Artcool by Navid Anari

ART COOL (50Hz/R22) 5RMA2-02A(5RMA2-01A)

ART COOL-50Hz (R22) Contents

Page

1. Models line up.........................................................................................4 2. Nomenclature..........................................................................................6 3. Features & Benefits................................................................................7 4. Specifications .......................................................................................13 5. Dimensional drawings..........................................................................28 6. Wiring diagrams ...................................................................................41 7. Refrigerant cycle diagram....................................................................51 8. Capacity tables .....................................................................................53 9. Capacity coefficient factor...................................................................65 10. Operation range..................................................................................67 11. Air Velocity and temperature distribution(Reference data) ............69 12. Sound levels........................................................................................72 13. Remote controller ...............................................................................77 14. Installation...........................................................................................80

2008 Product Data

Test condition of international standard

CLASSIFICATION

Indoor Cooling Capacity

Outdoor

Indoor Heating Capacity

Maximum

Outdoor

Indoor

Cooling Operating

Outdoor

Maximum

Indoor

Heating Operating Enclosure

Outdoor

Indoor

Sweat / Condensate

Outdoor

Disposal Freeze-up/

Indoor

Low Temperature Outdoor

KSC 9306

ISO 5151

ARI 210/240

AHAM

AS 1861.1

SSA 385

DB°C(°F)

27.0

26.7(80)

27.0

29.0

WB°C(°F)

19.5

19.0

19.4(67)

19.0

DB°C(°F)

35.0

35.0(95)

35.0

46.0

WB°C(°F)

24.0

23.9(75)

24.0

DB°C(°F)

20.0

21.1(70)

21.0

WB°C(°F)

15.0

15.6(60)

15.0

15.5

DB°C(°F)

7.0

8.3(47)

7.0

WB°C(°F)

6.0

6.1(43)

6.0

DB°C(°F)

32.0

26.7(80)

32.2(90)

32.0

29.0

WB°C(°F)

23.0

19.4(67)

22.8(73)

23.0

19.0

DB°C(°F)

43.0

46.1(115)

43.3(110)

43.0

54.0

WB°C(°F)

26.0

23.9(75)

25.6(78)

26.0

24.0

DB°C(°F)

27.0

26.7(80)

WB°C(°F)

19.0

19.4(67)

22.8(73)

DB°C(°F)

21.0

24.0

23.9(75)

WB°C(°F)

15.0

18.0

18.3(65)

DB°C(°F)

27.0

26.7(80)

27.0

WB°C(°F)

24.0

23.9(75)

24.0

DB°C(°F)

27.0

26.7(80)

27.0

WB°C(°F)

24.0

23.9(75)

24.0

DB°C(°F)

21.0

19.4(67)

21.1(70)

21.0

WB°C(°F)

15.0

13.9(57)

15.6(60)

16.0

DB°C(°F)

21.0

19.4(67)

21.1(70)

21.0

WB°C(°F)

15.0

13.9(57)

15.6(60)

16.0

KS : Korea Standard ISO : International Standard Organization ARI : Airconditioning and Refrigeration Institute AHAM : Association of Home Appliance Manufacturers

2008 Product Data

AS : Australia Standard SSA : Saudi Arabian Standard

General description

Split type of Air Conditioner are known by the category name of Wall Mounted Type of units.These units can be easily installed in a small space and have exceptional Cooling capacity.Designed for Low-noise operation,it ensures a pleasant air conditioned environment. LG Offers various types of units to its customers to suit for the best application and requirement.The following are the important categories offered by LG : 1) ART COOL Units : A new concept of cooling introduced by LG in the field of Air Conditioning. Some of the Important Features of these units are listed below : 1) Providing Health to our Customers : By having Filters such as Plasma Filter which is capable of removing Micro Organisms up to 0.1 microns. 2) Long Term Money Saving : By providing Features such as Gold Fin,Plasma Fin, Auto Clean etc. to maintain the same performance throughout the years. 3) Best Comfort : With Features such as Sleep Mode, Timer, Auto Restart etc. The Units are available with many standard and optional features which give our Customers the choice to select the unit of their own desire.For details refer to the Detailed specification followed after this description.

LG Electronics Inc. Air Conditioning Division Please use the below table for find the Goldiran model in this PDB. LG Model LS-H096Z*L5 LS-H126U*M5 LS-H1868*M0 LS-H2468*M0 LS-H126F*L0 LS-H186G*L0

Goldiran Model C096*Q C126*Q C186*Q C246*Q E1262Q E1863Q

2008 Product Data

1. Models line up 1.1 Indoor Units Category

Chassis

Type

2.05 (7)

2.64 (9)

Model Name Capacity, kW(kBtu/h) 3.52 5.28 (12) (18)

6.44 (22)

LS-C1863*M3 LS-H1863*M3

LS-C2463*M5 LS-H2463*M5

LS-C1868*M0 LS-H1868*M0

LS-C2468*M0 LS-H2468*M0

ART COOL Mirror LS-C126U*M3 LS-H126U*M5

LS-H076Z*L3 LS-H076Z*L6

SP ART COOL

LS-H076P*L3

LS-H096Z*L5 LS-H096Z*L6

LS-H096F*L0

LS-H126F*L0

LS-H096P*L3 LS-H096P*L6

LS-C126P*L3 LS-H126P*L3 LS-H126P*L6

LS-C186G*L0 LS-H186G*L0

LS-C226G*L0 LS-H226G*L0

LS-C186V*L3 LS-H186V*L3

LS-C226V*L3 LS-H226V*L3

* denotes the color or the picture used on the front grille of the unit (refer to the Nomenclature section)

2008 Product Data

7.03 (24)

1. Models line up 1.2 Outdoor Units LS-C126P*L3 LS-C126U*M3

Cooling Only No. of connectable indoor units Total capacity index of connectable indoor units Power supply

LS-C226V*L3 LS-C226G*L0 Max.1

kW kBtu/h

3.52 12

6.44 22 1ø, 220-240V, 50Hz

Chassis

LS-C186G*L0 LS-C186V*L3 LS-C1863*M3 LS-C1868*M0

Cooling Only No. of connectable indoor units Total capacity index of connectable indoor units Power supply

LS-C2463*M3 LS-C2468*M0 Max.1

kW kBtu/h

5.28 18

7.03 24 1ø, 220-240V, 50Hz

Chassis

LS-H076Z*L3 LS-H076Z*L6 LS-H076P*L3

Heat Pump No. of connectable indoor units Total capacity index of connectable indoor units Power supply

kW kBtu/h

2.05 7

LS-H096F*L0 LS-H096P*L3 LS-H096P*L6

LS-H096Z*L5 LS-H096Z*L6

Max.1 2.64 9 1ø, 220-240V, 50Hz

LS-H126U*M5

2.64 9

3.52 12

LS-H186G*L0 LS-H186V*L3 LS-H1863*M3 LS-H1868*M0

LS-H2463*M5 LS-H2468*M0

Chassis

LS-H126F*L0 LS-H126P*L3 LS-H126P*L6

Heat Pump No. of connectable indoor units Total capacity index of connectable indoor units Power supply

kW kBtu/h

3.52 12

LS-H226V*L3 LS-H226G*L0

Max.1 6.44 22 1ø, 220-240V, 50Hz

5.28 18

7.03 24

Chassis

2008 Product Data

2. Nomenclature

Code 1

Type

Code of Model

2 3

Producing Center, Refrigerant Product Type Cooling/Heating/Inverter

A~Z A~Z

4, 5

Capacity

0~9

Cooling/Heating Capacity Ex. "18" â&#x2020;&#x2019; 18,000 Btu/h

Electric Range

1~9 A~Z

1: 115V/60Hz 2: 220V/60Hz 3: 208-230V/60Hz 5: 200-220V/50Hz 6: 220-240V/50Hz 7: 110V, 50/60Hz

Chassis

A~Z

Name of Chassis of Unit

Color / Picture used

A~Z

1: The Kiss (for SF chassis) B: Blue Q : Quran M: Metal D: Wood 2: The Sunset (for SF chassis) W: White K : Mecca C: Cherry R: Mirror 3: The London Bridge. (for SG chassis)

9, 10

Function

A~Z

Serial No.

