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Home My WebLink AboutDUCTLES SYSTEM PRODUCT DATA38MHRB Outdoor Unit Single Zone Ductless System B r y a n t Sizes 09 to 24 e Product Data NOTE: Images are for illustration purposes only. Actual models may differ slightly. TABLE OF CONTENTS PAGE MODEL NUMBER NOMENCLATURE ................. 3 STANDARD FEATURES AND ACCESSORIES ........... 4 DIMENSIONS — OUTDOOR .......................... 5 CLEARANCES — OUTDOOR ......................... 8 SPECIFICATIONS — OUTDOOR COOLING ONLY ........ 9 COMPATIBILITY ................................... 9 PERFORMANCE ................................... 9 SPECIFICATIONS — OUTDOOR HEAT PUMP .......... 10 COMPATIBILITY .................................. 10 PERFORMANCE .................................. 10 COOLING PERFORMANCE DATA — (COOLING ONLY).. I l COOLING PERFORMANCE DATA —(HEAT PUMP) ..... 12 HEATING PERFORMANCE DATA — (HEAT PUMP) ...... 13 APPLICATION DATA ............................... 14 WIRING .......................................... 15 AIRFLOW DATA .................................. 16 SOUND DATA ..................................... 16 SOUND PRESSURE IN OCTAVE BANDS .............. 16 ELECTRICAL DATA ............................... 17 FAN AND MOTOR SPECIFICATIONS ................. 18 WIRING DIAGRAMS ............................... 19 GUIDE SPECIFICATIONS ........................... 25 INDUSTRY LEADING FEATURES/BENEFITS SCANNED BY St. Lucie County A PERFECT BALANCE BETWEEN BUDGET LIMITS, ENERGY SAVINGS AND COMFORT. The 38MHRB series ductless systems are a matched combination of an outdoor condensing unit and an indoor fan coil unit connected only by refrigerant tubing and wires. The ductless system permits creative solutions to design problems such as: • Add—ons to current space (an office or family room addition) • Special space requirements • When changes in the load cannot be handled by the existing system • When adding air conditioning to spaces that are heated by hydronic or electric heat and have no ductwork • Historical renovations or any application where . preserving the look of the original structure is essential. The ideal compliment to your ducted system when it is impractical or prohibitively expensive to use ductwork. The compact indoor fan coil units take up very little space in the room and do not obstruct windows. The fan coils are attractively styled to blend with most room decors. Advanced system components incorporate innovative technology to provide reliable cooling performance at low sound levels. RECEIVED MAY 17 2019 ST. Lucie County, Permitting REVIEWED FOR CODE COMPLIANCE ST. LUCIE COUNTY BOCC Inverter Technology Fast Installation The inverter driven compressor is designed to run at various input power frequencies (Hz) which controls the compressor's motor speed. Even Temperature — The control package, including the inverter, monitors the outdoor and indoor temperatures as they relate to the selected indoor set point and adjusts the compressor speed to match the load and keep the system operating continuously rather than cycling and creating temperature swings. This translates to higher comfort levels for the occupants. Rapid Pull Down/Warm—Up — Comfort is increased by the inverter system's ability to ramp up the compressor speed enabling the system to reach the user selected room temperature set point quicker. Humidity Control — Running the system for longer periods and continuously varying the compressor speed enhances the humidity control. Individual Room Comfort Maximum comfort is provided because each space can be controlled individually based on the usage pattern. Low Sound Levels When noise is a concern, ductless systems are the answer. The indoor units are whisper quiet. There are no compressors indoors, either in the conditioned space or directly over it, and there is none of the noise usually generated by air being forced through the ductwork. When sound ordinances and proximity to neighbors demand quiet operation, this outdoor unit is the right choice. With the inverter technology, these units run at lower speeds most of the time resulting in reduced sound levels. Inverter Technology — Enhanced Economical Operation Ductless systems are inherently economical to operate. Individual rooms are heated or cooled only when required, and since the air is delivered directly to the space, there is no need to use additional enetgy to move the air in the ductwork. This economical operation is enhanced further when the inverter system output matches the load resulting in a more efficient system. Easy —To —Use Controls The systems have microprocessor —based controls to provide the ultimate in comfort and efficiency. The user friendly wired and wireless remote controls provide the interface between the user and the unit. Secure Operation If security is an issue, outdoor and indoor units are connected only by refrigerant piping and wiring to prevent intruders from crawling through ductwork or wall openings. In addition, since the outdoor unit can be installed close to an outside