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Plans (2) 619PB/538PR High-Wall Ductless Split System B r y a n t Sizes 09 to 30 Product Data RECEIVED JUN 2 3 ?090 INDUSTRY LEADING CITY OF TIGARD ■ FEATURES / BENEFITS BUILDING DIVISION A PERFECT BALANCE BETWEEN BUDGET LIMITS, ENERGY SAVINGS AND COMFORT. The 619PB/538PR series ductless split systems are a matched combination of an outdoor condensing unit and an indoor fan coil unit connected only by refrigerant tubing and wires. Ilia' The fan coil is mounted on the wall,near the ceiling.This selection of fan coils permits creative solutions to design problems such as: V 1 • Add-ons to current space (an office or family room J addition) 4*404, • 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. These 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. OFFICE COPY CITY OP TIGARD,.,. REVIEWED FOR CODE COMPLIANCE VALIDITY OF PERMIT Opproved:NV ] OTC: [ ] THE ISSUANCE OF A PERMIT BASED ON CONSTRUCTION Permit##: DOCUMENTS AND OTHER Address: 1 J CS S o G . d e . jot DATA SHALL NOT PREVENT Suite #: ) n C7 THE CODE OFFICIAL FROM REQUIRING THE CORRECTION By: 7t Date: Q-4 .ar1 OF ERRORS. OSSC 105.4 LOW SOUND LEVELS BUILT-IN RELIABILITY When noise is a concern,the ductless split systems are the answer. Ductless split system indoor and outdoor units are designed to The indoor units are whisper quiet.There are no compressors provide years of trouble-free operation. indoors,either in the conditioned space or directly over it,and The high wall indoor units include protection against freeze-up there is none of the noise usually generated by air being forced and high evaporator temperatures on heat pumps. through ductwork. The condensing units on heat pumps are protected by a three When sound ordinances and proximity to neighbors demand quiet minute time delay before the compressor will start the over-current operation,the 538P unit is the right choice:The advanced, protection and the high temperature protection. horizontal airflow design distributes air more evenly over the coil. SECURE OPERATION INDIVIDUAL ROOM COMFORT Maximum comfort is provided because each space can be If security is an issue,outdoor and indoor units are connected only controlled individually based on usage pattern. The air sweep by refrigerant piping and wiring to prevent intruders from feature provided permits optimal room air mixing to eliminate hot crawling through ductwork.In addition,since 538P units can be and cold spots for occupant comfort. In addition, year-round installed close to an outside wall,coils are protected from vandals comfort can be provided with heat pumps. and severe weather. FAST INSTALLATION ECONOMICAL OPERATION The ductless split system design allows individual room heating or This compact ductless split system is simple to install.A cooling when required.There is no need to run large supply-air mounting bracket is standard with the indoor units and only wire fans or chilled water pumps to handle a few spaces with unique and piping need to be run between indoor and outdoor units. load patterns.In addition,because air is moved only in the space These units are fast and easy to install ensuring minimal required,no energy is wasted moving air through ducts. disruption to customers in the home or workplace.This makes the 619PB/538PR ductless split systems the equipment of choice, EASY-TO-USE CONTROLS especially in retrofit situations. The high-wall units have microprocessor-based controls to SIMPLE SERVICING AND provide the ultimate in comfort and efficiency.The user friendly MAINTENANCE wireless remote control provides the interface between user and the unit. Removing the top panel on outdoor units provides immediate access to the control compartment, providing a service technician ACCESSORIES access to check unit operation.In addition,the draw-thru design of the outdoor section means that dirt accumulates on the outside Customizing these ductless split systems to your application is surface of the coil. Coils can be cleaned quickly from the inside easily accomplished. using a pressure hose and detergent. Adding a condensate pump accessory to the high wall fan coil On all indoor units,service and maintenance expense is reduced provides installation flexibility. due to easy-to-use cleanable filters.In addition,these high wall systems have extensive self-diagnostics to assist in OPTIONAL WIRED CONTROLLER troubleshooting. AGENCY LISTINGS All systems are listed with AHRI(Air Conditioning,Heating& Refrigeration Institute),and ETL. i • .s. 2 MODEL NUMBER NOMENCLATURE INDOOR UNIT I P A O 009 B B MA 619=FAN COIL UNIT MA=ALL MODELS P=MODEL VOLTAGE A= 115/1/60 E=208-230/1/60 MAXIMUM NUMBER OF FAN COIL UNITS THAT SYSTEM TYPE CAN BE CONNECTED TO THE OUTDOOR UNIT Q=HEAT PUMP B=1:1 NOMINAL CAPACITY 009- 3/4TON 012- 1TON 018- 1- 1/2TONS UNIT TYPE 024- 2TONS 030- 2- 1/2TONS B=HIGH WALL OUTDOOR UNIT I P A O 009 R B MA 538=OUTDOOR UNIT MA=ALL MODELS P=MODEL VOLTAGE A=115/1/60 E=208-230/1/60 MAXIMUM NUMBER OF FAN COIL UNITS THAT SYSTEM TYPE CAN BE CONNECTED TO THE OUTDOOR UNIT O= HEAT PUMP B=1:1 NOMINAL CAPACITY 009- 3/4TON 012- 1TON 018- 1- 1/2TONS UNIT TYPE 024- 2TONS R=OUTDOOR UNIT 030- 2- 1/2TONS ALICP occur e rrumai CERTIFIED. Use of the AHRI Certified TM Mark indicates a C US manufacturer's 451E0 participation in the program For verification of certification for individual products,go to www.ahridirectory.org. 3 STANDARD FEATURES AND ACCESSORIES • Ease Of Installation INDOOR UNITS Mounting Brackets S Low Voltage Controls S I >l',S . ComforttFeatures Microprocessor Controls S Wired Remote Control A Wtoless Remote ControllAirS Automatic Horizontal Air Sweep S Air Direction Control S , Z---( ---_-=a,\___ 1,______,..-L00°. Auto Restart Function S Cold Blow Protection On Heat Pumps S (' tC:-7,,opt._)iii ,1,1:2 Freeze Protection Mode On Heat Pumps S Turbo Mode S Silence Mode S Auto Changeover On Heat Pumps S Fig.1—Condensate Pump Accessory Follow Me S On high wall fan coils,the condensate pump has a lift capability Energy Saving Features of 12 ft(3.6 m)on the discharge side with the pump mounted in Sleep Mode S the fan coil or 6 ft(1.8 m)on the suction side if the pump is Stop/Start Turner S remote mounted.The pump is recommended when adequate drain 46°F Heating Mode(Heating Setback) S line pitch cannot be provided,or when the condensate must move Safety And Reliability up to exit. 3 Minute Time Delay For Compressor S NOTE:An external 115v power source will be required to run the Over Current Protection For Compressor S pump on unit sizes 9k and 12k. Indoor Coil Freeze Protection S Indoor Coil High Temp Protection in Heating Mode S OUTDOOR UNITS Condenser High Temp Protection in Cooling Mode S Ease Of Service And Maintenance Crankcase Heater Cleanable Filters S Standard on all unit sizes.Heater clamps around compressor oil Diagnostics S stump. Liquid Line Pressure Taps S Application Flexibility Condensate Pumps A Crankcase Heater S Legend S Standard A Accessory 4 'DIMENSIONS - INDOOR -. YV'`J t ,1,:zrir_______ .. 