAT TEMP •� -OCC • SENSOR OAT- '- E-GNDZ 20K NTC - . —Auxi-o Y21 n CO2 IAO(2-10V) f .-.^ SENSOR IAO COM . 1 i 4M -Y20 2-10VDC IA024V 4 -Y11 (OPTIONAL) ACT(2-10V) "" Z Yt0 ACT COM ACT 24V :, =C R 1 0-' • .1K1 K1 ©1 R(+) 24 VAC •• „=( --: MS3103J r ©8-BU8 OR MS3105J C(-) 63' G 1 O 1Q NOTE THATTHE 20K NTC SENSOR CAN BE MOUNTED IN THE OAT TERMINALS ONLY IN THIS CONFIGURATION. THERMOSTAT 2Q WHEN USING A HEAT PUMP THERMOSTAT,THERMOSTAT TERMINALS MAY DIFFER:W1 MAY BE LABELED 0 OR B AND W2 MAY BE LABELED W. ^ !J\WHEN USING A HEAT PUMP WITH DEFROST FEEDBACK,ADD AN ISOLATION RELAY BETWEEN 0 AND C. M325500 Fig. 12.Stand-alone dry-bulb Economizer configuration with Honeywell MS3103J or MS3105J communicating actuators. 16 JADETM ECONOMIZER MODULE Economizer with Sylk Bus Sensors A standalone economizer with Sylk Bus sensors uses Sylk Bus communications(see Fig. 13, Fig. 14 and Fig. 15).The Sylk Bus reduces wiring requirements while providing additional functionality. ® 0z ROOF TOP UNIT MA TEMP SENSOR ill • 20K NTC W7220 ECONOMIZER CONTROLLER MODULE 0/B Yl W1 G • OCC Y2 W2 1 Q—a MAT— �� —AUX2-I 1K1 • MAT wu ! á : �;, ) e 0 —O j w - S BUS— 7 ' , faAUX1-0 a .r. r Y" CO2 IAO(210V) +r t SENSOR—IAO COM— .. wxa ®��t FY©*`w I rro I —Y20 N% 2-10VDC IA024V y,, an*, 4,t,.. ✓ ,'''� —Yll (OPTIONAL) ACT(2 10V)— 'j' Y y' sl sd ,. ,.: ° ACT COM— 1 c ZY70 ACT 24V 1. x d y, ® (+)� 24 VAC • 3 0-_i _ : i..._.l,...F.T.: •* ' .- OUTSIDE AIR THERMOSTAT k•p u TEMP/HUMIDITY(ENTHALPY) P1-�. ....-t_ I9 SYLKBUS SENSOR IN THIS CONFIGURATION,AN OPTIONAL DISCHARGE AIR TEMP/HUMIDITY • + A (ENTHALPY)SYLKBUS SENSOR CAN BE ADDED FOR ADVANCED CONTROL AS SHOWN IN THE LOWER LEFT OF THIS FIGURE. a,a....-.x •.aaax�w ...Ai RETURN AIR liminmi V.; TEMP 2Q DO NOT USE THE C725020K NTC SENSOR WITH THE OA TERMINAL IN THTEMP/HUMIDITY(ENTHALPY) CONFIGURATION. - --` I SYLKBUS SENSOR • • S WHEN USING A HEAT PUMP THERMOSTAT,THERMOSTAT TERMINALS MAY DIFFER:W1 MAY BE LABELED 0 OR B AND W2 MAY BE LABELED W. WHEN USING A HEAT PUMP WITH DEFROST FEEDBACK,ADD AN ISOLATION 4 RELAY BETWEEN 0 AND C. M325850 Fig.13. Economizer with Sylk Bus sensors for enthalpy configuration with Honeywell M7215 black motor. 17 JADETM ECONOMIZER MODULE • Q , ROOF TOP UNIT • MA TEMP SENSOR 20K NTC W7220 ECONOMIZER CONTROLLER MODULE O/B Yl W1 G • � ` 1 OCC Y2 W2 a_ MAT— %`*' iK1 AUX2-I 1 MAT— t E-GND-1 S-BUS ' S-BUS—. —AUX7-0 at�y. Y21 1 CO2 IA0(2-10V) , .dn J— SENSOR—IA000M— e- —Y20 /Ill- 2-10VDC IA024V •} $! —Y11 (OPTIONAL) ACT(2-10V) _ —I—Y10 ACT COM — _ 1K1 ACT24V # —C R, R({)1 © • 24 VAC -'-�"y ill MS7503 OR MS7505 Co) ire A*'L` 'ITi'`' © A9 _----,—_.... 14.-.4.a OUTSIDE AIR a• wwca if �. 4" 'I I SYLKBUSSEETEMP/HUMIDITY(ENTHALPY) THERMOSTAT ['^_' - h SYLKBUS SENSOR 1Q IN THIS CONFIGURATION,AN OPTIONAL DISCHARGE AIR TEMP/HUMIDITY (ENTHALPY)SYLKBUS SENSOR CAN BE ADDED FOR ADVANCED CONTROL AS _ SHOWN IN THE LOWER LEFT OF THIS FIGURE. 1 - , �,°7.—r$ RETURN AIR 93 TEMP/HUMIDITY(ENTHALPY) A DO NOT USE THE C7250 20K NTC SENSOR WITH THE OA TERMINAL IN THIS SYLKBUS SENSOR CONFIGURATION. • • Q3 WHEN USING A HEAT PUMP THERMOSTAT,THERMOSTAT TERMINALS MAY DIFFER W 1 MAY BE LABELED 0 OR B AND W2 MAY BE LABELED W. 4Q WHEN USING A HEAT PUMP WITH DEFROST FEEDBACK.ADD AN ISOLATION RELAY BETWEEN 0 AND C. m32556o Fig. 14. Economizer with Sylk Bus sensors for enthalpy configuration with a Honeywell MS7503 or MS7505 Direct Coupled Actuator. 18 JADETM'ECONOMIZER MODULE ROOF TOP UNIT MA TEMP SENSOR 20K NTC W7220 ECONOMIZER CONTROLLER MODULE O/B Y1 W1 G • OCC Y2 W2 • 4Q1 — MAT MAT ".1 AUX2-I 1K7 • ,,. 6 OCC ! .. .,.❑ o 47 E-GND- S-BUS. `- 47 _ S-BUS--' -, `K7 AUX1-O CO2 IAO(2 10V) + -V21 SENSOR—IAO COM — k _y20 nr1- 2-1OVDC IA024V �x 4, 4' (OPTIONAL) ACT(210V)— 4 7. -Y10 '�' ACT COM ACT 24V 4`T' C R-1K1 0' • 24 VAC 0± C() MS3103J ©S-BUS OR MS3105J A Q S-BUS II O THERMOSTAT 1Q IN THIS CONFIGURATION,AN OPTIONAL DISCHARGE AIR TEM/HUMIDITY C74005 (ENTHALPY)SYLKBUS SENSOR CAN BE ADDED FOR ADVANCED ^ow(waiu III OUTSIDE AIR CONTROL AS SHOWN IN THE LOWER LEFT OF THIS FIGURE. _ems °"`L TEMP/HUMIDITY i Q2 THE 8-BUS COMPONENTS MAY BE DAISY CHAINED TO ANOTHER S-BUS Q.. SYLKBUS SENSOR COMPONENT. Qp C74005 Q3 WHEN USING A HEAT PUMP THERMOSTAT,THERMOSTAT TERMINALS 1 I '°0° ”x!F RETURN AIR MAY DIFFER:W1 MAY BE LABELED 0 OR B AND W2 MAY BE LABELED W. - J... �I TEMP/HUMIDITY(ENTHALPY) 1 SYLKBUS SENSOR 44 WHEN USING A HEAT PUMP WITH DEFROST FEEDBACK,ADD AN • •. ISOLATION RELAY BETWEEN 0 AND C. 14325530 Fig. 15. Economizer with Sylk Bus sensors for enthalpy configuration with a Honeywell MS3103J or MS3105J communicating actuators. MAT MAT OAT NOT USED AUX2-1 2-PIN CONNECTOR - JADE CONTROLLER OCC NEEDED(VHR-2N) - 8-BUS E-GND i 8-BUS • EXH1 li S-BUS � AUX1-0 � S-8U5 /r(/ S-BUS Ilk 6-PIN CONNECTOR 3 PIN CONNECTOR 1,1 +`+ NEEDED(VHR-6N) NEEDED(VHR-3N) OP IX)2-10 i'114 ,`. ' IAO COM Y2-I IA0 24V+ Y2-0 4-PIN CONNECTOR ACT2-10 + Y1-I NEEDED(VHR-4N) °T°• ACT COM Y1-O 0E0 74 ACT 24V+ R AJN+ - NOT USED C LEFT TERMINAL RIGHT TERMINAL BLOCK LABEL BLOCK LABEL PART NUMBER PIN COUNT MANUFACTURER JST VH CONNECTOR PLASTIC HOUSING VHR-2N PLUS 2 PIECES SVH-21T-P1.1 METAL CONTACT 2 JST VH JST VH CONNECTOR PLASTIC HOUSING VHR-3N PLUS 3 PIECES SVH-21T-P1.1 METAL CONTACT 3 JST VH JST VH CONNECTOR PLASTIC HOUSING VHR-4N PLUS 4 PIECES SVH-21T-P1.1 METAL CONTACT 4 JST VH JST VH CONNECTOR PLASTIC HOUSING VHR-6N PLUS 6 PIECES SVH-21T-P1.1 METAL CONTACT 6 JST VH TYPE 42743-2 1 AMP 1/4 INCH QUICK CONNECT FOR M7215 BLACK MOTOR NOTE:THOSE ARE NOT HONEYWELL PART NUMBERS.TO PLACE AN ORDER-CONTACT YOUR SALES REPRESENTATIVE. M31402E Fig. 16.OEM wiring harness information.Refer to previous wiring diagrams for detailed application wiring. 19 JADETM ECONOMIZER MODULE INTERFACE OVERVIEW • Press the A button to increase(change)the displayed parameter value.a This section describes how to use the Economizer's user • Press the V button to decrease(change)the displayed interface for: parameter value.a • Keypad and menu navigation • Press the'-1 button to accept the displayed value and store it • Settings and parameter changes in non-volatile RAM. • Menu structure and selection • CHANGE STORED displays. User Interface • Press the III button (MenuUp/Exit)to return to the The user interface consists of an LCD display and a 4-button previous menu. keypad on the front of the Economizer module.The LCD is a a When values are displayed,pressing and holding the A or V 16 character by 2 line dot matrix display. button causes the display to automatically increment. • Menu Structure Table 5 on page 21 illustrates the complete hierarchy of menus and parameters for the JADETM Economizer system. ,-"91_ ww..i� 1 ..,,. vi 2 LINE • cD The Menus in display order are: .' Os d • STATUS r 4r N j ` • SETPOINTS e it *lot .,,,'6' , I . 