1~9

2008 Product Data

A~Z

Meaning L: Chang-won R22 A: Chang-won R410A S: Split Type Air Conditioner C: Cooling Only H: Heat Pump X: C/O + E/Heater Z: H/P + E/Heater V: AC Inverter C/O N: AC Inverter H/P Q: DC Inverter C/O W: DC Inverter H/P

A B C D E F G H I J K L M N P Q R S T U V W Y

Basic Basic+4Way Plasma Filter Plasma Filter+4 Way Tele+LCD Tele+LCD+Nano plasma+4Way NBF F+(A/changeove)+A/clean+Low A NBF F+(A/changeove)+A/clean+4way+Low A Tele+LED+4way Internet Plasma F+4Way+Oxygen generator NBF F+(A/changeove)+A/clean NBF F+(A/changeove)+A/clean+4way NBF F+(A/changeove)+A/clean+PTC NBF F+(A/changeove)+Autoclean+4way+PTC NBF F+(A/changeove)+A/clean+4way+Low A+PTC Negative ion+A/Clean (Nano)Plasma+Negative ion+A/Clean 4way+(Nano)Plasma F+Negative ion+A/Clean Nano Plasma F+4Way+(A/changeove)+A/clean+Oxygen generator 4way+(Nano)Plasma F+Negative ion+A/Clean+Oxygen generator Dry contact Basic + Low A

LG Model Development Serial No.

3. Features & Benefits

NEO-Plasma Air Purifying System LG Electronicsâ&#x20AC;&#x2122; unique neo-plasma air purifying system, equipped with 12-level bio-enzyme filters, has further enhanced its sterilization power. While air passes each level of filters, the system powerfully eliminates household's fine dust and molds, ordinary odor, food smell, and cigar smoke, as well as can destroy bacteria's cell walls to completely kill them. It has strong sterilization power.

Have you ever experienced these symptoms? Though the industrial development has enhanced people's quality of life and their satisfaction in living, it is increasingly creating various kinds of pollution, hazardous substances and viruses. In particular, substances (household tick dust, molds, etc.) that create allergies give rise to respiratory and atopic diseases. Harmful gases, the prime cause of 'new house syndromes,â&#x20AC;&#x2122; create chronic headache.

Whenever seasons change, You have runny nose

Asthma, and Continuous cough.

The skin is itchy without knowing reasons,

Frequent headache, and chronic fatigue...

You scratch it again and again...

First antibiotic

Allergy

Fishy smell

Foot stink

Animal smell

Odor of food garbage

Chemical substance

Influenza

Virus

Mite

Micro dust

Deodorize

Mold Smoke

Allergy Mold

Mite

Big dust

Odor of construction ingredient

Blanket dust Odor of food garbage

Chemical substance

Pollutant

2008 Product Data

3. Features & Benefits Plasma Filter

Nano Bio Fusion Filter

Nano bio fusion filters allow their nano-size bio enzymes to directly penetrate through cell walls of bacteria and allergen to decompose

The PLASMA Air Purifying System developed uniquely by LG not only removes microscopic contaminants and dust, but also removes house mites, pollen, and pet fur to prevent allergic diseases like asthma.

its cell nuclei and kill them.While conventional methods merely inactivate bacteria or destroy external cell walls, this innovative sterilization method can completely decompose bacteria's cell nuclei and kill them.

Bacteria, Virus Bio Active Site Nano Particle

Nano Particle

Active State

Bacteria Selective Capture

Bacteriolysis

Nano Particle

Polluted Air

Regeneration (Active State)

Distinctions from Conventional Filters Conventional

4 Simply inactivate bacteria

Destroy bacteria but allow part of them to survive

Nano Bio Fusion Filter

The bio enzyme destroys cell walls and nuclei of bacteria and allergens, thus completely killing the bacteria

Nano-size carbon filters catch fine odorous particles again, and doubly and completely remove odors from the household, thus offering a pleasant environment.

What is Nano Carbon Ball?

Nano Carbon Filter

Nano(1/1Bil) ball structure,consisting of Nano carbon, is adopted as deodorizing material first in the world

200~500nm

Kitasato Research Center of Environmental Sciences - Inactivating Germs Test Result 99.9% Performance (No. 16_0113_1,2,3)

Clean Air

Japan Food Research Laboratories - Inactivating Germs Test Result 99.9% Performance (No. 104093863-001,2,3,4,5) - Killing Virus (No. 204031236-001,2,3) Japan Spinners Inspecting Foundation (No. 624217, 019355-13) - NCB Deodorizing 4 Type Test Result 78%~98% Security

Pre Filter The antibacterial pre-filters primarily remove large dusts, molds, and quilt dusts.

2008 Product Data

Triple Filter

FITI Korea Consumer Science Center (No. 513104-195-A-01) - Killing bacteria, fungi Test Result 99.9% Security ITS(International Technical Standard Center) (No. IL26937-A,B) - Inactivating bacteria Test Result 99.9% Security

The triple filters consist of an organic-compound filter to eliminate displeasure and pain in the eyes and necks with various organic compounds. It also has a formaldehyde filter to cut off formaldehyde, a prime cause of new-house syndromes, and prevents symptoms such as dermatitis, vomiting and pneumonia. And lastly, it has a filter to remove ordinary odor that causes migraine and chronic fatigue.

3. Features & Benefits Healthy Dehumidification Dehumidification mode reduces uncomfortable humidity from the room without over cooling. Indoor Temperature Distribution Chart

Conventional

LG Healthy Dehumidification

Since the surrounding temperature is measured after the air from the unit is widely distributed,an accurate assessment of the air is not possible.

By increasing the Vane Angle,a better assessment of the actual temperature is possible to prevent over cooling.

Auto Clean The main cause of air conditioner's odor is molds that breed in the heatexchanger. If you turn off the air conditioner as it is, molds and bacteria will breed in the wet heat exchanger. The automatic cleaning function will dry the wet heat exchanger to prevent molds and bacteria from breeding. This eliminates air conditioner's odor and save you time from frequent cleaning efforts.

When you press "Auto Clean”, Auto clean starts after

1STEP : Dries the evaporator with super-weak, low-

cooling operation.

noise air blowing, and removes remaining moisture.

2STEP : Fundamentally removes the sources of molds once again through the neo plasma system.

In 30 minutes, Auto clean" dries the inner part of Air conditioner.

Before

After

Effect • Remove odor ! • Restrain mildew ! • Keep performance ! (Durability) • Save time to clean up.

2008 Product Data

3. Features & Benefits Anti Corrosion Gold Fin™ LG ’s Outdoor Heat Exchanger is coated with a golden anti-corrosive epoxy treatment on the aluminum coil to minimized corrosion. This maintains heat transfer properties of the coil for an extended time where as non-Gold Fin coils progressively lose efficiency due to surface corrosion. Standard on every LG air conditioner, this assists in areas suffering from pollution or near the ocean where the unit may subjected to higher levels of salt. Salt Spray Test for 15 Days

After 15 Days

LG Gold Fin™ Anti Corrosion

Gold Coated Aluminum

After 15 Days

Conventional Starting to corrode

Uncoated Aluminum

• Gold Fin is long lasting, durable and makes the Outdoor Unit look prestigious.

Auto Changeover With heat pump model,cooling and heating operation is changed automatically on the base of setting temp.

Hot Start Function During starting of the unit in the heating mode it prevents cold air blowing from the unit. It starts the indoor fan only after indoor unit pipe temperature reaches a preset value (28˚C).

• Initial Setting Temp:18˚C Memorize final setting temp.

When indoor unit pipe temperature reaches 28˚C, then for initial 1 minute the indoor fan runs at a low speed and after that at the setting speed.

Auto Restart Function In case of a sudden power failure, It automatically sets the A/C to settings before the power failure when power returns.

Sleep Mode Auto Control With one touch of the Sleep mode button, it automatically programs the Air Conditioning Unit to turn off, controls the fan speed and adjusts the set temperature for a more comfortable sleep.

2008 Product Data

3. Features & Benefits Indoor Temperature Distribution Chart

4 Way Auto Swing LG Air Conditioning units can now automatically distribute the air 4-ways.

Chaos Swing

Auto Swing

This effectively eliminates hot and cold patches, keeping the room at a more stable temperature.

