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14.42DZZ--0020 RECEIVED ►gss OEA C COP JAN 16 2022 CITY OF TIGgRD Johnson �� BUILDING DIVISION Controls SUBMITTAL DATA Order#: Date: 12/20/2021 Project: North Point Project#: MM12202103 Submitter: Mark Mundy NorthWest Branch Region(UST/IPA) 7245 SW Durham Rd., Tigard, Oregon 97224 (503) 616-9444 Information is subject to change without notice.Check local codes. Printed 1 1/2012 0 21 Date 12/20/2021 • Project Name �) North Point Johnson J .kv Project Number Controls MM12202103 Client/Purchaser Submittal Summary Page Qty Tag# Model#/Material # Description 1 YHE48B22S York Brand,4 Ton, Heat Pump, R-410A Refrigerant, 14 SEER/1- Stage, 208/230-1-60 1 AE48CX21 4 Ton, Single Piece Air Handler, Standard Multi-Position ECM Motor, 21" Cabinet Width, 208/230-1-60, Flex-Coils 1 S1-6HK16501506 15 kW 208/230-1-60 Electric Heat with Circuit Breaker 1 S1-1TVMBC1 KIT,TXV,R-410A,3/4 INCH CHATLEFF CO 4 DIV-HPR-6 HEAT PUMP RISER 6 IN 1 DIV-UC3642-3CA Ultralite EQ PAD-36x42x3 Equipment start-up and commissioning by a factory trained technician is recommended. Contact your supplying distributor or sales representative for additional information &guidance. ifit WARNING:Cancer and Reproductive Harm-www.P65Warnings.ca.gov Information is subject to change without notice.Check local codes. Printed 12/20/2021 , , Li PORK® Residential Split Page:3 Split-System Outdoor Project Name: North Point Unit Model#: YHE48B22S Quantity: 1 System: YHE48B225,AE48CX21 Cooling Performance Total net capacity 47.1 MBH Sensible net capacity 34.3 MBH Seasonal Efficiency(at ARI) 14.25 SEER 3" Efficiency(at ARI) 12.00 EER +"•-�•�:. �.:.-sir _ Ambient DB temp. 91.8 °F �.,��Z..•. yr,.,1.¢!.;,,k, Leaving air temp dew point 56.10 °F r~`.+_�`." "..��%jir`t. Powerin input 3.95 kW q+:�`ti Y i�r'ro'or - p i :ti."..+.1%...�}siii Refrigerant `\s,�:::I-c i�.''i Refrigerant a R-410A Ck.���i K ii 9 type Ckkk��— 0. Heat Pump Performance �s:��e iii��� �� �..,•s...,.. Heating output capacity 51.4 MBH = \�.+_�rf Ambient DB temp. 47 °F % N••r..//E; Leaving DB temp. 89.7 °F `js- .- Air temp. rise 29.7 °F Power Input 3.6 kW HSPF 9 Applied electric heat 13.2 kW 4 Ton Electrical Data Power supply 208/230-1-60 Product Features Unit min circuit ampacity 30.8 Amps • The YHE models are the newest offering in our successful LX Series split Unit max over-current protection 50 Amps system heat pump lineup.These outdoor units are optimized for the new 14 _ Dimensions&Weight SEER/8.2 HSPF Minimum Efficiency in all US Regions,and are specifically Hgt 44 in. Len 41 in. Wth 33 in. designed to be matched with York indoor coils,furnaces,and air handlers to Weight with factory installed options 256 lbs. provide a complete system solution. Matchup Information ARI Reference Number 10596867 Unit Features ARI Rated Capacity 47.1 MBH • 14 SEER/1-Stage .6R1 Rated Efficiency 14.25 SEER • Environmentally Friendly-CFC-free R-410A refrigerant delivers Note: Please refer to the tech guide for listed maximum static pressures environmentally friendly performance with zero ozone depletion. 111E �� • Durable Finish-The coated steel wire fan guard,coated external fasteners, AMERIC•a .,-i^.,-_ \_/ and pre-treated G90-equivalent galvanized steel chassis components resist ���CERTIFIED,.QUAUTY • mod raapigb=,,r corrosion and rust cree Champagne colored powdercoat paint further protects external panels. • Fully Exposed Refrigerant Connections and a Single Panel Covering the Electrical Controls Make for Easy Servicing of the Unit • Protected Compressor-Compressors are protected internally by a high pressure relief valve and a temperature sensor,and externally by the system high and low pressure switches.The liquid line filter-drier is factory installed to protect the compressor against moisture and debris • Rugged Coil Protection-Coils are protected from mechanical damage by a proven stamped steel coil guard design in all US Regions,and are specifically designed to be matched with York indoor coils,furnaces,and air handlers to provide a complete system solution. Warranty • Five(5)Year Limited Parts Warranty • Ten(10)Year Limited Compressor Warranty • Extended Ten(10)Year Limited Parts Warranty when Product is Registered Online Within 90 Days of Purchase for Replacement or Closing for New Home Construction Information is subject to change without notice.Check local codes. Printed 12/20/2021 , , iiii yoRK® Residential Split Page:4 Split-System Outdoor Project Name: North Point Unit Model#: YHE48B22S Quantity: 1 System: YHE48B22S,AE48CX21 Factory Installed Options YHE48B22S Equipment Options Option(s) Selected Product Category: Y York Brand Type: H Heat Pump Nominal Series Efficiency&Staging: E 14 SEER/1-Stage Nominal Cooling Capacity: 48 4 Ton Refrigerant: B R-410A Refrigerant Voltage: 2 208/230-1-60 Product Generation: 2 Factory-Installed Options: S Field Installed Accessories O S1-01007646000-Compressor 0 Si-CTSDTS - CTS Wired 0 S1-THEH21 NY-York Branded Sound Blanket-Large Scroll (2.0 Temperature Sensor for THE Value Series I 2.3" Display 12 Ibs) thermostat I Duct*Also works for Stage Heating I 1 Stage Cooling O S1-02547272000-Compressor LX Series(0.3 lbs) Non-Programmable Crankcase Heater- Bellyband - 0 S1-CTSHTS - CTS Hardwired Hardwire/Battery Powered (0.6 Scroll 240V 40W(0.3 Ibs) Temperature Sensor for CTS Ibs) O S1-02549810000-Compressor Thermostats *Works with LX 0 S1-THEH21 P5Y-York Branded Crankcase Heater-Bellyband - series as well (0.2 Ibs) THE Value Series I 2.3" Display 12 Scroll 240V(1.0 Ibs) 0 S1-CTSPLATE-Wall Plate for Stage Heating I 1 Stage Cooling O S1-1 HK0601 - Hurricane Kit(LX CTS Thermostats*Also works for 7-Day(5+2) Programmable Series)(1.4 Ibs) new platform LX series models Hardwire/Battery Powered(0.6 O S1-2LA04701024-Advanced Low below(0.0 lbs) Ibs) Ambient Control Kit(1.8 Ibs) 0 S1-CTSWFTS-CTS Temperature 0 S1-THELOCK- Locking Ring For O S1-2LA06700424-Standard Low Sensor with WiFi for CTS THE Series Thermostats(0.4 Ibs) Ambient Control Kit(0.8 lbs) Thermostats*Also works with LX 0 S1-THEPLATE-Wall Plate for O S1-2PS06700524- Low Pressure Series(0.1 Ibs) THE Thermostats(0.1 Ibs) Switch Kit(R-410A)(0.2 Ibs) 0 S1-FHM3204HT- High Ambient 0 S1-THPU432-Y-York Branded O S1-2SA06710206-Compressor Condenser Fan Motor(1/4 HP) CTS Series 13/4 Stage Heating 12 Start Assist Kit(1.4 Ibs) (13.6 Ibs) Stage Cooling I 7-day/5+2 O S1-33102952310-Outdoor 0 S1-HPR-12-Heat Pump Risers- Programmable I WiFi On-board I Communicating Board Kit(2.0 Ibs) 12" (1.1 Ibs) Duel Fuel (0.7 Ibs) O S1-37327982001 -Outdoor 0 Si-HPR-3- Heat Pump Risers- 3" 0 S1-THPU433-Y-York Branded Thermostat for Electric Heat (0.3 Ibs) CTS Series 13/4 Stage Heating 12 Staging (1.0 Ibs) 0 Si-HPR-6 - Heat Pump Risers -6" Stage Cooling 17 Day(5+2) O S1-51301536000-Touch-up (0.5 Ibs) Programmable I Wifi I Dual Fuel Paint: Titanium (1.1 Ibs) 0 S1-LXLOCK-Locking Ring For (1.2 Ibs) O S1-ACB-42-Wall Mount Kit-42" LX-Series Thermostats (0.4 Ibs) 0 S1-THSU231-Y-York Branded LX (15.6 Ibs) 0 S1-LXPLATE-Wall Plate For LX- Series I 2.3" Display 12 Stage O S1-ADDWIRE-Add-a-Wire allows Series Thermostats (0.0 Ibs) Heating 12 Stage Cooling 17-day 5-wire thermostats to use only 4 0 Si-LXWFM- For LX Series Programmable I WiFi On-Board wires. (0.3 Ibs) Thermostats-WiFi (0.2 Ibs) 0 S1-CHGTENT01 -Cold Weather Communication (1.0 Ibs) 0 S1-THSU301-Y-York Branded LX Charging Tent(20.0 Ibs) Series I 3" Display 12 Stage Heating I 1 Stage Cooling I (5+2) 7-day Programmable(1.0 lbs) Information is subject to change without notice.Check local codes. Printed 12120/2021 yoRK® Residential Split Page:5 fY� Split-System Outdoor Project Name: North Point Unit Model#: YHE48B22S Quantity: 1 System: YHE48B22S,AE48CX21 O S1-THSU302-Y-York Branded LX Series I 3" Display 13/4 Stage Heating 12 Stage Cooling I (5+2) 7-day Programmable(1.0 Ibs) O S1-THSU303-Y-York Branded LX Series I 3" Display 13/4 Stage Heating 12 Stage Cooling I (5+2) 7-day Programmable I Humidity On-Board (1.0 Ibs) O S1-THXU430W-Wi-Fi Communicating Touchscreen Thermostat with Proprietary Hexagon Interface (White),with 4.3"display screen (0.9 Ibs) Information is subject to change without notice.Check local codes. Printed 1 2/2 012 0 21 r a PORK® Residential Split Page:6 Split-System Outdoor Project Name: North Point Unit Model#: YHE48B22S Quantity: 1 YHE Unit Dimensions 5005747-YTG-A-0216 PHYSICAL AND ELECTRICAL DATA MODEL YHE18B218 IYHE24B21 SIYHE301321SIYHE35B21SIYHE361321 HIYHE42B21 H IYHE481321 S I YHE60B21S Unit Supply Voltage 208-230V,le,60Hz Normal Voltage Range 1 187 to 252 Minimum Circuit Ampacity 12.0 15.4 18.1 20.5 19.7 25.5 30.8 31.7 Max.Overcurrent Device Amps 2 20 25 30 35 30 40 50 50 Min.Overcurrent Device Amps 3 15 20 20 25 20 30 35 35 Compressor Type Scroll Scroll Scroll Scroll Recip Recip Scroll Scroll Compressor Rated Load 9.0 11.7 13.4 15.4 14.7 19.4 23.6 24.3 Amps Locked Rotor 56.3 61.6 72.5 83.9 78.0 88.0 130.0 144.2 Crankcase Heater No No No No Yes Yes No No Factory External Discharge Muffler Yes Yes Yes Yes Yes Yes Yes Yes HS Kit Required with TXV 4 No No No No Yes' Yes' No No Fan Diameter Inches 22 22 24 24 24 24 26 26 Rated HP 1/8 1/8 1/4 1/4 1/4 1/4 1/4 1/4 Rated Load Amps 0.80 0.80 1.30 1.30 1.30 1.30 1.30 1.30 Fan Motor Nominal RPM 1075 1075 850 850 650 850 850 850 Nominal CFM 2850 2850 2995 2995 3715 3715 4000 4100 Face Area Sq.Ft. 14.35 17.94 23.82 23.82 46.92 46.92 52.08 56.82 Coil Rows Deep 1 1 1 1 2 2 2 2 Fins/Inch 22 22 22 22 18 18 18 18 Liquid Line Set OD(Field Installed) 3/8 3/8 3/8 3/8 3/8 318 3/8 3/8 Vapor Line Set OD(Field Installed)5 3/4 3/4 3/4 3/4 3/4 7/8 7/8 1-1/8t Unit Charge(Lbs.