wall, coils are protected from vandals and severe weather. This compact ductless system is simple to install. Only wires and piping need to run between the indoor and outdoor units. These units are fast and easy to install ensuring minimal disruption to customers in homes or the workplace. This makes these systems the equipment of choice for retrofit applications. Simple Servicing and Maintenance Removing the top panel of the outdoor unit provides immediate access to the control compartment, providing the service technician access to the diagnostic LEDs to facilitate the troubleshooting process. In addition, the draw—thru design of the outdoor unit means that dirt accumulates on the outside surface of the coil. Coils can be cleaned quickly from the inside using a pressure hose and detergent. On the indoor units, service and maintenance expense is reduced due to the permanent easy to clean filters. Also, error codes are displayed on the front panel to alert the user to certain system malfunctions Built—in Reliability Ductless system indoor and outdoor units are designed to provide years of trouble —free operation. Both the indoor and outdoor units are well protected. Whenever the microprocessor detects abnormal conditions, the unit stops and an error code appears. Inverter systems provide additional reliability due to the soft start. This refers to the ability of the inverter to start the compressor motor using reduced voltage and reduced current. This feature is beneficial from an electrical standpoint (eliminates curent spikes) as well as an overall reliability standpoint due to reduced stress on all associated system components. Agency Listings All systems are listed with AHRI (Air conditioning, Heating, and Refrigeration Institute) and are ETL certified per UL 1995 standard. MODEL NUMBER NOMENCLATURE 38 MH 38 = OUTDOOR UNIT MH = MODEL UNITTYPE R = OUTDOOR UNIT MAJOR SERIES SYSTEM TYPE C = COOLING ONLY O = HEAT PUMP OUTDOOR UNIT Use of the AHRI Certified TM Mark indicates a manufacturer's participation in the program For vedfcation cf certification for individual products, go to w rrhridirectoryorg. 09 VOLTAGE 1=115-1-60 3 = 208/230-1-60 VARIATIONS A = STANDARD MAXIMUM NUMBER OF FAN COIL UNITS THAT CAN BE CONNECTED TO THE OUTDOOR UNIT A=1:1 ,0. NOMINAL CAPACITY 09 — 3/4 TON 12-1 TON 18 — 1-1/2 TONS 24 — 2 TONS STANDARD FEATURES AND ACCESSORIES Ease Of Installation Low Voltage Controls IS Comfort Features Microprocessor Controls S Auto Restart Function Auto Changeover S Energy Saving Features Inverter Driven Compressor S 46'F Heating Mode(Heating Setback S Safety And Reliability 3 Minute Time Delay For Compressor S High Compressor Discharge Temperature S Low Voltage Protection S Compressor Overload Protecton S Compressor Over Current Protection S PM Module Protection S Condenser High Temp Protection in Cooling Mode S Aluminum Golden Hydrophilic pre —coated ins S Ease Of Service And Maintenance Diagnostics S Liquid Line Pressure Taps S Application Flexibility Crankcase Heater S Base pan Heater on Heat Pump units Oniv S Legend S Standard A Accessory ACCESSORIES Outdoor Unit Model Number Basepan Base Rubber Plugs RCD Part Number Quantity per Unit 38MHRBC12AAl 12600801 A00077 12 38MHRBC12AA3 38MHRBC18AA3 38MHRBC24AA3 25 38 MHRBQ 12AAl 12 38MHRBQ09AA3 38MHRBQ12AA3 38MHRBQ18AA3 13 38MHRBQ24AA3 25 NOTE: The basepan is constructed with multiple holes to provide proper draining during defrost. For applications where is required to seal these holes, and re —direct the condensate drain, rubber plugs are available through RCD. OUTDOOR UNITS Crankcase Heater The crankcase heater is standard on all unit sizes. Heater clamps must be placed around the compressor oil stamp. Base pan Heater The base pan heater is standard on all heat pump unit sizes. DIMENSIONS - OUTDOOR System Size Height (H) in. (mm) Width (W) in. (mm) Depth (D) in. (mm) Weight -Net lbs. (kg) Coaling Only 12K 12K (115V) (208/230y 21.85(555) 21.85(555) 30.31(770) 30.31(770) 11.81(300) 11.81(300) 57.8(26.2) 53.8(24.4) 18K (208/230V) 21.85 (555) 30.31 (770) 11.81 (300) 65.9 (29.9) 24K (208/2301) 27.64(702) 33.27(845) 14.29(363) 88.6(40.2) System Size Height (H) in. (mm) Width (W) in. (mm) Depth (D) in. (mm) Weight -Net lbs. (kg) 12K (115V) 21.85(555) 30.31(770) 11.81(300) 69(31.3) Heat 9K (208/2301/) 21.85(555) 30.31(770) 11.81(300) 63(28.6) Pump 12K (208/230V) 21.85(555) 30.31(770) 11.81(300) 65.5(29.7) 18K (208/2301) 21.81(554) 31.50(800) 11. 