't 1 a • SYSTEM SETUP • ADVANCED SETUP • CHECKOUT • • ALARMS (ENTER) UP SELECT BUTT) TON SCROLL BUTTON IMPORTANT (UP/DOWN) BUTTONS M32274A Table 5 on page 21 illustrates the complete hierarchy Your menu parameters will be different depending on Fig. 17.Economizer LCD and Keypad Layout. your configuration. Keypad For example if you do not have a DCV(CO2)sensor, The four navigation buttons illustrated in Fig. 17 are used to then none of the DCV parameters appear and only scroll through the menus and menu items,select menu items, MIN POS will display If you have a CO2 sensor, the and to change parameter and configuration settings. DCV MIN and DCV MAX will appear AND if you have Using the Keypad with Menus 2 speed fan DCV MIN(high and low speed)and DCV MAX(high and low speed will appear). To use the keypad when working with menus: • Press the♦ button to move to the previous menu. SETUP AND CONFIGURATION • Press the V button to move to the next menu. • Press the'-'button(Enter)to display the first item in the Before being placed into service,the JADETM Economizer currently displayed menu. module must be setup and configured for the installed system. • Press the button(Menu up)to exit a menu's item and IMPORTANT return to the list of menus. During setup, the Economizer module is live at all times. Using the Keypad with Settings and Parameters The setup process uses a hierarchical menu structure that is easy to use.You press the A and V arrow buttons to move To use the keypad when working with Setpoints, System and forward and backward through the menus and press the '-' Advanced Settings,Checkout tests,and Alarms: button to select and confirm setup item changes. • Navigate to the desired menu. • Press the''button(Enter)to display the first item in the Time-out and Screensaver currently displayed menu. • Use the and buttons to scroll to the desired When no buttons have been pressed for 10 minutes,the LCD parameter, displays a screen saver,which cycles through the Status items. Each Status items displays in turn and cycles to the next item • Press the''button(Enter)to display the value of the after 5 seconds. currently displayed item. 20 JADETM ECONOMIZER MODULE Table 5. Menu Structurea. Parameter Parameter Default Range and Menu Parameter Value Incrementb Notes STATUS ECON AVAIL NO YES/NO YES=economizing available;the system can use Outdoor Air for free cooling when required. ECONOMIZING NO YES/NO YES=Outdoor Air being used for 1st stage cooling. OCCUPIED NO YES/NO YES=OCC signal received from space thermostat or unitary controller. YES=24 Vac on terminal OCC No=0 Vac on terminal OCC. HEAT PUMP n/ac COOL Displays COOL or HEAT when system is set to heat pump(non- HEAT conventional) COOL Y1-IN OFF ON/OFF Y1-I signal from space thermostat or unitary controller for cooling stage 1. ON=24 Vac on term Y1-I OFF=0 Vac on term Y1-I COOL Y1-OUT OFF ON/OFF Cool Stage 1 Relay Output to mechanical cooling(Y1-OUT terminal). COOL Y2-IN OFF ON/OFF Y2-I signal from space thermostat or unitary controller for second stage cooling. ON=24 Vac on term Y2-I OFF=0 Vac on term Y2-I COOL Y2-OUT OFF ON/OFF Cool Stage 2 Relay Output to mechanical cooling(Y2-OUT terminal). MA TEMP _ °F -40 to 150°F Displays value of measured mixed air from MAT sensor. Displays--.-if not connected,short,or out-of-range. DA TEMP _ °F -40 to 150°F Displays when Discharge Air Sylk Bus sensor is connected and displays measured discharge air temperature. Displays--.-°F if sensor sends invalid value,if not connected, short or out-of-range. OA TEMP _ °F -40 to 140°F Displays measured value of outdoor air temperature. Displays—°F if sensor sends invalid value,if not connected, short or out-of-range. OA HUM __% 0 to 100% Displays measured value of outdoor humidity from OA Sylkbus sensor.Displays-%if not connected,short,or out-of-range. RA TEMP _ °F 0 to 140°F Displays measured value of return air temperature from RA Sylkbus sensor.Displays--°F if sensor sends invalid value,if not connected,short or out-of-range. RA HUM _% 0 to 100% Displays measured value of return air humidity from RA Sylkbus sensor.Displays--%if sensor sends invalid value,if not connected,short or out-of-range. IN CO2 ___ppm 0 to 2000 ppm Displays value of measured CO2 from CO2 sensor.Invalid if not connected,short or out-of-range.May be adjusted in Advanced menu by Zero offset and Span. See note on page 6 concerning C7632 sensor. DCV STATUS n/a ON/OFF Displays ON if above setpoint and OFF if below setpoint,and ONLY if a CO2 sensor is connected. DAMPER OUT 2.0V 2.0 to 10.0 V Displays output voltage or position to the damper actuators ACT POS n/a 0 to 100% Displays actual position of actuator. ACT COUNT n/a 1 to 65,535 Displays number of times actuator has cycled.1 Cycle equals the sum of 180°of movement in any direction. ACTUATOR n/a OK/Alarm(on Displays Error if voltage or torque is below actuator range Alarm menu) EXH1 OUT OFF ON/OFF Output of EXH1 terminal.Displays ON when damper position reaches programmed percentage setpoint. ON=24 Vac Output;OFF=No Output. 21 JADErm ECONOMIZER MODULE Table 5. Menu Structure'. (Continued) Parameter Parameter Default Range and Menu Parameter Value Incrementb Notes STATUS EXH2 OUT OFF ON/OFF Output of AUX1 0 terminal Displays ON when damper position CONTINUED reaches programmed percentage setpoint ON=24 Vac Output,OFF=No Output;displays only if AUX1 0 EXH2 ERV OFF ON/OFF Output of AUX1 0 terminal,ON=24 Vac Output,OFF=No Output;displays only If AUX1 0=ERV MECH COOL ON 0 0, 1,or 2 Displays number of mechanical cooling stages that are active. FAN SPEED n/a LOW or HIGH Displays speed of fan on a 2-speed fan unit W(HEAT IN) n/a ON/OFF Displays status of heat on a 2-speed fan unit. SETPOINTS MAT SET 53°F 38 to 70°F; The economizer will modulate the OA damper to maintain the increment by 1 mixed air temperature at the setpoint. LOW T LOCK 32°F -45 to 80°F; Setpoint determines outdoor temperature when the mechanical increment by 1 cooling cannot be turned on.Commonly referred to as the Compressor lockout.At or below the setpoint the Y1-0 and Y2-0 will not be energized on the controller. DRYBLB SET 63°F 48 to 80°F; Setpoint determines where the economizer will assume outdoor increment by 1 air temperature is good for free cooling;e.g.;at 63°F setpoint unit will economizer at 62°F and below and not economize at 64°F and above.There is a a 2°F deadband. ENTH CURVE ES3 ES1,ES2,ES3, Enthalpy boundary`curves"for economizing using single ES4,or ES5 enthalpy. See page 22 for description of enthalpy curves. DCV SET 1100ppm 500 to 2000 Displays ONLY if a CO2 sensor is connected. ppm Setpoint for Demand Control Ventilation of space.Above the increment by setpoint,the OA dampers will modulate open to bring in 100 additional OA to maintain a space ppm level below the setpoint. MIN POS 2.8 V 2 to 10 Vdc Displays ONLY if a CO2 sensor is NOT connected.With 2-speed tan units MIN POS L(low speed fan)and MIN POS H(high speed fan)settings are required. Default for MIN POS L is 3.2V and MIN POS H is 2.8V. VENTMAX 2.8 V 2 to 10 Vdc Displays only if a CO2 sensor is connected. or Used for Vbz(ventilation max cfm)setpoint. VENTMAX is the 100 to 9990 cfm same setting as MIN POS would be if you did not have the CO2 increment by 10 sensor. Displays 2 to 10 V if<3 sensors(RA,OA and MA). In DCV CAL ENABLE AUTO mode dampers controlled by