Chaos Swing Effect

ART COOL_Mirror type

Jet Cool

The Jet cool function allows quick cooling. In this mode, strong, cool air is blown at high speed for 30 minutes, until the room temperature reaches 18Ë&#x161;C.

A little interior accent for the modern you. The romantic pastel colors, subdued luster,modern texture and the super slim design of LG ARTCOOL Mirror are the answers to your unique mood and personality.

ART COOL_Panel type LG's unique frame-style of ARTCOOL panel type. Its super-slim and sensory design satisfies your sense.

10m It can cool the spot ten meters away in 3 minutes.

ART COOL_Wide type LG ARTCOOL Wide is a cool addition to your work-space. Like a piece of modern art, the golden-section design and the simple and modern design of LG Artcool Wide is an attractive, efficient and cool addition to your room.

2008 Product Data

3. Features & Benefits Modern & Luxury Design

Gallery In My Room

Its premium designs match well with any part of the household.

Your room will shine chicly with a famous painting or a beautiful photo (showcased in the product). LG ARTCOOL will convert your room into a gallery. Do you like Western paintings, Oriental paintings, or photos? The product features your desired style of famous paintings.

THE STARRY NIGHT (1889) - VINCENT VAN GOGH

ALLEE DES MARRONIERS(1878) - SiISLEY, ALFRED

Ez-Replaceable Color Panel

Digital Air Flow Control

The ARTCOOL chameleon panel enables you to change the air conditioner color according to background colors, the first of its kind in the world. When you want to change interior designs (wallpaper colors, furniture, etc.) or you want to change the air conditioner designs after you are bored with them. You can only change the panel.

You feel more comfortable and convenient by controlling air flow.

Normal

Jet Cool

Sleep Mode

Fast & Even Widely

Speedy & Powerful

Indirectly & Softly

3 Dimensional Air Flow Designed like a work of art, and the new concept of 3 dimensional air flow. It gives even cooling as well as quick cooling from front and bothsides making the space evenly cool.

Ultra Thin Technology mixed with sense of art result in the super slim design which is 129mm depth.

The slimmest in the world!!!

129mm 12

2008 Product Data

4. Specifications Models Cooling Capacity Heating Capacity Power Input Running Current Starting Current EER

Cooling/Heating Cooling/Heating Cooling/Heating

COP Power Supply Power Factor Air Flow Rate

Indoor,Max Outdoor,Max

Moisture Removal Sound Level

Indoor,H/M/L Outdoor,Max Refrigerant & Charge (at 7.5 m) Additional Refrigerant charge g/m(oz/ft) Compressor Type Model Motor Type Oil Type Oil Charge O.L.P. name Fan(Indoor) Type Motor Output Fan(Outdoor) Type Motor Type Motor Output Circuit Breaker* Power Supply Cable Power and Transmission Cable No.*mm2 Piping Connections Liquid Side Gas Side Drain Hose O.D / I.D Dimensions Indoor (W*H*D) Outdoor (W*H*D) Net Weight

Indoor Outdoor Cooling(Outdoor) Heating(Outdoor)

Operation Range Max. Piping Length Max. Elevation Difference Tool Code(Chassis) Functions

Note: O : applied,

kW Btu/h. kW Btu/h. W A A W/W Btu/h.W W/W Ø / V / Hz % m3/min(CFM) m3/min(CFM) l/h. dB(A)±3 dB(A)±3 g(oz)

W A No.*mm2 No.*mm2 mm(in) mm(in) mm(in) mm inch mm inch kg(lbs) kg(lbs) °C(°F) °C(°F) m(ft) m(ft)

Indoor + Outdoor Temperature Control Plasma Filter Prefilter(washable/anti-fungus) Auto Clean CHAOS Wind(Auto Wind) Steps, Fan/Cool/Heat Airflow Direction Control(up & Down) Airflow Direction Control(left & right) Remote Controller Type Setting Temperature Cooling Range Heating Temperature Increment Auto Operation (Micom Control) Auto Changeover (Micom Control) Self Diagnosis Timer Sleep Operation Soft Dry Operation Restart Delay(minute) Deice Control(Defrost) Hot Start Jet Cool Low Ambient Operation Special Function

ART COOL

LS-H076P*L3 2.05 7,000 2.14 7,300 700/628 3.1/2.9 13.0/13.0 2.93 10.0 3.41 1/220-240/50 98.2 5.5(194) 22(776) 1.0 34/30/25 46 R22, 690(24.3) 20(0.22) Rotary(Tropical) QK125PAB PSC ATMOS NM56 350 MRA12012-12026 Turbo 24 Propeller AC Induction 18 15 3*1.0 3*1.0+2*0.75 (Including Earth) 6.35(1/4) 9.52(3/8) 21.5 / 16(0.85 / 0.63) 570*568*129 22.4*22.4*5.1 575*525*260 22.6*20.7*10.2 8.5(18.7) 23(50.7) 21 - 43 1 - 24 15(49.2) 7.5(24.6) SP + UA2 Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

LS-H076Z*L3 2.05 7,000 2.14 7,300 700/628 3.2/2.9 13.0/13.0 2.93 10.0 3.41 1/220-240/50 95.1 6.0(212) 22(776) 1.0 32/29/25 46 R22, 680(24) 20(0.22) Rotary QK125PAB PSC ATMOS NM56 350 MRA12012-12026 Crossflow 4.7 Propeller AC Induction 18 15 3*1.0 3*1.0+2*0.75 (Including Earth) 6.35(1/4) 9.52(3/8) 21.5 / 16(0.85 / 0.63) 900*272*135 35.4*10.7*5.3 575*525*260 22.6*20.7*10.2 8.1(17.8) 23(50.7) 21 - 43 1 - 24 15(49.2) 7.5(24.6) SZ + UA2 Thermistor O O O O 3/4/3 Auto Manual Wireless LCD 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

– : not aplicable

* Filters are optional for some specific areas. * For circuit breaker rating,please conform to local standards wherever necessary.

2008 Product Data

4. Specifications Models Cooling Capacity Heating Capacity Power Input Running Current Starting Current EER

Cooling/Heating Cooling/Heating Cooling/Heating

COP Power Supply Power Factor Air Flow Rate

Indoor,Max Outdoor,Max

Moisture Removal Sound Level

Indoor Outdoor Cooling(Outdoor) Heating(Outdoor)

Operation Range Max. Piping Length Max. Elevation Difference Tool Code(Chassis) Functions

Note: O : applied,

kW Btu/h. kW Btu/h. W A A W/W Btu/h.W W/W Ø / V / Hz % m3/min(CFM) m3/min(CFM) l/h. dB(A)±3 dB(A)±3 g(oz)

W A No.*mm2 No.*mm2 mm(in) mm(in) mm(in) mm inch mm inch kg(lbs) kg(lbs) °C(°F) °C(°F) m(ft) m(ft)

ART COOL

LS-H076Z*L6 2.05 7,000 2.14 7,300 700/628 3.2/2.9 13.0/13.0 2.93 10.0 3.41 1/220-240/50 95.1 6.0(212) 22(776) 1.0 32/29/25 46 R22, 680(24) 20(0.22) Rotary QK125PAB PSC ATMOS NM56 350 MRA12012-12026 Crossflow 4.7 Propeller AC Induction 18 15 3*1.0 3*1.0+2*0.75 (Including Earth) 6.35(1/4) 9.52(3/8) 21.5 / 16(0.85 / 0.63) 900*272*135 35.4*10.7*5.3 575*525*260 22.6*20.7*10.2 8.1(17.8) 23(50.7) 21 - 43 1 - 24 15(49.2) 7.5(24.6) SZ + UA2 Thermistor O O O O 3/4/3 Auto Manual Ez-Remocon 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

– : not aplicable

* Filters are optional for some specific areas. * For circuit breaker rating,please conform to local standards wherever necessary.