1(333) 79.6(36.1) 24K (208/23014 27.64(702) 33.27(845) 14.29(363) 114.2(51.8) H1 H2 Fig. I -Sizes 9K and 12K Heat Pump and Size 18K Cooling Only DIMENSIONS — OUTDOOR (CONT) D H1 H2 H W a I B2 2.4B1(fi 1.8) 2.76(7 0) W2 �r rig �^---�, i.. 0.87(2 Al 2.43(6 1.6) Fig. 2 — Size 18K Heat Pump Unit: inch(mm) 6 DIMENSIONS — OUTDOOR (CONT) D2 1.18(28) 03n P 7.83(199)42 H1 O O H2`z ]A2(36) A3 Unit: inch (mm) Fig. 3 —Size 24K CLEARANCES - OUTDOOR H Fig. 4 — Outdoor Unit Clearance UNIT MINIMUM VALUE in. (mm) A 24 (610) B 24 (610) C 24 (610) D 4 (101) E 4 (101) NOTE: The outdoor unit must be mounted at least 2in. (50mm) above the maximum anticipated snow depth. vain p25 ml ormorefor properzlkw 24(61cdor morels ormorebrproperaidow 24in(61cm1 ormoreis recommended forsenAe or More ana armore mulApleperallel unitarongement 24in(filcMormore onavnglepudId unitarmngeruat Fig. 5 — Clearances for multiple units on a multiplepamllel unitarangement 41n (I knn) or mman a singlepmllelunit arangement Air -inlet SPECIFICATIONS - OUTDOOR COOLING ONLY System Size 12 12 18 24 Outdoor Model 38MHRBC12AA1 38MHRBC12AA3 38MHRBC18AA3 38MHRBC24AA3 Voltage, Phase, Cycle WPh/Hz 115-1-60 208/230-1-60 208/230-1-60 208/230-1-60 Electrical MCA A. 13 11 15 18 MOCP - Fuse Rating A. 20 15 20 25 Operating Range Cooling Outdoor DB Min - Max =F Cq 0-122 (-17-50) 0-122 (-17-50) 0-122 (-17-50) 0-122 (-17-50) Total Piping Length It (m) 82 (25) 82 (25) 98 (30) 164 (50) Piping Lift It (m) 33 (10) 33 (10) 66 (20) 66 (20) Piping Pipe Connection Size - Liquid in (mm) 1/4 (6.35) 1/4 (6.35) 1/4 (6.35) 3/8 (9.52) Pipe Connection Size - Suction in (mm) 1/2 (12.7) 1/2 (12.7) 1/2 (12.7) 5/8 (16) Type R410A R410A R410A R410A Refrigerant Charge Ibs (kg) 1.30 (0.59) 1.17 (0.53) 1.98 (0.90) 2.56 (1.16) Metering Device EEV EEV EEV EEV Face Area Sq. Ft. 4.15 4.15 4.15 4.78 Outdoor Coil No. Rows 1 1 2 2 Fins per inch 22 22 22 22 Circuits 2 2 4 6 Type Rotary Inverter Rotary Inverter Rotary Inverter Rotary Inverter Model ASN98D22UFZ ASK89D29UEZD ASN140D21UFZ ATN15OD30UFZA Compressor Oil Type VG74 VG74 VG74 VG74 Oil Charge Fl. Oz. 13.0 13.0 15.5 23.6 Rated Current RLA 9.5 6.8 9.0 12.0 Unit Width in (mm) 30.31 (770) 30.31 (770) 30.31 (770) 33.27 (845) Unit Height in (mm) 21.85 (555) 21.85 (555) 21.85 (555) 27.64 (702) Outdoor Unit Depth in (mm) 11.81 (300) 11.81 (300) 11.81 (300) 14.29 (363) Net Weight Ibs (kg) 57.8 (26.2) 53.8 (24.4) 65.9 (29.9) 88.6 (40.2) Airflow CFM 1,170 1,230 1,195 1,825 Sound Pressure dB(A) 52.0 53.6 1 55.3 58.0 * Condensing unit above or below indoor unit Indoor Model 40MHHC12---1 40MHHC12---3 40MHHC18---3 40MHHC24---3 Energy Star NO NO NO NO Cooling System Tons 1.0 1.0 1.4 1.8 High Wall Cooling Rated Capacity Btu/h 12.000 11,500 17,000 22,000 Cooling Cap. Range Min - Max Btu/h 4.800-13,200 4,800-13,000 5.800-18,600 4.900-24.100 SEER 17.3 19.0 19.0 18.5 EER 10.7 11.2 10.3 11.1 SPECIFICATIONS - OUTDOOR HEAT PUMP System Size 12 9 12 18 24 Outdoor Model 38MHRB012M1 38MHRBQ09PJ3 38MHRBQ12AA3 38MHRBQ18AA3 38MHRB024AA3 Voltage, Phase, Cycle V/Ph/Hz 115-1-60 208230-1-60 20S230-1-60 208/230-1-60 2DB230-1-BD Electrical MCA A. 13 8 10 15 18 MOCP - Fuse Rating A. 20 15 15 20 25 Operating Cooling Outdoor DB Min - Max ° F C C) 0-122 (-17-50) 0-122 (-17-50) 0-122 (-17-50) 0-122 (-17-50) 0-122 (-17-50) plan9e Heating Outdoor DB Min -Max ° F CC) 0-86 (-17-30) 0-86 (-17-30) 0-86 (-17-30 0-86 (-17-30) 0-86 (-17-30) Total Piping Length 1t (m) 82 (25) 82 (25) 82 (25) 98 (30) 164150) Piping Piping Lfl 1t (m) 33 (10) 33 (10) 33 (10) 66 (20) 66 (20) Pipe Connection Size - Liquid in (mm) 1/4 (6.35) 1/4 (6.35) 1/4 (6.35) 1/4 (6.35) 3/8 (9.52) Pipe Connection Size - Suction in (mm) 12 (127) 3/8 (952) 12 (127) 12 (12.7) 5/8 (16) Type R41QA R410A F1410A R410A R410A Refrigerant Charge Ibs (kg) 212 (0.96) 1.76 (0.80) 2.12 (096) 2.82 (128) 3.97 (1.80) Metering Device EEV EEV EEV EEV EEV Face Area Sq. FL 4.1 4.1 4.1 4.7 53 Outdoor Coil No. Rows 1.6 1 1.6 2 2 Fins per inch 18 18 18 21 18 Circuits 2 2 4 4 6 Type Rotary Inverter Rotary Inverter Rotary Inverter Rotary Inverter Rotary Inverter Model ASN98D22UFZ ASN98D22UFZ ASN98D22UFZ ASN14OD21UFZ ATF235D22UMT Compressor Oil Type VG74 VG74 VG74 VG74 VG74 Oil Charge R. Oz 13.0 13.0 13.0 155 23.6 Rated Current RLA 10.5 5.5 63 105 12.0 Unit Width in (mm) 3031 (T70) 3031 (770) 30.31 (770) 31.50 (800) 3327 @45) Unit Height in (mm) 21.85 (555) 21.85 (555) 21.85 (555) 21.81 (554) 27.64 (702) Outdoor in (mm) 11.81 (300) 11.81 (300) 11.81 (300) 13.11 (333) 14.29 (363) m Its (kg) 69 (313) 63 (28.6) 65.5 (29.7) 79.6 (36.1) 1142 (51.8) CFM 1,170 1,170 1,170 1,170 1,765 re U[ (A) 1 54.5 572 57.4 1 57.0 602 * Condensing unit above or below indoor unit COMPATIBILITY PERFORMANCE Indoor Model 4OMHH012 --- 1 4OMHH009 --- 3 4OMHH012 --- 3 40MHHQ18 --- 3 4OMHHQ24 --- 3 Energy Star NO NO NO NO NO Cooling System Tons 1.0 0.8 1.0 1.5 2.0 Cooling Rated Capacity Btu/h 12,000 9,000 12,D00 18,000 24,000 Goofing Cap. Range Min - Max Btu/h 3.700-13,000 3,400-10,500 3,700-13,DD0 55w-19,W0 8,987-26,5B5 SEER 19.8 18.5 19.8 19.0 17.3 EER 10 112 112 112 9.7 High Wall Heating Rated Capacity (47"F) Btu/h 12,000 9,800 12,000 18.000 24.800 Heating Rated Capacity (17°F) Btu/h 8,000 7,500 9.230 11.600 18,000 Heaffirg Maxmum Capacity (17°F) Btu/h 8.200 7,a50 9,500 11.800 18.300 Heating Maximum Capacity (5°F) Btu/h 9,000 6,070 8.880 10,150 16.760 Heating Cap. Range Min - Max Btu/h 3,500-13,500 2,800-11,50D 3,500-13,500 6,200-19,000 8,371-25,350 HSPF 10.6 10.0 9.6 10.6 9.5 COP (47°F) W/W 2.93 3.27 3.22 3.26 3.13 COP (17°F) WNW 258 258 2.64 2.64 2.49 COP IF F) W/W 1.60 1.60 1.60 1 1.50 1.40 10 nU moo'a$ooA^oo,?�5,�^om'on"J.o"a.