-Oz.)6 5-11 6-7 7-15 8-1 12-4 12-7 15-4 14-10 Charge Per Foot,Oz. 0.62 0.62 0.62 0.62 0.62 0.67 0.67 0.75 Operating Weight Lbs. 120 131 176 176 230 230 235 256 *Models with"H"on the end of the model number are shipped with a Hard Start Kit Installed at the factory. 1. Rated in accordance with AHRI Standard 110-2012,utilization range"A". 2. Dual element fuses or HACR circuit breaker Maximum allowable overcurrent protection. 3. Dual element fuses or HACR circuit breaker.Minimum recommended overcurrent protection. 4. See Hard Start Kit Accessory Installation Manual for Herd Start Kit part number for each model. 5. For applications with non-standard vapor line sizes,see the"Applications&Accessories"section of this Technical Guide. 6. The Unit Charge is correct for the outdoor unit,smallest matched indoor unit,and 15 feet of refrigerant tubing.For tubing lengths other than 15 Feet,add or subtract the amount of refrigerant,using the difference in actual lineset length(not the equivalent length)multiplied by the per foot value. Dimensions Refrigerant Connection mot_„�` Unit (Inches) Service Valve Size c Model A B C Liquid Vapor � / o�� YHE'ISB21S 33-1/4 29-1/4 29-1/4 �! 1 �� YHE24B21S 36-1/4 29-1/4 29-1/4 f..� �r��' YHE30B21S 39-1/2 35-1/4 31-3/4 3/4 -_4.� Ir YHE36B21S 39-1/2 35-1/4 31-3/4 3/8 AYHE36B21H 39-1/2 355-1/4 31-3/4YHE42B21H 39-1/2 35-1/4 31-3/47!8 YHE46B21S 39-1/2 38 31-3/4 YHE60B21S 42-3/4 38 34-1/4 7/5 '>--- #Adapter fitting must be field installed for the required 1-1/8"Ilne set. All dimensions are in inches and are subject to change without notice. � ' Overall height is from bottom of base pan to top of fan guard. Overall length and width include screw heads. Johnson Controls Unitary Products 3 Information is subject to change without notice.Check local codes. Printed 12/20/2021 , , ayo R Ka Residential Split Page:7 Split-System Outdoor Project Name: North Point Unit Model#: YHE48B22S Quantity: 1 YHE Installation 5005747-YTG-A-0216 TYPICAL INSTALLATION 48"OVERHEAD LEARANCE NEC CLASS 1 WIRING NOTE: _ --- Ensure adequate e — wall support. �*/ i \ �•� WEATHERPROOF " kh% DISCONNECT THERMOSTAT .- SWITCH 111 \�=1 'IP i;.a1 II NEC CLASS 2 WIRING 1.� 80"CLEARANCE I — Do not locate 3 BRACES outdoor unit closerS Use for wall mount with 44;'LLEI than the indicated \ center brace under clearance to a dryer ( S1 center of compressor. �► vent or to a 90+�/, �' �� t TO FURNACE OR furnace flue. AIR HANDLER all TERMINAL BLOCK 7 NEC CLASS 2 WIRING 1177. 14 t4 !: ��': '%�1iJJ �`side only see - � All outdoor wiring _ Altemative �-- — ��:! must be weatherproof. � '0' i Installation N.:- SI - `\', Clearances.) .. / \� CONTROL NOTE: SEAL OPENINGS a minimum of ACCESS 5 SNOW PUMP-UPS Ensure OTE: PANEL Use permagum or equivalent. Use in deep snow areas 24"clearance between with fifth pump-up under any two units. MINIMUM 18"SERVICE ACCESS CLEARANCE center of compressor. Maintain minimum clearance on one side of access panel. ..ow,.. A CAUTION Care must be taken to prevent ice from damaging the unit.Damage may occur from ice falling onto unit from a sloped roof or from a vertical drip line due to a partial overhang. NO OVERHANG COVERING UNIT „�� OVERHANG COMPLETELY '-- COVERING UNIT `\ OVERHANG PARTIALLY J( COVERING UNIT I - 1 48"MINIMUM ---- OVERHEAD '__.__' —_..i CLEARANCE INSTALLATION ACCEPTABLE INSTALLATION ACCEPTABLE INSTALLATION NOT RECOMMENDED (Refer to CAUTION above.) (Refer to CAUTION above.) NOTE: NOTE: The unit must be installed on a solid base above the grade. Install unit on flat surface.If installation surface is sloped,ensure The base must not be able to settle or shift causing strain on that unit slopes away from house structure at 1/4"per foot. refrigerant lines and possible leaks. CAUTION: Special care must be taken to avoid recirculation of discharge air through condenser coil. r-oo, 32 Johnson Controls Unitary Products Information is subject to change without notice.Check local codes. Printed 12/20/2021 , I JYORK® Residential Split Page:8 Split-System Outdoor Project Name: North Point Unit Model#: YHE48B22S Quantity: 1 YHE Wiring Diagram 5005747-YTG-A-0216 TYPICAL FIELD WIRING ALL FIELD WIRING TO BE IN ACCORDANCE WITH ELECTRIC CODE(NEC( AND/OR LOCAL CODES POWER WIRING — — — POWER WIRING 24 VOLT CONTROL WIRING 208/230-1-80 • CONTROL WIRING MINIMUM 18 GA.WIRE (NEC CLASS 2) 1 FACTORY WIRING I I FURNACE OR AIR HANDLER TERMINAL BLOCK �C. YI .R -- �,_-- `\ i I I I I •TERMINAL W IS ONLY (%TH CONTACTOIR I I I I I REQUIRED ON SYSTEMS ��GG// \\ I I I 1 1 / TERMINALS I CND. �� _ _ _ y_ J 1 I 1 I I LUG COIL � ._ _ — — (.1' R I 0 W"" CONDENSING UNff 1 ROOM THERMOSTAT ALL OUTDOOR WIRING MUST BE WEATHERPROOF. USE COPPER CONDUCTORS ONLY. ALTERNATIVE INSTALLATION CLEARANCES MINIMUM CLEARANCE BETWEEN UNITS WALL—fP r 11[ . [ _ 1� L ILL; � � ',��_�_, ,_ i 1 t FENCE SERVICE SERVICE SERVICE NOTE: Clearance between two units may be I — * � I reduced to'I B'minimum provided �• + the service access clearance is ,,/ - increased to 24"minimum,and the 18" 18• �y clearance on each remaining side UNIT- UNIT- is maintained at 18"minimum. +4`AVAu lit" ,\� TO-UNIT TO-UNIT 18'I 181 l©is .I NOTE: 1 MINIMUM CLEARANCE FROM WALL 1 1 the ane to eunit may be ach 24"tl L__ J�, B�t�J..',LL—Il B.1J I I'=1 Clearance to one side ofthe 1 is ed um, ser ce a in sed the clearance to each remainingside /1 1 minimum,and the clearances between WALL , 1 24"k.. 1 any two units is maintained at 24" SERVICE /211. '' 1p111 IZ minimum. = SERVICE V„,,,• ..t, TO-UNIT �� 12'I 1I CAUTION: FENCE-'-4",4 Special care must be taken to avoid recirculation of discharge air through condenser coil. Msn.mr Johnson Controls Unitary Products 33 Information is subject to change without notice.Check local codes. Printed 12/20/2021 , , YORK® Residential Split Page:9 Split-System Indoor Project Name: North Point Unit Model#: AE48CX21 Quantity: 1 System: YHE48B22S,AE48CX21 Cooling Performance total net capacity 47.1 MBH Sensible net capacity 34.3 MBH Entering DB temp. 80.0 °F ` YORK Entering WB temp. 67.0 °F Al Leaving DB temp. 60.2 °F Leaving WB temp. _ _ 57.7 °F t Heating Performance ;1,- Entering DB temp. 60 °F Electric heat model S1-6HK16501506 Heating output capacity(Max) 45 MBH r: Applied electric heat 13.2 kW , Installed Field 7 Supply air 1600 CFM Leaving DB temp. 86.0 °F Air temp.rise 26.0 °F Supply Air Blower Performance Supply air 1600 CFM Y Ext.static pressure 0.53 IWG Blower speed description #5 HI Elevation 203 ft. Unit Features Drive type DIRECT • Unit Cabinet Constructed of Aluminum or G90 Galvanized Steel Indoor Dimensions&Weight • Shipped as Upflow/Horizontal Left Models and are Field Convertible to Hgt 51.5 in. Len 21.5 in. Wth 21 in. Downflow/Horizontal Right Configuration Weight with factory installed options 150 lbs. • G30 Galvanized Steel Case to Resist Corrosion Field Installed Heat Single Source Power • Long Life MaxAlloy Aluminum Coils For Long Lasting Performance, Electric heat power supply 230-1-60 Efficiency and Reliablility • Cabinet is Insulated with Foil Faced Insulation to Prevent Sweating Circuit 1 MCA 80.2 Amps MOCP 90 Amps • Drain Pan is Made of Thermal Plastic to Reduce Cause for Potential Mold Or Field Installed Heat Dual Source Power Contaminates Circuit 1 MCA 32.45 Amps MOCP 35 Amps • Bolt-On-TXV(Select Models with Factory-Installed TXV) Circuit 2 MCA 47.91 Amps MOCP 50 Amps • Direct Drive Blower with Standard ECM Motors Matchup Information Warranty ARI Reference Number 10596867 • Five(5)Year Limited Parts Warranty ARI Rated Capacity 47.1 MBH • Extended Ten(10)Year Limited Parts Warranty with Registration ARI Rated Efficiency 14.25 SEER . Aetering Device S1-1TVMBC1 (orequiv) Note; Please refer to the tech guide for listed maximum static pressures IIIII AVIIM CERTiF ED..Cale ad 9� --�.