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LX SERIES

DUCTLESS SINGLE-SPLIT
AIR CONDITIONERS AND HEAT PUMPS

16 SEER – 1 PHASE

3/4 THRU 2 NOMINAL TONS

MODELS: DCMF/DHMF

Due to continuous product improvement, specifications
are subject to change without notice.

Visit us on the web at 

www.upgnet.com

Additional rating information can be found at 

www.ahridirectory.org

WARRANTY SUMMARY*

Standard 2-Years limited parts warranty.
Standard 6-Years limited compressor warranty.

 

TECHNICAL
GUIDE 

TECHNICAL
GUIDE 

FOR DISTRIBUTION USE ONLY - NOT TO BE USED AT POINT OF RETAIL SALE

923178-UTG-B-0114

DESCRIPTION

The Single-Split Series are ductless climate systems. They are
designed with a matching indoor unit for optimum performance and effi-
ciency. These climate systems are supported with accessories and doc-
uments to serve specific functions.

FEATURES

Variable Frequency Rotary Compressor - 

Twin rotary inverter compressor

on all models features high efficiency operation that modulates down to 15
Hz and as high as 120 Hz for reduced vibration and quiet operation. Brush-
less DC motor uses powerful Neodymium magnets that are approximately
15-20 times stronger than ferrite magnets used in conventional AC compres-
sors. The DC Inverter Control provides continuous operation, while adjusting
capacity according to room temperature. The accurate sensing of cooling or
heating loads prevents frequent changes in capacity and ensures efficient,
economical operation.

Low Ambient Cooling Operation Down to 5 °F - 

This feature allows for a

space to be air-conditioned even in outdoor temperatures as low as 5 °F.
This cooling ability is important when dealing with server equipment rooms,
surveillance mechanical rooms, restaurant kitchens, fitness centers, and
more.

Load Variation Management System - 

The outdoor coil thermistor continu-

ously monitors the temperature and communicates with the microprocessor.
Depending on the temperature measured, the compressor will be allowed to
increase the frequency if needed to meet the load or reduce frequency as
the load is reduced.

High Pressure Discharge Temperature - 

The compressor discharge line

thermistor continuously monitors the temperature and communicates with
the microprocessor. Depending on the temperature measured, the compres-
sor will be allowed to increase the frequency to meet the load or is forced to
run at the current or reduced frequency. If the temperature gets excessively
high, the compressor will be de-energized.

Defrost Control (Heat Pump Models) - 

Defrost cycle is automatically

enabled if there is a build-up of frost on the outdoor coil. Outdoor fan and
indoor blower operation is terminated during the defrost cycle. H1 is dis-
played on the indoor unit panel on the front cover during a defrost cycle.

Reversing Valve (Heat Pump Models) - 4-way interchange reversing valve
effects a rapid change in direction of refrigerant flow resulting in quick
changeover from cooling to heating and vice versa. Valve operates on sys-
tem pressure differential between outdoor unit and indoor unit.

R-410A Refrigerant - Unit is pre-charged with R410A refrigerant that uses
PVE refrigerant oil. Polyvinyl ether (PVE) is an innovative refrigerant oil spe-
cially formulated for hydrofluorocarbon (HFC) refrigeration systems. In addi-
tion to providing lubricating properties, it also has a number of other applied
advantages that help to increase the reliability of the refrigeration systems
where it is applied.

Refrigerant Line Connections, Service Valve - 

Outdoor units are designed

with easy service and maintenance in mind. Maintenance points are located
behind easy-access panels, to make installation and service a breeze for a
trained technician. Flare connection lines are located on side of unit cabinet.
Fully serviceable brass service valve prevents corrosion and provide access
to refrigerant system. Shut-off valve that can be fully shut off while 2-way
suction/vapor valve (with service port) may be front seated to manage refrig-
erant charge while servicing system.

Air Deflection Louvers - 

Horizontal louvers default to the cooling or heating

position when the unit is operating. Horizontal louvers can be set to a preset
oscillating range or fixed position from the wireless remote control. Full oscil-
lating is the default setting when button is pushed. Vertical louvers can be
manually adjusted to direct the airflow for optimal comfort.