�om'e,om�^e 8�m'+.e��vNi m''2.n`m^.?g N'N^oN^m`�'Nd LLU Pm mm0 oHmoml'�mN�'°m�°Inr'AO�meni,Nm�ef1 O1 j^mnen0�N�N0m0mnNNN �O 0 N N N N- N m O& V b N IF qq NN qq q O m C n O r lN•1 N N m N° y m Yi H y NN VV11 ryry VV ° �n �no`*mdmb mno Ord amt2doo 0 oiN,.ma�Hm �NNmN 9 O LL V N O y b n b o n N O m q N m P 0 O [P•1 P �R I� < m. N O Yn1 ^ t%i C fN•1 �N(1 p P Cm{ O V ` n H °! b b a m G T !� OO � OI OO q W. m i'n N m mm Pry m m io o amn m `" n d vmi o n m n 1°7E '`°' n b o I� b O 0 O m11 m O N m OO m N J 0 t•1 NON H LL N W r N w N 0 N N N ^OO v O C CI P lN'1 m m tN'), N ry 0. n ry 0 V P N. N n m N lN0 lm0 Vb P N ry0 m N 0 °Oj 6 N p O m m 1° C N N OO 1� m OO N N 0 O IF b O n m1 O m n O � Ei O O m N O n N OO m^ OO N LL A N b O O O y rJ 6 C m 6 O i b YI O OO r b OO n b 0 1� O O r N G OO Ih (G m N O O F m O m LLU No no vU my "F �S a� LLU r[T aU uS "G rym vG i n mN ^ n� _ N� Nn No my ° U U c m _ mU ryU �qU �q0 U ry0 U b0 O Ha •w PN mu rye U uu m b� n.PN. mC m�L� n� mm� m`. n�• °m `• m•'H.. nC mC 0 o e a. �m maw UU� N=-vLL mm=�� wo g W mmUU� J Obi F'N_ COOLING PERFORMANCE DATA - (HEAT PUMP) Model Cooling Outdoor Conditions (OB) Indoor Conditions OF (-17C) 5F (-15C) 17F (-BC) 47F (SC) 77F (25C) 86F (301 95F MC) 104F (40C) 113F (45C) 122F (SOC) DB WB 69.8F (21C) 59F (i5C) TC 11.24 11A4 11.38 10.68 10.82 10.99 13.45 9.73 Tat! 4.96 SC TM 7.85 7.86 7.42 7.46 7.67 729 7.06 626 4.94 Input 0.48 0.46 OF3 0.46 0A5 0.90 0.97 1.U6 1.00 0.81 12 75.2F (24C) 62.6F (17C) TO 12.25 12.11 12.18 11.43 11.53 11.90 11.21 10.29 8.30 5.44 SC 8.33 8.34 8.31 7.99 5.05 8.18 7.8.6 7.45 6.58 5.41 Input 0.50 0..4 0..4 0..0 091 0.99 1..4 (115V) 8D.6F (27C) 662F (19C) TC 2.9 12.93 12.61 11.40 11.44 11.00 11.9E 12.01 11.24 9.32 9.32 6.81 6.03 SC 8.71 8.80 8.76 8.32 B.17 8.67 B.46 8.16 7.32 6.10 Input 0.49 0.52 0.47 0.42 0.61 0.92 1.19 1.10 1.00 O.B2 89.6F (32C) 73.4F (23C) TC 14.54 14.30 14.73 14.62 13.29 13.05 12.97 12.52 10.31 7.51 SC 9.03 8.99 9.11 9.58 8.61 BSS 8.52 B.33 7.0 6.58 lnPut 0.58 0.61 0.55 0.81 0.84 0.93 1.03 1.09 0.93 0.83 69.8F (21C) 59F (/5C) TC 9.06 857 7.95 9.11 9.16 8.79 9A2 US 6.52 5.08 SC 6.56 6.51 5.88 7.47 7.60 6.91 7.22 4.88 4.53 3.01 Input 0.38 0.40 0.40 0.62 0.76 0.90 1.19 1.00 0.93 0.95 09 752F 24C 62.6F (17C) TC 9.59 9.30 8.60 10.07 9.0 9.76 10.17 8.17 6.70 5.76 SC 6.18 6.15 5.73 6.50 6.41 6.37 6.55 5.66 5.01 4.0 Input 0.41 0.43 0.43 0.63 0.73 0.90 1.19 1.01 0.94 0.96 (201 BD.6F (27C) 66.2E (19C) TC 10.20 9.91 9.81 11.17 11.31 11.56 10.78 8.41 6.95 6.10 SC 6.59 6.53 7.01 7.5D 7.69 7.58 696 591 5.26 5.10 Input 0.48 0.46 0.47 0.51 0.73 0.95 120 1.06 0.98 1.01 89.6F (32C) 73.4F (23C) TO 11.39 11.15 10.81 12.39 13.39 12.26 12.12 924 8.03 6.74 SC 6.83 6.75 6.08 7.23 7.83 7.17 7.16 6.02 5.57 6.08 Input 0.52 0.56 0.57 1.04 1.01 0.92 1.23 1.D3 0.96 097 69.8F (21 C) 59F (15C) TO 1224 11.97 12.09 12.05 11.58 12.11 11.93 10.59 B.17 TIS SC 8.47 8.3B 897 B.32 B.08 8.32 B.24 7.63 6.41 5A7 Input 0.58 0.53 0.37 0.66 1.02 1.10 1.27 1.24 0.95 0.97 12 752F (24C) 62.6F (17C) TC 13.25 13.53 12.36 12.45 12.18 12.91 12.67 10.78 8.67 7.73 SC 9.10 9.19 8.60 B.63 6.52 8.86 8.68 7.89 6.88 6.49 Input 0.71 0J1 0.46 0.67 0.76 1.10 1.29 1.24 0.95 0.98 (201 801 (2]C) 66.2E (1sC1 TC 13.82 14.07 14.91 12.71 12.95 13.75 13.49 11.07 9.20 B.D5 SC g 9.50 9.90 B.84 8.98 9.29 9.12 8.14 7.07 6.80 Input 0.q4 72 0.73 0.69 0.68 0.76 1.11 1.30 1.25 0.96 0.98 89.6F (32C) 73.4F (23C) TO 14.89 15.18 15.53 1496 16AS 15.79 14.92 11.84 10.34 8.68 SC 9.54 9.61 9.70 9.22 10.20 9.71 9.41 8.24 7.68 7.07 Input 0.75 0.76 0.70 1.03 1.11 1.]B 1.33 1.26 0.97 0.99 69.BF (21C) 59F (15C) TC 19.82 18.50 18.02 15.81 17.95 17+37 17.66 16.59 11.76 10.12 SC 13.87 12.95 12.85 11.15 12.96 12.35 13.74 12.99 10.B6 10.D7 Input 0.76 O.T/ 0.80 0.67 0.87 1.42 1.75 1.83 1.39 1.43 18 752F 24C 62.6E 17 TC 20.51 1926 18.68 16.45 18.46 18.38 182E IT94 12.51 10.95 SC 14.57 14.D2 14.52 12.71 13.90 13.70 14.06 13.89 11.87 10.95 Input 0..3 0..2 1A8 1..1 1..9 1.4E 1..9 (208-2301) 80.6F (27C) 66.2F (19C) TC 21.5E 1.5 9.7 18.74 18.38 19.20 19.60 19.14 18.94 13.65 11.94 SC 15.51 16.2E 14.81 15.00 14.89 159E 14.84 13.10 11.94 Input 0.85 0.89 0.76 0.96 1.5E 1.85 1.95 7.48 1.54 89.6F (32C) 73.4F (23C) TC 22.49 2098 20.43 22.59 23.55 22.15 21.37 15.67 13.48 SC 15.32 P17.81 16.66 14.82 15.96 15.01 15.72 15.23 13.79 13.00 Input 0.96 126 1.25 1.18 1.5E 1.89 1.99 tA9 1.55 69.BF (21C) 59F (15C)Input TC 2525 25.21 24.09 23.05 24.10 22.92 20.08 14.76 9.91 SC 17B1 17.82 16.77 16.60 16.74 1&04 15.19 12.06 7.78 1.]5 1.)2 1.3E 1.60 2.43 2.65 2.5E 2.10 1J9 24 752F (24C) 62.6F (17C) TC 27.D7 2829 25.45 2550 26AS 24.08 21.05 15.76 10.53 SC 18.94 18.59 19.58 17.9D 1756 18.47 16.85 15.B9 11.53 7.55 Input 1.64 1.83 1.]5 1.4E 1.6E 2.46 2]0 256 2.12 1.79 (208-2301) 80.6F (2]C) 662E (19C) TC 29.21 29.96 30.18 27.10 26.BO 27.93 24A5 22.19 16.55 13.OB SC 20.47 21.03 21.41 19.08 18.82 19.88 18.08 16.04 12.05 9.79 Input 1.89 1.91 1.78 1.46 1.66 2.48 2.66 2S8 2.13 1.80 89.6F (32C) 73.4F (23C) TC 31.19 31.10 31.10 27.86 30.2E 30A3 28.05 24.84 1826 14.88 SC 21.92 21.99 21.05 19.63 21A8 21J8 19.05 18.75 13.58 11.05 Input 1.9E 2.07 7.91 1.61 2.0E 