2008 Product Data

LS-H096F*L0 2.64 9,000 2.79 9,500 920/830 4.1/3.7 19.0/19.0 2.87 9.78 3.36 1/220-240/50 97.6 7.5(265) 26(918) 1.2 36/30/25 46 R22,780(27.51) 20(0.22) Rotary QK164PCB PSC SUNISO 4GSI 350 MRA98776-12026 Turbo 24 Propeller AC Induction 25 15 3*1.0 3*1.0+2*0.75 (Including Earth) 6.35(1/4) 9.52(3/8) 21.5 / 16(0.85 / 0.63) 600*600*145 23.6*23.6*5.7 770*540*245 30.3*21.3*9.7 15(33.1) 34(75.0) 21 - 43 1 - 24 15(49.2) 7.5(24.6) SF + UL Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

4. Specifications Models Cooling Capacity Heating Capacity Power Input Running Current Starting Current EER

Cooling/Heating Cooling/Heating Cooling/Heating

COP Power Supply Power Factor Air Flow Rate

Indoor,Max Outdoor,Max

Moisture Removal Sound Level

Indoor Outdoor Cooling(Outdoor) Heating(Outdoor)

Operation Range Max. Piping Length Max. Elevation Difference Tool Code(Chassis) Functions

Note: O : applied,

kW Btu/h. kW Btu/h. W A A W/W Btu/h.W W/W Ø / V / Hz % m3/min(CFM) m3/min(CFM) l/h. dB(A)±3 dB(A)±3 g(oz)

W A No.*mm2 No.*mm2 mm(in) mm(in) mm(in) mm inch mm inch kg(lbs) kg(lbs) °C(°F) °C(°F) m(ft) m(ft)

ART COOL

LS-H096P*L3 2.64 9,000 2.73 9,300 940/910 4.2/4.0 19.0/19.0 2.81 9.57 3.00 1/220-240/50 97.3 7.0(247) 26(918) 1.2 37/32/28 46 R22, 950(33.5) 20(0.22) Rotary 2PS164D2BD02 PSC ATMOS M60 350 MRA98776-9088 Turbo 24 Propeller AC Induction 25 15 3*1.0 3*1.0+2*0.75 (Including Earth) 6.35(1/4) 9.52(3/8) 21.5 / 16(0.85 / 0.63) 570*568*129 22.4*22.4*5.1 770*540*245 34.3*25.8*12.6 8.5(18.7) 31(68.2) 21 - 43 1 - 24 15(49.2) 7.5(24.6) SP + UL Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

LS-H096P*L6 2.64 9,000 2.73 9,300 940/910 4.2/4.0 19.0/19.0 2.81 9.57 3.00 1/220-240/50 97.3 7.0(247) 26(918) 1.2 37/32/28 46 R22, 950(33.5) 20(0.22) Rotary 2PS164D2BD02 PSC ATMOS M60 350 MRA98776-9088 Turbo 24 Propeller AC Induction 25 15 3*1.0 3*1.0+2*0.75 (Including Earth) 6.35(1/4) 9.52(3/8) 21.5 / 16(0.85 / 0.63) 570*568*129 22.4*22.4*5.1 770*540*245 34.3*25.8*12.6 8.5(18.7) 31(68.2) 21 - 43 1 - 24 15(49.2) 7.5(24.6) SP + UL Thermistor O O O O 3/4/3 Auto Auto Ez-Remocon 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

– : not aplicable

* Filters are optional for some specific areas. * For circuit breaker rating,please conform to local standards wherever necessary.

2008 Product Data

4. Specifications

ART COOL C096*Q

Models Cooling Capacity Heating Capacity Power Input Running Current Starting Current EER

Cooling/Heating Cooling/Heating Cooling/Heating

COP Power Supply Power Factor Air Flow Rate

Indoor,Max Outdoor,Max

Moisture Removal Sound Level

Indoor Outdoor Cooling(Outdoor) Heating(Outdoor)

Operation Range Max. Piping Length Max. Elevation Difference Tool Code(Chassis) Functions

Note: O : applied,

kW Btu/h. kW Btu/h. W A A W/W Btu/h.W W/W Ø / V / Hz % m3/min(CFM) m3/min(CFM) l/h. dB(A)±3 dB(A)±3 g(oz)

W A No.*mm2 No.*mm2 mm(in) mm(in) mm(in) mm inch mm inch kg(lbs) kg(lbs) °C(°F) °C(°F) m(ft) m(ft)

– : not aplicable

* Filters are optional for some specific areas. * For circuit breaker rating,please conform to local standards wherever necessary.

2008 Product Data

LS-H096Z*L5 2.64 9,000 2.73 9,300 920/850 4.2/4.0 19.0/19.0 2.87 9.78 3.21 1/220-240/50 95.2 6.5(229) 26(918) 1.2 37/34/29 46 R22, 670(23.5) 20(0.22) Rotary PH165X1C PSC ATMOS NM56 400 B160-135-241E Crossflow 7 Propeller AC Induction 25 15 3*1.0 3*1.0+2*0.75 (Including Earth) 6.35(1/4) 9.52(3/8) 21.5 / 16(0.85 / 0.63) 900*272*135 35.4*10.7*5.3 717*498*229 28.2*19.6*9.0 8.3(18.3) 27.5(60.6) 21 - 43 1 - 24 15(49.2) 7.5(24.6) SZ + UA3 Thermistor O O O O 3/4/3 Auto Manual Wireless LCD 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

LS-H096Z*L6 2.64 9,000 2.73 9,300 920/850 4.2/4.0 19.0/19.0 2.87 9.78 3.21 1/220-240/50 95.2 6.5(229) 26(918) 1.2 37/34/29 46 R22, 670(23.5) 20(0.22) Rotary PH165X1C PSC ATMOS NM56 400 B160-135-241E Crossflow 7 Propeller AC Induction 25 15 3*1.0 3*1.0+2*0.75 (Including Earth) 6.35(1/4) 9.52(3/8) 21.5 / 16(0.85 / 0.63) 900*272*135 35.4*10.7*5.3 717*498*229 28.2*19.6*9.0 8.3(18.3) 27.5(60.6) 21 - 43 1 - 24 15(49.2) 7.5(24.6) SZ + UA3 Thermistor O O O O 3/4/3 Auto Manual Ez-Remocon 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

4. Specifications

ART COOL E1262Q

Models Cooling Capacity Heating Capacity Power Input Running Current Starting Current EER

Cooling/Heating Cooling/Heating Cooling/Heating

COP Power Supply Power Factor Air Flow Rate

Indoor,Max Outdoor,Max

Moisture Removal Sound Level

Indoor Outdoor Cooling(Outdoor) Heating(Outdoor)

Operation Range Max. Piping Length Max. Elevation Difference Tool Code(Chassis) Functions

Note: O : applied,

kW Btu/h. kW Btu/h. W A A W/W Btu/h.W W/W Ø / V / Hz % m3/min(CFM) m3/min(CFM) l/h. dB(A)±3 dB(A)±3 g(oz)

W A No.*mm2 No.*mm2 mm(in) mm(in) mm(in) mm inch mm inch kg(lbs) kg(lbs) °C(°F) °C(°F) m(ft) m(ft)

LS-H126F*L0 3.37 11,500 3.66 12,500 1,290/1,220 6.1/5.7 28.0/28.0 2.61 8.92 3.00 1/220-240/50 92.0 8.5(300) 26(918) 1.4 42/36/30 46 R22, 780(27.51) 20(0.22) Rotary QK222PBB PSC SUNISO 4GSI 380 MRA12052-12027 Turbo 24 Propeller AC Induction 25 15 3*1.0 3*1.0 + 2*0.75 (Including Earth) 6.35(1/4) 12.7(1/2) 21.5 / 16(0.85 / 0.63) 600*600*145 23.6*23.6*5.7 770*540*245 30.3*21.3*9.7 15(33.1) 34(75.0) 21 - 43 1 - 24 15(49.2) 7.5(24.6) SF + UL Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

LS-C126P*L3 3.52 12,000 1,250/5.8/28.0/2.82 9.60 1/220-240/50 93.7 8.7(307) 26(918) 1.4 43/37/31 46 R22, 980(34.5) 20(0.22) Rotary 2KS206D5BC04 PSC ATMOS M60 410 Internal Turbo 24 Propeller AC Induction 25 15 3*1.0 3*1.0 (Including Earth) 6.35(1/4) 12.7(1/2) 21.5 / 16(0.85 / 0.63) 570*568*129 22.4*22.4*5.1 770*540*245 34.3*25.8*12.6 8.5(18.7) 33(72.6) 21 - 43 15(49.2) 7.5(24.6) SP + UL Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 1 O O 24h, On/Off O O 3 O -

– : not aplicable

* Filters are optional for some specific areas. * For circuit breaker rating,please conform to local standards wherever necessary.