1 Fig.2- Indoor unit Unit Size Win(mm) Din(mm) H In(mm) Operating Weight lb(kg) 9K/12K 32.9(835) 7.8(198) 11.0(280) 19.2(8.7) 18K 39.0(990) 8.6(218) 12.4(315) 26.5(12.0) 24K/30K 46.7(1186) 10.2(258) 13.4(343) 40.8(18.5) DIMENSIONS - OUTDOOR r - - = Li EN- _ _... C] ••- - Air inlet MIAND . Air outlei0' L- i� - Fig.3- Outdoor unit Model Win(mm) Din(mm) H in(mm) L1 in(mm) L2 in(mm) Operating Weight lb(kg) 9K/12K 32.0(810) 12.2(310) 22.0(558) 20.9(530) 11.4(290) 82.5(37.4) 18K 32.3(845) 12.6(320) 27.6(700) 22.1 (560) 13.2(335) 102.5(46.5) 24K 37.2(945) 15.6(395) 31.9(810) 25.1(640) 15.9(405) 137.6(62.4) 30K 37.2(945) 15.6(395) 31.9(810) 25.1 (640) 15.9(405) 157.6(71.5) , 5 F CLEARANCES - INDOOR , CEILING . 6" (0.15m)Imin. r . 5" 5° .111(0.13m) (0.13m) min. min. Ali 6' (1.8m) FLOOR Fig.4—Indoor Unit Clearance CLEARANCES - OUTDOOR A Air-inlet _ E ---_-_------z-!,_-=--_=.-.=_=-7-"--_______.=7 ,,,,_, _ _ _ ___ r..m f ---,-:----•----,-'\ f \ - O Air-outlet ' - ,fr Fig.5—Clearances Outdoor UNIT Minimum Value in.(mm) A 24(609) B 24(609) C 24(609) D 4(101) E 4(101) 6 SPECIFICATIONS - HEAT PUMP UNITS (MAQ SERIES) Size 9 12 9 12 18 24 30 Outdoor Model 538PA0009RBMA 538PA0012RBMA 538PE0009RBMA 538PE0012RBMA 538PE0018RBMA 538PED024RBMA 538PED030RBMA System Indoor Model 010PA0009BBMA 010PA0012BBMA 810PE000913BMA 810PE0012158MA 819PE0018BBMA 019PE00246BMA 019PED030BBMA Energy Star YES YES YES YES YES YES NO Cooling Rated Capacity Blu/h 8,000 12,000 9,000 12,000 17,500 23,000 30,000 Cooling Cap.Range Min-Max 13tu/h 3500-11000 4000-13000 3500.11000 4000-13000 4500-18000 5500-23500 8000-30500 SEER 23.5 21.5 23.5 21.5 19.5 20.0 16.5 EER 14.5 13 14.6 13 12.5 12.5 0.5 Performance Healing Rated Capacity B1W13 10,000 12,000 10.000 12,000 18,000 25.000 32.000 Heating Cep.Range Min-Max Stain 4,500-11,500 5,000-13,500 4,500-11,500 5,000-13,500 5,500-10000 0000-26,000 0000-34,000 HSPF 10.0 10.0 10.0 10.0 9.8 10.0 06 COP WAN 3.38 3.22 3.08 3.36 3.38 3.22 2.92 Controls Wireless Remote Controller(°F/°C Convertible) Standard Wired Remote Controller(°F/°C Convertible) Optional Cooling Outdoor DB Min-Max °F 4-122 4-122 4-122 4-122 4-122 4-122 4-122 Operating Heating Outdoor DS Min-Max °F 4.80 4-86 4-86 4-86 4-88 4.88 4-88 Range Cooling Indoor DB Min-Max °F 63-90 63-B0 63-80 63-90 63-90 03-90 83-90 Heating Indoor DB Min-Max °F 32-88 32-88 32-86 32-88 32-88 32-88 32-88 Total Piping Length Ft. 82 82 82 82 68 68 184 Piping Lift Ft. 32 _ 32 32 32 66 65 82 Piping Pipe Connection Size-Liquid In. 1/4 1/4 1/4 1/4 1/4 3/8 3/8 Pipe Connection Size-Suction In. 3/8 1/2 3/8 1/2 1/2 5/8 6/8 Type R410A • Refrigerant Design Pressure PSIG 650 550 550 550 550 550 550 Metering Device Electronic Expansion Valve Capillary Tube Charge Lb. 2.70 2.78 2.78 2.76 4.19 5.18 6.62 Face Area Sq.FI. 9.2 B.2 0.2 B.2 16.0 21.1 17.2 Outdoor Coil No.Rows 2 2 2 2 2 3 3 Firm per inch 21 21 21 21 18 18 17 Circuits4 4 4 4 6 6 6 Face Area(eq.It) Sq.Ft. 2.2 2.2 2.2 22 2.6 3.7 3.7 No.Rows 2 2 2 2 2 3 3 Indoor Coil Firs per inch 20 20 20 20 20 18 18 ClreuOa _ 3 3 3 3 4 7 7 Type Hermetic Rotary DC Inverter Compressor Model ASM08DIUFZA ASM108D1UFZA ASM0801UFZA ASM108DIUFZA ASM135O23UFZ DA250S2C-30MT TNB306FPGMC-L Compressor Oil Type VG74 VG74 VG74 VG74 VG74 VG74 FV50S Oil Charge Fl.Oz. 12.5 12.5 12.5 12.5 152 27.7 38.2 Rated Current RLA 5.3 5.7 5.3 5.7 7.3 8.8 13.5 Voltage.Phase,Cycle V/Ph/Hz 115-1-00 115-1-60 209/230-1-60 208/230-1-00 208230-1-80 208/230.1.60 208/230-160 Power Supply _ Indoor unit powered from outdoor unit Electrical MCA A. 15 15 15 15 13 15 20 MOCP-Fuse Rating A. 20 20 15 15 20 25 30 _ Unit Width In. 31.9 31.9 .9 31.9 33.3 37.2 37.2 Unit Haight In. 22.0 22.0 .0 22.0 .6 31.9 31.9 Outdoor Unit Depth - In. 12.2 - 12.2 .2 12.2 .6 15.6 15.6 • Net Weight Lbs. 82.5 82.5 82.5 82.5 102.5 137.E 157.13 Airflow I CFM 1200 1200 1200 1200 1390 2130 2130 Sound Pressure 46(A) 56 56 50 58 59 60 63 Unit Width In. 32.9 32.8 32.8 32.0 39.0 46.7 46.7 Unit Height In. 11.0 11.0 11.0 11.0 12.4 13A 13.4 Unit Depth In. 7.8 7.8 7.8 7.8 8.6 102 10.2 Indoor - Net Weight . Lbs. 192 19.2 _ 18.2 19.2 _ 26.5 40.1 40.1 Number of Fan Speeds 4 4 4 4 4 4 4 Airflow(lowest to highest) _ CFM 210/200/380/380 210/300/360/380 210/280/360/380 210/300/380/380 310/450/650/680 620/820/78(1/870 620/620/780/870 Sound Pressure(lowest to highest) 48(A) 27/34/42 27/34/42 27/34/42 27/34/42 33/40/48 39/45/50 39/45/50 Air throw Date Ft. 23 23 23 23 30 38 30 Condensing unit above or below indoor unit A COOLING PERFORMANCE DATA ' Model Cooling Outdoor conditions(DB) Indoor Conditions DB Indoor Conditions WB 77F(25C) 86F(30C) 95F(35C) 104F(40C) 113F(45C) 122F(50C) TC 7.43 7.83 9.74 8.38 6.11 5.11 . 69.8F(21C) 59F(15C) SC 6.68 6.69 8.18 7.37 4.36 3.74 Input 0.35 0.54 0.81 0.8 0.75 0.75 . TC 7.78 9.14 9.89 8.65 6.92 5.83 75.2F(24C) 62.6F(17C) SC 3.58 8.11 6.27 5.52 4.85 429 09 Input 0.35 0.54 0.81 0.8 0.75 0.75 (115V) TC 8.21 9.22 10.41 9.27 7.32 6 80.6F(27C) 66.2F(19C) SC 7.39 5.88 8.22 7.79 5.11 4.37 ___ Input 0.35 0.75 0.82 0.81 0.75 0.75 TC 8.41 9.72 11,59 10.22 8.82 7.51 89.6F(32C) 73.4F(23C) SC 3.68 5.76 6.9 6.2 5.55 5 Input 0.36 0.56 0.83 0.82 0.76 0.77 TC 8.21 11.75 11.42 9 7.85 6.68 69.8F(21C) 59F(15C) SC 7.06 9.05 8.68 7.38 6.42 5.58 Input 0.38 0.8 1.04 0.87 0.82 0.81 TC 8.42 11.84 12.01 9.35 8.32 7.34 75.2F(24C) 62.6F(17C) SC 7.28 8.69 8.66 7.62 6.53 5.81 12 Input 0.57 0.94 1.25 1.27 0.98 0.94 (115V) TC 8.81 11.95 12.23 9.69 8.87 7.95 80.6F(27C) 66.2F(19C) SC 7.49 . 8.32 8.63 7.85 6.64 6.04 Input 0.39 0.75 1.06 0.89 0.85 0.82 TC 9.01 12.15 12.43 9.89 9.07 8.15 89.6F(32C) 73.4F(23C) SC 7.7 8.53 8.84 8.06 6.85 6.25 Input 0.4 0.97 1.3 1.34 0.92 0.85 IC 7.41 7.82 9.73 8.34 6.12 5.1 69.BF(21C) 59F(15C) SC 6.64 6.69 8.18 7.37 _ 4.36 3.74 Input 0.35 0.54 0.81 0.8 0.75 0.75 TC 7.76 9.16 9.89 8.62 6.92 5.83 75.2F(24C) 62.6F(17C) SC 3.58 8.11 6.27 5.52 4.85 4.29 09 Input 0.35 0.54 0.81 0.8 0.75 0.75 (208-230V) TC 8.21 9.22 10.41 9.27 7.32 6 80.6F(27C) 66.2F(19C) SC 7.39 5.88 8.22 7.79 5.11 4.37 Input 0.35 0.75 0.82 0.81 0.75 - 0.75 TC 8.41 9.72 11.59 10.22 8.82 7.51 89.6F(32C) 73.4F(23C) SC 3.68 5.76 6.9 6.2 5.55 5 Input 0.36 0.56 0.83 0.82 0.76 _ 0.77 IC 8.21 11.75 11.42 9 7.85 6.68 69.8F(21C) 59F(15C) SC 7.06 9.05 8.68 7.38 6.42 5.58 Input 0.38 0.8 1.04 0.87 0.82 0.81 TC 8.42 11.84 12.01 9.35 8.32 7.34 75.2F(24C) 62.6F(17C) SC 7.28 8.69 8.66 7.62 6.53 5.81 12 Input 0.57 0.94 1.25 1.27 0.98 0.94 (208-230V) TC 8.81 11.95 12.23 9.69 8.87 7.95 80.6F(27C) 66.2F(19C) SC 7.49 8.32 8.63 7.85 6.64 6.04 Input 0.39 0.75 1.06 0.89 0.85 0.82 TC 9.01 12.15 12.43 9.89 9.07 8.16 89.6F(32C) 73.4F(23C) SC 7.7 8.53 8.84 8.06 6.85 6.25 Input 0.4 0.97 1.3 1.34 0.92 0.85 TC 12.58 15.24 16.25 11.04 8.32 6.78 69.8F(21C) 59F(15C) SC 8.34 10.3 10.6 7.93 6.18 5,16 _ Input 0.58 0.93 1.53 1.2 1.42 1.32 TC 13.48 16.41 16.66 12.3 9.43 7.74 75.2F(24C) 62.6F(17C) SC 8.85 10.94 11.35 8.62 6.87 5.91 _ 18 Input 0.57 0.93 1.56 1.22 1.45 1.35 (208-230V) TC 14.43 18.04 18.37 13.35 9.97 7,96 80.6F(27C) 66.2F(19C) SC 9.59 11.95 12.37 9.28 7.23 6.02 Input 0.57 0.94 1.59 1.24 1.48 1.38 TC 14.7 19.03 20.18 15.36 12.02 9.97 89.6F(32C) 73.4F(23C) SC 9.08 11.72 12.5 9.89 7.85 6.89 _- Input 0.6 0.97 1.62 1.27 1.51 1.41 TC 19.5 20.69 21.43 18.05 14.27 13.32 . 69.8F(21C) 59F(15C) SC 15.15 15.61 15.49 14.23 10.03 8.78 Input 1.2 1.88 2.29 2.14 1.9 1.86 TC 20.01 2121 22.31 18.51 15.08 13.3 . 