Indoor Coil Freeze Protection - The indoor coil thermistor monitors the coil
temperature continuously. Any time the coil temperature drops below 30°F,
the compressor and the outdoor fan (30 seconds later) will be switched off
until the coil temperature rises above 43°F and the compressor has been off
for a minimum of 3 minutes.

I FEEL Function - 

When I FEEL is activated, the system will satisfy the cool-

ing or heating temperature setpoint where the remote control is located.
When I FEEL is deactivated, the system will satisfy the cooling or heating
temperature setpoint where the indoor unit is located. This feature provides
homeowners with optimum comfort whether they are near or far from the
indoor unit.

Hot Heat Pump (cold air prevention) -

 In heating mode, the indoor fan will

be delayed from 1 to 3 minutes to allow refrigerant to warm up and avoid
cold blow. This may occur during:

• Initial start-up of a heating cycle
• Immediately after completion of an Auto mode operation
• Heating under extremely low indoor temperatures

Summary of Contents for DCMF09CSM42Q1

Page 1: ...ration is terminated during the defrost cycle H1 is dis played on the indoor unit panel on the front cover during a defrost cycle Reversing Valve Heat Pump Models 4 way interchange reversing valve effects a rapid change in direction of refrigerant flow resulting in quick changeover from cooling to heating and vice versa Valve operates on sys tem pressure differential between outdoor unit and indoo...

Page 2: ...923178 UTG B 0114 2 Johnson Controls Unitary Products ...

Page 3: ... Capacitor uF 1 2 1 2 1 5 2 5 Fan Motor RLA A 0 19 0 19 0 32 0 45 Fan Type Piece Cross flow 1 Cross flow 1 Cross flow 1 Cross flow 1 Diameter Length inch 3 6 23 4 3 6 23 4 3 9 25 6 3 9 30 1 Diameter Length mm 92 594 92 595 98 650 98 765 Evaporator Aluminum Fin copper Tube Aluminum Fin copper Tube Aluminum Fin copper Tube Aluminum Fin copper Tube Pipe Diameter inch Φ 0 276 Φ 0 276 Φ 0 276 Φ 0 276 P...

Page 4: ...0 520 Defrosting Method Automatic Defrosting Automatic Defrosting Automatic Defrosting Automatic Defrosting Climate Type T1 T1 T1 T1 Permissible Excessive Operating Pressure for the Discharge Side PSI 624 624 624 624 Permissible Excessive Operating Pressure for the Discharge Side MPa 4 3 4 3 4 3 4 3 Permissible Excessive Operating Pressure for the Suction Side PSI 363 363 363 363 Permissible Exces...

Page 5: ...150 950 750 1350 1190 1020 850 1400 1150 1000 850 1450 1250 1100 950 1400 1180 1000 850 1450 1380 1200 1150 Output of Fan Motor w 15 15 20 36 Fan Motor Capacitor uF 1 2 1 2 1 5 2 5 Fan Motor RLA A 0 19 0 19 0 32 0 45 Fan Type Piece Cross flow 1 Cross flow 1 Cross flow 1 Cross flow 1 Diameter Length inch 3 6 23 4 3 6 23 4 3 9 25 6 3 9 30 1 Diameter Length mm 92 594 92 595 98 650 98 765 Evaporator A...

Page 6: ... Fan Diameter mm 370 370 520 520 Defrosting Method Automatic Defrosting Automatic Defrosting Automatic Defrosting Automatic Defrosting Climate Type T1 T1 T1 T1 Permissible Excessive Operating Pressure for the Discharge Side PSI 624 624 624 624 Permissible Excessive Operating Pressure for the Discharge Side MPa 4 3 4 3 4 3 4 3 Permissible Excessive Operating Pressure for the Suction Side PSI 363 36...

Page 7: ...120 Condition Indoor DB 68 F Indoor air flow Super High Pipe length 24 6ft Current A Current A 09K 12K Compressor Frequency Hz Compressor Frequency Hz 18K Cooling Heating 0 1 2 3 4 5 6 7 8 9 10 0 20 40 60 80 100 120 Condition F 6 0 8 B D r o o d n I WB66 2 F Indoor air flow Super High Pipe length 24 6ft Compressor Frequency Hz 0 2 4 6 8 10 12 0 20 40 60 80 100 120 Condition Indoor DB 68 F Indoor a...