�^ iiiiiiu Information is subject to change without notice.Check local codes. Printed 12/20/2021 iiyoRK® Residential Split Page:10 Split-System Indoor Project Name: North Point Unit Model#: AE48CX21 Quantity: 1 System: YHE48B22S,AE48CX21 Factory Installed Options AE48CX21 Equipment Options Option(s) Selected Product Type: A Single Piece Air Handler Product Category: E Standard Multi-Position ECM Motor Capacity: 48 4 Ton Cabinet Width: C 21"Cabinet Width Refrigerant/TXV: X Flex-Coils Voltage: 2 208/230-1-60 Product Generation: 'I Field Installed Accessories O S1-02435672000 - Service 0 S1-6HK16501306- 13 kW 0 S1-6HK36501825- 18 kW Disconnect Opening Seal Cover 208/230-1-60 Electric Heat with 208/230-3-60 Electric Heat without (0.2 Ibs) Circuit Breaker(7.0 Ibs) Circuit Breaker(3.5 Ibs) O S1-1 BR01121 - Filter Rack (8.2 • S1-6HK16501506- 15 kW 0 S1-6HK46502025-20 kW Ibs) 208/230-1-60 Electric Heat with 208/230-3-60 Electric Heat with O S1-1 FB1921 -Combustible Floor Circuit Breaker(8.0 Ibs) Circuit Breaker Single or Dual Base For Downflow W/Electric 0 S1-6HK16501806- 18 kW Power Source(9.0 Ibs) Heat(8.2 lbs) 208/230-1-60 Electric Heat with • S1-1TVMBC1 - KIT,TXV,R- O S1-1 PF0602- Permanent Filter(3/4 Circuit Breaker(8.0 Ibs) 410A,3/4 INCH CHATLEFF CO X 20 X 21)(Contains 10) (0.5 Ibs) 0 S1-6HK16502006-20 kW (2.0 Ibs) O S1-2HU16700124- Humidistat 208/230-1-60 Electric Heat with (5.0 Ibs) Circuit Breaker(8.0 Ibs) O S1-6HK06500206-2.5 kW O S1-6HK26501306- 13 kW 208/230-1-60 Electric Heat without 208/230-1-60 Electric Heat Kit w/ Circuit Breaker(3.8 Ibs) Circuit Breaker and Jumper Bar O S1-6HK06500506-5 kW 208/230- (8.0 Ibs) 1-60 Electric Heat without Circuit 0 S1-6HK26501506- 15 kW Breaker(4.2 Ibs) 208/230-1-60 Electric Heat Kit w/ O S1-6HK06500806-7.5 kW Circuit Breaker and Jumper Bar 208/230-1-60 Electric Heat without (8.0 Ibs) Circuit Breaker(5.0 Ibs) 0 S1-6HK26501806- 18 kW O S1-6HK06501006- 10 kW 208/230-1-60 Electric Heat Kit w/ 208/230-1-60 Electric Heat without Circuit Breaker and Jumper Bar Circuit Breaker(5.0 Ibs) (8.0 Ibs) O S1-6HK16500206-2.5 kW 0 S1-6HK26502006-20 kW 208/230-1-60 Electric Heat Kit with 208/230-1-60 Electric Heat Kit w/ Circuit Breaker(5.0 Ibs) Circuit Breaker and Jumper Bar O S1-6HK16500506-5 kW 208/230- (8.0 Ibs) 1-60 Electric Heat Kit with Circuit 0 S1-6HK36501025- 10 kW Breaker(5.0 Ibs) 208/230-3-60 Electric Heat without O S1-6HK16500806-7.5 kW Circuit Breaker(5.9 Ibs) 208/230-1-60 Electric Heat with 0 S1-6HK36501525- 15 kW Circuit Breaker(6.0 Ibs) 208/230-3-60 Electric Heat without O S1-6HK16501006- 10 kW Circuit Breaker(5.9 Ibs) 208/230-1-60 Electric Heat with Circuit Breaker(6.0 Ibs) Information is subject to change without notice.Check local codes. Printed 12/20/2021 . . 3yoRK. Residential Split Page: 11 Split-System Indoor Project Name: North Point Unit Model#: AE48CX21 Quantity: 1 Typical Application TYPICAL APPLICATIONS f UPFLOW 1 r DOWNFLOW 0\100 1 HEAT ° 7 0 / l I °° °p 00 I HORIZONTAL RIG HT\ I- Q W HEAT ° 0 00 00 - 00 I HORIZONTAL LEFT Information is subject to change without notice.Check local codes. Printed 12120/2021 , , ayoRK® Residential Split Page: 12 Split-System Indoor Project Name: North Point Unit Model#: AE48CX21 Quantity: 1 Unit Dimensions DIMENSIONS & DUCT CONNECTION DIMENSIONS F \\ REFRIGERANT CONNECTIONS DRAIN CONNECTIONS TOP OUTLET BLOWER � � V DIMENSIONS 12-3116" COMPARTMENT E COIL ' %" ( C) COMPARTMENT ' G 00 A A / �dSERVICE v 1 I -- C DISCONNECT PANEL 4' 7 p 7-11132 ' I 18-5/8" 1-1/2"---In BOTTOM INLET DIMENSIONS FILTER ACCESS B ICI 21-7//16" Dimensions Dlmensionsl Wiring Knockouts2 Refrigerant Connections Models A B F G Line Size C D E Height Width Power Control Liquid Vapor AE18BX21 41 17-1/2 12-718 14-1/4 16-1/2 AE24BX21 41 17-1/2 12-718 14-1/4 16-1/2 AE3OBX21 47-1/2 17-1/2 19-1/2 14-1/4 16-1/2 3/4" AE36BX21 47-112 17-1/2 19-1/2 14-1/4 16-1/2 AE36CX21 51-1/2 21 22-5/8 17-3/4 20 ' 718"(1/2") 1-3/8"(1") 7/8"(1/2") 3/8" AE42CX21 . 51-1/2 21 22-5/8 17-3/4 20 1-23/32"(1-1/4") AE48CX21 51-1/2 21 22-5/8 17-3/4 20 AE48DX21 55-1/2 24-112 26-5/8 21-1/4 23-1/2 7/8" AE6OCX21 55-3/4 21 26-7/8 17-3/4 20 AE60DX21 55-1/2 24-112 26-5/8 21-1/4 23-1/2 1. All dimensions are in inches- 2. Actual size(Conduit size in parenthesis.). Information is subject to change without notice.Check local codes. Panted 12/20/2021 . . ..agi yoRK' Residential Split Page:13 Split-System Indoor Project Name: North Point Unit Model#: AE48CX21 Quantity: 1 Wiring Diagram WIRING DIAGRAM WHEN INSTALLING HEATER KIT,BE SURE THE BLOWER SPEED IS SEE INSTALLATION INSTRUCTIONS FOR PROPER SET TO THE SPEED SPECIFIED FOR THE AIR HANDLER/HEATER KIT LOW VOLTAGE FIELD WRING CONNECTIONS. COMBINATION ON THIS UNIT'S INSTALLATION INSTRUCTIONS.HEATER KITS' $ t 0 i I 6HK 6500206 6HK'6600506 " HEt FL v4rt EQUIPMENT I ' 0 TOOUTBIDE Miff - - RN I O ME 0 TEL F. •u ..=iiro— ESP O ELN kj1 t HEATER KITS: ///��� 0LL AV) 6HK'6500806 P�-JV` FL 1k: r,`.PI IBLOWvmt .E.• �t] BlK 6LKM1NfT ;etI ' •�� i� - L —E ECROPUMOT 0 u HEATER KITS: i AIR HANDLER-WITH NO HEAT KIT 6HK6501300 B FL W Fl HE' WIRING DIAGRAM 6HK'6501906 HED a .� :'� � SRN r0 208-24OWLT B He R IILU EQUIPMENT r D SEO Gr RLY L6 ME5 FL SEQ Dr RLY GROUND Dm BM' r O . �, � �� SEQ or RLY LS HN FL SQaRLY u =Ft-- Y �!�I 8E0 or RLY L6 HE3 FL 5E0 wRLY l3 BLu rat SEQor RLY LS NE2 FL EEO wRLY HEATER KITS' ' , Q • - 5EEQ RLY LS HE M-o-J F -8 Q or RLY 6H 1 K'6502006 ilr HE] - A`3 HFA • RED BHK'6502006 e<U—UAll 41116 •FL • gillu. _ HE1 YE Ilg EQUIPMENT M 7rit-, GROUND I��t�P1:I�Let I.7.- MI ne41 Fr c ... ma' 1110115. uw, allllill['_�J 24V rjf, _ r •RED tL LA HR FL FL NEM 3 HEATFA KIT: -U'l 'Lf 2 _.______.. __ B HE9 l 6HK'6502506 ew OLUO, HEI` rEL S d 0 z I 13 KW AND ABOVE Le YEL HEx FL .du WHY T m 10 KW AND BELOW EQUIPMENT SLR ©I GROUND SIX otI fel I „ RV.O _ 1E4 LEGEND LS-LIMIT SWITCH e ®REo RED® SEQ-SEQUENCER __ - g J FL HE-HEATING ELEMENT LI e e�" --- --H - So IF H - LI //' H-SEQUFUSIBLEENCERNK HEATER L],.e M� I "H A' Id H I HO? RLY-RELAY Lt Etw 9EO3 MaiUSE COPPER CONDUCTORS ONLY. M �. Rm IF ALUMINUM CONDUCTORS ARE PRESENT. REO a" ALL APPLICABLE LOCAL AND NATIONAL u e< _ eLu y CODES MUST BE FOLLOWED. Li 6 __. PR5001016-UWD-A-0415 Information is subject to change without notice.Check local codes. Printed 1220/2021 . , rigi YORK® Residential Split Page: 14 Split-System Indoor Project Name: North Point Unit Model#: AE48CX21 Quantity: 1 Power Wiring Blower Speed Connection POWER WIRING - LINE CONNECTIONS NO ELECTRIC HEAT _.. GND r LI. COMPONFNTCOOFS CKT-CIRCUIT ----r CN-WIRE CONNECTOR/NUT GND-GROUND LUG POWER ... .I CN SD-SERVICE DISCONNECT SUPPLY ---- FIELD POWER WIRING CN (208/230V) SINGLE PHASE ELECTRIC HEAT OPTIONS: SINGLE SOURCE POWER SINGLE-SOURCE POWER MULTI-SOURCE POWER GND WITH JUMPER BAR GND N GND POWER ! L2 --- . Ry SD CKT 31 L2- !1 SD i gel i q l Lt----- ®1 SUPPLY I Li -----I A i POWER I-2---- i- •--"` SDJI POWER CKT2I �---`- SD SUPPLY L1 ---I i—•— til SUPPLY L LI- TERMINAL SERVICE DISCONNECT K OR SDSD CKT 1 t 1-2.---- ®� JUMPER BAR -- - dl A Li ---- 611_5D 2 CIRCUITS ON 13KW-20KW 2 CIRCUITS ON 13KW-2OKW 3 CIRCUITS ON 25KW 3 CIRCUITS ON 25KW BLOWER SPEED CONNECTIONS STANDARD ECM- HIGH EFFICIENCY MOTOR TO SEQUENCER HEATER-__BLK FOR TO RESISTOR Z 0 CONTROL WIRING TO RESISTOR BLUR NHT II©©©©t TO COMMON ON BLK/WHT � STANDARD TRANSFORMER ECM TO 240V ON RED/WHT El ECM TRANSFORMER �© MOTOR FOR Z --- POWER 0 WIRING = Information is subject to change without notice.Check local codes. Printed 12/20/2021 , . iiiii Yv RK® Residential Split Page: 15 Split-System Indoor Project Name: North Point Unit Model#: AE48CX21 Quantity: 1 Typical Thermostat Connection TYPICAL THERMOSTAT CONNECTION THERMOSTAT AIR AIR HANDLER HEAT TH'RNOSTAT HANDLER �II1-._._____.- aEl) 10) PUMP LJ `J CONDENSING - (W) \„'J UNIT © BLU© © i`F 1! WI:T W1166 © -- --_-- O FIELD INSTALLED C BLU CD JUMPER IF l 1 COOLING ONLY REQUIRED �/ © TH[RMOSTAT HANDLLER a_._____.__x___ RN® --.__.. ..- gi WHT N SINGLE STAGE HEAT PUMP AND , coNDEws I rve ELECTRIC HEAT(10 KW AND BELOW) jBLU© UNIT THERMOSTAT AIR ETD O HANDLER PUMP - - COOLING WITH ELECTRIC HEAT R (10KW AND BELOW) RN© _..� Lk)WNT I166 A THERMOSTAT HANDLER/) �"� BEN �L \Y ' � ' q REa 1{1 FIELD INSTALLED - 4 JUMPER IF SINGLE BUJ G�� STAGE THERMOSTAT HELD INSTALLED /- JUMPER IF C� r� BLU��� W WhT REQUIRED \ �- BRN 0 OJ (r1_ Q RUCCON UNNSING `1•� ©© -7 _ X/ \Y __ 0 COOLING WITH ELECTRIC HEAT SINGLE STAGE HEAT PUMP AND (13 KW AND ABOVE) ELECTRIC HEAT(13 KW AND ABOVE) Information is subject to change without notice.Check local codes. Printed 12/20/2021 • YO R K® Residential Split Page:16 Split-System Indoor Project Name: North Point Unit Model#: AE48CX21 Quantity: 1 Cross Section COMBUSTIBLE FLOOR BASE ACCESSORY AIR HANDLER DEPTH I FRONT a ° DOWNFLOW AIR HANDLER FLOOR I( APPROX.112" WARM AIR PLENUM 11. dr"CLEARANCE with 1"flange out PLENUM ALL AROUND on each side. 1" . 