75.2F(24C) 62.6F(17C) SC 15.25 15.71 15.59 14.33 10.13 8.88 24 Input 1.2 1.87 2.3 2.21 2.14 1.92 (208-230V) TC 20.54 21.75 23.21 18.98 15.91 13.3 80.6F(27C) 66.2F(19C) SC 15.35 15.81 15.69 14.43 10.23 8.98 _ Input 1.21 1.88 2.31 2.26 2.16 _ 1.93 IC 20.61 22.94 24.4 21.84 19.17 16.66 89.6F(32C) 73.4F(23C) SC 15.58 16.04 15.92 14.66 10.46 9.21 Input 1.22 1.87 2.34 2.33 2.32 1.96 TC 27.33 27.43 27.51 22.77 18.29 17.32 69.8F(21C) 59F(15C) SC 19.4 19.48 19.56 17.21 16.32 15.28 Input 2.28 3.29 3.63 3.11 2.35 2.25 TC 29.41 30.01 I 29.82 24.53 20.71 18.24 752F(24C) 62.6F(17C) SC 19.95 20.47 20.07 17.73 17.24 16.29 30 Input 2.31 3.32 3.68 3.17 2.41 2.31 (208-230V) TC 31.57 32.68 32.21 26.37 23.2 19.21 80.6F(27C) 66.2F(19C) SC 20.55 21.52 20.65 18.3 18.21 17.35 Input 2.35 3.35 3.74 3.23 2.47 2.38 TC 32.6 - 33.71 • 33.24 27.4 24.23 20.24 89.6F(32C) 73.4F(23C) SC 20.9 21.87 I 21 18.65 18.56 17.7 Input 2.42 3.42 I 3.81 3.3 2.54 2.45 LEGEND DB-Dry Bulb WB-Wet Bulb TC-Total Net Cooling Capacity(1000 Btu/hour) SC-Sensible Capacity(1000 Btu/hour) Input-Total Power(kW) 8 HEATING PERFORMANCE DATA Model Heating Outdoor conditions(DB) Indoor Conditions DB 53.6F(12C) 44.6F(7C) 392F(4C) 32F(OC) 24.8F(-4C) 19.4F(-7C) 17F(-8C) 5F(-15C) 59F(15C) TH 11.2 11.1 10.89 10.65 9.87 9.11 8.27 6.71 Input 0.73 0.79 1.04 1.01 0.96 0.9 0.84 0.8 64.4F(18C) TH 11.1 10.8 10.65 10.54 9.63 8.84 8.01 5.46 08(115V) Input 0.78 0.8 1.08 1.03 0.98 _ 0.94 0.9 0.82 68F(20.5C) TH 10.8 10.6 10.48 10.32 9.43 8.55 7.95 4.29 Input 0.8 0.81 1.11 1.05 1 0.98 0.96 0.84 71.6F(22C) TM 10.6 10.3 10.21 10.11 9.23 8.41 7.89 4.11 Input 0.82 0.83 1.15 1.07 1.02 1.02 0.92 0.86 59F(15C) TH 11.8 12.7 12.42 11.32 10.4 9.54 8.9 5.75 Input 0.79 1.01 1.05 1.1 1.02 1 0.98 0.83 64AF(18C) TH 12.1 12.7 12.32 11.34 10.32 9.32 8.81 6.14 Input 0.83 1.37 1.4 1.26 1.22 1.27 1.01 0.91 12(115V) TH 12.3 12.6 12.12 11.32 10.21 9.12 8.43 8.49 69F(20.5C) Input 0.83 1.1 1.12 1.19 1.19 1.25 1.03 0.98 TM 71.BF(22C) 11.1 12.4 12.01 11.21 10.01 9.02 8.21 6.01 Input 0.85 1.15 1.16 1.21 1.23 1.31 1.05 1 59F(15C) TH 11.2 11.1 10.89 10.65 9.87 9.11 8.27 6.71 Input 0.73 0.79 1.04 1.01 0.96 0.9 0.84 0.8 TH 11.1 10.8 10.65 10.54 9.63 8.84 8.01 5.46 64.4F(18C)09 Input 0.78 0.8 1.08 1.03 0.98 0.94 0.9 0.82 (208-230V) TH 10.8 10.6 10.48 10.32 9.43 8.55 7.95 4.29 69F(20.5C) Input 0.8 0.81 1.11 1.05 1 0.98 0.96 0.84 71.6F(22C) TH 10.6 10.3 10.21 10.11 9.23 8.41 7.89 4.11 Input 0.82 0.83 1.15 1.07 1.02 1.02 0.92 0.86 59F(15C) TH 11.8 12.7 12.42 11.32 10.4 9.54 8.9 5.75 Input 0.79 1.01 1.05 1.1 1.02 1 0.98 0.83 64.4F(18C) TH 12.1 12.7 12.32 " 11.34 10.32 9.32 8.81 6.14 12 Input 0.83 1.37 1.4 1.26 1.22 1.27 1.01 0.91 (208-230V) 69F(20.5C) TH 12.3 12.6 12.12 11.32 10.21 9.12 8.43 6.49 Input 0.83 1.1 1.12 1.19 1.19 1.25 1.03 0.98 71.6F(22C) TH 11.1 12.4 12.01 11.21 10.01 9.02 8.21 6.01 Input 0.85 1.15 1.16 1.21 1.23 1.31 1.05 1 59F(15C) TH 23.2 20.5 19.42 17.56 16.52 14.28 12.08 9.39 Input 1.58 1.49 1.48 1.58 1.46 1.4 1.35 1.21 64.4F(18C) TH 22.4 20.1 18.66 16.89 16.05 13.94 12.06 9.16 18 Input 1.62 1.55 1.55 1.61 1.52 1.45 1.4 1.29 (208.230V) 69F(20.5C) TH 21.7 19.7 17.93 16.26 15.62 13.62 12.07 8.95 Input 1.67 1.62 1.63 1.65 1.58 1.5 1.45 1.38 71.6F(22C) TH 21 19 17.23 15.56 14.92 12.92 11.37 8.25 Input 1.72 1.67 1.68 1.7 1.63 1.55 1.5 1.43 59F(15C) TH 28.6 27.8 25.85 23.56 23.42 23.22 23.16 18.93 Input 2 2.25 2.24 2.21 2.2 2.23 2.24 2.17 TH 27.6 27.6 24.52 23.54 23.4 22.52 20.45 17.45 64.4F(18C)24 Input 2.24 2.45 2.35 2.35 2.32 2.23 2.21 2.18 (208.230V) TH 29.1 29.3 26.75 24.63 22.98 21.85 19.61 16.38 69F(20.5C) Input 2.39 2.74 2.64 2.58 2.42 2.25 2.2 2.18 71.6F(22C) TM 26.9 27.5 24.21 23.41 22.54 21.67 19.54 16.24 Input 2 2.25 2.24 2.21 2.2 2.23 2.24 2.17 TH 43 41.2 37.52 34.65 32.32 30.65 28.84 20.51 59F(15C) Input 3.79 3.99 3.69 3.43 3.2 2.96 2.82 2.61 64.4F(18C) TH 39.6 39.9 36.55 33.84 30.95 28.58 26.47 19.96 30 Input 3.35 4.23 3.85 3.65 3.24 3.11 3.04 2.76 (208-230V) TH 38.3 38.6 35.62 33.07 29.62 26.54 24.13 19.43 69F(20.5C) Input 3.45 4.46 4.01 3.9 3.31 3.2 - 3.16 2.89 71.8F(22C) TH 32.9 35.2 32.22 29.67 26.22 23.14 20.73 16.03 Input 3.68 4.69 4.24 4.13 3.54 3.43 3.39 3.12 LEGEND DB- Dry Bulb WB- Wet Bulb TH - Total Net Heating Capacity(1000 Btu/hour) Input- Total Power(kW) 9 APPLICATION DATA . UNIT SELECTION METERING DEVICES Select equipment to either match or be slightly less than anticipated The outdoor unit(Sizes 09- 18)has an electronic expansion valve peak load.This provides better humidity control,fewer unit cycles, to manage the refrigerant flow of the fan coil connected. Sizes 24 . and less part-load operation. and 30 have capillary tube metering devices in the outdoor unit. For units used in spaces with high sensible loads,base equipment DRAIN CONNECTIONS selection on unit sensible load,not on total anticipated load.Adjust Install drains to meet local sanitation codes. If adequate gravity for anticipated room wet bulb temperature to avoid undersizing equipment. drainage cannot be provided, unit should be equipped with accessory condensate pump. High wall fan coil unit condensate UNIT MOUNTING (INDOOR) pumps have a maximum lift of 10' (3.05 m)for 9k and 12k units Refer to unit Installation Instructions for further details. and 25'(7.62 m) for 18k and 30k units. Unit leveling - For reliable operation, units should be level in all See physical dimension tables for drain sizes. planes. NOTE:High wall fan coil units have internal condensate traps. Clearance - Provide adequate clearance for airflow as shown in A trap is not required. Fig.4. Drain connections may be routed through alternate locations on Unit location - Select a location which will provide the best air most fan coils as shown in Fig.4. circulation for the room. These units should be positioned as high as possible on the wall for Pipe holder Pipe cover best air circulation. The unit return and discharge should not be obstructed by furniture,curtains,or anything which may cause unit 4 Left piping short cycling or air recirculation.Place the unit in the middle of the Pipe cover 3 Left back piping selected wall (if possible). Use an outside wall, if available, to make piping easier, and place the unit so it faces the normal location of room occupants. 1 2 Right back piping UNIT MOUNTING (OUTDOOR) Right piping Fig.6—Piping Locations Refer to unit Installation Instructions for further details. REFRIGERANT LINES Unit leveling - For reliable operation,units should be level in all planes. General refrigerant line sizing: Clearance- Minimum clearance,as shown in Fig.5,must be 1. The 538PR units are shipped with a full charge of R410A provided for airflow.The condensing units are designed for refrigerant. All charges,line sizing,and capacities are free-blow application.Air inlets and outlets should not be based on runs of 25 ft(7.6 m).For runs over 25 ft(7.6 m), restricted. consult long-line section on this page for proper charge Unit location- A location which is convenient to installation and adjustments. not exposed to strong wind. 2. Refrigerant lines should not be buried in the ground.If it is A location which can bear the weight of outdoor unit and where necessary to bury the lines,not more than 36-in(914 mm) the outdoor unit can be mounted in a level position. should be buried. Provide a minimum 6-in (152 mm) Do not install the indoor or outdoor units in a location with special vertical rise to the service valves to prevent refrigerant environmental conditions. For those applications, contact your migration. Bryant representative. 