CFM With 2-speed fan units VENTMAX L(low speed fan)and VENTMAX H(high speed fan)settings are required.Default for VENTMAX L is 3.2V and VENTMAX H is 2.8V. VENTMIN 2.25 V 2 to 10 Vdc Displays only if CO2 sensor is connected. or Used for Va(ventilation min cfm)setpoint.This is the ventilation 100 to 9990 cfm for less than maximum occupancy of the space. increment by 10 Displays 2 to 10 V if<3 sensors(RA,OA and MA).Va is only set if DCV is used. In DCV CAL ENABLE AUTO mode dampers controlled by CFM With 2-speed fan units VENTMIN L(low speed fan)and VENTMIN H(high speed fan)settings are required.Default for VENTMIN L is 2.5V and VENTMIN His 2.25V. ERV OAT SPd 32°F 0 to 50°F; Only when AUX1 0=ERV increment by 1 EXH1 SET 50% 0 to 100%; Setpoint for OA damper position when exhaust fan 1 is powered increment by 1 by the economizer. With 2-speed fan units Exh1 L(low speed fan)and Exh1 H(high speed fan)settings are required.Default for Exh1 L is 65%and Exh1 His 50% 22 JADE',"ECONOMIZER MODULE Table 5. Menu Structures. (Continued) Parameter Parameter Default Range and Menu Parameter Value Incrementb Notes SETPOINTS EXH2 SET 75% 0 to 100%; Setpoint for OA damper position when exhaust fan 2 is powered CONTINUED increment by 1 by the economizer.Only used when AUX1 0 is set to EHX2. With 2-speed fan units Exh2 L(low speed fan)and Exh2 H(high speed fan)settings are required.Default for Exh2 L is 80%and Exh2 H is 75% SYSTEM INSTALL 01/01/11 Display order=MM/DD/YY SETUP Setting order=DD,MM,then YY. UNITS DEG °F °F or°C Sets economizer controller in degrees Fahrenheit or Celsius. EQUIPMENT CONY CONV CONV=conventional. HP HP 0/B=Enables Heat Pump mode.Use AUX2 I for Heat Pump input from thermostat or controller. AUX2 I n/a Shutdown(SD) In CONV mode: Heat(W1) SD=Enables configuration of shutdown(default); HP(0) W=Informs controller that system is in heating mode. HP(B) NOTE: If using 2-speed fan mode,you must pro- gram CONY mode for W.Shutdown is not available in the two-speed fan mode. In HP 0/B mode: HP(0)=energize heat pump on Cool(default); HP(B)=energize heat pump on Heat. FAN SPEED 1 speed 1 speed/ Sets economizer controller for operation of 1 speed or 2 speed 2 speed supply fan.The controller does not control the fart but positions the OA and RA dampers to the heating or cooling mode.See page 23 for modes and position. NOTE: 2-speed fan option also needs Heat(W1)pro- grammed in AUX 2 In. FAN CFM 5000cfm 100 to 15000 This is the capacity of the RTU.The value is found on the label cfm; from the RTU manufacturer.The cfm of the fan is only used with increment by DCV CAL ENABLE AUO 100 AUX1 OUT NONE NONE • NONE=not configured(output is not used) ERV • ERV=Energy Recovery Ventilators EXH2 • EXH2=second damper position 24 Vac out for second SYS exhaust fan. • SYS=use output as an alarm signal OCC INPUT INPUT or When using a setback thermostat with occupancy out(24 Vac), ALWAYS the 24 Vac is input"INPUT"to the OCC terminal. If no occupancy output from the thermostat then change program to "ALWAYS"OR add a jumper from terminal R to OCC terminal. FACTORY DEFAULT NO NO or YES Resets all set points to factory defaults when set to YES.LCD will briefly flash YES and change to NO but all parameters will change to factory default values. 23 JADETM ECONOMIZER MODULE Table 5. Menu Structures. (Continued) Parameter Parameter Default Range and Menu Parameter Value Incrementb Notes ADVANCED MA LO SET 45°F 35 to 55°F; Temp to activate Freeze Protection(close damper or modulate to SETUP increment by 1° MIN POS if temp falls below set value) FREEZE POS CLO CLO Damper position when freeze protection is active(closed or MIN MIN POS). CO2 ZERO Oppm 0 to 500 ppm; CO2 ppm level to match CO2 sensor start level. increment by 10 CO2 SPAN 2000ppm 1000 to 3000 CO2 ppm span to match CO2 sensor;e.g.;500-1500 sensor ppm; output would be 500 CO2 zero and 1000 CO2 span.See note on increment by 50 page 6 for C7632 CO2 sensor. STG3 DLY 2.0h 0 min,5 min,15 Delay after stage 2 for cool has been active.Turns on 2nd stage min,then 15 of mechanical cooling when economizer is 1st stage call and min intervals. mechanical cooling is 2nd stage call.Allows three stages of Up to 4h or OFF cooling,1 economizer and 2 mechanical. OFF=no Stage 3 cooling. SD DMPR POS CLO CLO Indicates shutdown signal from space thermostat or unitary OPN controller.When controller receives 24 Vac input on the SD terminal in conventional mode,the OA damper will open if programmed for OPN and OA damper will close if programmed for CLO.All other controls,e.g.,Y1-0,Y2-0,EXH1,etc.will shut off. DCVCAL ENA MAN MAN(manual) Turns on the DCV automatic control of the dampers.Resets AUTO ventilation based on the RA,OA and MA sensor conditions. Requires all sensors(RA,OA,MA and CO2). This operation is not operable with a 2-speed fan unit. MAT T CAL 0.0 F° +/-2.5F° Allows for the operator to adjust for an out of calibration temperature sensor OAT CAL 0.0F° +/-2.5F° Allows for the operator to adjust for an out of calibration temperature sensor OA H CAL 0%RH +/-10%RH Allows for the operator to adjust for an out of calibration humidity sensor RAT CAL 0.0F° +/-2.5F° Allows for the operator to adjust for an out of calibration temperature sensor RA H CAL 0%RH +/-10%RH Allows for the operator to adjust for an out of calibration humidity sensor DA T CAL 0.0 F° +/-2.5F° Allows for the operator to adjust for an out of calibration temperature sensor 2SP FAN DELAY 5 Minutes 0 to 20 minutes When in economizing mode this is the delay for the high speed in 1 minute fan to try to satisfy the call for second stage cooling before the increments. first stage mechanical cooling is enabled. 24 JADErm ECONOMIZER MODULE Table 5. Menu Structures. (Continued) Parameter Parameter Default Range and Menu Parameter Value Increment') Notes CHECKOUTf DAMPER VMIN-HS n/a n/a Positions damper to VMIN position, DAMPER VMAX-HS(LS) n/a n/a Positions damper to VMAX position.With 2-speed fan units the damper will position to VMAX low speed fan. DAMPER OPEN n/a n/a Positions damper to the full open position. Exhaust fan contacts enable during the DAMPER OPEN test. Make sure you pause in this mode to allow for exhaust contacts to energize due to the delay in the system. DAMPER CLOSE n/a n/a Positions damper to the fully closed position. CONNECT Y1-O n/a n/a Closes the Y1-0 relay(Y1-0). See CAUTION on page 31 CONNECT Y2-O n/a n/a Closes the Y2-0 relay(Y2-0). See CAUTION on page 31 CONNECT AUX1-O n/a n/a Energizes the AUX1-0 output.If AUX1-0 setting is: • NONE—no action taken • ERV—24 Vac out.Turns on or signals an ERV that the conditions are not good for economizing but are good for ERV operation.d • SYS—24 Vac out. Issues a system alarm. CONNECT EXH1 n/a n/a Closes the power exhaust fan 1 relay(EXH1) ALARMS(-.) MA T SENS ERR n/a n/a Alarms display only when they are active.The menu title CO2 SENS ERR n/a n/a "ALARMS(_)"includes the number of active alarms in OAT SENS ERR n/a n/a parenthesis(). DA ENTHL ERR n/a n/a SYS ALARM n/a n/a When AUX1-0 is set to SYS and there is any