13" FLOOR OPENING A FIBERGLASS CROSS SECTION(A-A)FROM SIDE /��� INSULATION 'V'-"K „, FIBERGLASS TAPE ` ,r;F'1 ' under flange. B , .. A A Piro AIR HANDLER WIDTH COMBUSTIBLE FLOOR COMBUSTIBLE FLOOR BASE BASE ACCESSORY FLOOR116. B ►� PLENUM APPROX.1/2' CLEARANCE ALL AROUND 1° C ► 1° FLOOR OPENING CROSS SECTION(B-B)FROM FRONT Information is subject to change without notice.Check local codes. Printed 12/20/2021 Page: 17 APPLICATION DATA SHEET General Piping Recommendations and Refrigerant Line Length for Split-System Air Conditioners and Heat Pumps GENERAL GUIDELINES A CAUTION] The following guidelines apply to the application on either factory This Split-System(Air Conditioning Condensing/Heat line sets or field fabricated tubing for cooling only and heat pump Pump)unit is one component of an entire system.As systems: such it requires specific application considerations with • Many service problems can be avoided by taking adequate regard to the rest of the system(air handling unit,duct precautions to provide an internally clean and dry system design,refrigerant piping and control scheme). and by using procedures and materials that conform with Failure to properly apply this equipment with the rest of established standards. the system may result in premature failure and/or • The lines should be installed so that they will not obstruct reduced performance/increased costs.Warranty service access to the indoor coil,air handling system or filter. coverage specifically excludes failures due to improper Install the lines with as few bends as possible.Care must be application and UP specifically disclaims any liability taken not to damage the couplings or kink the tubing.Care resulting from improper application. must also be used to isolate the refrigerant lines to minimize Please refer to the equipment Technical Guide, noise transmission from the equipment to the structure. Installation Manual and the following publication for • Never solder vapor and liquid lines together.They can be further information. taped together for convenience and support purposes,but they must be completely insulated from each other. INTRODUCTION • Support all refrigerant lines at minimum intervals with suitable hangers and brackets.Tape and suspend the Installation of residential and commercial split-systems should be refrigerant lines as shown In Figure 1.DO NOT ALLOW performed by qualified service technicians with proper training in METAL-TO-METAL CONTACT. the installation,service and repair of these units. TAPE LIQUID This document should serve as a guideline for proper split-system11061 piping installation.Read these instructions along with the unit q ® LINE installation instructions carefully and adhere to all cautions, warnings and general practice guidelines.Consult local building INCORRECT codes for special requirements. ' ,glloutllll The tables and application data in this publication will help you to better apply split-system cooling and heat pump systems to achieve maximum efficiency and performance,improved reliability, SHEET METAL HANGER and greater customer satisfaction.This guideline includes CORRECT information for: INSULATED VAPOR LINE • General Gu delines FIGURE 1: Refrigerant Line Support • Indoor Unit Above the Outdoor Unit • Slope horizontal suction lines on cooling only systems • Outdoor Unit Above the Indoor Unit approximately 1 inch every 20 feet toward the outdoor unit to • Total line length facilitate proper oil return.Since the flow of refrigerant is bi- directional on heat pumps,all horizontal vapor lines should • g be level.Pre-charged lines with excess tubing should be • Additional Refrigerant coiled horizontally in an inconspicuous location to avoid oil • Refrigerant Oil Management trapping.Never coil excess tubing vertically. • Accumulator Use and Misuse • Use long radius elbows wherever possible. • Recommended Orifice Sizing Chart • Use PVC piping as a conduit for all underground installa- tions.Long Line Set Applications See Figure 2.Buried lines must be kept as short as • possible to minimize the build up of liquid refrigerant in the vapor line during long periods of shutdown. 247077-UAD-H-0209 Information is subject to change without notice.Check local codes. Printed 12/20/2021 1 Page: 18 247077-UAD-H-0209 reason,the restrictions on elevation differences for this TO INDOOR COIL To OUTDOOR uarr configuration must be based on the entire range of operating LIQUID LINE Conditions. INSULATED CAP VAPOR LINE (WATER TIGHT: When the indoor unit is above the outdoor unit,the pressure PVC CONDUIT �)I I� I I I loss in the liquid line during the cooling cycle will limit the � amount of elevation difference allowed.Since both friction and static head contribute to pressure loss,it can be stated that the elevation difference allowed decreases as the total equivalent line length(horizontal plus vertical)increases. FIGURE 2: Underground Application OUTDOOR UNIT ABOVE INDOOR UNIT • Pack fiberglass insulation and a sealing material such as COOLING CYCLE permagum around refrigerant lines where they penetrate a wall to reduce vibration and to retain some flexibility.If When the outdoor unit is above the indoor unit,the static multiple line sets are routed through a common conduit, pressure gain in the liquid line vertical drop(1/2 psi per foot) then all lines must be insulated. may overcome the frictional pressure loss resulting in a total • Insulate all vapor lines with a minimum of 1/2 inch of foam pressure gain.A pressure gain in the liquid line is not rubber.Liquid lines that will be exposed to direct sunlight detrimental to the performance of the system. or high ambient temperatures such as an attic must also On cooling only systems where the outdoor unit is located high be insulated. above the indoor coil,it may even be possible to reduce the The following additional guidelines apply to field fabricated size of the liquid line.The static gain in the vertical drop will piping: offset the increased friction loss caused by smaller tubing.In addition,the reduction In the total system charge due to the • Use hard drawn refrigeration type copper tubing where no smaller liquid line will enhance the reliability of the system. appreciable amount of bending around pipes or obstructions is necessary.If soft copper must be used, With this configuration,gas velocity in the vapor riser must be care should be taken to avoid sharp bends which may kept above 1000 feet per minute for proper oil return and below cause a restriction. 3000 feet per minute to avoid noise and vibration problems. • Braze all copper to copper Joints with Silfos-5 or HEATING CYCLE(Heat Pumps Only) equivalent brazing material.DO NOT USE SOFT SOLDER. In the heating mode,liquid will travel from the indoor unit up the • During brazing operations,flow an inert gas such as liquid riser to the outdoor unit.This will result in a liquid line nitrogen through the system to prevent internal scaling pressure drop and a starved outdoor coil.Since heat pumps and contamination. have a defrost cycle,coil freeze-up is not a problem.However, the resulting lower suction pressure will decrease the capacity TRAPS and efficiency of the system. Traps are not required it the piping is properly sized.Traps will TOTAL LINE LENGTH only add pressure drop to the system,further reducing capacity. INDOOR UNIT ABOVE OUTDOOR UNIT The total length of interconnecting tubing is the sum of all horizontal and vertical runs from the indoor unit to the outdoor unit.Total measured line lengths are limited to: With this configuration,a common problem with the cooling cycle(air conditioning or heat pump)is that the amount of liquid •The limiting factor on heat pumps is the storage capacity sub-cooling varies as operating conditions change(such as of the accumulator.The limiting factor on cooling units is outdoor ambient).Under some conditions,it is possible that oil sump capacity in the compressor. flashing will actually occur in the liquid riser.As long as Qnjtt •Total equivalent line lengths must only be used when liquid is present in the liquid riser,the liquid static pressure loss calculating pressure drop.Therefore use Table 1 to can be calculated at 1/2 psi per foot of rise.However,as soon calculate equivalent lengths for elbows. as flashing starts,the rate of pressure loss increases and continues to increase as the amount of gas increases.For this 2 Johnson Controls Unitary Products Information is subject to change without notice.Check local codes. Printed 12/20/2021 Page: 19 247077-UAD-H-0209 TABLE 1: EQUIVALENT LENGTHS OF ELBOWS IN FEET Pressure loss must be minimized.This is achieved by increasing the size of the suction line.As a good achievable LINE SIZE 90"SHORT 90'LONG guideline,suction pressure loss should not be allowed to INCHES(0.D.) RADIUS RADIUS exceed 3 psi(5 psi for R-410A). ELBOW(FT.)* ELBOW(Ff.) 1!4 0.7 0.6 Another important consideration when sizing suction lines is 5/16 0.8 0.7 refrigerant gas velocity in a suction riser.Velocity of at least 3/8 0.9 0.8 1000 feet per minute is required to carry oil up a suction riser. 