3. Both lines must be insulated.Use a minimum of 1/2-in. MOUNTING TEMPLATE (12.7 mm)thick insulation.Closed-cell insulation is Refer to unit Installation Instructions for further details. recommended in all long-line applications. The fan coil units are furnished with mounting to mark the location 4. Special consideration should be given to isolating interconnecting tubing from the building structure.Isolate of the wiring,and refrigeration line hole locations. SUPPORT the tubing so that vibration or noise is not transmitted into the structure. Adequate support must be provided to support the weight of all fan Lone Line Applications. 538PR Units: coils. Refer to the Physical Data section for fan coil weights, and the base unit dimensional drawings for the location of mounting 1. No change in line sizing is required. brackets. 2. Add refrigerant per table below. SYSTEM OPERATING CONDITIONS ADDITIONAL CHARGE TABLE Total Line Additional Charge,oz/ft. - - - - Operating Range Unit Length ft ft(m) Min/Max°F(°C) Size 10- 25 >25 • 82 i >82 164 Min Max Cooling Heating 3- 8) (8- 25) (25- 50) Outdoor DB 4/122(-20/50) 4/86(-20/30) - 82 �. -12 0.16 indoor DB 63/90(17/32) 32/86(0/30) — 10 98 None ,.. Indoor 59/84(15/29) — 0.32 0.32 30 164 Non-Operating Temperature Range Min/Max°F(°C) Indoor/Outdoor DB 32/86(0/30) NOTE: Reference the Product Installation Instructions for more information. 10 wltUNG A CAUTION Recommended Connection Method for Power and EQUIPMENT DAMAGE HAZARD Communication Wirine(To minimize communication wiring interference) Failure to follow this caution may result in equipment Power Wiring: damage or improper operation. • Be sure to comply with local codes while running wire The main power is supplied to the outdoor unit.The field supplied from indoor unit to outdoor unit. connecting cable from the outdoor unit to indoor unit consists of • Every wire must be connected firmly.Loose wiring three (3) wires and provides the power for the indoor unit. Two may cause terminal to overheat or result in unit wires are high voltage AC power and one is a ground wire. malfunction.A fire hazard may also exist.Therefore, Consult your local building codes and the NEC(National be sure all wiring is tightly connected. Electrical Code)or CEC(Canadian Electrical Code)for special • No wire should be allowed to touch refrigerant tubing, requirements. compressor or any moving parts. All wires must be sized per NEC or CEC and local codes. Use • Disconnecting means must be provided and shall be Electrical Data table MCA (minimum circuit amps) and MOCP located within sight and readily accessible from the air (maximum over current protection)to correctly size the wires and conditioner. the disconnect fuse or breakers respectively. • Connecting cable with conduit shall be routed through Per caution note,only copper conductors with a minimum 300 volt hole in the conduit panel, rating and 2/64-inch thick insulation must be used. The main power is supplied to the outdoor unit.The field supplied Communication Wiring: connecting cable from the outdoor unit to indoor unit consists of A separate shielded copper conductor only, with a minimum 300 four wires and provides the power for the indoor unit as well as the volt rating and 2/64-inch thick insulation, must be used as the communication signal between the outdoor unit and indoor unit. communication wire from the outdoor unit to the indoor unit. Two wires are high voltage AC power (L1 and L2), one is a To minimize voltage drop,the factory recommended wire size is ground wire,and one is a DC communication wire. 14/3 stranded with a ground.In special cases where there is high CONTROL SYSTEM electrical interference,please use a separate shielded 16GA stranded control wire. The 619P unit is equipped with a microprocessor control to Alternate Connection Method for Power and Communication perform two functions: Wirine(Mav not nrevent communication wiring interference) 1. Provide safety for the system The main power is supplied to the outdoor unit.The field 2. Control the system and provide optimum levels of comfort supplied connecting cable from the outdoor unit to indoor unit and efficiency consists of four(4)wires and provides the power and The main microprocessor is located on the control board of the communication signals for the indoor unit.Two conductors are for fan coil unit(outdoor units have a microprocessor too)with power wiring(L1/L2,or L/N),one is a ground wire,and one is a thermistors located in the fan coil air inlet and on the indoor coil. DC communication wire. Heat pump units have a thermistor on the outdoor coil.These Consult your local building codes and the NEC(National thermistors monitor the system operation to maintain the unit Electrical Code)or CEC(Canadian Electrical Code)for special within acceptable parameters and control the operating mode. requirements.All power wires must be sized per NEC or CEC and WIRELESS REMOTE CONTROL 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. Per caution note,only copper conductors with a minimum 300 volt rating and 2/64-inch thick insulation must be used. CAUTION Fig.7— Wireless remote control EQUIPMENT DAMAGE HAZARD 1. A wireless remote control is supplied for system operation for system operation of all high-wall units. Failure to follow this caution may result in equipment 2. Each battery operated wireless(infrared)remote control damage or improper operation. may be used to control more than one unit. • Wires should be sized based on NEC and local codes. WIRED REMOTE CONTROL (OPTIONAL) • Use copper conductors only with a minimum 300 volt P/N KSACNOIOlAAA rating and 2/64 inch thick insulation. 1. Optional wired remote controller used for system operation of all high-wall units. 2. Kit includes a wired remote controller 4" and a connecting cable. 3. Connect with wire terminal between r remote controller and indoor unit. 4. Display in °F or °C and temperature increments every 1°F or every 1°C. Fig.8—Wired Remote Control 11 AIR FLOW DATA SYSTEM SIZE 9K 12K 9K 12K 18K 24K 30K (115V) (115V) (208-230V) (208-230V) (208-230V) (208-230V) (208-230V) Turbo 380 380 380 380 680 870 870 High 360 360 360 360 650 780 780 Indoor(CFM) Medium 290 300 290 300 450 620 620 Low 210 210 210 210 310 520 520 Outdoor 1200 1200 1200 1200 1390 2130 2130 (CFM) AIR THROW DATA [-- Unit Capacity 9K,12K 18K Max Approximate Air Throw ft.(m) Approximate Air Throw ft.