alarm(e.g.,failed sensors,etc.),the AUX1-0 terminal has 24 Vac out. ACT UNDER V n/a n/a Voltage received by Actuator is above expected range ACT OVER V n/a n/a Voltage received by Actuator is below expected range ACT STALLED n/a n/a Actuator stopped before achieving commanded position NOTE: The alarms listed are examples.Additional alarms display depending on the parameter settings and configuration. a Table 5 illustrates the complete hierarchy.Your menu parameters may be different depending on your configuration. For example if you do not have a DCV(CO2)sensor,then none of the DCV parameters appear. b When values are displayed,pressing and holding the A or V button causes the display to automatically increment. c n/a=not applicable d ERV Operation:When in Cooling mode AND the conditions are NOT OK for economizing-the ERV terminal will be energized. In the Heating mode the ERV terminal will be energized when the OA is below the ERV OAT setpoint in the setpoint menu. e When used with Honeywell communicating actuator the damper out is reported in XX.X%open versus XX.X Vdc. After 10 minutes without a command or mode change,the controller will change to normal operation. 25 JADETM ECONOMIZER MODULE SEQUENCE OF OPERATION Table 6. Dry Bulb Operation No DCV(CO2 sensor)-1 Speed Fan. OA Good to DCV economize? Y1-1 Y2-I FAN SPD Y1-0 Y2-O Occupied Unoccupied None No Off Off High 0-v/Off 0-v/Off MIN POS Closed On Off High 24-v/On 0-v/Off MIN POS Closed On On High 24-v/On 24-v/On MIN POS Closed None Yes Off Off High 0-v/Off 0-v/Off MIN POS Closed On Off High 0-v/Off 0-v/Oft MIN POS to Full- Closed to Full-Open Open On On High 24-v/On 0-v/Offs MIN POS to Full- Closed to Full-Open Open a With stage 3 delay(STG3 DLY)in Advanced setup menu can turn on 2nd stage of mechanical cooling Y2—0 after the delay if the call for Y1-1 and Y2-I have not been satisfied. Table 7. Dry Bulb Operation With DCV(CO2 sensor)-1 Speed Fan. OA Good to DCV economize? Y1-I Y2-I FAN SPD Y1-O Y2-O Occupied Unoccupied Below CO2 No Off Off High 0-v/Off 0-v/Off VENTMIN Closed set On Off High 24-v/On 0-v/Off VENTMIN Closed On On High 24-v/On 24-v/On VENTMIN Closed Yes Off Off High 0-v/Off 0-v/Off VENTMIN Closed On Off High 0-v/Off 0-v/Off VENTMIN to Full- Closed to Full-Open Open On On High 24-v/On 0-v/Offa VENTMIN to Full- Closed to Full-Open Open Above CO2 No Off Off High 0-v/Off 0-v/Off VENTMIN to Closed set VENTMAX On Off High 24-v/On 0-v/Off VENTMIN to Closed VENTMAX On On High 24-v/On 24-v/On VENTMIN to Closed VENTMAX Yes Off Off High 0-v/Off 0-v/Off VENTMIN to Closed VENTMAX On Off High 0-v/Off 0-v/Off VENTMIN to Full- Closed to Full-Open Open On On High 24-v/On 0-v/Offs VENTMIN to Full- Closed to Full-Open Open a With stage 3 delay(STG3 DLY) in Advanced setup menu can turn on 2nd stage of mechanical cooling Y2—O after the delay if the call for Y1-I and Y2-I have not been satisfied. 26 JADETM ECONOMIZER MODULE Table 8. Enthalpy Operation No DCV(CO2 sensor)-1 Speed Fan. OA Good to DCV economize? Y1-I Y2-I FAN SPD Y1-O Y2-O Occupied Unoccupied None No Off Off High 0-v/Off 0-v/Off MIN POS Closed On Off High 24-v/On 0-v/Off MIN POS Closed On On High 24-v/On 24-v/On MIN POS Closed None Yes Off Off High 0-v/Off 0-v/Off MIN POS Closed On Off High 0-v/Off 0-v/Off MIN POS to Full- Closed to Full-Open Open On On High 24-v/On 0-v/Offa MIN POS to Full- Closed to Full-Open Open a With stage 3 delay(STG3 DLY)in Advanced setup menu can turn on 2nd stage of mechanical cooling Y2—0 after the delay if the call for Y1-I and Y2-1 have not been satisfied. Table 9.Enthalpy Operation With DCV(CO2 sensor)-1 Speed Fan. OA Good to DCV economize? Y1-I Y2-I FAN SPD Y1-O Y2-O Occupied Unoccupied Below set No Off Off High 0-v/Off 0-v/Off VENTMIN Closed On Off High 24-v/On 0-v/Off VENTMIN Closed On On High 24-v/On 24-v/On VENTMIN Closed Yes Off Off High 0-v/Off 0-v/Off VENTMIN Closed On Off High 0-v/Off 0-v/Off VENTMIN to Full- Closed to Full-Open Open On On High 24-v/On 0-v/Offs VENTMIN to Full- Closed to Full-Open Open Above set No Off Off High 0-v/Off 0-v/Off VENTMIN to Closed VENTMAX On Off High 24-v/On 0-v/Off VENTMIN L to Closed VENTMAX On On High 24-v/On 24-v/On VENTMIN H to Closed VENTMAX Yes Off Off High 0-v/Off 0-v/Off VENTMIN L to Closed VENTMAX On Off High 0-v/Off 0-v/Off VENTMIN to Full- Closed to Full-Open Open On On High DELAY(b) 0-v/Offa VENTMIN to Full- Closed to Full-Open 24-v/On Open a With stage 3 delay(STG3 DLY) in Advanced setup menu can turn on 2nd stage of mechanical cooling Y2—O after the delay if the call for Y1-1 and Y2-I have not been satisfied. Table 10. Dry Bulb Operation No DCV(CO2 sensor)-2 Speed Fan. OA Good to DCV economize? Y1-I Y2-I FAN SPD Y1-O Y2-O Occupied Unoccupied None No Off Off High 0-v/Off 0-v/Off MIN POS L Closed On Off High 24-v/On 0-v/Off MIN POS L Closed On On High 24-v/On 24-v/On MIN POS H Closed None Yes Off Off High 0-v/Off 0-v/Off MIN POS L Closed On Off High 0-v/Off 0-v/Off MIN POS L to Full- Closed to Full-Open Open On On High DELAYb 0-v/Offs MIN POS H to Full- Closed to Full-Open 24-v/On Open 'With stage 3 delay(STG3 DLY)in Advanced setup menu can turn on 2nd stage of mechanical cooling Y2—O after the delay if the call for Y1-1 and Y2-I have not been satisfied. b With 2SP FAN DELAY(Advanced Setup Menu)when in the economizing mode there is a delay for the high speed fan to try to satisfy the call for second stage cooling by turning on the fan to high and opening the OA damper 100%before the first stage mechanical cooling is enabled. 27 JADErm ECONOMIZER MODULE Table 11. Dry Bulb Operation With DCV(CO2 sensor)-2 Speed Fan. OA Good to DCV economize? Y1-I Y2-I FAN SPD Y1-O Y2-O Occupied Unoccupied Below set No Off Off High 0-v/Off 0-v/Off VENTMIN L Closed On Off High 24-v/On 0-v/Off VENTMIN L Closed On On High 24-v/On 24-v/On VENTMIN H Closed Yes Off Off High 0-v/Off 0-v/Off VENTMIN L Closed On Off High 0-v/Off 0-v/Off VENTMIN L to Full- Closed to Full-Open Open On On High 24-v/On 0-v/Offs VENTMIN H to Full- Closed to Full-Open Open Above set No Off Off High 0-v/Off 0-v/Off VENTMIN L to Closed VENTMAX On Off High 24-v/On 0-v/Off VENTMIN L to Closed VENTMAX On On High 24-v/On 24-v/On VENTMIN H to Closed VENTMAX Yes Off Off High 0-v/Off 0-v/Off VENTMIN L to Closed VENTMAX On Off High 0-v/Off 0-v/Off VENTMIN L to Full- Closed to Full-Open Open On On High DELAYb 0-v/Offs VENTMIN H to Full- Closed to Full-Open 24-v/On Open aWith stage 3 delay(STG3 DLY)in Advanced setup menu can turn on 2nd stage of mechanical cooling Y2—0 after the delay if the call for Y1-I and Y2-I have not been satisfied. b With 2SP FAN DELAY(Advanced Setup Menu)when in the economizing mode there is a delay for the high speed fan to try to satisfy the call for second stage cooling by turning on the fan to high and opening the OA damper 100%before the first stage mechanical cooling is enabled. Table 12. Enthalpy Operation No DCV(CO2 sensor)-2 Speed Fan. OA Good to DCV economize? Y1-I Y2-I FAN SPD Y1-O Y2-O Occupied Unoccupied NO CO2 No Off Off High 0-v/Off 0-v/Off MIN POS L Closed SENSOR On Off High 24-v/On 0-v/Off MIN POS L Closed On On High 24-v/On 24-v/On MIN POS H Closed Yes Off Off High 0-v/Off 0-v/Off MIN POS L Closed On Off High 0-v/Off 0-v/Off MIN POS L to Full- Closed to Full-Open Open On On High DELAYb 0-v/Offs MIN POS H to Full- Closed to Full-Open 24-v/On Open aWith stage 3 delay(STG3 DLY)in Advanced setup menu can turn on 2nd stage of mechanical cooling Y2—0 after the delay if the call for Y1-I and Y2-I have not been satisfied. b With 2SP FAN DELAY(Advanced Setup Menu) when in the economizing mode there is a delay for the high speed fan to try to satisfy the call for second stage cooling by turning on the fan to high and opening the OA damper 100%before the first stage mechanical cooling is enabled. 