2.55 2.8E 2.65 2.17 1.82 LEGEND DB - Dry Bulb WE - Wet Bulb TC - Total Not Capacity (1000BTt1/hour) SC - Sensible Capacity (1000BTllmour) Input - Total Power (kW) 12 9��000 'm Eo Bm'zo �262mm SSAP Jay C 3 w 0 0 o a NN N0 'N 0 VjN 6 S .S 5 5 OT y +p +0 NV Om q +p +0 NNV Om q +A +N NNV 00 qq �A � NI�V 00 i� i fN50 (lT (lT llT T T t"1T T T A IJT n0 T (1P CJT (J0 T (l �` liT cT� ' C b O v 80 v n O o n O a n 0 a n O v n O a n O a n O n A 0 a A 0 a A O a A 0 9 n O a n O a A 0 a n O R n O n O a n O n L S T S S T .i T S 9 S V S 9 F. + N+ N +p in Y'i N p+ O N 0 J + oil. N W 4 O N C N m A O m O VyI 0 N O R O NN p p O 0 N N T 1. m P W 41 N V 0 II 0 W fJ j N y' + 0 0N 8+ N 'O O 0 N O 0 N OJ N+p p+ N+p p O A+ O N N p 0 A N W m J N y+ A m' J 0 N N N+ d 0 Al 0 41 + A VO V N U qqN J b N+ 0 N O V N 0 0 N 0 0 N O V 1 r N N N N o N N N N N 0 +p N p N Ij N V N H 0 f0i1 p V L� O V g N N V V+ p V OV r W P N N N N r N N N u 0 .0pNi P P N J m 0.NLl m N W 41 0. N N N N N N N N N ly p N W N+ )j N+ y N+p j� N .+ 41 O J N O 0 fJ O 0 W O N Ij N V V + m VNI N V N O 1'PI1 W r O V P N P N yWj O ..1 N 0 0 N N N m fJ +l . pp N m N 8 N8 80 4 0 N !J V Ill 0 IWII () T O O N N y N yN N N In O P N P P P T 0 0® 0 N 0 P 0 0 0 P V V r N 0 10 N O 0 N . G G O N O N V N N ip 4)fi 0 0 0 W" O 0 f0.1 N V I.l A N 0 P ,'� Nn m p 0 pl b 0 0 N V p A A H N CVi V N V 0 y W 0 N IOiI b O+ m N O g N fll P.� T N yml N N p fi N� yi fNi N q lNi r m L1 'y 0+ 'y + '0 N r� r' N+ �j N+ N 4p1 r j fi r� INJ r� r� W r� N r� N r H W+ N YN 1NJ q+ IWI�� yy AA'' NOin r'm � N N.V. NNu+ V 10 d y yi N >N !i ly V N b O N � e N N m 41 P IOp INO N V m m Y'p P 0 m 0 P c +� p 0 a P o+Ho 0 m N J L m N N w fWJ 0� yy 0 J H A P� !i O+ b Cl T \= J APPLICATION DATA UNIT SELECTION Select equipment that either matches or supports slightly more than the anticipated peak load. This provides better humidity control, fewer unit cycles, and less part —load operation. For units used in spaces with high sensible loads, base equipment selection on unit sensible load, not on total anticipated load. Adjust for anticipated room wet bulb temperature to avoid undersizing the equipment UNIT MOUNTING (OUTDOOR) Refer to the unit's installation instructions for further details. Unit leveling — For reliable operation, units should be level in all planes. Clearance— Minimum clearance (see Fig. 4) must be provided for airflow. The condensing units are designed for free —flow application. Air inlets and outlets should not be restricted. Unit location — A location which is convenient to installation and not exposed to strong winds. A location that can bear the weight of the outdoor unit and where the outdoor unit can be mounted in a level position. Do not install the indoor or outdoor units in a location with special environmental conditions. For those applications, contact your sales representative. SYSTEM OPERATING CONDITIONS OPERATING RANGE MIN / MAX °F rC) COOLING HEATI NG7 Outdoor DR 0 - 122 (-T7 - 50) 0 - 66 (-t- ao) NOTE: Reference the product installation instructions for more hdbrmation. METERING DEVICES The outdoor unit has an electronic expansion valve to manage the refrigerant flow of the connected fan coil. DRAIN CONNECTIONS Install drains to meet the local sanitation codes. REFRIGERANT LINES General refrigerant line sizing: 1. The outdoor units are shipped with a full charge of R410A refrigerant. All charges, line sizing, and capacities are based on runs of 25 tt (7.6 m). For runs over 25 f . (7.6 m), review the Long Line Applications section for the proper charge adjustments. 2. Refrigerant lines should not be buried in the ground If it is necessary to bury the lines, do not bury more than 36—in (914 mm). Provide a minimum 6--m (152 mm) vertical rise to the service valves to prevent refrigerant migration. 3. Both lines must be insulated. Use a minimum of 1/2—in. (12.7 Into) thick insulation. Closed —cell insulation is recommended in all long —line applications. 4. Special consideration should be given to isolating the interconnecting tubing from the building structure. Isolate the tubing so vibration or noise is not transmitted into the structure. Long Line Applications: 1. No change in line sizing is required. 2. Add refrigerant per the Additional Charge table. ADDITIONAL CHARGE TOTAL LINE LENGTH M pDOmONAL CHARGE, oz/O. FT. (m) UNIT (m) sin Mh 10-25 >25-82 182-98 198-164 (3-5) (8-25) (25-30) (30-50) 9 10(3) J82(n) None0.16 0.16 0.32 0.32 12 18 24 0.32 14 All wires must be sized per NEC (National Electrical Code) or CEC (Canadian Electrical Code) and local codes. Use Electrical Data table MCA (minimum circuit amps) and MOCP (maximum over current protection) to correctly size the wires and the disconnect fuse or breakers respectively. Recommended Connection Method for Power and Communication Wiring: The main power is supplied to the outdoor unit. The field supplied 14/3 stranded wire with ground with a 600 volt insulation rating, power/communication wiring from the outdoor unit to indoor unit consists of four (4) wires and provides the power for the indoor unit. Two wires are line