(m)range 23(7) 30(9) 11 (3.5)-23(7) 13(4)-30(9) 24K 36(11) 16(5)-36(11) 30K 36(11) 16(5)-36(11) II SOUND PRESSURE 9K 12K 9K 12K 18K 24K 30K System Size (115V) (115V) (208-230V) (208-230V) (208-230V) (208-230V) (208-230V) Indoor Sound Pressure cooling mode(at dBa 42/34/27 42/34/27 42/34/27 42/34/27 46.5/40/33 50/45/39 50/45/39 different speeds) Indoor Sound Pressure heating mode(at dBa 40/33/26 41/34/27 40/33/26 41/34/27 45/39/32 47/44/38 47/44/38 different speeds) Outdoor sound pressure level dBa 55.5 56 55.5 56 59 60 63 ELECTRICAL DATA UNIT OPER.VOLTAGE COMPRESSOR OUTDOOR FAN INDOOR FAN MAX FUSE SIZE MAX I MIN* V/PH/HZ RLA V/PH/HZ FLA HP W VIPHIHZ FLA HP W MCA CB AMP 12K 127/104 115/1/60 5 115/1/60 0.14 0.053 40 115/1/60 0.17 0.027 20 15 20 7 9K 5.3 0.42 0.053 40 0.07 0.027 20 15 12K 5.70 0.42 0.053 40 0.07 0.027 20 15 15 18K 253/187 208-230/1/60 7.3 208-230/1/60 0.95 0.067 50 208-230/1/60 0.17 1 0.077 58 15 20 24K 8.8 0.47 0.16 120 0.23 0.080 60 15 25 30K 13.5 1.21 0.16 120 0.23 0.080 60 20 30 •Permissible limits of the voltage range at which the unit will operate satisfactorily. LEGEND FLA- Full Load Amps MCA- Minimum Circuit Amps - RLA- Rated Load Amps 12 FAN AND MOTOR SPECIFICATIONS 9K 12K 9K 12K 18K 24K 30K System sire (115V) (115V 208-230v ( 1 1206-230V) (208-230V) (208-230V) (208-230V) - AS matedal AS AS AS AS AS AS AS Indoor tan - Type GL-98'655-N GL-98"655-N GL-98.655-N GL-98'655-N GL-107.5760-IN GL-118•895-IN GL-118'895-IN Diameter inch 3.8 3.8 3.8 3.8 4.2 4.6 4.6 Indoor fan Height inch 25.8 25.8 25.8 25.8 30 35.2 35.2 material AS AS AS AS AS AS AS Outdoor Type l ZL421'117.8-3K ZL-421.117"83K ZL-421"117113K ZL-421.11r83K ZL-460.180.10-3N ZL560.139123KN ZL560"139123KN fan Diameter . inch 16.5 16.5 16.5 16.5 18.1 22 22 Height inch 4.6 4.6 4.6 4.6 7 5.5 5.5 Model WZDK2038M WZDK2038M WZDK20-38G WZDK2038G WZDK5838G WZDK60-38G WZDK6038G Type DC DC DC DC DC DC DC Phase 3 3 3 3 3 3 3 FLA 0.17 0.17 0.07 0.07 0.17 0.23 0.23 Insulation class E E E E E E E Safe class IPXO IPXO IPXO IPXO IPXO IPXO IPXO Input W 25 25 22 22 52 72 72 Indoor tan Output W 20 20 20 20 58 60 60 motor Range of cur- Amps 0.17t10% 0.17t10% 0.07±10% 0.07t10% 0.17±10% 0.23±10% 0.23t10% rent Rated current Amps 0.17 0.17 0.07 0.07 0.17 0.23 0.23 Rated HP HP 0.027 0.027 0.027 0.027 0.077 0.08 0.08 Speed min/ 1300/1170/900/700 1300/1170/900/700 1300/1170/900/700 1300/1170/900/700 1300/1170/900/700 1250/1200/1100/900 250/1200/1100/900 Rated RPM m n 1350 1350 1350 1350 1350 1350 1350 Max.input - W 25 25 22 22 52 72 72 Model WZDK4038G-1 WZDK4038G-1 WZDK40-38G-W-1 WZDK4038G-W-1 ZKFN-50-8-2 WZDK12038G-1 WZDK12038G-W Phase 3 3 3 3 3 3 3 FLA 0.14 0.14 0.42 0.42 0.95 0.47 1.21 Type DC DC DC DC DC DC DC Insulation class E E E E E E E Safe class IPXO IPXO IPXO IPXO IPXO IPXO IPXO Input W 42 42 46 46 116 145 150 Outdoor Output W 40 40 40 40 _. 50 120 120 fan motor Range of cur- Amps 0.14±10% 0.14±10% 0.42±10% 0.42±10% 0.95±10% 0.47t10% 1.21t10% nt Rated current Amps 0.14 0.14 0.42 0.42 0.95 0.47 1.21 Rated HP HP 0.053 0.053 0.053 0.053 0.067 0.16 0.16 Speed min 800/700/600 800/700/600 800/700/600 800/700/600 800/700/600 850/750/700 850/800/750 Rated RPM min/ 900 900 900 900 900 1050 1050 Max.input W 42 42 46 46 116 145 150 13 WIRING DIAGRAMS . • r 7 5157 II II - •,B.•II.p.R i —I yR.1,E ,.5 IY1EY eO - ' : RCDK -L "t"'" ''''CE I - ' u I Y n BLAI( O� Q -.. u1_: ��E-0u _ o_Ma. —ov --[�W DMAINR cw: Mam w'41tr - cw PI e� ��tl�� PCB M, my a� moYuSs .1"sso. GS - m,� ,vew- BLURBA(p ❑W (a I ' q vEU qV pry BLUE aa� "'Ic r 1 r� ry pie fI`i'=l e'__ CXIb 10 onuw� m I I 1 1 ® [:I•I. a��% IN➢BBRUII( „ mms ny L*'aly�a � ••In WyEW .«vm,w,a+u B w [I I yr INDOOR WIRING DIAGRAM ® - ..,,.ti;dvndic aux ww a 5,5e 5 . r'G0 ITBR REACTOR GO OUTDOOR WIRING DIAGRAM III Fig.9- Wiring Diagram Sizes 09& 12(115V) INDOOR UNIT CONTROL BOARD INPUT or OUTPUT VALUE __ L IN Power Voltage: AC 115V CN11 Power Voltage: AC115V CN16 Relative to the N terminal voltage: DC 24V __ CN15 Maximum voltage: DC5V CN6 Maximum output voltage: AC115V CN4 Indoor fan interface,Maximum voltage: DC310V __ CN5 Stepper motor interface,Maximum voltage between the lines: DC12V P 1 Ground CN8 Room temperature sensor interface,maximum voltage: DC5V CN9 Pipe temperature sensor interface,maximum voltage: DCSV CN10A Display interface,maximum voltage between the lines: DCSV CN14 Stepper motor interface(optional),maximum voltage between the lines: DC12V OUTDOOR UNIT CONTROL BOARD CODE PART NAME CN1 Output:Pin5&6(12V) Pin1-Pin4:Pulse waveform,(0-12V) CN15 I nput:Pi n 1-P in2(0-1.8V) CN16 Input:Pin1,Pin3,Pin4,Pin5(0-1.8V) CN19 Output:Pin1-Pin5(0-115V High voltage) CN31,CN33 Output:115VAC High voltage CN32,CN34 Output:115 VAC High voltage CN26,CN28 Output:115 VAC for 4-way control CN4 Input:115 VAC High voltage CN5 Input:115 VAC High voltage CN6 Connection to the earth CN7 Output:Connection of the high voltage CN8,CN9 Output:High voltage CN36,CN37 Output:High voltage N-B Output:High voltage U V W Output:Pulse(0-320VDC) 14 . .4; IN FRI a SO 6r ,1`t. LI Q_ M g W I •I ro HEATER,CRANKCASE w �" I Ull CNTS C CNk m .CNZI GO CIN Ei.i.E0 HEATER,CRANKCASE Cµ% DCNS a WI N9 pND r GIII —� o...., RFD BLUEIBL CKI NK NCO CM6 on YELLOW CA2 Pi❑ I oWt cx,� �:.'n YIG N CN7ECEI QHOMc!¢•III riw.. CIM W�OE �CN15 !NINj .OPTIONAL T"41E ® c ® n -L1L25 J%1--- rc e9-- MOOR VW ,Kn NIRPYAt& C.kler MICR INDOOR WIRINGDIAGRAM --a- I"'°' "ft Fig.10— Wiring Diagram Sizes 09&12(208-230V) INDOOR UNIT CONTROL BOARD INPUT or OUTPUT VALUE L IN Power Voltage: AC 230V CN11 Power Voltage: AC230V CN16 Relative to the N terminal voltage: DC 24V CN15 Maximum voltage: DC5V CN6 Maximum output voltage: AC230V CN4 Indoor fan interface,Maximum voltage: DC310V CN5 Stepper motor interlace,Maximum voltage between the lines: DC12V P_1 Ground CN8 Room temperature sensor interface,maximum voltage: DC5V CN9 Pipe temperature sensor interface,maximum voltage: DC5V CN10A Display interface,maximum voltage between the lines: DC5V CN14 Stepper motor interface(optional),maximum voltage between the lines: DC12V OUTDOOR UNIT CONTROL BOARD INPUT or OUTPUT VALUE CN31 Output:Pin5&6(12V) Pin1- Pin4:Pulse waveform,(0- 12V) CN21 Input:Pin3-4(3.3V) Pin2(0V),Pin1,Pin5(0- 3.3V) CN22 Input:Pin1 (3.3V) Pin2(0- 3.3V) CN37 Output:230VAC High voltage CN9- 1,CN32- 1 Output:Connection of the high voltage CN1 Input:230VAC High voltage CN2 Input:230 VAC High voltage CN3 Connection to the earth CN16 Output:Connection of the high voltage CN26,CN27 Output:High voltage for 4-way control CN7 Output: Pulse(0- 320VDC)for DC FAN U V W Output: Pulse(0- 320VDC)for COMPRESSOR 15 MN , 1=1—„ III FM NEAIFR 2 I 'Ur 'Nia LLUT em O y OCNJ !•!•II oC o Q CM 000 E N BLU M I 0 P_I CM Eu�y-, Nu OCN, MAIN OUTDOOR �II SLACK OCN1 PCB Nuou O CIO RED CM CN61 _ RN Chit Ww MEAg,N'jq LM • - - • ®" YETI OP " 1yIX L£',XB EN I•� I' TTi I,YL N PG A " • w.mE�J Nuv ,� ,\ 1 B MU two ED VED a„ UMW UP DNWNf L6DR rrc, LI LI S CXI ��CX1fi 0 - I UE - LE CCC INDOOR WIT 11mn?hE LI 12 S LI LZ Wr"'"..1 INDOOR WIRING DIAGRAM ---I� Emma 6P>X6NL ya elfoOTT n IN PIO ON UN I OMER RIPPLY Fin.11 — Wiring Diagram Size 18(208-230V) INDOOR UNIT CONTROL BOARD INPUT or OUTPUT VALUE L_IN Power Voltage: AC 230V CN11 Power Voltage: AC230V CN16 Relative to the N terminal voltage: DC 24V CN15 Maximum voltage: DC5V CN6 Maximum output voltage : AC230V CN4 Indoor fan interface,Maximum voltage: DC310V CN5 Stepper motor interface,Maximum voltage between the lines: DC12V P 1 Ground CN8 Room temperature sensor interface,maximum voltage: DC5V CN9 Pipe temperature sensor interface,maximum voltage: DCSV CN10A Display interface,maximum voltage between the lines: DC5V CN14 Stepper motor interface(optional),maximum voltage between the lines: DC12V OUTDOOR UNIT CONTROL BOARD INPUT or OUTPUT VALUE CN7, CN8 Input:230V High voltage CN2 Output: Connection of the high voltage CN3, CN4 Output:High voltage for 4-way control CNl1, CN16 Output:230V High voltage for HEATER CN5 Output:Pulse(0- 320V)for DC FAN - CN12. CN13 Output:Connection of the high voltage U V W Output:Pulse(0-320V)for compressor CN10 Input:Pint (5V) Pin2(0-5V) CN1 Input:Pin3-4(5V) Pin2(0V),Pinl,Pin5(0- 5V) CN18 Output:Pin5&6(12V) Pin1- Pin4:Pulse waveform,(0- 12V) 16 . rillqIIIIIIIII n•1 r •• •as II BOARD MI • ,�,s ® S MAIN BOARD !n] , 4121 I® A .