1/2 1.2 1.0 Of course,this is only a factor when the outdoor unit is above 5/8 1.5 1.3 the indoor unit and the oil must overcome the pull of gravity to 3/4 1.6 1.4 return to the compressor.Greater refrigerant velocities are 7/8 1.8 1.6 obtained by decreasing the size of the suction line.In 1-1re 2.4 2,0 applications where smaller tubing is required for a suction riser 1-3/8 3.2 P.2 and larger tubing is needed to minimize pressure drop,the riser must be sized to achieve a velocity of at least 1000 feet per 1-5/8 3.8 2.6 minute while the horizontal runs can be sized larger to minimize 2-1/8 5.2 3.4 pressure drop. 2-5/8 6.5 4.2 NOTE: Must maintain 800 fpm minimum velocity on all '. Two 45'radius ells equals one 90^radius ell. horizontal pipe runs. LINE SIZING Liquid lines must also be sized to minimize pressure change. The total pressure change in a liquid line is the sum of the loss Every split-system unit is shipped with a factory-mounted sweat due to friction and the loss(or gain)due to static head in the fitting. vertical line.Liquid pressure loss reduces the amount of liquid For split systems,interconnecting refrigerant lines should be sub-cooling at a rate of 1 degree for every 3 psi for R-22 and 5 sized to match the factory supplied fittings unless the psi for R-410A.Sufficient sub-cooling must be maintained at the application dictates different line sizes due to pressure drop, expansion valve to provide proper operation.If the liquid refrigerant velocity constraints and/or line set lengths. pressure drop is high enough to deplete all of the liquid sub cooling in the system,liquid will begin to flash reducing the For cooling systems where the indoor and outdoor sections are refrigerant flow through the indoor coil expansion valve. installed at the same elevation,refrigerant line sizes can usually However,as soon as flashing begins,the rate of pressure loss be matched with the factory supplied fittings.There are increases and continues to increase as the amount of gas exceptions for total line lengths exceeding 75 feet where increases.Careful consideration must be given to liquid line pressure drop limitations are exceeded.Refer to Long Line Set sizing to minimize pressure drop and system charge.Liquid section. lines should be sized as small as possible without exceeding the recommended maximum pressure drop.The maximum In some applications,especially where elevation differences recommended liquid line velocity is 400 fpm.Velocities exist between the indoor and outdoor sections,suction and exceeding 400 fpm can result in higher than acceptable noise liquid line sizes can be increased(or decreased)to minimize levels. pressure loss(or gain)and improve oil return to the compressor.When sizing refrigerant lines for split system ADDITIONAL REFRIGERANT cooling units,the following factors must be considered: 1. Suction line pressure loss due to friction. In many applications,additional refrigerant will have to be added to the system.The actual amount of charge that must be 2. Suction line velocity for oil return. added is determined by adding the following: 3. Liquid line pressure loss due to friction. 1. The indoor coil charge adjustment from the Installation 4. Liquid linepressure loss(or gain)due to static head. Manual. 4 The effect that each of these factors have on a cooling system 2. The additional charge required for the interconnecting depends on the orientation of the indoor and outdoor sections; piping and the size of the vapor and liquid lines. e.g.,indoor unit above the outdoor unit.Before we discuss the Example:For a system using a 3/8 liquid line and a 3/4 suction various orientations,it is important to understand a few things line with a total measured length of 50 feet, about suction and liquid lines, Liquid line 50-15 feet x 0.06 oz./foot = 21.7oz. First,lets consider suction lines.Suction pressure loss reduces Suction line 50-15 feet x 0.06 oz.foot = 2.1 oz. system capacity by 1%for R-22 and 0.6%for R-410A per psi. S This can be a serious problem if suction lines are not sized Charge add for interoan letting tubing = 23.3 oz. properly and pressure loss is 8 or 9 psi.Therefore,in order to NOTE: On residential equipment 15 feet of line is included on minimize capacity loss and maximize efficiency,suction nameplate charge. Johnson Controls Unitary Products 3 Information Is subject to change without notice.Check local codes. Printed 12/20/2021 Page:20 247077-UAD-H-0209 TABLE 2: LINE CHARGE item on all heat pumps to avoid liquid flood back to the compressor when switching from heat to cooling,reversal R-22 LINE CHARGE" before and after defrost and during low ambient heating SUCTION OZ./FT. LIQUID OZ./FT. operation.If applied incorrectly suction line accumulators can 1/2 0.02 114 0.23 log oil or not provide the necessary liquid protection especially 5/8 0.04 5/16 0.40 when under sized. 3/4 0.06 3/8 0.62 7/8 0.08 1/2 1.12 The compressor suction line size should never be used as a 1-1/8 0.14 5/8 1.81 guideline for sizing the suction line accumulator.Matching the 1-3/8 0.21 7/8 3.78 accumulator piping size to the suction line size can often times result in an undersized accumulator.Normally the accumulator 1-5/8 0.30 7/8 3.78 Is sized for not less than 50%of the total system capacity. 2-1/8 0.53 1-1/8 6.46 2-5/8 0.81 1-1/8 6.46 Careful consideration must be given when attempting to apply an accumulator to a split-system.On any given unit R-410A LINE CHARGE approximately 80%of the system charge can be found between SUCTION Dz.-Fr. LIQUID OZ/FT. the compressor and the expansion device during operation. 1/2 0.04 1/4 0.19 When the system shuts down the refrigerant is trapped 5/8 0.06 5/16 0.33 between the compressor check valve and the non-bleed 3/4 0.09 3/6 0.51 expansion device used on all York split-systems.During long periods of shut down the refrigerant will migrate to the low side 7/8 0.12 1/2 1.01 of the system possibly accumulating in the evaporator coil and 1-1/8 0.20 5/8 1.64 horizontal suction lines. 1-3/8 0.31 3/4 2.46 1-5/8 0.43 7/8 3.27 If it has been determined that an accumulator must be installed 2-1/8 0.76 1-1/8 5.58 in the system proper positioning with respect to the compressor 2-5/8 1.17 suction line level is shown in Figure 3.It may become necessary in many cases to elevate the outdoor unit to Charges are based upon 40°F suction temperature and accommodate proper piping and drainage back to the 105`F liquid temperature accumulator during the off cycle.Multiple accumulators whether piped in series or parallel are not recommended. REFRIGERANT OIL MANAGEMENT N an accumulator has been installed into a system and the Inherent to all refrigeration systems is the presence of compressor experiences a bum out the accumulator must refrigerant oil required for proper and continuous lubrication of replaced.The debris from the burn out will clog the the compressor(s)bearings.All refrigeration systems,whether the in the accumulator resulting in oil return starvation they are packaged or split-systems circulate oil throughout the to the replacement compressor. system due to the miscibility of refrigerant oil.Split-systems, due to their propensity for long ping lengths,can circulate more refrigerant oil than packaged units,which can become a problem if not recognized and managed.It is not unusual for a given system to circulate as much as 15%of the original Drainage in Off cycle compressor oil charge.Yet another side-effect of long piping _00. runs on split-systems is the aspect of system oil logging which can occur even in the best of installations.Even the best piping practices can inadvertently create oil traps in the system Liquid Level especially when elevation differences between the indoor and outdoor units occur.Refer to the section on Long Line Set Applications for determining if refrigerant oil should be added to the system. ACCUMULATOR USE AND MISUSE Ordinarily,suction line accumulators are not necessary on AC units if the system is piped correctly and all of the precautionary Scroll Accumulator guidelines are followed.Refrigerant suction line accumulators Compressor should only be installed on systems where liquid flood back to FIGURE 3: Accumulator Field Piping the compressor(s)Is highly likely.Accumulators are a standard 4 Johnson Controls Unitary Products Information is subject to change without notice.Check local codes. Printed 12/20/2021 Page:21 247077-UAD-H-0209 RECOMMENDED ORIFICE SIZE LONG LINE SET APPLICATIONS ORIFICE SIZING This section is intended for long line applications that exceed 75'.When sizing line sets under 75',always use factory Use the York®Comfort Cooling Piping software to determine supplied connections. If your application is outside of the liquid line pressure drop to select proper orifice sizing. selection charts,your application must be approved through the Application Engineering group. TABLE 3: RECOMMENDED ORIFICE SIZE LIQUID LINE LIQUID LINE SIZING CRITERIA LIQUID LINE PRESSURE PRESSURE GAINS(PSI) LOSSES(PSI) The following considerations have already been accounted for STANDARD when relating to the selection charts. 