28 JADETM ECONOMIZER MODULE Table 13. Enthalpy Operation With DCV(CO2 sensor)-2 Speed Fan. OA Good to I DCV economize? Y1-1 Y2-I FAN SPD Y1-O Y2-O Occupied Unoccupied j Below set No Off Off High 0-v/Off 0-v/Off VENTMIN L Closed On Off High 24-v/On 0-v/Off VENTMIN L Closed On On High 24-v/On 24-v/On VENTMIN H Closed Yes Off Off High 0-v/Off 0-v/Off VENTMIN L Closed On Off High 0-v/Off 0-v/Off VENTMIN L to Full- Closed to Full-Open Open On On High 24-v/On 0-v/Offa VENTMIN H to Full- Closed to Full-Open Open Above set No Off Off High 0-v/Off 0-v/Off VENTMIN L to Closed VENTMAX On Off High 24-v/On 0-v/Off VENTMIN L to Closed VENTMAX On On High 24-v/On 24-v/On VENTMIN H to Closed VENTMAX Yes Off Off High 0-v/Off 0-v/Off VENTMIN L to Closed VENTMAX On Off High 0-v/Off 0-v/Off VENTMIN L to Full- Closed to Full-Open Open On On High DELAYb 0-v/Of a VENTMIN H to Full- Closed to Full-Open 24-v/On Open aWith stage 3 delay(STG3 DLY)in Advanced setup menu can turn on 2nd stage of mechanical cooling Y2-0 after the delay if the call for Y1-I and Y2-I have not been satisfied. b With 2SP FAN DELAY(Advanced Setup Menu)when in the economizing mode there is a delay for the high speed fan to try to satisfy the call for second stage cooling by turning on the fan to high and opening the OA damper 100%before the first stage mechanical cooling is enabled. EGONOMIXING I AVAILABLE OPAL ENTHALPY • •'\J 0IGH LIMIT I I NOT AVAILABLE \. ek SINGLE ENTHALPY \'\. " aP ��en` 2(T el 1- .RH)ki I r t 0 r P1 ; r (T.RH) t o i 1 1 t ES2 ES1 'HL TEMPERATURE M322AEA Fig. 18.Single Enthalpy curve and boundaries. Table 14.Single Enthalpy and Dual Enthalpy High Limit Curves. Enthalpy Temp. Temp. Enthalpy Point P1 Point P2 Curve Dry-Bulb(°F) Dewpoint(°F) (btu/Ib/da) Temp.°F Humidity%RH Temp.°F Humidity%RH ES1 80.0 60.0 28.0 80.0 36.8 66.3 80.1 ES2 75.0 57.0 26.0 75.0 39.6 63.3 80.0 ES3 70.0 54.0 24.0 70.0 42.3 59.7 81.4 ES4 65.0 51.0 22.0 65.0 44.8 55.7 84.2 ES5 60.0 48.0 20.0 60.0 46.9 51.3 88.5 HL 86.0 66.0 32.4 86.0 38.9 72.4 80.3 29 JADETM ECONOMIZER MODULE Enthalpy Settings CHECKOUT When the OA temperature,enthalpy and dew point are below the respective setpoints,the Outdoor Air can be used for Inspect all wiring connections at the Economizer module's economizing. Fig. 18 shows the new single enthalpy terminals,and verify compliance with the installation wiring boundaries in the W7220.There are 5 boundaries(setpoints diagrams. ES1 through ES5),which are defined by dry bulb temperature, For checkout, review the Status of each configured parameter enthalpy and dew point. and perform the Checkout tests. Refer to Table 14 for the ENTH CURVE setpoint values. NOTE: See"Interface Overview"on page 20 for To use enthalpy the W7220 must have a C7400S Sylkbus information about menu navigation and use of the sensor for OA.The W7220 calculates the enthalpy and dew keypad. point using the OA temperature and humidity input from the OA sensor.When the OA temperature,OA humidity and OA dew point are all below the selected boundary,the economizer sets AWARNING the economizing mode to YES,economizing is available. Electrical Shock Hazard. Can cause severe injury,death or property damage. When conditions are above the selected boundary,the Disconnect power supply before beginning wiring or conditions are not good to economize and the mode is set to making wiring connections,to prevent electrical shock NO. or equipment damage. Fig. 18 shows the 5 current boundaries.There is also a high If any wiring changes are required,first be sure to limit boundary for differential enthalpy.The high limit boundary remove power from the Economizer module before is ES1 when there are no stages of mechanical cooling starting work. Pay particular attention to verifying the energized and HL when a compressor stage is energized. power connection(24 Vac). Table 14 provides the values for each boundary limit. Power Up After the module is mounted and wired,apply power. Two-Speed Fan Operation The later versions of the W7220 Jade controller have the Power Up Delay capability to work with a system using a 2-speed supply fan. Upon power up(or after a power outage or brownout),the The W7220 does not control the supply directly but uses the W7220 controller module begins a 5 minute power up delay following input status to determine the speed of the supply fan before enabling mechanical cooling. and controls the OA damper to the required position. State Fan Speed Initial Menu Display OCC Low On initial start up, Honeywell displays on the first line and Economizer W7220 on the second line.After a brief pause, Y1 Low the revision of the software appears on the first line and the Y2 High second line will be blank. W High Power Loss (Outage or Brownout) The W(heating mode) is not controlled by the W7220 but it All setpoints and advanced settings are restoreda after any requires the status to know where to position the OA damper power loss or interruption. for minimum position for the fan speed. The 2 speed fan delay is available when the system is NOTE: If power goes below 18 Vac,the W7220 controller programmed for 2 speed fan(in the System Setup menu item). module assumes a power lossfunctionalu and the 5 minute The 2 speed fan delay is defaulted to 5 minutes and can be power up delay bovll b18 Vac when changed in the Advanced Setup menu item.When the unit has power returns above 18 Vac. a call for Y1 In and in the free cooling mode and there is a call a All settings are stored in non-volatile flash memory. for Y2 In,the 2-speed fan delay starts and the OA damper will modulate 100%open,the supply fan should be set to high speed by the unit controller.After the delay one of two actions Status will happen: Use the Status menu(see Table 5)to check the parameter • The Y2 In call will be satisfied with the damper 100%open values for the various devices and sensors configured. and fan on high speed and the call will turn off NOTE: See"Interface Overview"on page 20 for OR information about menu navigation and use of the • If the call for additional cooling in the space has not been keypad. satisfied then the first stage of mechanical cooling will be enabled through Y1 Out or Y2 Out. 30 JADETM ECONOMIZER MODULE Checkout Tests TROUBLESHOOTING Use the Checkout menu(Table 5)to test the damper operation and any configured outputs.Only items that are configured Alarms are shown in the Checkout menu. NOTE: See`Interface Overview"on page 20 for The Economizer module provides alarm messages that information about menu navigation and use of the display on the 2-line LCD. keypad. NOTE: Upon power up,the module wafts 60 minutes To perform a Checkout test: before checking for alarms.This allows time for 1. Scroll to the desired test in the Checkout menu using all the configured devices(e.g.sensors, the ♦ and V buttons. actuator)to become operational.The exception 2. Press the button to select the item. is the MA sensor which will alarm immediately. 