••w © CJ 3 _ nv u, pri •MTE 1 • •i q YIITYA. JJ !it ., r]nnC]n II MT • •� ,at INDOOR WIRING DIAGRAM VG I L'L1 I / =w,.xu re ILil:.... ® Fig.12— Wiring Diagram Size 24(208-230V) INDOOR UNIT CONTROL BOARD INPUT or OUTPUT VALUE L_IN Power Voltage: AC 230V CN11 Power Voltage: AC230V CN16 Relative to the N terminal voltage: DC 24V CN15 Maximum voltage: DC5V CN6 Maximum output voltage: AC230V CN4 Indoor fan interface,Maximum voltage: DC310V CN5 Stepper motor interface,Maximum voltage between the lines: DC12V P_1 Ground CN8 Room temperature sensor interface,maximum voltage: DC5V CN9 Pipe temperature sensor interface,maximum voltage: DC5V CN10A Display interface,maximum voltage between the lines: DC5V CN14 Stepper motor interface(optional),maximum voltage between the lines: DC12V INDOOR UNIT CONTROL BOARD INPUT or OUTPUT VALUE L_IN Power Voltage: AC 230V CN11 Power Voltage: AC230V CN16 Relative to the N terminal voltage: DC 24V CN15 Maximum voltage: DCSV CN6 Maximum output voltage: AC230V CN4 Indoor fan interface,Maximum voltage: DC310V CN5 Stepper motor interface,Maximum voltage between the lines: DC12V P_1 Ground . CN8 Room temperature sensor interface,maximum voltage: DCSV CN9 Pipe temperature sensor interface,maximum voltage: DC5V CN10A Display interface,maximum voltage between the lines: DC5V CN14 Stepper motor interface(optional),maximum voltage between the lines: DC12V 17 SO COMPWV ' , I R '} .RMA® � I ❑ azu1110 mwu -� .a_NR nea ° DRIVER BOARD ma x_wm_wr µN O�'°I__J.�►C mN NE.n ' + -- -- - PS0"0 ��'^^"�'',•.[cm ` nrrxwvw INDOOR WIRING DIAGRAM ........... I� EID �P "^'•"' MAIN BOARD Pwa ® T yc 1 V J 6 .., 1241130 CODE PARTNAME •` caw C31.214ES000 E1.11 OOOOJR DO MM _151? HEAT CMMn0NENEMM4 lR'b�:'^^'bII H-PRO NG PPESSUPE SNrtCX 1 li iq L KCNONCTOP 14330 LOW PPF&WF£POOCH H NLYF TP EYNwST TENPEPMUPE SENSOR *a CCM0ENSER TEMEMTUPE SENSOR T. 1ENPEPAT117SEMI Fig.13— Wiring Diagram Size 30(208-230V) INDOOR UNIT CONTROL BOARD INPUT or OUTPUT VALUE L IN Power Voltage: AC 230V CN11 Power Voltage: AC230V CN16 Relative to the N terminal voltage: DC 24V CN15 Maximum voltage: DC5V CN6 Maximum output voltage : AC230V CN4 Indoor fan interface,Maximum voltage: DC310V CN5 Stepper motor interface,Maximum voltage between the lines: DC12V P_1 Ground CN8 Room temperature sensor interface,maximum voltage: DC5V CN9 Pipe temperature sensor interface,maximum voltage: DC5V CN10A Display interface,maximum voltage between the lines: DC5V CN14 Stepper motor interface(optional),maximum voltage between the lines: DC12V OUTDOOR UNIT CONTROL BOARD INPUT or OUTPUT VALUE CN1, CN2 Input:230V High voltage S Output:Connection of the high voltage CN11. CN12 Output:Pulse(0-320V)for DC FAN CN33 Input:Pint (5V) Pin2(0- 5V) CN3, CN22 Output:High voltage for 4- way control CN4. CN40 Output:230V High voltage for HEATER1 CN10, CN44 Output:230V High voltage for HEATER2 CN8 Input:Pin3- 4(5V) Pin2(0V),Pinl,Pin5(0- 5V) CN9 Input:Pin1-3(OV) Pin2-4(0- 5V) CN51 CN52 Output:Connection of the high voltage U V W Output: Pulse(0 i380V)for compressor 18 • . GUIDE SPECIFICATIONS INDOOR WALL-MOUNTED DUCTLESS UNITS Size Range:3/4 to 2 1/2 Ton Nominal Cooling and Heating Capacity • Model Number:619P PART 1 - GENERAL The unit shall have the following functions as a minimum: 1.01 System Description 1. An automatic restart after power failure at the same operating conditions as at failure. Indoor,wall-mounted,direct-expansion fan coils are matched with 2. A timer function to provide a minimum 24-hour timer the heat pump outdoor unit. cycle for system Auto Start/Stop. 1.02 Agency Listings 3. Temperature-sensing controls shall sense return air Unit shall be rated per AHRI Standards 210/240 and listed in the temperature. ARM directory as a matched system. 4. Indoor coil freeze protection. 1.03 Delivery. Storage.And Handling 5. Wireless infrared remote control to enter set points and Units shall be stored and handled per unit manufacturer's operating conditions. recommendations. 6. Automatic air sweep control to provide on or off activation 1.04 Warranty (For Inclusion By Specifying of air sweep louvers. Engineer) 7. Dehumidification mode shall provide increased latent removal capability by modulating system operation and set point temperature. PART 2 - PRODUCTS 8. Fan-only operation to provide room air circulation when no 2.01 Equipment cooling is required. A. General: 9. Diagnostics shall provide continuous checks of unit Indoor, direct-expansion, wall-mounted fan coil. Unit shall be operation and warn of possible malfunctions. Error complete with cooling/heating coil, fan, fan motor, piping messages shall be displayed at the unit. connectors,electrical controls,microprocessor control system,and 10. Fan speed control shall be user-selectable: turbo, high, integral temperature sensing. Unit shall be furnished with integral medium, low, or microprocessor controlled automatic wall mounting bracket and mounting hardware. operation during all operating modes. B. Unit Cabinet: 11. Automatic heating-to-cooling changeover in heat pump Cabinet discharge and inlet grilles shall be attractively styled, mode. Control shall include deadband to prevent rapid high-impact polystyrene. Cabinet shall be fully insulated for mode cycling between heating and cooling. improved thermal and acoustic performance. 12. Indoor coil high temperature protection shall be provided to C. Fans: detect excessive indoor discharge temperature when unit is 1. Fan shall be tangential direct-drive blower type with air in heat pump mode. intake at the top of the unit and discharge at the bottom G. Filters: front. Automatic, motor-driven vertical air sweep shall be Unit shall have filter track with factory-supplied cleanable filters. provided standard. H. Electrical Requirements: 2. Air sweep operation shall be user selectable. The vertical Indoor fan motor to operate on 115V on model sizes 09-12 and on sweep may be adjusted (using the remote control) and the 208-230V on model sizes 09- 30,as specified.Power is supplied horizontal air direction may be set manually. from the outdoor unit. D. Coil: I. Operating Characteristics: Coil shall be copper tube with aluminum fins and galvanized steel The 619P system shall have a minimum SEER(Seasonal Energy tube sheets. Fins shall be bonded to the tubes by mechanical Efficiency Ratio)and HSPF at AHRI conditions,as listed on the expansion.A drip pan under the coil shall have a drain connection specifications table. • for hose attachment to remove condensate. Condensate pan shall J. Refrigerant Lines: have internal trap. E. Motors: All units should have refrigerant lines that can be oriented to connect from the left, right or back of unit. Both refrigerant lines Motors shall be open drip-proof, permanently lubricated ball need to be insulated. bearing with inherent overload protection. Fan motors shall be K. Special Features 4-speed. p (Field Installed): F. Controls: 1. Condensate Pump: - The condensate pump shall remove condensate from the Controls shall consist of a microprocessor-based control system drain pan when gravity drainage cannot be used. Pump which shall control space temperature,determine optimum fan shall be designed for quiet operation.Pump shall consist of speed,and run self diagnostics.The temperature control range two parts:an internal reservoir/sensor assembly,and a shall be from 62°F to 86°F(17°C to 30°C)in increments of 1°F or 1°C,and have 46°F Heating Mode(Heating Setback).The remote sound-shielded pump assembly.A liquid level wireless remote controller shall have the ability to act as the sensor in the reservoir shall stop cooling operation if the temperature sensing location for room comfort. liquid level in the reservoir is unacceptable. 