2008 Product Data

4. Specifications Models Cooling Capacity Heating Capacity Power Input Running Current Starting Current EER

Cooling/Heating Cooling/Heating Cooling/Heating

COP Power Supply Power Factor Air Flow Rate

Indoor,Max Outdoor,Max

Moisture Removal Sound Level

Indoor Outdoor Cooling(Outdoor) Heating(Outdoor)

Operation Range Max. Piping Length Max. Elevation Difference Tool Code(Chassis) Functions

Note: O : applied,

kW Btu/h. kW Btu/h. W A A W/W Btu/h.W W/W Ø / V / Hz % m3/min(CFM) m3/min(CFM) l/h. dB(A)±3 dB(A)±3 g(oz)

W A No.*mm2 No.*mm2 mm(in) mm(in) mm(in) mm inch mm inch kg(lbs) kg(lbs) °C(°F) °C(°F) m(ft) m(ft)

ART COOL

LS-H126P*L3 3.23 11,000 3.66 12,500 1,250/1,220 5.8/5.5 28.0/28.0 2.58 8.80 3.00 1/220-240/50 93.7 8.7(307) 26(918) 1.4 42/36/30 46 R22, 800(28.2) 20(0.22) Rotary RH220VHTT PSC MS 56 520 Internal Turbo 24 Propeller AC Induction 25 15 3*1.0 3*1.0+2*0.75 (Including Earth) 6.35(1/4) 12.7(1/2) 21.5 / 16(0.85 / 0.63) 570*568*129 22.4*22.4*5.1 770*540*245 34.3*25.8*12.6 8.5(18.7) 33(72.6) 21 - 43 1 - 24 15(49.2) 7.5(24.6) SP + UL Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

– : not aplicable

* Filters are optional for some specific areas. * For circuit breaker rating,please conform to local standards wherever necessary.

2008 Product Data

LS-H126P*L6 3.23 11,000 3.66 12,500 1,250/1,220 5.8/5.5 28.0/28.0 2.58 8.80 3.00 1/220-240/50 93.7 8.7(307) 26(918) 1.4 42/36/30 46 R22, 800(28.2) 20(0.22) Rotary RH220VHTT PSC MS 56 520 Internal Turbo 24 Propeller AC Induction 25 15 3*1.0 3*1.0+2*0.75 (Including Earth) 6.35(1/4) 12.7(1/2) 21.5 / 16(0.85 / 0.63) 570*568*129 22.4*22.4*5.1 770*540*245 34.3*25.8*12.6 8.5(18.7) 33(72.6) 21 - 43 1 - 24 15(49.2) 7.5(24.6) SP + UL Thermistor O O O O 3/4/3 Auto Auto Ez-Remocon 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

4. Specifications

ART COOL C126*Q

Models Cooling Capacity Heating Capacity Power Input Running Current Starting Current EER

Cooling/Heating Cooling/Heating Cooling/Heating

COP Power Supply Power Factor Air Flow Rate

Indoor,Max Outdoor,Max

Moisture Removal Sound Level

Indoor Outdoor Cooling(Outdoor) Heating(Outdoor)

Operation Range Max. Piping Length Max. Elevation Difference Tool Code(Chassis) Functions

Note: O : applied,

kW Btu/h. kW Btu/h. W A A W/W Btu/h.W W/W Ø / V / Hz % m3/min(CFM) m3/min(CFM) l/h. dB(A)±3 dB(A)±3 g(oz)

W A No.*mm2 No.*mm2 mm(in) mm(in) mm(in) mm inch mm inch kg(lbs) kg(lbs) °C(°F) °C(°F) m(ft) m(ft)

LS-C126U*M3 3.52 12,000 1,200/5.5/28.0/2.93 10.0 1/220-240/50 94.9 9.5(335) 26(918) 1.4 36/32/30 46 R22, 790(27.8) 20(0.22) Rotary 2KS206D5BC04 PSC ATMOS M60 410 Internal Crossflow 12.9 Propeller AC Induction 25 15 3*1.0 3*1.0 (Including Earth) 6.35(1/4) 12.7(1/2) 21.5 / 16(0.85 / 0.63) 1,030*290*153 40.6*11.4*6.1 770*540*245 34.3*25.8*12.6 9.5(20.9) 34(74.8) 21 - 43 15(49.2) 7.5(24.6) SU + UL Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 1 O O 24h, On/Off O O 3 O -

LS-H126U*M5 3.52 12,000 3.87 13,200 1,300/1,250 6.2/5.8 28.0/28.0 2.70 9.23 3.10 1/220-240/50 91.2 9.0(318) 26(918) 1.5 37/33/29 46 R22, 720(25.3) 20(0.22) Rotary QK222PBA PSC SUNISO 4GSI 380 MRA12052-12027 Crossflow 14 Propeller AC Induction 25 15 3*1.0 3*1.0+2*0.75 (Including Earth) 6.35(1/4) 12.7(1/2) 21.5 / 16(0.85 / 0.63) 1,030*290*153 40.6*11.4*6.1 717*498*229 28.2*19.6*9.0 9.5(20.9) 27.0(59.5) 21 - 43 1 - 24 15(49.2) 7.5(24.6) SU + UA3 Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

– : not aplicable

* Filters are optional for some specific areas. * For circuit breaker rating,please conform to local standards wherever necessary.

2008 Product Data

4. Specifications

ART COOL E1863Q

Models Cooling Capacity Heating Capacity Power Input Running Current Starting Current EER

Cooling/Heating Cooling/Heating Cooling/Heating

COP Power Supply Power Factor Air Flow Rate

Indoor,Max Outdoor,Max

Moisture Removal Sound Level

Indoor Outdoor Cooling(Outdoor) Heating(Outdoor)

Operation Range Max. Piping Length Max. Elevation Difference Tool Code(Chassis) Functions

Note: O : applied,

kW Btu/h. kW Btu/h. W A A W/W Btu/h.W W/W Ø / V / Hz % m3/min(CFM) m3/min(CFM) l/h. dB(A)±3 dB(A)±3 g(oz)

W A No.*mm2 No.*mm2 mm(in) mm(in) mm(in) mm inch mm inch kg(lbs) kg(lbs) °C(°F) °C(°F) m(ft) m(ft)

– : not aplicable

* Filters are optional for some specific areas. * For circuit breaker rating,please conform to local standards wherever necessary.

2008 Product Data

LS-C186G*L0 5.28 18,000 1,860/8.8/40.0/2.84 9.68 1/220-240/50 91.9 12(424) 42(1,483) 2.0 44/38/33 50 R22, 1,220(42.3) 20(0.22) Rotary QP348PBC PSC SUNISO 4GSI 700 Internal Turbo 48 Propeller AC Induction 72 15 3*1.5 3*1.5 (Including Earth) 6.35(1/4) 12.7(1/2) 21.5 / 16(0.85 / 0.63) 934*528*170 36.8*20.8*6.8 840*575*275 33.1*22.7*10.9 20(44.1) 47(103.6) 21 - 54 15(49.2) 7.5(24.6) SG + UM Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 1 O O 24h, On/Off O O 3 O -

LS-H186G*L0 5.28 18,000 5.42 18,500 1,980/2,060 9.2/9.8 40.0/40.0 2.67 9.09 2.63 1/220-240/50 93.6 12(424) 42(1,483) 2.0 44/38/33 50 R22, 1,190(42.0) 20(0.22) Rotary 2KS324D5BD04 PSC ATMOS NM56M 450 Internal Turbo 48 Propeller AC Induction 72 15 3*1.5 3*1.5+2*0.75 (Including Earth) 6.35(1/4) 12.7(1/2) 21.5 / 16(0.85 / 0.63) 934*528*170 36.8*20.8*6.8 840*575*275 33.1*22.7*10.9 20(44.1) 47(103.6) 21 - 54 1 - 24 15(49.2) 7.5(24.6) SG + UM Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