Page 8: ...10 Capacity ratio Condition Indoor air flow Super High Pipe length 24 6ft Outdoor temp F 0 20 40 60 80 100 120 5 10 15 20 25 30 35 40 45 50 Capacity ratio Condition Indoor air flow Super High Pipe length 24 6ft Outdoor temp F Indoor DB 68 F Indoor DB 80 6 F WB66 2 F 90 95 100 105 110 115 18K 24K Cooling Heating 95 100 105 110 5 10 15 20 25 30 35 40 45 50 100 105 95 90 85 80 75 70 65 60 55 50 Outdo...

Page 9: ... Super High High 71 80 66 9 95 75 18K 0 9 to 1 1 53 6 to 57 2 176 to 104 Super High High 75 80 66 9 95 75 24K 0 9 to 1 1 53 6 to 57 2 176 to 104 Super High High 89 HEATING 70 60 46 9 43 09K 2 5 to 2 7 158 to 95 35 6 to 39 2 Super High High 76 70 60 46 9 43 12K 2 5 to 2 7 158 to 95 35 6 to 39 2 Super High High 76 70 60 46 9 43 18K 2 2 to 2 4 158 to 104 33 8 to 41 0 Super High High 90 70 60 46 9 43 ...

Page 10: ...2K 27 lbs 12 kg 27 lbs 12 kg 18K 34 1 866 8 5 216 12 0 305 35 lbs 16 kg 35 lbs 16 kg 24K 39 7 1008 8 7 221 12 4 315 44 lbs 20 kg 44 lbs 20 kg B A C G D E F Outdoor Unit Dimensions Model Size A B C D E F G Unit Gross Weight Air Conditioner Heat Pump 09K 28 0 711 12 5 318 21 7 551 11 8 300 10 8 274 25 9 658 18 5 470 73 lbs 33 kg 73 lbs 33 kg 12K 77 lbs 35 kg 77 lbs 35 kg 18K 37 9 963 15 6 396 27 6 7...

Page 11: ...R COMPRESSOR GAS SIDE 3 WAY VALVE LIQUID SIDE 2 WAY VALVE COOLING Accumlator Discharge Suction Muffler Capillary Strainer 09K 12K 18K Cooling Only Models INDOOR UNIT OUTDOOR UNIT HEAT EXCHANGE EVAPORATOR HEAT EXCHANGE CONDENSER COMPRESSOR GAS SIDE 3 WAY VALVE LIQUID SIDE 2 WAY VALVE COOLING HEATING Accumlator Discharge Suction Muffler 4 Way valve Capillary Strainer Strainer 09K 12K 18K Heat Pumps ...

Page 12: ...AT EXCHANGE CONDENSER COMPRESSOR GAS SIDE 3 WAY VALVE LIQUID SIDE 2 WAY VALVE COOLING Accumlator Discharge Suction Muffler Strainer Electron expansion valve 24K Cooling Only Models INDOOR UNIT OUTDOOR UNIT HEAT EXCHANGE EVAPORATOR HEAT EXCHANGE CONDENSER COMPRESSOR GAS SIDE 3 WAY VALVE LIQUID SIDE 2 WAY VALVE COOLING HEATING Accumlator Discharge Suction Muffler 4 Way valve Electron expansion valve...

Page 13: ...ame INDOOR UNIT BU BlUE BN BROWN PROTECTIVE EARTH YE YELLOW GN GREEN RD RED BK BLACK YEGN YELLOW GREEN OUTDOOR UNIT Symbol Part Name Symbol Color Symbol Symbol Color Symbol C1 CBB61 BN BROWN WH WHITE C2 CBB65 BU BLUE YE YELLOW SAT OVERLOAD BK BLACK RD RED COMP COMPRESSOR OG ORANGE YEGN YELLOW GREEN PROTECTIVE EARTH WH WHITE 09K 12K Outdoor Air Conditioners ...

Page 14: ...923178 UTG B 0114 14 Johnson Controls Unitary Products 09K 12K Indoor Air Conditioners 18K 24K Outdoor Air Conditioners ...