19 GUIDE SPECIFICATIONS - HORIZONTAL DISCHARGE OUTDOOR UNITS Size Range:3/4 to 2 1/2 Ton Nominal Cooling and Heating Capacity Model Number:538P PART 1 - GENERAL 3. Shaft shall have inherent corrosion resistance. 1.01 System Description 4. Fan blades shall be non metallic and shall be statically and p dynamically balanced. A. Outdoor air-cooled split system compressor sections suitable 5. Outdoor fan openings shall be equipped with PVC for on-the-ground, rooftop, wall hung or balcony mounting. metal/mesh coated protection grille over fan. Units shall consist of a rotary compressor, an air-cooled coil, D. Compressor: propeller-type draw-through outdoor fan, reversing valve (HP), accumulator(HP units), metering device(s),and control 1. Compressor shall be fully hermetic rotary type. box. Units shall discharge air horizontally as shown on the 2. Compressor shall be equipped with oil system,operating oil contract drawings. Units shall function as the outdoor charge, and motor. Internal overloads shall protect the component of an air-to-air heat pump system. compressor from over-temperature and over-current. B. Units shall be used in a refrigeration circuit matched to the 3. Motor shall be NEMA rated class F, suitable for operation ductless heat pump fan coil units, in a refrigerant atmosphere. 1.02 Agency Listings 4. Compressor assembly shall be installed on rubber vibration A. Unit construction shall comply with ANSI/ASHRAE 15,latest isolators. revision,and with the NEC. 5. Compressors shall be single phase. B. Units shall be evaluated in accordance with UL standard 1995. E. Outdoor Coil: C. Units shall be listed in the CEC directory. Coil shall be constructed of aluminum fins mechanically bonded to D. Unit cabinet shall be capable of withstanding 500-hour salt seamless copper tubes,which are cleaned,dehydrated,and sealed. spray test per Federal Test Standard No. 141 (method 6061). F. Refrigeration Components: E. Air-cooled condenser coils shall be leak tested at 550 psig. Refrigerant circuit components shall include brass external liquid line service valve with service gage port connections, suction line 1.03 Delivery. Storage.And Handling service valve with service gage connection port, service gage port Units shall be shipped in one piece and shall be stored and handled connections on compressor suction and discharge lines with per unit manufacturer's recommendations. Schrader type fittings with brass caps, accumulator, reversing 1.04 Warranty (For Inclusion By Specifying valve. Engineer) G. Controls and Safeties: Operating controls and safeties shall be factory selected,assembled, and tested. The minimum control functions shall include the PART 2 - PRODUCTS following: 2.01 Equipment 1. Controls: A. General: a. A time delay control sequence is provided standard through Factory assembled, single piece, air-cooled outdoor unit. the fan coil board. Contained within the unit enclosure shall be all factory wiring, b. Automatic outdoor-fan motor protection. piping,controls,and the compressor. 2. Safeties: B. Unit Cabinet: a. System diagnostics. 1. Unit cabinet shall be constructed of galvanized steel, b. Compressor motor current and temperature overload bonderized and coated with a baked-enamel finish on protection. inside and outside. c. Outdoor fan failure protection. 2. Unit access panels shall be removable with minimal screws H. Electrical Requirements: and shall provide full access to the compressor, fan, and 1. Unit shall operate on single-phase, 60 Hz power at 115 v control components. for unit sizes 09-12 and 208-230v for unit sizes 09,12,18, 3. Outdoor compartment shall be isolated and have an acoustic 24,and 30,as specified. lining to assure quiet operation. 2. Unit electrical power shall be a single point connection. C. Fans: 3. Unit Control voltage to the indoor fan coil shall be 0-15V 1. Outdoor fans shall be direct-drive propeller type, and shall DC. discharge air horizontally. Fans shall draw air through the 4. All power and control wiring must be installed per NEC outdoor coil. and all local electrical codes. 2. Outdoor fan motors shall be totally-enclosed, single phase 5. Unit shall have high- and low-voltage terminal block motors with class B insulation and permanently-lubricated connections. ball bearings. Motor shall be protected by internal thermal overload protection. 'Bryant Heating&Cooling Systems• 7310 W.Morris St.• Indianapolis,IN 46231 Edition Date: 05/15 Catalog No:PDS538-819P-02 Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. Replaces:PDS538-619P-01 20 4"X3 " BOLT INTO 4X4 AT EACH CORNER 6 " LAG INTO EXISTING ROOF JOIST AT EACH CORNER imp I CONDENSER 4X4 • LiGREENHECK Printed Date: 06/15/2020 Job: State of Oregon - Employment Department TI Building Value in Air. Mark: Square FSD's Model: FSD-311 FSD-311 Combination Fire Smoke Damper APPLICATION & DESIGN Model FSD-311 is a high performance combination fire smoke damper with Class I leakage. High strength airfoil blades ensure the lowest resisitance to airflow in HVAC systems with velocities to 4,000 ft/min and pressures to 8 in.wg. Model FSD-311 may be installed horizontally or vertically(with blades running horizontally)and is rated for airflow and leakage in either direction. RATINGS UL 555 Fire Resistance Rating 1 DynRating: 1 hours rx \ 1li Dynamic Closure Rating: Actual ratings are size dependent li .;�_ Velocity: Up to 4,000 ft/min Pressure: 8 in.wg UL 555S Leakage Rating "`re"� II Leakage Class: I \� Access Door�1•Operational Rating: Actual ratings are size dependent Velocity: Up to 4,000 ft/min vsmn —L r Il Pressure: 8 in.wg Temperature: Up to 350 F depending on actuator y Damper sin. Location PRODUCT DETAILS Frame Type: Channel Length ength Frame Thickness: 16 ga Mounting: Vertical •This drawing shows a general damper configuration and is not Closure Device: RRL intended to depict the exact configuration of all dampers Closure Temperature: 165 F in this submittal. Blade Action: Opposed •Width and height furnished approximately 0.250 in.undersize. Blade Seal: Silicone •Add sleeve thickness for overall sleeved damper dimension. AxlelLinkage Material: Plated Steel •If the actuator is contained, then it does not extend Axle Bearings: 316 SS more than 1.500 in.above or below the damper sleeve. Sizing: Nominal •Access doors that