51 41 31 21 11 11 21 FIThru Thru Thru Thru Thru ORE E Thru Thru • R-22 Maximum Pressure Drop is 35 psig 60 50 40 30 20 20 30 • R-410A Maximum Pressure Drop is 60 psig CORRECTED CORRECT ORIFICE • Increased charge levels ORIFICE SIZE SIZE 39 41 43 45 • Maximum recommended velocity of 400 fpm 39 41 43 45 47 • Minimum velocity of 100 fpm 41 43 45 47 49 51 53 55 Liquid Line Selection Chart:The charts below show the line 43 45 47 49 51 53 55 57 sizes that can be selected for each tonnage of unit and the 45 47 49 51 53 55 57 59 maximum equivalent length and maximum rise of the line. The 47 49 51 53 55 57 59 61 maximum actual line length is 200 feet.Equivalent line 49 51 53 55 57 59 61 63 lengths would include elbows and other components that 51 53 55 57 59 61 63 65- would increase the equivalent length. 53 55 57 59 61 63 65 67 55 57 59 61 63 65 67 69 TABLE 4: R22 LIQUID LINE,MAXIMUM RISE CHART 57 59 61 63 65 67 69 71 Line Maximum Total Equivalent Length Velocity 59 61 63 65 67 69 71 73 Tons Size 75 100 125 150 175 200 225 250 FPM 61 63 65 67 69 71 73 75 5/16 60 55 50 50 45 40 35 30 186 63 65 67 69 71 73 75 78 1.5 3/8 65 65 65 60 60 60 55 55 115 65 67 69 71 73 75 78 81 5/16 50 45 35 30 25 20 15 5 248 69 71 73 75 75 78 81 84 2'0 3/8 60 60 60 55 55 50 45 45 154 71 73 75 78 78 81 64 87 3/8 60 55 55 50 45 40 35 35 192 75 75 78 81 81 84 87 90 2.5 1/2 65 65 65 65 65 60 60 60 103 78 78 81 84 84 87 90 93 3/8 55 50 45 40 35 30 25 20 231 81 81 84 _ 87 87 90 93 96 3.0 1/2 65 65 65 65 60 60 60 55 124 84 84 87 90 90 93 96 99 3/8 50 45 35 30 25 20 10 5 269 87 87 90 93 93 96 99 102 3'5 1/2 65 65 60 60 60 55 55 55 145 90 90 93 96 96 99 102 105 3/8 45 35 30 20 15 10 - - 308 93 93 96 99 99 102 105 105 4'0 1/2 65 60 60 60 55 55 50 50 165 3/8 30 20 10 385 5.0 1/2 60 60 55 50 50 45 45 40 207 1/2 50 45 40 35 30 25 15 10 310 7.5 5/8 65 60 60 60 55 55 55 50 193 5/8 60 55 55 50 50 45 40 40 257 10 3/4 65 65 65 60 60 60 55 55 175 12.5 5/8 55 50 45 40 35 30 25 25 322 3/4 65 60 60 55 55 55 50 50 219 15 3/4 60 60 55 55 50 50 45 45 263 7/8 65 65 65 60 60 60 60 55 186 20 3/4 55 50 45 45' 40 35 30 25 351 7/8 65 60 i 55 55 55 50 50 248 25 7/8 60 55 -" 50 50 45 40 40 310 1-1/8 65 I, 65 65 65 60 60 60 182 Shaded area indicates system needs oil added Meter to Oil Addition section on page 7). Johnson Controls Unitary Products 5 Information is subject to change without notice.Check local codes. Printed 12/20/2021 f Page:22 247077-UAD-H-0209 TABLE 5: R-410A LIQUID LINE,MAXIMUM RISE CHART SUCTION LINE SIZING CRITERIA Line MaxlmumTotal Equivalent Length Velocity The following considerations have already been accounted for Tons Size 75 100 125 150 175 200 225 250 FPM when relating to the selection charts. 1 5 5/16 75 90 85 85 80 75 75 70 223 • Minimum velocity of 1000 fpm for vertical lines and 800 3!8 75 100 95 95 95 95 90 90 138 fpm for horizontal lines guarantee proper oil return 2 0 5/16 75 80 75 70 65 60 55 50 297 • Minimal pressure drop to minimize capacity loss 3/8 75 95 90 90 85 85 85 80 184 3/8 75 90 85 85 B0 80 75 70 230 Suction Line Selection Chart:The charts below show the line 2'5 1/2 75 100 100 100 100 95 95 95 123 sizes that can be selected for each tonnage of unit and the 3/8 75 85 85 80 75 70 65 60 276 percent of capacity reduction the system will have because of 3.0 1/2 75 100 100 95 95 95 90 90 148 the long line set application. The maximum actual line length 3/8 75 80 75 70 65 60 55 50 322 is 200 feet,equivalent line lengths would include elbows 3.5 1!2 75 95 95 95 95 90 90 90 173 and other components that would increase the equivalent 3/8 -75 75 70 60 55 45 40 35 368 length. 4.0 1/2 75 95 95 95 90 90 90 85 198 TABLE 6: R22 SUCTION LINE,CAPACITY REDUCTION 3/8 70 60 50 40 30 20 10 0 "460 CHART(%) 5.0 1/2 75 95 90 90 85 85 80 80 247 1/2 75 80 80 75 70 65 60 55 370 Tons Line Total Equivalent Length Velocity 7.5 5/8 75 95 95 95 90 90 90 85 231 Size 75 100 125 150 175 200 225 250 FPM 5/8 75 90 90 85 85 80 80 75 307 15 5/8 5 7 9 12 - - - - 1682 10 3/4 4 5 6 7 9 11 12 13 1147 3/4 75 100 95 95 95 95 90 90 210 5/8 75 85 85 80 75 70 65 65 384 314 3 4 8 8 9 11 - - 1529 12.5 3/4 75 95 95 90 90 90 90 85 262 2 0 7/8 3 4 5 8 7 8 9 10 1081 3/4 75 95 90 90 85 85 85 80 315 3/4 3 5 7 1911 15 7/8 75 100 95 95 95 95 95 90 222 2 5 7/8 2 3 4 5 7 8 9 10 1351 3/4 75 85 85 80 75 70 70 65 419 3/4 5 7 8 2294 20 7/8 75 95 95 90 90 90 85 85 296 3 0 7/8 2 3 5 6 8 9 10 11 1621 7/8 75 95 90 90 85 85 80 75 371 7/8 2 4 6 7 - - - - 1892 25 1-1/8 75 100 100 100 95 95 95 95 217 35 1-1l6 2 3 4 4 5 5 6 7 1109 7/8 3 5 7 2162 "Note: Exceeds recommended maximum velocity of 400 fpm, 4.0 1-1/8 2 2 3 4 4 5 6 7 1268 consider noise when selecting this pipe size. 7/8 5 2703 5.0 1-1/8 1 2 3 4 5 6 6 7 1585 Example:3 Ton cooling unit with 175'of equivalent length, 1-318 1 2 3 3 4 4 5 6 1046 condensing unit is below the evaporator with 80'of vertical rise 1-3/8 1 2 2 2 3 4 5 5 1561 to the evaporator. 7.5 1-5/8 1 2 2 2 3 3 4 4 1103 Answer:You should have selected 1/2".Why did you select 1-3/8 1 1 2 3 4 5 6 - 2082 this size?Because at 175'equivalent length with a 3 ton 10 1-5/8 1 1 2 2 2 3 3 3 1471 system,the maximum rise is 75'for 3/8"and 95'for 1/2". 1-5/8 1 1 1 2 2 3 3 4 1839 12.5 2-1/8 1 1 1 1 2 2 3 3 1057 Multi Stage Refrigeration Systems:When sizing the liquid line for a system with either a 2 stage scroll compressor 15 1.518 1 1 2 3 3 4 4 5 2207 (residential)or when a single refrigeration system utilizes 2-1/8 1 1 1 2 2 2 2 3 1268 compressor staging for capacity reduction(commercial). 20 2-1/8 1 1 1 1 2 2 2 2 1691 ALWAYS calculate the liquid line size with the maximum 2-5.6 1 1 1 1 1 2 2 2 1096 tonnage rating of the unit. 25 2-1/8 1 1 1 1 1 2 2 3 2114 2-5/8 1 1 1 1 1 2 2 2 1370 Note:(-)Indicates unacceptable pressure drop in suction line 6 Johnson Controls Unitary Products Information is subject to change without notice.Check local codes. Printed 12/20/2021 Page:23 247077-UAD-H-0209 TABLE 7: R-410A SUCTION LINE,CAPACITY REDUCTION LONG LINE SET ACCESSORIES CHART(%) All long line set applications must have the following Tons Line Total Equivalent Length Velocity accessories installed if they are not already installed from the Size 75 100 125 150 175 200 225 250 FPM factory. 15 5/8 3 4 5 7 8 10 12 13 1185 3/4 3 4 5 6 8 10 11 12 sow • Crankcase Heater-A crankcase heater will warm the compressor sump and prevent the refrigerant from 2.0 yq2 4 6 7 - - - - 1582 3 4 4 5 6 7 8 10 1078 migrating to the compressor in the off cycle. 3/4 2 3 4 5 6 7 8 10 1346 • Non Bleed TXV's on all ID Coils-Prevents refrigerant 2.5 7/8 2 3 4 5 6 6 7 8 852^ from bleeding into the low side of the system through the 3/4 2 2 4 5 6 8 - - 1616 3.0 evaporator in the off cycle. 7/B 2 3 3 4 5 5 6 7 1143 • Hard Start Kit-A hard start kit is necessary to increase the compressor starting torque anytime a TXV is used in a 3.5 7//8 2 2 3 3 a 5 6 7 13337 system.This is necessary to overcome the pressure difference across the compressor. a 0 3r4 2 4 5 2155 • Cooling Only Units-Require liquid line check valve 7/8 1 2 2 3 5 6 7 8 1523 placed in the liquid line near the condensing unit.This is 5.0 1 1 2 2 3 3 4 4 5 1117� used to lock the refrigerant in the liquid line between the TXV and the condensing unit to reduce off cycle 75 1-1/8 1 1 2 2 3 4 5 5 1676 migration. 1-3/8 1 1 2 2 3 3 3 4 1100 • Heat Pumps with Orifice In OD Coll-Require check 10 1-3/8 1 1 1 2 2 2 3 3 1467 valve and solenoid valve placed in liquid line to prevent 1-5/8 1 1 1 2 2 2 3 3 1036 off cycle migration,refer to Figure 4 for proper placement. 12 5 1-3/8 t t 1 1 2 2 3 4 1834 • Heat Pumps with TXV's on both Coils-Do not require 1-5/8 1 1 1 1 2 2 2 3 1295 additional check valves and solenoid valves. 15 1-3/8 1 1 1 2 3 4 5 - 2200 • Pump Out Accessory-This is required on commercial 1-5/8 t i 1 1 1 2 2 2 1554 applications where available. 