voltage AC power, one is communication wiring (S) and the other is a ground wire. Wiring between indoor and outdoor unit is polarity sensitive. The use of BX wire is NOT recommended. If installed in a high Electromagnetic field (EMF) area and communication issues exists, a 14/2 stranded shielded wire can be used to replace L2/N and (S) between outdoor unit and indoor unit landing the shield onto ground in the outdoor unit only. EQUIPMENT DAMAGE HAZARD Failure to follow this caution may result in equipment damage or improper operation. Wires should be sized based on NEC and local codes. EQUIPMENT DAMAGE HAZARD Failure to follow this caution may result in equipment damage or improper operation. Be sure to comply with local codes while running wire from the indoor unit to the outdoor unit. Every wire most be connected firmly. Loose wiring may cause the terminal to overheat or result in unit malfunction. A fire hazard may also exist. Ensure all wiring is tightly connected. No wire should touch the refrigerant tubing, compressor or any moving parts. Disconnecting means must be provided and shall be located within sight and readily accessible from the air conditioner. Connecting cable with conduit shall be routed through the hole in the conduit panel. 15 AIR FLOW DATA COOLING ONLY 38MHRBC Unit Size 12K (115V) 12K (208/230V) 1BK (208/230V) 24K (208/230V) Outdoor(CFM) 1.170 1,230 1,195 1,825 HEAT PUMP 38 HRBG Unit Size 1 12K (11M 9 208 230 12 208 230 18 208 230 24 208 230 ut oor M) 11,170 1,170 1,170 1 1.170 I 1,765 SOUND DATA 38MHRBC Unit Size 12 115 12K (208 230 18 (208 230V) 1 24K(208 230V) Outdoor Sound Pressure Level I dB(A) 1 52 1 53.6 55.3 58 utdoor Sound Power Level I tl6 A 63.3 1 63.6 65.3 65.5 38M RB Unit Size 12K (115V) 9K (208 230 12 (208 230V) 18K (208/230V) 24 (208 230V) Outdoor Sound Pressure Level dB(A) 54.5 57.2 57.4 57 60.2 utdoor Sound Power Level tlB AI 63.5 I 62.8 64.1 I 65.7 66.2 SOUND PRESSURE IN OCTAVE BANDS COOLING ONLY Frequency Hz 63 125 250 1 500 1000 1 2000 4000 6300 8000 12 115 ooling A 60.2 57.3 52.0 49.9 45.9 1 41.1 1 35.6 30.1 60.2 12K 208V) ooling tlB(A) 17.41 32.97 38.41 41.03 41.68 38.9 I 32.81 27.85 25.52 16 208V ooling abtA) 22.93 37.81 1 40.28 45.45 43.52 42.24 1 32.44 25.5 20.79 24 208 Cooing dB(A)I 19.86 31.23 1 46.54 45.59 45.92 41.09 1 36.12 30.05 26.86 HEAT PUMP Frequency (Hz) 63 125 250 500 1000 2000 4000 8000 12K (115) Cooling dB(A) 52.6 56.9 56.6 53.3 48.7 42.1 37.4 34.0 Heating dB(A) 59.9 55.5 54.0 50.6 46.8 42.2 36.1 31.5 9K (20BV) Cooling dB(A) 59.3 56.9 53.1 50.8 46.4 42.6 36.4 30.3 Heating dB(A) 57.8 56.3 55.1 51.7 47.9 44.5 38.7 33.6 12K (208V) Cooling dB(A) 64.8 57.3 55.7 53.3 51.1 48.1 42.6 36.1 Heating dB(A) 56.8 56.9 57.8 53.2 49.3 44.6 39.2 31.8 18K (208v) Cooling dB(A) 54.1 55.8 51.2 48.7 46.8 42.5 34.8 28.3 Heating dB(A) 52.9 58.6 51.7 49.9 50.3 43.0 38.5 33.3 24K (206V) Cooling dB(A) 52.6 56.9 56.6 53.3 48.7 42.1 37.4 34.0 Heating dB(A) 59.9 55.5 54.0 50.6 46.8 42.2 36.1 31.5 OUTDOOR UNIT SOUND PRESSURE TEST CONDITIONS Outdoor Unit 3.3 ft. (1m) NOTE: H=0.5 x Height of outdoor unit Indoor Condition Outdoor Condition DB WB DB WB Cooling 80.6F (27C) 66.2F (19C) 95F (35C) 75.2F (24C) Heating 68F (20C) 59F (15C) 44.617 (7C) 42.8F (6C) 16 ELECTRICAL DATA COOLING ONLY Outdoor Unit Size 12K 12K 18K 24K Volts -PH -Hz (115V) (208/230V) (208/23OV) (208/230V) Max - Min• Oper. Voltage 127-104 253-187 253-187 253-187 Power Supply MCA 13 11 15 18 MOCP 20 15 20 25 Compressor RLA 9.5 6.8 9 12 Outdoor Fan Motor FLA 0.6 0.5 0.6 0.6 Rated HP 0.054 0.054 0.054 0.068 Output 1 40 40 40 50 HEAT PUMP Outdoor Unit Size 12K 9K 12K 18K 24K Volts -PH -Hz (115V) (208/230V) (208/230V) (208/23OV) (208/23OV) Max -Min- Oper. Voltage 127-104 253-187 253-187 253-187 253-187 Power Supply MCA 13 8 10 15 18 MOCP 20 15 15 20 25 Compressor FLA 10.5 5.5 6.8 10.5 12 Outdoor Fan Motor FLA 0.6 0.4 0.4 0.5 0.6 Rated HP 0.054 0.054 0.054 0.054 0.068 Output 40 40 40 40 50 vermissiom limits Or me Voltage range at wblcb We un4 will operate satisfactorily. LEGEND FLA — Full Load Amps MCA — Minimum Circuit Amps MOCP — Maximum Over —Current Protection RLA — Rated Load Amps 17 FAN AND MOTOR SPECIFICATIONS Cooling Only 38MHRB Unit Size 12K (115V) 12K (208/230V) 18K (208/230V) 24 (208/230V) c Material Acrylonitrile Styrene +20%GF Acrylonitrile Styrene +20%GF Acrylonitrile Styrene +20%GF Acrylonitrile Styrene +20%GF m o 0 Type - ZL-425`127`8-3KN ZL-425`127`8-3KN ZL-420`143`8-3KN ZL-490`151`12-3KN Diameter Inch (mm) 16.73 (425) 16.73 (425) 16.54 (420) 19.29 (490) Height inch 5 (127) 5 (127) 5.63 (143) 5.94 (151) Model - ZKFN-40-8-1L ZKFN-40-8-11- YKT-48-6-206 ZKFN-50-8-2 Volts V 115 208/230 208/230 208 230 Phase - 1 1 1 1 Hertz Hz 60 60 60 60 FLA -HP A 0.6 0.5 0.6 0.6 o Rated HP 0.054 0.054 0.054 0.068 E Output W 40 40 040 50 `m Type - DC DC DC DC Insulation class - E E E E o Safe class - IPX4 IPX4 IPX4 IPX4 0 Input W 63 63 63 115 Range of current Amps 0.6±10 % 0.5±10% 0.6±10% 0.6±10% Rated current Amps 0.6 00.5 00.6 0.6 Capacitor pF N/A N/A N/A N/A Speed rev/min 960/700 850/700 850/700 