4. Specifications Models Cooling Capacity Heating Capacity Power Input Running Current Starting Current EER

Cooling/Heating Cooling/Heating Cooling/Heating

COP Power Supply Power Factor Air Flow Rate

Indoor,Max Outdoor,Max

Moisture Removal Sound Level

Indoor Outdoor Cooling(Outdoor) Heating(Outdoor)

Operation Range Max. Piping Length Max. Elevation Difference Tool Code(Chassis) Functions

Note: O : applied,

kW Btu/h. kW Btu/h. W A A W/W Btu/h.W W/W Ø / V / Hz % m3/min(CFM) m3/min(CFM) l/h. dB(A)±3 dB(A)±3 g(oz)

W A No.*mm2 No.*mm2 mm(in) mm(in) mm(in) mm inch mm inch kg(lbs) kg(lbs) °C(°F) °C(°F) m(ft) m(ft)

ART COOL

LS-C186V*L3 5.28 18,000 1,860/8.8/40.0/2.84 9.68 1/220-240/50 91.9 12(423) 42(1,483) 2.0 44/38/33 50 R22, 1,220(43.0) 20(0.22) Rotary QP348PBC PSC SUNISO 4GSI 700 Internal Turbo 48 Propeller AC Induction 72 15 3*1.5 3*1.5 (Including Earth) 6.35(1/4) 12.7(1/2) 21.5 / 16(0.85 / 0.63) 928*522*147 36.5*20.6*5.8 840*575*275 33.1*22.7*10.9 15(33) 47(103.6) 21 - 54 15(49.2) 7.5(24.6) SV + UM Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 1 O O 24h, On/Off O O 3 O -

LS-H186V*L3 5.28 18,000 5.42 18,500 1,860/1,980 8.8/9.2 40.0/40.0 2.84 9.68 2.74 1/220-240/50 91.9 12(423) 42(1,483) 2.0 44/38/33 50 R22, 1,360(47.9) 20(0.22) Rotary QP348PBC PSC SUNISO 4GSI 700 Internal Turbo 48 Propeller AC Induction 72 15 3*1.5 3*1.5+2*0.75 (Including Earth) 6.35(1/4) 12.7(1/2) 21.5 / 16(0.85 / 0.63) 928*522*147 36.5*20.6*5.8 840*575*275 33.1*22.7*10.9 15(33) 47(103.6) 21 - 54 1 - 24 15(49.2) 7.5(24.6) SV + UM Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

– : not aplicable

* Filters are optional for some specific areas. * For circuit breaker rating,please conform to local standards wherever necessary.

2008 Product Data

4. Specifications Models Cooling Capacity Heating Capacity Power Input Running Current Starting Current EER

Cooling/Heating Cooling/Heating Cooling/Heating

COP Power Supply Power Factor Air Flow Rate

Indoor,Max Outdoor,Max

Moisture Removal Sound Level

Indoor Outdoor Cooling(Outdoor) Heating(Outdoor)

Operation Range Max. Piping Length Max. Elevation Difference Tool Code(Chassis) Functions

Note: O : applied,

kW Btu/h. kW Btu/h. W A A W/W Btu/h.W W/W Ø / V / Hz % m3/min(CFM) m3/min(CFM) l/h. dB(A)±3 dB(A)±3 g(oz)

W A No.*mm2 No.*mm2 mm(in) mm(in) mm(in) mm inch mm inch kg(lbs) kg(lbs) °C(°F) °C(°F) m(ft) m(ft)

– : not aplicable

* Filters are optional for some specific areas. * For circuit breaker rating,please conform to local standards wherever necessary.

2008 Product Data

ART COOL

LS-C1863*M3 5.28 18,000 1,980/9.0/40.0/2.67 9.10 1/220-240/50 95.7 13(459) 42(1,483) 2.0 44/42/37 50 R22, 1,070(37.7) 20(0.22) Rotary QP325PCC PSC SUNISO 4GSI 700 Internal Crossflow 25.6 Propeller AC Induction 65 15 3*1.5 3*1.5 (Including Earth) 6.35(1/4) 12.7(1/2) 21.5 / 16(0.85 / 0.63) 1,170*315*173 46.1*12.4*6.8 801*555*262 31.5*21.9*10.3 13(28.7) 45(99.2) 21 - 54 15(49.2) 7.5(24.6) S3 + UD Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 1 O O 24h, On/Off O O 3 O -

LS-H1863*M3 5.28 18,000 5.72 19,500 1,950/1,900 9.2/9.2 40.0/40.0 2.71 9.23 3.01 1/220-240/50 92.2 13 (459) 42(1,483) 2.0 44/42/37 50 R22, 1,200(42.3) 20(0.22) Rotary QP348PBC PSC SUNISO 4GSI 700 Internal Crossflow 26.7 Propeller AC Induction 72 15 3*1.5 3*1.5+2*0.75 (Including Earth) 6.35(1/4) 12.7(1/2) 21.5 / 16(0.85 / 0.63) 1,170*315*173 46.1*12.4*6.8 840*575*275 33.1*22.7*10.9 13(28.7) 47(103.6) 21 - 54 1 - 24 15(49.2) 7.5(24.6) S3 + UM Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

4. Specifications

ART COOL C186*Q

Models Cooling Capacity Heating Capacity Power Input Running Current Starting Current EER

Cooling/Heating Cooling/Heating Cooling/Heating

COP Power Supply Power Factor Air Flow Rate

Indoor,Max Outdoor,Max

Moisture Removal Sound Level

Indoor Outdoor Cooling(Outdoor) Heating(Outdoor)

Operation Range Max. Piping Length Max. Elevation Difference Tool Code(Chassis) Functions

Note: O : applied,

kW Btu/h. kW Btu/h. W A A W/W Btu/h.W W/W Ø / V / Hz % m3/min(CFM) m3/min(CFM) l/h. dB(A)±3 dB(A)±3 g(oz)

W A No.*mm2 No.*mm2 mm(in) mm(in) mm(in) mm inch mm inch kg(lbs) kg(lbs) °C(°F) °C(°F) m(ft) m(ft)

LS-C1868*M0 5.42 18,500 1,990 9.2 40 2.72 9.3 1/220~240/50 94 15.5(547) 42(1,483) 2.5 40/37/34 55 R22, 950(33.51) 20(0.21) Rotary(Tropical) QP348PBC PSC SUNISO 4GSI 700 Internal Cross Flow Fan 23 Propeller AC Induction 72 20 3*1.5 4*1.5(Including earth) 6.35(1/4) 12.7(1/2) 21.5,16(0.85,0.63) 1,107*299*200 43.6*11.8*7.9 840*575*275 33.1*22.7*10.9 14.1(31.09) 46.0(101.41) 21 - 54 (69.8 - 129.2) 20(66) 15(49) S8 + UM Thermistor Nano O O O 3/4/Auto Auto Wireless LCD 18°C - 30°C O O 24h, On/Off O O 3 O -

LS-H1868*M0 5.42 18,500 5.8 19,800 1,990 / 1,840 9.2/8.4 40 2.72 9.3 3.15 1/220~240/50 94 15.5(547) 42(1,483) 2.5 40/37/34 55 R22, 1,050(37.04) 20(0.21) Rotary(Tropical) QP348PBC PSC SUNISO 4GSI 700 Internal Cross Flow Fan 23 Propeller AC Induction 72 20 3*1.5 3*1.5 + 3*0.75(Including earth) 6.35(1/4) 12.7(1/2) 21.5,16(0.85,0.63) 1,107*299*200 43.6*11.8*7.9 840*575*275 33.1*22.7*10.9 14.1(31.09) 47.0(103.62) 21 - 54 (69.8 - 129.2) - 5 - 24 (23.0 - 75.2) 20(66) 15(49) S8 + UM Thermistor Nano O O O 3/4/3 Auto Auto Wireless LCD 18°C - 30°C 16°C - 30°C O O 24h, On/Off O O 3 O O O -

– : not aplicable

* Filters are optional for some specific areas. * For circuit breaker rating,please conform to local standards wherever necessary.