20 1-5/8 1 1 1 1 1 2 3 3 2073 2-1/8 1 1 1 1 1 1 2 2 1191 OIL ADDITION 25 1-5/8 1 - 1 1 2 3 4 - - 2591 2-1,8 1 1 1 1 1 1 1 2 1489 If the line set you selected is in the shaded area of Table 4, (R22 Liquid Line,Maximum Rise Chart)oil needs to be added 'Velocity is below 1000 fpm,should only be used on horizontal to the compressors.The formula below determines the amount line. of oil to add to the compressors. Multi Stage Refrigeration Systems:When sizing the suction (TSC x.03 x 16)-(SOC x.1)=AOR line for a system with either a 2 stage scroll compressor • TSC=Total System Charge in pounds (residential)or when a single refrigeration system utilizes compressor staging for capacity reduction(commercial). • SOC=System Oil Charge in ounces ALWAYS select the largest available pipe size from the • AOR=Additional Oil Required in ounces minimum tonnage of capacity reduction. ROTARY COMPRESSOR Example:10 ton R-22 2 pipe system that reduces capacity to 5 tons.Select 1-3/8'suction line,this is the largest available If you are selecting a unit with a rotary compressor,the suction line size for a 5 ton suction line. maximum actual line set is 100 ft. Note: 2 stage scroll compressors operate at 67%of full load capacity. [A CAUTION Any application that falls outside standard limits should be referred to Unitary Products application Engineering @ 1-877-UPG-SERV, Johnson Controls Unitary Products 7 Information is subject to change without notice.Check local codes. Printed 12/20/2021 • Page:24 • TABLE 8: CRANKCASE HEATERS FOR SPLIT UNITS Model Part 0 Voltage Watts MDL Max. Circum Clrcum AHU S1-02541100000 240 70 19.625 27.125 Dantoss Scrolls S1-02541101000 460 70 19.625 27.125 (All) S1-02541102000 575 70 19.625 27.125 Copeland Scrolls S1-02531959000 240 80 22 26 (Residential) 91-02531960000 460 80 22 26 S1-02531958000 575 80 22 28 Copeland Scrolls S1-02533474240 240 90 28.75 35.75 (Commercial) Bristol H23A S1-02533474460 460 90 28.75 35.75 S1-02533474575 575 90 28.75 35.75 S1-02537399240 240 7D 21.81 29 Check 4.. Bristol Recips S1•02537399480 460 7D 21.81 29 Valve I (Remainder) S1-02537399575 575 70 21.81 29 Solenoid Valve TABLE 9: HP SOLENOID VALVE Model Part# Voltage 3/8"Liquid Line Solenoid Valve I Si-02541203000 24V TABLE 10:MAGNETIC CHECK VALVES • Liquid Line Pipe Diameter Part 8 Heat Pump 3/8" S1-02222498000 1/2" S1-02211519000 5/8" S1-02209099000 3/4" S1-02211520000 FIGURE 4: Heat Pump Solenoid/Check Valve Installation 7/8" S7 022t14t11000 1-1/8" S1-02211521000 Arrangement A CAUTION Any application that falls outside standard limits should be referred to Unitary Products application Engineering 1-877-UPG-SERV. Subject to change without notice.Printed in U.S.A. 247077-UAD-H-0209 Copyright 10 2009 by Johnson Controls,Inc.AU rights reserved. Supersedes:2470774UA0•G1008 Johnson Controls Unitary Products 5005 York Drive Norman,OK 73069 Information is subject to change without notice.Check local codes. Printed 12/20/2021 RECEIVED JAN 16 2022 NORTHPOINT PT' t C TIGARD, OR STRUCTURAL CALCULATIONS DESIGN CRITERIA: DC1 CU AT CONCRETE ANCHORAGE DESIGN: CA1-CA8 SUSPENDED FCU DESIGN: SFI-SF3 (13 PAGES TOTAL INCLUDING COVER SHEET) January 18, 2022 PROJECT NUMBER: 210327.02 Q ARCHITECTURE MI �� PROF y ' L ENGINEERING PLANNING e _, GI N44fsJ,O INTERIORS o- 4 •ILO �� i� LANDSCAPE id ,' 15895 SW 72ND AVE l �r I N SUITE 200 <Cfi �,• .,•O' ' PoRTLAND,OR 97224 11 JP,Ws' PHONE:503.226.1285 FAX:503.226.1670 EXPIRES: 06/30/23 INFO@CIDMMNC.COM W W W.CIDAINC.COM L\TC Hazards by Location DC I Search Information Address: 7185 SW Sandburg St, Tigard, OR 97223, USA Vancouver xe 236 ft Coordinates: 45.4218969, -122.7515848 :eldi o Filand Hillsboro `' Gresham Elevation: 236 ft Beave On 57 Timestamp: 2021-09-22T19:02:24.128Z Mt' Nation. Hazard Type: Seismic Reference ASCE7-16 Google Map data©2021 Google Document: Risk Category: II WIND DESIGN LOADS: Site Class: D V = 96mph EXPOSURE C Basic Parameters Name Value Description SS 0.861 MCER ground motion(period=0.2s) Si 0.393 MCER ground motion (period=1.Os) SMS 0.995 Site-modified spectral acceleration value SM1 *null Site-modified spectral acceleration value SDS 0.663 Numeric seismic design value at 0.2s SA SD1 *null Numeric seismic design value at 1.0s SA * See Section 11.4.8 vAdditional Information Name Value Description SDC *null Seismic design category Fa 1.156 Site amplification factor at 0.2s F., *null Site amplification factor at 1.0s CRs 0.887 Coefficient of risk(0.2s) CRt 0.867 Coefficient of risk(1.0s) PGA 0.391 MCEG peak ground acceleration FPGA 1.209 Site amplification factor at PGA PGAM 0.473 Site modified peak ground acceleration CA I CIDA NORTHPOINT TI HVAC LAJ TEL: (503)226-1285 1/18/2022 FAX: (503)226 1670 MECHANICAL UNIT ATTACHMENT-LATERAL FORCES: HP ATCONC. PAD WP:= 1451b Weight of unit L:= 25.75in Length of unit wm:= 25.75in Width of unit wa:= 24in Width of anchorage hm:= 35.5•in Height of unit SEISMIC PARTS AND PORTIONS -TIGRAD, OR Mapped Ss:= 0.861 site lass=D h:= 30ft z:= h Adjusted Maximum Sms:= 0.995 Ip:= 1.0 Design SDs:= 0.663 a := 2.5 RP:= 6.0 Values for non isolated HVAC per table 13.6-1 ASCE 7-16 0.4.aP.SDs'IP r z Fpunit= R 1 + 2• h WP FPuaic=48.071b WIND LOAD: BASED ON 2018 IBC /2019 OSSC V3s:= 96 Exposure C Kd:= 0.85 Kh:= 0.94 Kzt:= 1.0 GCr:= 1.9 GC, vert:= 1.5 qz:= 0.00256•Kh•KzfKd•V3s2•psf F:= GC,qz F=35.82 psf Pwind unit F.L.hm Pwindunit=227.37 lb WIND LOAD: BASED ON 2018 IBC /ASCE7-16-VERTICAL Fvert:= 9z GCr vert Fvert= 28.28 psf Pwind unit vert Fver I-'Wm "wind unit vert= 130.2 lb Pvert_unit_LRFD:= 0.9Wp— '.° wind_unit_vert Pvert_unit_LRFD=0.3 lb >0,NO NET UPLIFT E:\adcadd121100000-2021 Mechanical Projects10327.00 Northpoint TI10327.02 Northpoint TI HVAC(Change Order) 1Structura1101 -Lateral-HP on Concrete CA 2 CIDA NORTHPOINT TI HVAC LAJ TEL: (503)226-1285 1/18/2022 FAX: (503)226 1670 OVERTURNING-UNIT TO UNISTRUT nCONC 2.0 LC#7 0.9D+1.0W LC#8 0.9D+1.0"c E WIND-Overturninq at unit to Unistrut SEISMIC-Overturning at unit to Unistrut ha, I ha Mot_windunit:- Fwind_unif 2 Mot_seismic_unir= FPunit' 2 Mot wind unit= 336.3 lb ft Mot seismic unit=71.1 lb ft (1.0Mot_wind_unit) Pvert_unit_LRFD (1.0'Mot_seismic_unit) (0.9— 0.2•SDS)'Wp Fup_wind_unit:= — Fup_seismic_unit w — 2 a 2 w a Fup_windunit= 168.01 lb Fup_seismic_unit=—20.09 lb 1.0•"wind unit=227.37 lb 1.0.S2 CONC Fpunit= 96.14 lb WIND GOVERNS UNIT TO UNISTRUT ATTACHMENT Design attachment for 228 lb sliding and 167 lb tension at unit to Unistrut connection 1.0''wind_unit=227.37 lb Fup_wind_unit= 168.01 lb nanchor`= 4 (1.0•Pwind_unit) VANCHOR VANCHOR= 56.841b nanchor Fup_wind unit TANCHOR TANCIIOR= 841b nanchnr 2 USE(1)1/4"x3"STAINLESS STEEL SIMPSON TITEN HD ANCHOR EA.CORNER--MIN.(4)TOTAL E:1adcadd\21\00000-2021 Mechanical Projects\0327.00 Northpoint TI\0327.02 Northpoint TI HVAC(Change Order) \Structura1101 -Lateral-HP on Concrete CA3 SIMPSON Anchor Designer-TM' Company: CIDA, Inc. Date: 9/30/2020 Software Strong-Tie Project: LAJ Page: 1/6 Project: Version 3.0.7845.0 Address: 15895 SW 72nd Dr,STE 200 Phone: 503-226-1285 E-mail: lukej@cidainc.com 1.Project information Customer company: Project description: Customer contact name: Location: Customer e-mail: Fastening description: Comment: 2.Inout Data&Anchor Parameters General Base Material Design method:ACI 318-14 Concrete:All-lightweight Units:Imperial units Concrete thickness,h(inch):3.50 State:Cracked Anchor Information: Compressive strength,fc(psi):2500 Anchor type:Concrete screw Wc,v: 1.0 Material:Stainless Steel Reinforcement condition:B tension,B shear Diameter(inch):0.250 Supplemental reinforcement:Not applicable Nominal Embedment depth(inch):2.125 Reinforcement provided at corners:No Effective Embedment depth,her(inch): 1.270 Ignore concrete breakout in tension:No Code report: IAPMO UES ER-493 Ignore concrete breakout in shear:No Anchor category:3 Ignore 6do requirement:Not applicable Anchor ductility:Yes Build-up grout pad:No hmm(inch):3.50 (inch):3.00 Cmm(inch): 1.50 Sm..(inch): 1.50 Recommended Anchor Anchor Name:Titen HD®Stainless Steel-1/4"0 SS Titen HD,hnom:2.125'(54mm) Code Report: IAPMO UES ER-493 Input data and results must he checked for agreement with the existing circumstances,the standards and guidelines must be checked for plausibility. Simpson Strong-Tie Company Inc. 5956 W.Las Positas Boulevard Pleasanton,CA 94588 Phone:925.560.9000 Fax:925.847.3871 www.strongtie.com CA SIMPSON Anchor Designer TM Company: CIDA, Inc. Date: 9/30/2020 Engineer: LAJ Page: 2/6 Strong-Tie Software Project: Version 3.0.7845.0 Address: 15895 SW 72nd Dr,STE 200 Phone: 503-226-1285 E-mail: lukej@cidainc.com Load and Geometry Load factor source:ACI 318 Section 5.3 Load combination:not set Seismic design:Yes Anchors subjected to sustained tension:Not applicable Ductility section for tension: 17.2.3.4.2 not applicable Ductility section for shear:17.2.3.5.2 not applicable On factor:not set Apply entire shear load at front row:No Anchors only resisting wind and/or seismic loads:Yes Strength level loads: Nu.[Ib]:84 Vua„[Ib]:57 V.Y[Ib]:0 <Figure 1> Z gesk. o� X 57 lb Input data and results must be checked for agreement with the existing circumstances,the standards and guidelines must be checked for plausibility. Simpson Strong-Tie Company Inc. 5956 W.Las Positas Boulevard Pleasanton,CA 94588 Phone:925.560.9000 Fax:925.847.3871 www.strongtie.com CA 5 SIMPSON Anchor Designer TM Company: CIDA, Inc. Date: 9/30/2020 Engineer: LAJ Page: 3/6 Software Project: Strong-Tie Version 3.0.7845.0 Address: 15895 SW 72nd Dr,STE 200 Phone: 503-226-1285 E-mail: lukej@cidainc.com <Flgure 2> 8 • Q oo , 3 . 