900/650 Rated RPM rev/min 980 980 980 900 Max. input W 91 91 91 137 Heat ump 38MHRB Unit Size 12K (115V) 9K (2081230V) 12K (208/230V) 18K (208/230V) 24K (208/230V) Material _ Acrylonitrile Styrene +20%GF Acrylonitrile Styrene+20%GF Acrylonitrile Styrene +20%GF Acrylonitrile Styrene +20%GF Acrylonitrile Styrene +20%GF o Type _ ZL-425`127•8-3K N ZL-425`127`8- 3KN ZL-425•127•8-3K N ZL-427`139`8-3K N ZL-490'151'12-3K N Diameter inch 16.73 (425) 16.73 (425) 16.73 (425) 16.81 (427) 19.29 (490) Height inch 5 (127) 5 (127) 5 (127) 5.47 (139) 5.94 (151) Model - ZKFN-40-8-IL ZKFN-40-8-IL ZKFN-40-8-1L ZKFN-40-8-1L ZKFN-50-8-2 Vo s V 115 208/230 208/230 208/230 208/230 Phase 1 1 1 1 1 Hertz Hz 60 60 60 60 60 1]4 A 0.6 0.4 0.4 0.5 0.6 o Rated HP HP 0.054 0.054 0.054 0.054 0.068 E Output 40 40 40 40 50 Type - DC DC DC DC DC Insulation class - E E E E E c Safe class - IPX4 IPX4 IPX4 IPX4 IPX4 Input W 63 63 63 63 115 Range of current Amps 0.6±10% 0.4±10% 0.4±10% 0.5±10% 0.6±10% Rated current Amps 0.6 0.4 0.4 0.5 0.6 Capacitor NF NA NA NA NA NA Speed rev/min 850/650 850/650 850/650 850/650 8101720 Rated RPM rev/min 880 980 980 980 900 Max. input W 91 91 91 91 137 18 WMING DIAGRAMS (COOLING ONLY) YELLOW OR BLACK NOTE:Theconnectionwiresforthe — "' reactor and the capacitorshouldbe E�AvD�(N� Y/G�LY/G o thesamecolor;blackorbrown Yi lam" 61(fl m L N S L N BLUE V w 1611MI fool 115VAC Y INa """"I 'I POWER SUPPLY Y/G Qo �_�""�_"1 IT ■M A1 DC -FAN I Note: This symbol indicates the element is optionaL The actual shape shall prevail. CODE PA RT NAME CODE PART NAME CN1A Input 115V high voltage connector with LIN/si nal1round CN21 Input: temperature acquisition (0—SVDC) CN7 Output: 0-320VDC to control DC FAN CNa_t ON4 2 CN4_3 CN4 4 Output:115VAC High voltage connector for power factor ODnactof PFC CN17 Output 115VACto control crankcase heater CN60 Output: 115 VAC to control 4-way valve CN50 Output: 0-32OVDCto connect compressor Fig. 6 — Wiring Diagram Size — Cooling Only Size 12K (115V) 19 WIIMING DIAGRAMS (COOLING ONLY (CONTIN LIED)) Notes:This symbol indicates the element Y/G BLUE(' YELLOW OR BLACK BLUE OR BLACK is optional. The actual shape shall prevail. Y/G q I NNoi. L1 1-2 S Ll L2IY/GGG RUNIT POWERSUPPLY 60 r, I MAIN RED" BOARD "w�nr� CN 1 CODE PART NAME CODE PART NAME CN1A Input: 220V high voltage connector with L11.2/sivand CN21 Input tempeminre sensor connector (0.5V DC) CN7 Output 0-320V DC to connect DC FAN CN9—CN32 To connect PFC reactor CN50 Output 0-320V DC to connect compressor CN17 Output: 220VAC to connect crankcase heater ON60 Output 0-220VAC to connect 4-way valve Fig. 7 — Wiring Diagram Cooling Only Size 12K (230V) 20 WIRING DIAGRAMS (COOLING ONLY (CONTINUED)) Ir" According to the real 0 0 0 oV I Y/G I L1 L2 S L1 L1 L2 �d)Y/G UNIT POWER SUPPLY OUTDOOR z MAIN PCB Notes: ----- This symbol indicates 3 the element is optional, DC -FA the actual shape shall OPTIONAL: prevail. CODE PART NAMIf CODE PART NAME CN3 Input: 220V high voltage oonnectorwilh LVL21si nalfmund CN5 Output: 0-220VAC to control AC FAN CN21 Output: PWM for UVW to control Cora ressor 0-320%CC CN16 Output: 220VAC to control crankcase heater CN17 Input: Temperature ecquisition(0-SYDC) CN60 Output: D-220V AC to control 4-way valve CN414 Output: 0-320VDC to control DC FAN Fig. 8 -Wiring Diagram Cooling Only Sizes 18-24K 21 WIRING DIAGRAMS (HEAT PUMP) Note:Theconnection Wires for the reactor and capacitor should be the same color; black or brown. BLUE BLUE 3 n RED RED z BL C BLACK N2 V W LESSOR LYIG CN21 CN oeeo ee o 07 0 YELLOW OR L N S L N o j'� " -115PAC o POWER SUPPLY Y/G ao ^ Cfla UNIT • ••" I:La:1laJ �FAN Notes: DThis symbol indicates the element is optional, the actual shape shall prevail. LIN M Y/G" DGFAN CODE PART NAME CODE PART NAME CN to Input: 115V high voltage connector with LIN/si nal/ round CNIS 100-130VAC Pan Heater CN 50 Output MM(tc conhrol Coco ressor 0-320WC CN 17 Output: 115V AC to control crankcase heater >P CN 21 Input: Temperature acquisition((I-5VOC) CN 60 Output 0-115V AC to control 4-way valve CN 7 Output 0--320VDC to control DC FAN I CN4_ CN4_3 CN 2 CN4 4 4 Output Connection of the high vdtege(REAcroR Fig. 9 —Wiring Diagram Heat Pump Size 12K (115V) 22 WIRING DIAGRAMS (HEAT PUMP (CONTINUED)) Notes: This symbol indicates the element YIG aLUEt YELLOW OR BLACK BLUE OR BLACK is optional,the actual shape shall YIG prevail. BROWN afjL% ED MAIN �i BOARD Elimm • rinfl �'1111�� YIG pp :Pap I -L UNIT POWERSUPPLY 60 17 CODE PART NAME CODE PART NAME CN1A Input 220V high voltage cmmec[ar with L1,L2tsianal/pround CN21 input temperature sensor connector (0-SV DC) CN7 Output 0-320V DC to connect DC FAN CN15 220VAC Pan Heater CN9—CN32 To connect PPC reactor COD Output 0-320VDO to connect compressor ON17 Output; 220V AC to cmmect crankcase heater CN60 Output 0-220V AC to connect 4-wyvalve Fig. 10 - Wiring Diagram Heat Pump Sizes 09,12, 18 (230V) 23 f WHUNG DIAGRAMS (HEAT PUMP (CONTINUED)) Applicable to 1AL:the elecbic YIG DCF the units adopting belt of chassis � _ DC motor only OUTDOOR OPTIONAL: 3 cNso MAIN CNISA cNB CN3 PCB CN30 