Page 15: ...Johnson Controls Unitary Products 15 923178 UTG B 0114 18K 24K Indoor Air Conditioners 09K 12K Outdoor Heat Pumps ...

Page 16: ...923178 UTG B 0114 16 Johnson Controls Unitary Products 09K 12K Indoor Heat Pumps 18K 24K Outdoor Heat Pumps ...

Page 17: ... of 60 seconds and the indoor fan will run at preset speed When Tpreset 3 6 F Tamb Tpreset 1 8 F the unit will remain at its previous state In cooling mode the four way valve will be de energized and temperature can be set within a range from 61 to 86 F If the compressor stops running the indoor fan and the swing device will operate at original state 2 Protection Cooling Mode Antifreeze protection...

Page 18: ... compressor will adjust to 46Hz f After 30 seconds the compressor will stop g After another 30 seconds the four way valve will open h After 60 seconds the compressor and the outdoor unit fan will start running The indoor fan will run under preset cold air prevention conditions H1 will be displayed on the indoor unit display Defrost frequency is 70Hz 3 Protection Heating Mode Cold air prevention Ho...

Page 19: ...ssor has been idle for at least 3 minutes it will resume its operation 3 Communication Fault If the system fails to receive communication signals for more than 3 minutes its operation will stop 4 Module Protection Under module protection mode the compressor will stop If the compressor remains idle for at least 3 minutes it will resume its operation If module protection occurs six consecutive times...

Page 20: ...7 24 8 60 23 95 9 779 165 2 2 28 235 4 0 697 26 6 57 18 96 8 9 382 167 2 206 237 2 0 678 28 4 54 31 98 6 9 003 168 8 2 133 239 0 66 30 2 51 59 100 4 8 642 170 6 2 064 240 8 0 642 32 49 02 102 2 8 297 172 4 1 997 242 6 0 625 33 8 46 6 104 7 967 174 2 1 933 244 4 0 608 35 6 44 31 105 8 7 653 176 1 871 246 2 0 592 37 4 42 14 107 6 7 352 177 8 1 811 248 0 577 39 2 40 09 109 4 7 065 179 6 1 754 249 8 0...

Page 21: ...5 13 04 165 2 3 04 235 4 0 93 26 6 76 24 96 8 12 51 167 2 94 237 2 0 904 28 4 72 41 98 6 12 168 8 2 844 239 0 88 30 2 68 79 100 4 11 52 170 6 2 752 240 8 0 856 32 65 37 102 2 11 06 172 4 2 663 242 6 0 833 33 8 62 13 104 10 62 174 2 2 577 244 4 0 811 35 6 59 08 105 8 10 2 176 2 495 246 2 0 77 37 4 56 19 107 6 9 803 177 8 2 415 248 0 769 39 2 53 46 109 4 9 42 179 6 2 339 249 8 0 746 41 50 87 111 2 9...

Page 22: ...42 8 77 49 19 147 2 10 54 217 4 3 04 8 6 323 9 78 8 47 08 149 10 18 219 2 2 955 10 4 306 2 80 6 45 07 150 8 9 827 221 2 872 12 2 289 6 82 4 43 16 152 6 9 489 222 8 2 792 14 274 84 2 41 34 154 4 9 165 224 6 2 715 15 8 259 3 86 39 61 156 2 8 854 226 4 2 64 17 6 245 6 87 8 37 96 158 8 555 228 2 2 568 19 4 232 6 89 6 36 38 159 8 8 268 230 2 498 21 2 220 5 91 4 34 88 161 6 7 991 231 8 2 431 23 209 93 2...

Page 23: ... after turning off all power supplies before disassembly STEPS PROCEDURES 1 Before disassembly of the unit 2 Remove filter 3 Remove display Axonometric drawing for the complete unit panel clasps filter a Open the panel b Loosen the clasps on the filter c Draw out two pieces of filter Display Remove 2 screws fixing display and then remove the filter ...