2008 Product Data

4. Specifications Models Cooling Capacity Heating Capacity Power Input Running Current Starting Current EER

Cooling/Heating Cooling/Heating Cooling/Heating

COP Power Supply Power Factor Air Flow Rate

Indoor,Max Outdoor,Max

Moisture Removal Sound Level

Indoor Outdoor Cooling(Outdoor) Heating(Outdoor)

Operation Range Max. Piping Length Max. Elevation Difference Tool Code(Chassis) Functions

Note: O : applied,

kW Btu/h. kW Btu/h. W A A W/W Btu/h.W W/W Ø / V / Hz % m3/min(CFM) m3/min(CFM) l/h. dB(A)±3 dB(A)±3 g(oz)

W A No.*mm2 No.*mm2 mm(in) mm(in) mm(in) mm inch mm inch kg(lbs) kg(lbs) °C(°F) °C(°F) m(ft) m(ft)

– : not aplicable

* Filters are optional for some specific areas. * For circuit breaker rating,please conform to local standards wherever necessary.

2008 Product Data

ART COOL

LS-C226G*L0 7.03 24,000 2,700/12.6/53.0/2.61 8.89 1/220-240/50 93.2 13(459) 48(1,695) 2.4 48/42/38 53 R22, 1,200(42.3) 30(0.32) Rotary QP442PBA PSC SUNISO 4GSI 700 Internal Turbo 48 Propeller AC Induction 55 20 3*2.5 3*2.5 (Including Earth) 9.52(3/8) 15.88(5/8) 21.5 / 16(0.85 / 0.63) 934*528*170 36.8*20.8*6.8 870*655*320 34.3*25.8*12.6 20(44.1) 64(141.1) 21 - 54 15(49.2) 7.5(24.6) SG + UE Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 1 O O 24h, On/Off O O 3 O -

LS-H226G*L0 6.45 22,000 6.45 22,000 2,550/2,600 12.0/12.0 53.0/53.0 2.53 8.63 2.48 1/220-240/50 92.4 13(459) 48(1,695) 2.4 48/42/38 53 R22, 1,170(41.3) 30(0.32) Rotary QP442PBA PSC SUNISO 4GSI 700 Internal Turbo 48 Propeller AC Induction 55 20 3*2.5 3*2.5+2*0.75 (Including Earth) 9.52(3/8) 15.88(5/8) 21.5 / 16(0.85 / 0.63) 934*528*170 36.8*20.8*6.8 870*655*320 34.3*25.8*12.6 20(44.1) 64(141.1) 21 - 54 1 - 24 15(49.2) 7.5(24.6) SG + UE Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

4. Specifications Models Cooling Capacity Heating Capacity Power Input Running Current Starting Current EER

Cooling/Heating Cooling/Heating Cooling/Heating

COP Power Supply Power Factor Air Flow Rate

Indoor,Max Outdoor,Max

Moisture Removal Sound Level

Indoor Outdoor Cooling(Outdoor) Heating(Outdoor)

Operation Range Max. Piping Length Max. Elevation Difference Tool Code(Chassis) Functions

Note: O : applied,

kW Btu/h. kW Btu/h. W A A W/W Btu/h.W W/W Ø / V / Hz % m3/min(CFM) m3/min(CFM) l/h. dB(A)±3 dB(A)±3 g(oz)

W A No.*mm2 No.*mm2 mm(in) mm(in) mm(in) mm inch mm inch kg(lbs) kg(lbs) °C(°F) °C(°F) m(ft) m(ft)

ART COOL

LS-C226V*L3 7.03 24,000 2,700 / 12.6 /53.0 / 53.0 2.60 8.89 1 / 220-240 / 50 93.2 13(459) 48(1,695) 2.4 48 / 42 / 38 53 R22, 1,200(42.3) 30(0.32) Rotary QP442PBA PSC SUNISO 4GSI 700 Internal Turbo 48 Propeller AC Induction 80 20 3*2.5 3*2.5 (Including Earth) 9.52(3/8) 15.88(5/8) 21.5 / 16(0.85 / 0.63) 928*522*147 36.5*20.6*5.8 870*655*320 34.3*25.8*12.6 15(33) 64(141.1) 21 - 54 15(49.2) 7.5(24.6) SV + UE Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 1 O O 24h, On/Off O O 3 O -

LS-H226V*L3 7.03 24,000 7.03 24,000 2,550 / 2,600 12.0 / 12.0 53.0 / 53.0 2.76 9.41 2.70 1 / 220-240 / 50 92.4 13(459) 48(1,695) 2.4 48 / 42 / 38 53 R22, 1,300(49.5) 30(0.32) Rotary QP442PBA PSC SUNISO 4GSI 700 Internal Turbo 48 Propeller AC Induction 80 20 3*2.5 3*2.5+2*0.75 (Including Earth) 9.52(3/8) 15.88(5/8) 21.5 / 16(0.85 / 0.63) 928*522*147 36.5*20.6*5.8 870*655*320 34.3*25.8*12.6 15(33) 64(141.1) 21 - 54 1 - 24 15(49.2) 7.5(24.6) SV + UE Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

– : not aplicable

* Filters are optional for some specific areas. * For circuit breaker rating,please conform to local standards wherever necessary.

2008 Product Data

4. Specifications Models Cooling Capacity Heating Capacity Power Input Running Current Starting Current EER

Cooling/Heating Cooling/Heating Cooling/Heating

COP Power Supply Power Factor Air Flow Rate

Indoor,Max Outdoor,Max

Moisture Removal Sound Level

Indoor Outdoor Cooling(Outdoor) Heating(Outdoor)

Operation Range Max. Piping Length Max. Elevation Difference Tool Code(Chassis) Functions

Note: O : applied,

kW Btu/h. kW Btu/h. W A A W/W Btu/h.W W/W Ø / V / Hz % m3/min(CFM) 3 m /min(CFM) l/h. dB(A)±3 dB(A)±3 g(oz)

W A No.*mm2 No.*mm2 mm(in) mm(in) mm(in) mm inch mm inch kg(lbs) kg(lbs) °C(°F) °C(°F) m(ft) m(ft)

– : not aplicable

* Filters are optional for some specific areas. * For circuit breaker rating,please conform to local standards wherever necessary.

2008 Product Data

ART COOL

LS-C2463*M5 7.03 24,000 2,700 / 12.6 50.0 2.60 8.89 1 / 220-240 / 50 93.2 16(565) 42(1,483) 2.8 44 / 41 / 37 50 R22, 1,400(49.3) 30(0.32) Rotary QP464PCA PSC SUNISO 4GSI 700 Internal Crossflow 30 Propeller AC Induction 72 20 3*2.5 3*2.5 (Including Earth) 9.52(3/8) 15.88(5/8) 21.5 / 16(0.85 / 0.63) 1,170*315*173 46.1*12.4*6.8 840*575*275 33.1*22.7*10.9 13(28.7) 48(105.8) 21 - 48 15(49.2) 7.5(24.6) S3 + UM Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 1 O O 24h, On/Off O O 3 O -

LS-H2463*M5 7.03 24,000 7.03 24,000 2,700 / 2,650 12.6 50.0 2.60 8.89 2.65 1 / 220-240 / 50 93.2 16(565) 42(1,483) 2.8 44 / 41 / 37 50 R22, 1,250(44.0) 30(0.32) Rotary QP464PCA PSC SUNISO 4GSI 700 Internal Crossflow 30 Propeller AC Induction 72 20 3*2.5 3*2.5+2*0.75 (Including Earth) 9.52(3/8) 15.88(5/8) 21.5 / 16(0.85 / 0.63) 1,170*315*173 46.1*12.4*6.8 840*575*275 33.1*22.7*10.9 13(28.7) 48(105.8) 21 - 48 1 - 24 15(49.2) 7.5(24.6) S3 + UM Thermistor O O O O 3/4/3 Auto Auto Wireless LCD 18-30 16-30 1 O O 24h, On/Off O O 3 O O O -

4. Specifications

ART COOL C246*Q

Models Cooling Capacity Heating Capacity Power Input Running Current Starting Current EER COP Power Supply Power Factor Air Flow Rate