lvv� _ o w BLUE(BLACK) CN7 CN17 Y/G m¢ O CN2 _CN1 CNtO (YELLOW) Man a 0S Li L2 Ito 1 Li_L2 TO INDOOR UNIT POWER SUPPLY LACK(BLUE) OUIDOOROBIENT CONDENSEI DISCMRGE SENSOR 1EIMATUI£D67P, A lisle] \ � \ , 1 � ok CODE PART NAME CODE PART NAME CN414 Output: 0-320VDC to control DC FAN CN3 Input: 230V high voltage connectorwith LlAMI nal/ muntl CN4(CNS) 208-230VAC Base Pan heater CN17 Input Temperature acquisition(0-SVDC) CN16 Output 220V AC to control crankcase heater CN30 Output PWM for UVW to oontrol 0— 0 CN60 Output 0-220V AC to control 4-way valve CN12—CN13 Output:To connect PFC reactor Fig. 11 —Wiring Diagram Heat Pump Size 24 (230V) 24 GUIDE SPECIFICATIONS PART 1- GENERAL 1.01 System Description A. Outdoor air-cooled split system compressor sections suitable for on -the -ground, rooftop, wall hung or balcony mounting. Units consist of a rotary compressor, an air-cooled coil, propeller -type draw -through outdoor fan, reversing valve (UP), accumulator (HP units), metering device(s), and a control box. Units discharge air horizontally as shown on the contract drawings. Units function as the outdoor component of an auto -air cooling only, or heat pump system. B. Units are to be used in a refrigeration circuit matched to ductless heat pump fan coil units. 1.02 Agency Listings A. Unit construction complies with ANSVASHRAE 15, latest revision, and with the NEC. B. Units we evaluated in accordance with UL standard 1995. C. Units we listed in the CEC directory. D. Unit cabinet is capable of withstanding 500-hour salt spray test per Federal Test Standard No. 141 (method 6061). E. Air-cooled condenser coils are leak tested at 550 psig. 1.03 Delivery, Storage, And Handling Units are shipped in one piece and am stored and handled per unit manufacturer's recommendations. 1.04 Warranty (For Inclusion By Specifying Enidueer) PART 2-PRODUCTS 2.01 Equipment A. General: Factory assembled, single piece, air-cooled outdoor unit. Contained within the unit enclosure is all the factory wiring, piping, controls, and the compressor. B. Unit Cabinet: 1. Unit cabinet is constructed of galvanized steel, bonderized and coated with a baked -enamel finish on the inside and outside (PANTONE 7527U). 2. Unit access panels is removable with minimal screws and provides full access to the compressor, fan, and control components. 3. The outdoor compartment is isolated and has an acoustic lining to assure quiet operation. C. Fans: I. Outdoor fans are the direct drive propeller type, and discharges air horizontally. Fans draw air through the outdoor coil. 2. Outdoor fan motors are totally enclosed, single phase motors with class E insulation and permanently lubricated ball bearings. Motor shall be protected by internal thermal overload protection. 3. The shaft has inherent corrosion resistance. 4. Fan blades are non-metallic and statically and dynamically balanced. 5. Outdoor fan openings are equipped with a PVC metal/mesh coated protection grille over the fan. HORIZONTAL DISCHARGE OUTDOOR UNITS Size Range: 3/4 to 2 Ton Nominal Cooling and Heating Capacity Model Number: 38NRM D. Compressor: 1. Compressor is the fully hermetic rotary type. 2. Compressor is equipped with an oil system, operating oil charge, and a motor. 3. Motor is NEMA rated class E, suitable for operation in a refrigerant atmosphere. 4. Compressor assembly is installed on rubber vibration isolators. E. Outdoor Coil: The coil is constructed of aluminum golden hydrophilic pre -coated fins mechanically bonded to seamless copper tubes, which are cleaned, dehydrated, and sealed. F. Refrigeration Components: Refrigerant circuit components include a brass external liquid line service valve with service gage port connections, a suction line service valve with a service gage connection pon, service gage port connections on compressor suction and discharge lines with Schrader type fittings with brass caps, accumulator, reversing valve. G. Controls and Safeties: Operating controls and safeties are factory selected, assembled, and tested. The mirma m control functions include the following: 1. Controls: a. A time delay control sequence is provided standard through the fan coil board b. Automatic outdoor fan motor protection. 2. Safeties: a. System diagnostics b. Compressor motor current and temperature overload protection c. Outdoor fan failure protection. H. Electrical Requirements: 1. Unit operates on single-phase, 60 Hz power at 115V for unit sizes 12 and 208/230V for unit sizes 09, 12, 18, and 24 as specified 2. Unit electrical power has a single point connection. 3. Unit Control voltage to the indoor fan coil is 0-15V DC. 4. All power and control wiring must be installed per NEC and all local electrical codes. 5. The unit has high and low voltage terminal block connections. 25 =018 Bryant Heating & Cooling Systems • 7310 W. Morris St. • Indianapolis, IN 4finl Edition Date: 08/1B Catalan No. PDS38MHRB-01 PD Manufacturer reserves the right to discontinue. or change at any area, specifications or designs without notice and without incurring obligations. Replaces: NEW 26