00 Input data and results must be checked for agreement with the existing circumstances,the standards and guidelines must be checked for plausibility. Simpson Strong-Tie Company Inc. 5956 W.Las Positas Boulevard Pleasanton,CA 94588 Phone:925.560.9000 Fax:925.847.3871 www.strongtie.com CA 6 SIMPSON Anchor Designer TM Company: CIDA,Inc. Date: 9/30/2020 Engineer: LAJ Page: 4/6 Strong-Tie Project: Strong Project: Version 3.0.7845.0 Address: 15895 SW 72nd Dr,STE 200 Phone: 503-226-1285 E-mail: lukej@cidainc.com 3.Resulting Anchor Forces Anchor Tension load, Shear load x, Shear load y, Shear load combined, Nye(Ib) Vua,(Ib) Vuay(Ib) J(VUe%)2+(Vuay]=(Ib) 1 84.0 57.0 0.0 57.0 Sum 84.0 57.0 0.0 57.0 Maximum concrete compression strain(%o):0.00 Maximum concrete compression stress(psi):0 Resultant tension force(Ib):84 Resultant compression force(Ib):0 Eccentricity of resultant tension forces in x-axis,e'N.(inch):0.00 Eccentricity of resultant tension forces in y-axis,e'Ny(inch):0.00 Eccentricity of resultant shear forces in x-axis,e'v,,(inch):0.00 Eccentricity of resultant shear forces in y-axis,e'vy(inch):0.00 4.Steel Strength of Anchor in Tension (Sec.17.4.11 Nse(Ib) 0Nsa(Ib) 4730 0.75 3548 5.Concrete Breakout Strength of Anchor in Tension(Sec.17.4.21 Nb=kcAriSifcheff (Eq. 17.4.2.2a) kc As fc(psi) her(in) Nb(Ib) 17.0 0.60 2500 1.270 730 0.750Ncb=0.750(Ark/ANco)%4NPc,NY'cp,NNb(Sec. 17.3.1 &Eq.17.4.2.1a) AN,(in2) ANcn(in2 ca,mm(in) Ped,N 'Yc.N 'cp,N Nb(Ib) 0.75¢Ncs(lb) 14.52 14.52 3.00 1.000 1.00 1.000 730 0.45 246 6.Pullout Strength of Anchor In Tension(Sec.17.4.31 0.750Np,,=0.7509'PA,Np(fb/2,500) (Sec. 17.3.1,Eq.17.4.3.1 &Code Report) Vjc,P Ae Np(Ib) f'c(psi) n 0.750Np,,(Ib) 1.0 0.60 695 2500 0.50 0.45 141 Input data and results must be checked for agreement with the existing circumstances,the standards and guidelines must be checked for plausibility. Simpson Strong-Tie Company Inc. 5956 W.Las Positas Boulevard Pleasanton,CA 94588 Phone:925.560.9000 Fax;925.847.3871 www.strongtie.com CA 7 SIMPSON Anchor Designer TM Company: CIDA, Inc. Date: 9/30/2020 Engineer: LAJ Page: 5/6 Strong-Tie Project: Project: Version 3.0.7845.0 Address: 15895 SW 72nd Dr,STE 200 e Phone: 503-226-1285 E-mail: lukej@cidainc.com 8.Steel Strength of Anchor in Shear(Sec.17.5.11 V.(Ib) o9'ou; 0 QyrourOVss(Ib) 1370 1.0 0.65 891 9.Concrete Breakout Strength of Anchor In Shear(Sec.17.5.21 Shear perpendicular to edge in x-direction: Vbx=min17(/a/d0°.2JdaAaJf'ccar15;9AaJfccarlSj(Eq. 17.5.2.2a&Eq. 17.5.2.2b) la(in) da(in) Aa f'a(psi) car(in) Vbx(Ib) 1.27 0.250 0.60 2500 3.00 755 0Vcax=0(Avc/Avoo)9'ad,v To/'Pn,vVex(Sec. 17.3.1 &Eq. 17.5.2.1a) Avo(in2) Avco(in2) Y'ad,v `/'cv 'Pn.v Vbx(Ib) 0 0Veox(Ib) 26.25 40.50 0.900 1.000 1.134 755 0.70 350 Shear parallel to edge in y-direction: Vox=minj7(le/de)°'24deAeJfcoetr 5;9AaJfceeir'51(Eq. 17.5.2.2a&Eq.17.5.2.2b) I,,,(in) da(in) As f' (psi) car(in) Vex(Ib) 1.27 0.250 0.60 2500 3.00 755 lV cny=0(2)(Avo/A vco)Y'ed,v 9c.v PnvVox(Sec. 17.3.1,17.5.2.1(c)&Eq. 17.5.2.1 a) Avc(in2) Avco(in2) N'sav To" y'h,v Vox(Ib) 0 tVchy(Ib) 26.25 40.50 1.000 1.000 1.134 755 0.70 777 10.Concrete Prvout Strenath of Anchor in Shear(Sec.17.5.31 swop=OkwNre=Okcp(ANc/AN.)'Yad,NTc,N97c04/0,(Sec. 17.3.1 &Eq. 17.5.3.1a) kw ANc(in2) ANw(in2) 9ad,N 'Yc,N y'w,N Alb(Ib) d 0Vw(Ib) 1.0 14.52 14.52 1.000 1.000 1.000 730 0.70 511 11.Results Interaction of Tensile and Shear Forces(Sec.17.6.1 Tension Factored Load, NI..(Ib) Design Strength,oNe(Ib) Ratio Status Steel 84 3548 0.02 Pass Concrete breakout 84 246 0.34 Pass Pullout 84 141 0.60 Pass(Governs) Shear Factored Load,V.(Ib) Design Strength,MA(Ib) Ratio Status Steel 57 891 0.06 Pass T Concrete breakout x+ 57 350 0.16 Pass(Governs) II Concrete breakout y+ 57 777 0.07 Pass(Governs) Pryout 57 511 0.11 Pass Interaction check Nw/0Nn Vua/0V Combined Ratio Permissible Status Sec. 17.6..1 0.60 0.00 59.7% 1.0 Pass 1/4"0 SS Titan HD,hnom:2.125"(54mm)meets the selected design criteria. Input data and results must be checked for agreement with the existing circumstances,the standards and guidelines must be checked for plausibility. Simpson Strong-Tie Company Inc. 5956 W.Las Positas Boulevard Pleasanton,CA 94588 Phone:925.560.9000 Fax:925.847.3871 www.strongtie.com CA 8 SIMPSON Anchor Designer TM Company: CIDA,Inc. Date: 9/30/2020 Engineer: LAJ Page: 6/6 Strong-Tie Project: Project: Version 3.0.7845.0 Address: 15895 SW 72nd Dr,STE 200 Phone: 503-226-1285 E-mail: lukej@cidainc.com 12.Warnings -Per designer input,the tensile component of the strength-level earthquake force applied to anchors does not exceed 20 percent of the total factored anchor tensile force associated with the same load combination.Therefore the ductility requirements of ACI 318 17.2.3.4.2 for tension need not be satisfied—designer to verify. -Per designer input,the shear component of the strength-level earthquake force applied to anchors does not exceed 20 percent of the total factored anchor shear force associated with the same load combination.Therefore the ductility requirements of ACI 318 17.2.3.5.2 for shear need not be satisfied—designer to verify. -Designer must exercise own judgement to determine if this design is suitable. -Refer to manufacturer's product literature for hole cleaning and installation instructions. Input data and results must be checked for agreement with the existing circumstances,the standards and guidelines must be checked for plausibility. Simpson Strong-Tie Company Inc. 5956 W.Las Positas Boulevard Pleasanton,CA 94588 Phone:925.560.9000 Fax:925.847.3871 www.strongtie.com SF I CIDA NORTHPOINT TI HVAC LAJ TEL: (503)226-1285 1/18/2022 FAX: (503)226 1670 MECHANICAL UNIT ATTACHMENT-LATERAL FORCES - FCU Wp:= 1501b Weight of unit+hanging accessories L:= 49.625in Length Wm:= 17.625in Width of unit hm:= 22.06625•irHeight of unit SEISMIC PARTS AND PORTIONS -TIGRAD, OR Mapped Ss:= 0.861 site class=D h:= 30ft z:= h Adjusted Maximum Sms:= 0.995 Ip:= 1.0 Design SpS:= 0.663 ap:= 2.5 Rp:= 6.0 Values for non isolated HVAC per table 13.6-1 ASCE 7-16 0.4a •S l Fp:= p DS p• 1 + 2•z i.Wp Fp=49.73 lb 0.7•Fp = 34.81 lb Total seismic RP h/ Fpmin:= 0.3•SDS•Ip Wp Fpmin=29.83 lb 0.7•Fpmin=20.88 lb Total seismic — Fp GOVERN unit max(Fp,Fpmio) FpGovERN_unit=49.73 lb VERTICALATTACHPENT OF UNIT 70 UNDERSIDE OF ROOF FRAMING 0.75 Wp corner•— 2 comer= 56.25 lb Vertical load to corner support from dead bad hm 0.75Mot Mot:— Fp_GOVERN_unit z Pseis Pseis=23.35 lb Vertical load to corner support m from seismic overturning 0.2SDS•Wp PMAXASD:= Pcomer+ 0.7 4 + Pseis I PMaxASD=76.07 lb Maximum vertical load Try#10x2"Wood Screws dscrew:= 0.19in Screw diameter CD:= 1.6 LOAD DURATION FACTOR Lscrew= 21n Lthread 3'Lscrew Lthread= 1-331n '-thread 135•—lb withdrawal capacity per inch Lp:= Lscrew—(0.125in) Lp— 1.88 in Lp=screw length-(Unistrut Thickness) Tallow CD'Lp'Wthread Tallow=405 lb PMAx ASD <1.0,Fastener Adequate UVERT�= UVERT= 0.19 Tallow USE#10x2"WOOD SCREW EACH JOIST CROSSING E:\adcadd121\00000-2021 Mechanical Projects10327.00 Northpoint TI\0327.02 Northpoint TI HVAC(Change Order) \Structural\02-Lateral-Suspended SF 2 CIDA NORTHPOINT TI HVAC LAJ TEL: (503)226-1285 1/18/2022 FAX:(503)226 1670 LATERAL BRACING OF UNIT Box is braced by splay wires at45 degrees vertical and horizontal each corner(4)total. ,l Fp_GOVERNunit r 2 T = 49.73lb wire•— 2 VL V wve ASD for attachment to Roof(0.7E) TASD:= Twice 0.7 TASD=34.811b Vertasd TASD eVrtasd=24.611b Vertical component of wire force TASD Horiz aad = Horiz asd=24.611b horizontal component of wire force Try 12ga wire c2:= 1.67 Awire 0.0088in2 (Awire 33000psi) Tallow wire�_ Tallow wire= 173.89 lb 0.7.Twire Uwire•= U =0.2 <1.0 OK Use#12 wire braces Tallow wire wire- LATERAL BRACING CONNECTION TO JOISTS: Try#10x2"Wood Screws a. := 45deg C LP C = 0.99 <1.0,Screw does not have full shear capacity p 10 dscrew Vallow:= LG 1161b Co Vallow= 183.16 lb Tallow=405 lb Tallow Vallow Zallow` 2 Zauow=252.241b > 0.7-Two,= 34.811b Vallow sin(a)2+ Tallow.cost.a) Use(1)#10x2"WOOD SCREW AT EACH SPLAY WIRE—MIN.(4)TOTAL COMPRESSION CHECK OF ROD: Pconaer= 56.25 lb PCORNER_SEIS Twire'COS(45deg) + (0.2•SDS'"corner+ Pseis) PROD 0•7'PCORNER SEIS—0•6'"corner PROD= 12.43 lb >0,Compression in rod USE 3/8"ROD EACH CORNER OF UNIT—MIN.(4)LOCATIONS E:\adcadd121100000-2021 Mechanical Projects\0327.00 Northpoint TI10327.02 Northpoint TI HVAC(Change Order) 1Structura1102-Lateral-Suspended 15895 SW 72ND AVENUE,SUITE 200 PORTLAND,OREGON 97224 SF 3 TEL:503.226.1285 FAX:503.226.1670 E-MAIL:info@cidainc.com 1 PROTECT NAME J o c.7 'p. et^T /}� �" 'L PRO,.No. 2 V03Z4!o I SMEE- T,-LE: BY: .."J .__ Darr: YzooP rt„w, G1ned, - Kocf Sugpev. key p-C(&) TT /Sr 1_40 " 54. rot) 25 p a13u 1NS9T = bOpt� (looplP /16DP1r W,QT(L)1' New A-PP' to Loads '. L•)nT �h I + c 50 � PIA.W/4- IAh;+ Wd SU - q8 Qb l�e�a + 0 �© Cv�e�v�yQ_ + 3.73% < r % �c�r ToiS{y Q 4.c�,}2