3. RUN?displays. If one or more alarms are present and there has been no 4. Press the button to start the test. keypad activity for at least 5 minutes,the Alarms menu 5. The unit pauses and then displays IN PROGRESS. displays and cycles through the active alarms. 8. When the test is complete, DONE appears. mm 7. When all parameters have been tested, press the l'rJ You can also navigate to the Alarms menu at any time. button (Menu up)to end the test(e.g.turn off the rely). The checkout tests can all be performed at the time of ClearingAlarms installation or any time during the operation of the system as a test that the system is operable. Once the alarm has been identified and the cause has been removed(e.g. replaced faulty sensor),the alarm can be cleared from the display. A CAUTION Equipment damage may result. To clear an alarm, perform the following: Be sure to allow enough time for compressor startup 1• Navigate to the desired alarm. and shutdown between checkout tests so that you do 2. Press the button. not short-cycle the compressors. 3. ERASE?displays. 4. Press the .- button. 5. ALARM ERASED displays. 6. Press the IS button(MenuUp/Exit)to complete the action and return to the previous menu. NOTE: If an the alarm still exists after you clear it,it re- displays within 5 seconds. Automation and Control Solutions Honeywell International Inc. Honeywell 1985 Douglas Drive North J e U.S.Registered Trademark Golden Valley, MN 55422 m2012 Honeywell International Inc. 63-2700- 07 M.S. Rev.10-12 customer.honeywell.com Printed in United States 31 Power up unit System Setup STATUS Refer to Table 14 in JADE product data for detailed information will appear t ' I Press 0MENU UP/EXIT button at any time to return to MAIN MENU [---i Press DOWN Press ENTER - Use UP/DOWN _ -J Press ENTER again Arrows and ENTER Press ENTER Arrow to INSTALL ► Press ENTER ► ti to return to current SYSTEM SETUP will appear Buttons to enter install Date to store value parameter -+-----------I Press®MENU UP/EXIT button at any time to return to MAIN MENU --I ♦ 4 4 I I Press DOWN - Use A UP/DOWN - J Press ENTER again Arrow to Press ENTER Arrows to change Press ENTER ► to store value ► to return to current UNITS DEG "F(default)or°C parameter • a- -I Press QMENU UP/EXIT button at any time to return to MAIN MENU -1 FJI to stare value 1 I Press DOWN J •v CONY(default) Press ENTER Press ENTER again Arrow to Press ENTER HP to return to current EQUIPMENT parameter T i- -I Press MENU UP/EXIT button at any time to return to MAIN MENU ------I 4 Press DOWN - 4. J P ENTER ain •CONV_SD(default)or W ' Press ENTER Arrow to —� Press ENTER FI to ress return to current ag AUX2-I HP-O or B to store value parameter T I • .. Press MENU UP/EXIT button at anytime to return to MAIN MENU - -- O • 4 I Press DOWN _. _ J Press ENTER again Arrow to Press ENTER • 1 SPEED(default) Press ENTER FAN TYPE -� "" 2 SPEED(AUX2-I is W) to store value to return to current parameter A -4--•--------i PressQ MENU UP/EXIT button at any time to return to MAIN MENU ---1 • 4 Press DOWN _a v _ J Press ENTER again • Arrow to ► Press ENTER 5000CFM(default) Press ENTER •FAN.�CFM♦ 100CFM to 15000CFM to store value ► to return parameter to rent _ T I • ----_.----i Press®MENU UP/EXIT button at any time to return to MAIN MENU ICI- -1 • A NONE(default) t Press DOWN - Press ENTER again Arrow to orPress ENTER ► ERV Press ENTER to return to current AUXI�OUT EXH2 to store value parameter T • I Press0 MENU UP/EXIT button at any time to return to MAIN MENU 14— 4 Press DOWN - . _ Press ENTER again OCC INPUT(default) Press ENTER Arrow to 0 Press ENTER ALWAYS ► to store value �. to return to current parameter * r J L -I Press 0MENU UP/EXIT button at any time to return to MAIN MENU (RFD I Press DOWN _u : J -J Press ENTER again Arrow to NO(default) Press ENTER --i Press ENTER • ----► - ---► to return to current FACTORY YES to store value parameter DEFAULT t J 32 • . } Advanced Setup ! Refer to Table 14 in JADE product data for detailed information r I Press O MENU UP/EXIT button at any time to return to MAIN MENU 1.1- - , • 4 4 I Press DOWN _J A -J -J Arrow ♦ to Press ENTER for v35°F to 55°F Press ENTER Press ENTER again ADVANCED MA LO SET it. Press ENTER I. —I. �.-- to return to current SETUP 45°F(default) to store value parameter • • 4I -eF. -I Press O MENU UP/EXIT button at any time to return to MAIN MENU 1.0- -t or 4 4 _J A -J PreAsrsoDOw WN • Press ENTER n •CLO(default) Press ENTERr J Po return to cress ENTERurrent raren't FREEZE POS �� MIN Il to store value parameterT I Press®MENU UP/EXIT button at any time to return to MAIN MENU - , 1 Press DOWN - oppm(default) _4 Press ENTER -U Press ENTER again Arrow to Press ENTER to 500ppm ► to store value ► to return to current CO2 ZERO parameter • - T -0 1 Press®MENU UP/EXIT button at any time to return to MAIN MENU ----1 ♦ I Press DOWN -I y 1000ppm to - Press ENTER J Press ENTER again Arrow to ► Press ENTER ► 3000ppm Pi ► to return to current CO2I SPAN (2000 default) to store value parameter - Press0 MENU UP/EXIT button at any time to return to MAIN MENU I+ --- - --I * 4 I Press DOWN J Press E I 0 min,5 min, 15 min -J4 -J N TER again Arrow to 1 ► Press ENTER then 15 min inte vats up to Press ENTER 0 I to return to current STG3 DLY I 4 hours or OFF to store value parameter ♦ 2 hours(default) A t I Press0 MENU UP/EXIT button at any time to return to MAIN MENU -t lir Press DOWN -* _J d Press ENTER again Arrow to Press ENTER • CLO(default) Press ENTER • to return to current SD DMPR POS OPN to store value parameter a m- - ---------I Press 0 MENU UP/EXIT button at any time to return to MAIN MENU I-0- --1 4 4 Press DOWN --, --J -J Press ENTER again Arrow to Press ENTER • MAN(default) Press ENTER' 0 to return to current DCVCAL�ENA AUTO to store value parameter _ T I Press Q MENU UP/EXIT button at any time to return to MAIN MENU A �— Press DOWN -* +/-2.5°F Press ENTER Press ENTER again Arrow to __ Press ENTER _ to return to current MATT CAL' 0.0°F(default) i to store value -'�' parameter 4 J IPress O MENU UP/EXIT button at any time to return to MAIN MENU f.t- 1 4 4 Press DOWN _d A J J Press ENTER again Arrow to ---► Press ENTER --0- +I-2.5°F _ Press ENTER --0. to return to current OAT CAL' 0.0'F(default) to store value parameter 4 4 J 33 + f Advanced Setup I I I (continued) 4- 1 Press(D MENU UP/EXIT button at any time to return to MAIN MENU fig-- * * I Press DOWN -4 A -J -J Press ENTER again Arrow to Press ENTER v+/-10% Press ENTER to return to current OA H CAL' -� 0%(default) rfo to store value parameter + I t -I Press 0MENU UP/EXIT button at any time to return to MAIN MENU -i 4 4 I Press DOWN - •i+/-2.5°F Press ENTER -J Press ENTER again Arrow to __ Press ENTER __ P 0.0°F(default) --i to store value to return to current RAT CAL* parameter • t J t -I Press OMENU UP/EXIT button at any time to return to MAIN MENU -- 41 I Press DOWN ° _ 4 Press ENTER 'J Press ENTER again Arrow to Press ENTER ---ow +/-10�° - ---p to return to current 0% default RA H CAL' (default) to store valueparameter • t , J f--- 1 Press O MENU UP/EXIT button at any time to return to MAIN MENU la,.