Page 24: ...ic box STEPS PROCEDURES Clasp Panel Pull the clasps at both sides slightly and then remove the panel horizontal louver Remove the axial bush on the horizontal louver and then remove the horizontal louver Screw Top cover of electric box a Remove screws fixing the top cover of electric box b Remove the top cover of electric box ...

Page 25: ...ew Cap Screw Front Case a Remove the screw caps on front case b Remove screws connecting the front case c Remove the front case screw Remove earthing screws and then remove the earthing wire Clasp Clasp electric box cover a Loosen clasps at the left side of electric box b Loosen clasps on the right side of electric box c Remove electric box cover ...

Page 26: ...STEPS PROCEDURES temperature sensor Pull out the indoor temperature sensor Screw Electric Box a Pull out 6 sockets on PCB board b Pull out two screws on electric box c Remove the electric box Water Tray Pull the water tray upwards and then remove the water tray Connection position for indoor and outdoor units connection pipe Separate the connection pipe between indoor and outdoor units ...

Page 27: ...te for indoor unit and then remove the pipe stopping Screw Damping Board Remove 2 screws on damping board and then remove the damping board Screw Evaporator a Remove screws between evaporator and bottom case b Turn over the indoor unit and adjust the pipe line to the position as shown by the broken line c Lift up the evaporator and then remove the evaporator Screw Remove 2 screws on fixing plate o...

Page 28: ...de and motor 19 Remove cushion rubber STEPS PROCEDURES Blade Motor a Remove screws fixing cross flow blade and motor b Remove the motor sub assy c Separate two cross flow blade Cushion Rubber a Remove the cushion rubber on cross flow blade b Remove the cushion rubber from the base ...

Page 29: ...move the screws connecting the top panel and panel and side panels Remove the top panel Loosen the screws fixing the valve cover and then remove the valve cover Top Panel Valve Cover b Loosen the screws connecting the front side panel and mask and chassis Remove the front side panel Front Side Plate Twist off the screws connecting the grille and panel and then remove the grille Grille Twist off th...

Page 30: ...rd grille and then remove the guard grille Guard Grille Twist off the screws fixing the handle and then remove the handle Handle Twist off the screws connecting the right side plate and chassis valve support and condenser and then remove the right side plate Right Side Plate a Twist off the screws on electric box cover with screwdriver and then remove the electric box cover Electric Box Cover ...

Page 31: ...t the wiring terminal pull it upwards to remove the electric box Electric Box Electric Box 1 c Twist off the screws between electric box 1 and left side plate with screwdriver pull it upwards to remove the electric box 1 Left Side Plate Twist off the screws connecting the left side plate and chassis with screwdriver and then remove the left side plate Axial Flow Blade Twist off the nuts on blade w...

Page 32: ...Way Valve Unsolder the pipeline between compressor condenser gas and liquid valve and then remove the 4 way valve note release all refrigerant before unsoldering Gas Valve Liquid Valve Twist off the 2 bolts fixing the valve sub assy Unsolder the soldering joint between gas valve and air return pipe and then remove the gas valve note when unsoldering the soldering joint wrap the gas valve with wet ...

Page 33: ...s on compressor and then remove the compressor Isolation Sheet Twist off the screws connecting isolation sheet and end plate of condenser and chassis and then remove the isolation sheet Support Plate of Condenser Twist off the screws connecting the support plate of condenser and condenser with screwdriver and then remove the support plate of condenser Condenser Chassis Pull it upwards to separate ...

Page 34: ...G SPEEDICHANNEL 3 M10 S1 230 EIN4 ELBOW OUTSD 90DEG SPEEDICHANNEL 4 M10 S1 230 EIN6 ELBOW OUTSD 90DEG SPEEDICHANNEL 6 M10 S1 230 FB3 BEND FLAT 90 DEG SPEEDICHANNEL 3 M10 S1 230 FB4 BEND FLAT 90 DEG SPEEDICHANNEL 4 M10 S1 230 FB453 BEND FLAT 45 DEG SPEEDICHANNEL 3 M10 S1 230 FB454 BEND FLAT 45 DEG SPEEDICHANNEL 4 M10 S1 230 FB456 BEND FLAT 45 DEG SPEEDICHANNEL 6 M10 S1 230 FB6 BEND FLAT 90 DEG SPEE...

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