are smaller than 12.000 in.x 12.000 in. ACTUATOR INFORMATION supplied on dampers with internal actuators,fusible links or more than one section high are intended for visual inspection. Actuator Type: 120 VAC •Dampers with more than one section wide will be furnished Actuator Mounting: External with a single OCI device per row when the blade indicator Actuator Location: Right Side option is selected. Operating Mode: Two Position •Installation instructions available at www.greenheck.com. Actuator Operation: Spring Return Fail Position: Closed CODES APPROVED Time Cycle: Standard Model FSD-311 meets the requirements for fire Operating Temperature: 250 F dampers, smoke dampers and combination fire smoke Velocity: 2,000 ft/min dampers established by: Pressure: 4 in.wg National Fire Protection Association: NEMA Enclosure: 1 NFPA Standards 80,90A, 92, 101, 105 OPTIONS & ACCESSORIES IBC(International Building Codes) C (10) US CSFM(California State Fire Marshal) Retaining Angle Type: 2-Side Loose Fire Damper Listing(3225-0981:103) __.. Retaining Angle Size: Minimum UL Leakage(Smoke)Damper Listing(3230.0981:104) woo o.,:' CAD Access Door: Factory mounted in damper Underwriters Laboratories: '^'-/ sleeve UL Classified to U.S.and Canadian safety standards ��^• Union Label: No Preference Standard 555&555S(Listing#R13317) SUMMARY ID# I TAG I QTY I Width I Height I CONFIGURATION Compact Actuator Contained: Drive Arrangement: Actuator Mfr: Configuration: Drive- YesNo MLS-11-1FER-1 Honeywell 1-1 4 24.000 in. 24.000 in. Actuator Model: Actuator Qty: Act.Orientation: Sleeve Length: MS4104F1010 1 Parallel 24.000 in. Sleeve Thickness: Damper Location: 20 ga 16.000 in. Generated by:bphearson©johnsonair.com CAPS 4.32.1057 B:\DanielHealy\20201State of Oregon-Employment Department Tl.gfcj Page 1 of 3 Printed Date: 06/15/2020 GREENHECK Job: State of Oregon - Employment Department TI - Building Value in Air. Mark: Round FSD's - Model: FSDR-511 FSDR-511 Combination Fire Smoke Damper Round Steel Blade APPLICATION & DESIGN Model FSDR-511 is a combination fire smoke damper with round style blades.The FSDR-511 is qualified to 3,000 fUmin and 4 in.wg for operation and dynamic closure in emergency fire smoke situations. Model FSDR-511 may be installed horizontally or vertically(with axle running horizontally)and is rated for airflow and leakage in either direction. RATINGS / � ' UL 555 Fire Resistance Rating / ��. Fire : 1 hours f� '•'� ,1 Dynamic Closure Rating Actual ratings are size dependent _ Velocity: Up to 3,000 ft/min , � Pressure: 4 in.wg UL 555S Leakage Rating Leakage Class: I Diameter-- Operational Rating: Actual ratings are actuator dependent Velocity: Up to 3,000 ft/min Pressure: 4 in.wg Temperature: Up to 350 F PRODUCT DETAILS !' o Frame Material: Galvanized steel Frame Thickness: 20 ga Blade Material: Double skin galvanized steel Blade Thickness: 14 ga equivalent Axle Material: 0.500 in.steel Sleeve leer tie- Axle Bearings: Bronze Closure Device: RRL Closure Temperature: 165 F •This drawing shows a general damper configuration and is not Partition Depth: 6.5 in. intended to depict the exact configuration of all dampers Sizing Method: Nominal in this submittal. ACTUATOR INFORMATION •Diameter furnished approximately 0.125 in.under size. •Installation instructions available at www.greenheck.com. Actuator Type: 120 VAC • Operating Mode: Two Position CODES APPROVED Actuator Operation: Spring Return Actuator Mounting: External Model FSDR-511 meets the requirements for fire dampers, Fail Position: Closed smoke dampers and combination fire smoke dampers established by: NEMA Enclosure: 1 Time Cycle: Standard UL Classfied to US and Canadian safety standards Actuator Temperature: 350 F UL Standard 555 and 555S(Listing#R13317) Velocity: 2,000 ft/min National Fire Protection Association: NFPA Standard 80,90A,92, 101 &105 OPTIONS & ACCESSORIES IBC:International Building Codes cQII) us - California State Fire Marshal: CSFM Fire Damper Listing#3225-981:112 CSFM Smoke Damper Listing#3230-981:113 SUMMARY • ID# I TAG I QTY I DIAMETER I CONFIGURATION 2-1 4 12.000 in. Sleeve Length: Actuator Mfr: Actuator Model: 18 in. Honeywell MS4104F1010 2-2 1 16.000 in. Sleeve Length: Actuator Mfr: Actuator Model: 18 in. Honeywell MS4104F1010 4_3 1 6.000 in. Sleeve Length: Actuator Mfr: Actuator Model: 18 in. Honeywell MS4104F1010 Generated by:bphearson@ljohnsonair.com CAPS 4.32.1057 B:\DanielHealy120201State of Oregon-Employment Department Tl.gfcj Page 2 of 3 - �GREENHECK Printed Date: 06/15/2020 Job: State of Oregon - Employment Department TI Building Value In Air. Damper Drive Arrangements Job Summary -Start- Drive Arrangement: Drive-MLS-11-1 FER-1 Damper Drive Arrangements Job Summary -End- Generated by:bphearson@johnsonair.com CAPS 4.32.1057 B:\DanielHealy\2020\State of Oregon-Employment Department TI.gfcj Page 3 of 3 Drive Arrangement Definition On multi-blade dampers (except vertical blade and Face & Bypass), they are given a drive arrangement code that helps describe the construction of the damper. The following breaks down what each number and letter represents. 22-2FEL- 2 ® 00 O5 ® O Number of sections wide • Number of sections high Jackshaft I v ® Number of actuators or manual quadrants m ® Who supplies the actuators or manual quadrants F - Factory Actuator or o• C - Customer Supplied (field mounted) Manual Quadrant 5 Actuator or manual quadrant mounting E - External I - Internal B - Both internal and external ® Actuator or manual quadrant location L- Left hand drive R - Right hand drive B - Both right and left I Damper Width-0-1 © Number of jackshafts Vertical blade and face&bypass dampers are given a configuration ID number that helps describe the construction of the damper. See the following examples: Model Drive Arrangement Prefix AMD-23, 33, 42 AMD AMD-42V VB DFD-210, 230; DFDAF-310; MLS DFDAF-330; SEDFD-210 FBH &FBV FB FSD, OFSD, CFSD, SMD, SEFSD, SSFSD, SESMD, SSSMD series MLS (except vertical blade models) FSD-311V, SMD-301V VB GFSD series GFSD ICD series CC IMO series MLS MBD-15 &VCD series (except CC vertical blade models) VCD-xxV(vertical blade models) VB [GREENHECK Retaining Plate for Round Combination Fire Smoke Dampers Opening+2 in. Min. Nut 0t .. Minimum Wall/Floor Opening ILA Clamping =Nominal Dia.+T/g in. Screw O go Retaining Plate Assembly 1.00 in.Min.Typ. Fasteners Figure 1 w Clamping Screw Retaining Plate CLEARANCE FOR EXPANSION DUCT OPTIONAL BLADE POSITION CONNECTION INDICATOR AND/OR ELECTRIC AREA Do not place retainerLINK. Plate in groove IS IN. O IraaO O t � I 1.601N. ICI Imo: • ' FUSIBLE LINK . LOCATION LOCATION AIRFLOW -A -fir DUCT �" CONNECTION : r 1.5 IN. AREA IMi i ICI Ar. ACTUATOR G optional Second Retaining Plate -3.375 IN. -5.375 in See Actuator 6 IN.MAX - a Location a e - Wall - 16.00 IN MAX SLEEVE LENGTH • TOP VIEW OF DAMPER Figure 2 Actuator Shaft Location (in inches) Control Device Diameter(in inches) >6 to <101/a >101/ato s111/a >11 Ye to<141/a >141/a Fusible Link 371E 31%16 31/6 31/16 RRL 511/a 411A% 411/6 411/1a RRL/OCI 7'/1a 7'/16 TA 7'/16 TOR 7/6 77/e 7'/116 T/1e I 1IGREENHECK Copyright o 2018 Greenheck Corporation P.O.Box 410•Schofield,WI 5M76-n410.715.359.6171.greenteck.ccm Retaining Plate FSDR Rev.1 October 2018