- V * * I Press DOWN --' v -J -J jProssENTERagain Arrow to ♦ +/-2.5°F _ Press ENTER - OA CAL* -i Press ENTER --i 0.0°F(default) -i to store value - to return to current parameter r L. J -44 I Press 0 MENU UP/EXIT button at any time to return to MAIN MENU Press DOWN _i _I Press ENTER again Arrow to —{. Press ENTER I � O. to return to current 5 min(default) to store value2SP FAN DELAY parameter r *No adjustment required during setup. If necessary, adjustments can be made to compensate for any Temperature and/or Humidity Sensor error that may exist after initial setup. SETPOINTS Refer to Table 2 for detailed information t -I Press MENU UP/EXIT button at any time to return to MAIN MENU --1 PressUP -J A - -J Press ENTER again Press ENTER for 35°F to 55°F Press ENTER Arrow to • Press ENTER -► to return to currentSETPOINTS MA LO SET 45°F(default) to store value parameter 1 Press MENU UP/EXIT button at any time to return to MAIN MENU i -t Press DOWN _ _J Press ENTER again 45°F to 80°F Press ENTER Arrow to N. Press ENTER ► 32°F(default) to store value Illto return to current LOW T LOCK parameter I 1 i i 34 SETPOINTS I I I (continued) 4---_- --- ---I Press Q MENU UP/EXIT button at any time to return to MAIN MENU -7 * * I Press DOWN --' • --' --I Press ENTER again •Arrow to Press ENTER 48°F to 80°F Press ENTER to return to current DRYBLB SET ° 63°F(default) • to store value parameter 4 t -I Press®MENU UP/EXIT button at any time to return to MAIN MENU I-4- 1 • 4 Press DOWN - i ES1,ES2,ES3, - Press ENTER -J Press ENTER again Arrow to Press ENTER ► ES4,or ES5 ► to store value ► to return to current ENTH CURVE parameter — 4- I s- -I Press O MENU UP/EXIT button at any time to return to MAIN MENU F--, V I Press DOWN - 500 to - -_I Press ENTER again Arrow to ► Press ENTER --iv. 2000ppm 0- Press ENTER _► to return to current DCV SET 1100ppm to store value parameter s- i Press Q MENU UP/EXIT button at any time to return to MAIN MENU 1-1 * * I • Press DOWN --' • J ]Press ENTER again Arrow to MIN ♦ 2 to 10Vdc Press ENTER - Press ENTER ► 2.8V(default) to store value to return to current POS(no COP) parameter -4 I Press O MENU UP/EXIT button at any time to return to MAIN MENU I4--1 V • Press DOWN -J y 2 to 10Vdc or -* p-' Press ENTER again Arrow to VENT Press ENTER ► 100 to 9990cfm ♦ Press ENTER - - to return to current MAX(w/COz) 2.8V(default) to store value parameter All • I Press 0 MENU UP/EXIT button at any time to return to MAIN MENU to---I Press DOWN -I ti 2 to 10Vdc or -# _Press ENTER I Press ENTER again Arrow to VENT —► Press ENTER ► 100 to 9990cfm --► ---® to return to current MIN (w/COz) 2.5V(default) to store value parameter -41 I Press0 MENU UP/EXIT button at any time to return to MAIN MENU It--I • Press DOWN -4 :0 -� -u Press ENTER again Arrow to —► Press ENTER ♦ 32°FF ► Press ENTER --- to return to current ERV OAT SP 32°F(default) to store value parameter -41 I Press0 MENU UP/EXIT button at any time to return to MAIN MENU If- I Press DOWN - -J Press ENTER again Arrow to v 0%to 100% Press ENTER Press ENTER 50%(default) —► to store value ► to return to current EXH1 SET parameter 4 I • I Press0 MENU UP/EXIT button at any time to return to MAIN MENU I vil i Press DOWN - o 100%• - - Press ENTER again To other Arrow to • Press ENTER 0 0/ to Press ENTER -- to return to current MENU EXH2 SET 75%(default) to store value parameter Fields ..i 35 Start-up Check List MicroMet! Economizer w/ Honeywell JADE (W7220) (Complete one form per unit and retain in Job File) PRELIMINARY INFORMATION Project Name: Unit Tag: Model No.: Serial No.: Economizer Model No.: J/O No.: Start-up Date: Technician: I. PRE START-UP(insert checkmark in box as item is completed) Economizer ❑ Relief blades swing freely-Remove any shipping tape that may be present ❑ Economizer controls wired correctly per Manufacturer's wiring diagram ❑ Economizer wiring harness is plugged into HVAC unit harness. ❑ Mixed Air(Supply Air) sensor properly installed in a location that ensures good mixed air ❑ Return Air sensor, if used, is properly Addressed and installed in the return air stream Power Exhaust(if applicable) ❑ Setscrews on the blower wheel hub are tight-Wheel does not rub the housing ❑ Bearings, setscrews, and brackets are tight-Shaft rotates freely ❑ Blower sheaves are properly adjusted for specified CFM ❑ Motor and blower sheaves are tight and aligned ❑ Belt tension is correct • ❑ Jobsite voltage and phase agrees with voltage and phase listed on rating label ❑ Line and Low Voltage connections are secure and are wired correctly ❑ Blower rotating in proper direction Modulating Power Exhaust only ❑ Pressure tubing is properly installed from pressure sensor to occupied space II. SETUP Economizer Review following System Setup and Advanced Setup Menus for operation consideration. Select one only-non critical setpoints omitted(see Installation Instructions for additional setpoints that may be required for this application) Setup Menu ❑ Install Date Equipment Type ❑ CONV(default)- Equipment utilizing Conventional type thermostat ❑ Heat Pump-AUX2-I must be HP(0) or HP(B) Aux2-I-24Vac input from thermostat or other devices ❑ SD(default)- Equipment utilizing Conventional type thermostat ❑ W- First Stage Heating input for 2-speed fan- Equipment utilizing Conventional type thermostat ❑ HP(0) (reversing valve changeover) ❑ HP(B) (reversing valve changeover) Fan Type (option only available for AUX2-I -W) ❑ 1-speed (default) ❑ 2-speed Fan CFM (only required if using DCV CAL ENA feature) AUX1-O-24Vac output for ON/OFF control ❑ NONE (default) ❑ ERV ❑ EXH2 ❑ SYS OCC ❑ Input(default)- Requires 24Vac input at OCC terminal during occupied period ❑ ALWAYS (Occupied 24/7)-No jumpers or 24Vac input required Advanced Setup Menu ❑ CO2 ZERO ppm (Oppm is default) Must match CO2 sensor ZERO setpoint ❑ CO2 SPAN ppm(2000ppm is default) Must match CO2 sensor SPAN setpoint DCV CAL ENA-Option only if CO2 is connected and operational ❑ MAN (default)-Manually set MIN POS ❑ AUTO-Automatically sets and maintains minimum and maximum damper position for Demand Control Ventilation Review Setpoints Menu-non critical setpoints omitted(see Installation Instructions for setpoints) MINIMUM POSITION CO2 not connected) ❑ MIN POS (Vdc) 1-speed fan ❑ MIN POS L (Vdc)2-speed fan LOW ❑ MIN POS H (Vdc)2-speed fan HIGH 36 Start-up Check List (cont.) MicroMetl Economizer w/ Honeywell JADE (W7220) VENT MIN/MAX(CO2 connected) ❑ VENTMAX (Vdc or CFM for DCV CAL ENA) 1-speed fan ❑ VENTMAX L (Vdc)2-speed fan LOW ❑ VENTMAX H (Vdc)2-speed fan HIGH ❑ VENTMIN (Vdc or CFM for DCV CAL ENA) 1-speed fan ❑ VENTMIN 1, (Vdc) 2-speed fan LOW ❑ VENTMIN H (Vdc)2-speed fan HIGH EXHAUST FAN SETPOINT (if applicable) ❑ EXH1 SET (50%default) 1-speed fan ❑ EXH1 L (65%default)2-speed fan LOW ❑ EXH1 H (50% default) 2-speed fan HIGH ❑ EXH2 SET (75%default) 1-speed fan ❑ EXH2 L (80%default)2-speed fan LOW ❑ EXH2 H (75%default)2-speed fan HIGH Power Exhaust(if applicable) Modulating Power Exhaust only Specified design building pressure setpoint entered into VFD Verify proper operation of VFD (see instructions) III. Equipment Testing STEP 1:Apply power to RTU (OCC must be programmed for ALWAYS, or 24Vac must be present) STEP 2: Press Down ♦Arrow on the W7220 logic. Scroll to CHECKOUT STEP 3: If not using CO2 press Down Arrow ♦ again to VMAX HS (LS). Press Enter Button .J on the W7220 logic. DAMPER VMIN-HS (or DAMPER VMAX-HS (LS))will appear on screen. STEP 4: Press Enter Button.J on the W7220 logic. RUN will appear on screen STEP 5: Press Enter Button.J on the W7220 logic to start test.The outdoor damper will move to the VENTMIN (or VENTMAX) position and the screen will display TEST RUNNING. Note: the VENTMIN position movement may be negligible if voltage output value is less than 2.8Vdc. STEP 6:After verification of damper movement, press MENU UP/EXIT button Q on the W7220 logic to exit test and close the damper. STEP 7: Press Down V Arrow on the W7220 logic to DAMPER VMAX-HS (LS) (or proceed to step 8 if DAMPER VMAX-HS(LS) complete). Repeat steps 3 through 6 to test. Damper will position to VENTMAX position when complete. When programmed for 2-speed fan the damper will position to VENTMAX LS(low speed) position STEP 8: Repeat as needed to complete the checkout.The following should be the results of each test: ❑ DAMPER VMIN-HS will open to the vent minimum position setpoint(2.25Vdc is default). No need to run this test if not using CO2 ❑ DAMPER VMAX-HS (LS)will open to the vent maximum position setpoint(2-speed programming will default to low speed setpoint) ❑ DAMPER OPEN will drive the damper to full open to simulate a call for cooling when outdoor air is available. The Exhaust fan contact will close at the EXH1 SET setpoint.Allow for the 60 second delay before checking the results. ❑ DAMPER CLOSE-Only necessary if you desire a faster close speed after the DAMPER OPEN test is complete. ❑ Y1-O will bring on first stage compressor ❑ Y2-O will bring on second stage compressor(if applicable) ❑ CONNECT AUX1-O will show ERV, EXH2, or SYS as programmed, but will not be available. If programmed as NONE. The result of this test will be a 24Vac output at AUX1-O terminal to energize related component STEP 9: If additional testing is required,go to STATUS and scroll through each screen and validates. Make any necessary adjustments, or repair as needed. IV. RECORDED DATA(Economizer) Outdoor-Air Temperature DB WB Return-Air Temperature DB WB Sensing Strategy used (circle one) Dry Bulb Enthalpy Differential Enthalpy Other Changeover Setpoint used (circle one) ES1 ES2 ES3 ES4 ES5 V. RECORDED DATA(Power Exhaust Unit) Supply Voltage L1-L2 L2-L3 L1-L3 Supply Amps L1 L2 L3 Average Building Pressure at Minimum Position in H2O Average Building Pressure at Maximum Position in H2O 37 Glossary Air Content Sensor—A sensor used to measure certain components of the air in a room or other supply source. It is used as an input to adjust control sequences or parameters. Carbon Dioxide (CO2) is frequently measured as one component of overall air quality to make adjustments to ventilation controllers. Changeover Control—The control device used to switch over from outside to return air or vise versa to make optimum use of outside air for free cooling. Demand Control Ventilation—An energy efficiency measure to reduce outdoor air intake and the energy required to condition the out- door air when a space is not occupied at the maximum design density. Differential Enthalpy—The selection of a supply air source for the mixed air based on the lower enthalpy value derived from two enthalpy sensors located in the outside and return air sources. Most Honeywell electronic enthalpy economizer modules are based on a similar set point configuration. The available settings A, B, C and D are for single sensor or high limit enthalpy control. For differential enthalpy the dial is turned to D. Discharge or Supply Air—Air which has been treated(heated or cooled)before being supplied to the conditioned area or room. Economizer—Economizer controls provide"free cooling"during the cooling season by measuring the temperature or enthalpy of outside air.Outside air is used for cooling if it is sufficiently cool and dry.This reduces the usage of the mechanical cooling equipment and reduces cooling costs. Enthalpy—A measure of the total energy content of air based upon both temperature and moisture content (Humidity). When selecting air for cooling, it is a better measurement than solely temperature. Indoor Air Quality (IAQ)—The characteristics of the indoor climate of a building, including the gaseous composition, temperature, rela- tive humidity, and airborne contaminants. Integrated Economizer—An economizer control circuit that replaces the inefficient "wild" economizer by only enabling outside air for cooling when there is a call for cooling from the commercial thermostat and allowing for economizing and mechanical cooling at the same time_ Mixed Air—The combination of outdoor and return air prior to mechanical cooling or heating. Non-Integrated Economizer—An economizer control that does not connect to the thermostat for call for cooling and/or turns off the economizer cycle after a set time to turn on the mechanical cooling. Setpoint—The value at which the controller is set such as the desired room temperature on a commercial thermostat, the changeover point for dry bulb economizer changeover or a changeover ppm level of CO2 in a room for demand control ventilation. Glossary In-Part Courtesy of Honeywell—www.Honeywell.com 38 w rNeed help with your product? - 1 ,- 1 '❑ ••Click here or scan the QR code for a F . ... ' 1 product video. 7?..5 'n} j1 r ••Visit micrometl.com and click online catalog 1 '• � .z.h to get the latest installation instructions. i t •+-f a it •Email us at: techsunDortc micrometl.com •Call us to speak with one of our technical r support experts. (Available Mon. -Fri.,8a-5p) L Alik 0111 M i c ro Met I www.micrometl.com blog.micrometl.com MicroMeti Indianapolis 1.800.MMC.HVAC MicroMeti Longview 1.903.248.4800 MicroMeti West 1.800.884.4662 3036 N.Shadeland Ave.,Suite 300 201 Kodak Blvd. 906 Southern Way `n. : , N $226 Longview,TX 76602 Sparks,NV 89431 Manufacturer reserves the right to discontinue,or change at any time,specifications,designs and prices without notice and without incurring obligations. Form No.16776-2P Copyright MicroMetl Corporation 2013 All rights reserved. 39