Cooling/Heating Cooling/Heating Cooling/Heating

Indoor,Max Outdoor,Max

Moisture Removal Sound Level

Indoor Outdoor Cooling(Outdoor) Heating(Outdoor)

kW Btu/h. kW Btu/h. W A A W/W Btu/h.W W/W Ø / V / Hz % m3/min(CFM) 3 m /min(CFM) l/h. dB(A)±3 dB(A)±3 g(oz)

W A No.*mm2 No.*mm2 mm(in) mm(in) mm(in) mm inch mm inch kg(lbs) kg(lbs) °C(°F) °C(°F) m(ft) m(ft)

LS-C2468*M0 7.03 24,000 2,770 12.6 50 2.53 8.66 1/220~240/50 95.6 17.5(618) 42(1,483) 3.5 43/40/37 55 R22, 1,250(44.09) 30(0.32) Rotary(Tropical) QP464PAB PSC SUNISO 4GSI 700 Internal Cross Flow Fan 26 Propeller AC Induction 72 30 3*2.5 4*2.5(Including earth) 9.52(3/8) 15.88(5/8) 21.5,16(0.85,0.63) 1,107*299*200 43.6*11.8*7.9 840*575*275 33.1*22.7*10.9 14.1(31.09) 48(105.82) 21 - 54 (69.8 - 129.2) 20(66) 15(49) S8 + UM Thermistor Nano O O O 3/4/Auto Auto Wireless LCD 18°C - 30°C O O 24h, On/Off O O 3 O -

LS-H2468*M0 7.03 24,000 7.74 26,400 2,770 / 2,770 12.6 50 2.53 8.66 2.79 1/220~240/50 95.6 17.5(618) 42(1,483) 3.5 43/40/37 55 R22, 1,450(51.15) 30(0.32) Rotary(Tropical) QP464PAB PSC SUNISO 4GSI 700 Internal Cross Flow Fan 26 Propeller AC Induction 72 30 3*2.5 3*2.5 + 3*0.75(Including earth) 9.52(3/8) 15.88(5/8) 21.5,16(0.85,0.63) 1,107*299*200 43.6*11.8*7.9 840*575*275 33.1*22.7*10.9 14.1(31.09) 49(108.03) 21 - 54 (69.8 - 129.2) - 5 ~ 24 (23.0 ~ 75.2) 20(66) 15(49) S8 + UM Thermistor Nano O O O 3/4/3 Auto Auto Wireless LCD 18°C - 30°C 16°C - 30°C O O 24h, On/Off O O 3 O O O -

2008 Product Data

5. Dimensional drawings 5.1 Indoor Units

2008 Product Data

Indoor Units

5. Dimensional drawings

Indoor Units

2008 Product Data

5. Dimensional drawings

2008 Product Data

Indoor Units

Ă&#x2DC;70mm

110

Left rear piping

Installation plate

Right rear piping

110

Ă&#x2DC;70mm

5. Dimensional drawings Indoor Units

2008 Product Data

Ă&#x2DC;70mm

240mm

Left rear piping

1107

48 100mm

Right rear piping

Ă&#x2DC;70mm

72 58 122

32 200

Knockout hole

Note

Remark

ART COOL Mirror

76, Seongsan-dong, Changwon City, Gyeongnam, 641-713, Korea www.lge.com/airconditioner

CHASSIS CODE: S8

1. The unit should not be installed in a closed area. 2. In an area or space having no proper circulation, an air guide should be installed on the outdoor side.

Installation Plate

Air suction grille

Display & signal receiver

Part Name Front panel

No.

10 63

5. Dimensional drawings Indoor Units

299

5. Dimensional drawings

Indoor Units

2008 Product Data

5. Dimensional drawings

170

ARTCOOL WIDE

Indoor Units

Pipe Hole

934

528

2008 Product Data

Indoor Units

147

ARTCOOL WIDE

5. Dimensional drawings

Pipe Hole

928

552

2008 Product Data

5. Dimensional drawings

Outdoor Units

260

TOOL CODE : UA2

5.2 Outdoor Units

301.1 525

260 200.7

每33 6

392

575

10.5

575

75 247.7

281.1 280 375

2008 Product Data

5. Dimensional drawings

228

TOOL CODE : UA3

Outdoor Units

498 270 229

55 253.1

462.8

717

234.3

260 420

717

每3

10.7

2008 Product Data

5. Dimensional drawings

Outdoor Units

2008 Product Data

5. Dimensional drawings

275

TOOL CODE : UM

Outdoor Units

16.4

336.4

575

276

299.8

639.4

840

86 840

每4 290.3

321.8 508.5

2008 Product Data

5. Dimensional drawings

Outdoor Units

2008 Product Data

6. Wiring diagrams

Indoor Units

6.1 Indoor Units Models: LS-H076P*L3,LS-H096P*L3, LS-H096P*L6, LS-H126P*L3, LS-H126P*L6

Models: LS-H076Z*L3, LS-H076Z*L6, LS-H096Z*L5, LS-H096Z*L6, LS-H126U*M5,LS-H1863*M3, LS-H2463*M5

2008 Product Data

6. Wiring diagrams

Models: LS-H096F*L0, LS-H126F*L0

Models: LS-C126P*L3

2008 Product Data

Indoor Units

6. Wiring diagrams

Indoor Units

Models: LS-C126U*M3, LS-C1863*M3, LS-C2463*M5

Models: LS-C186V*L3, LS-C186G*L0, LS-C226G*L0, LS-C226V*L3

2008 Product Data

6. Wiring diagrams

Models: LS-H186G*L0,LS-H186V*L3, LS-H226G*L0,LS-H226V*L3

Models: LS-C1868*M0, LS-C2468*M0

2008 Product Data

Indoor Units

6. Wiring diagrams

Indoor Units

Models: LS-H1868*M0, LS-H2468*M0

2008 Product Data

6. Wiring diagrams

Outdoor Units

6.2 Outdoor Units Models: LS-H076P*L3, LS-H076Z*L3, LS-H076Z*L6,LS-H096Z*L5, LS-H096Z*L6, LS-H126U*M5

Models: LS-H096F*L0,LS-H096P*L3, LS-H096P*L6, LS-H126F*L0, LS-H126P*L3, LS-H126P*L6, LS-C126U*M3

2008 Product Data

6. Wiring diagrams

Outdoor Units

Models: LS-C126P*L3, LS-C1863*M3

Models: LS-C186G*L0, LS-C186V*L3, LS-C2463*M5

2008 Product Data

6. Wiring diagrams

Models: LS-H186G*L0, LS-H186V*L3, LS-H1863*M3, LS-H2463*M5

Models: LS-C1868*M0, LS-C2468*M0

2008 Product Data

Outdoor Units

6. Wiring diagrams

Outdoor Units

Models: LS-H1868*M0, LS-H2468*M0

Models: LS-C226G*L0, LS-C226V*L3

2008 Product Data

6. Wiring diagrams Models: LS-H226G*L0, LS-H226V*L3

2008 Product Data

Outdoor Units

7. Refrigerant cycle diagram â&#x20AC;˘ Models : Cooling Only Indoor Unit

Outdoor Unit

Liquid Side Capillary Tube

Heat Exchanger (Evaporator)

Heat Exchanger (Condenser)

Th1

Compressor Gas Side

â&#x20AC;˘ Models : Heat Pump Indoor Unit

Outdoor Unit Check Valve (Heating Model only)

Liquid Side 3-Way Valve

Capillary Tube Heat Exchanger (Evaporator)

Heat Exchanger (Condenser)

Th1

Gas Side 3-Way Valve

Reversing Valve

Accumulator

(Heating Model Only) Compressor

N.B. :Th1 = thermistor for sensing Evaporator temperature. = direction of refrigerant flow in cooling mode. = direction of refrigerant flow in Heating mode.

2008 Product Data

7. Refrigerant cycle diagram â&#x20AC;˘ Models : LS-C1868*M0, LS-C2468*M0 Indoor Unit

Outdoor Unit Capillary Tube

Liquid Side

Th2

2-Way Valve

Th1

Heat Exchanger (Evaporator)

Heat Exchanger (Condenser)

Compressor

Gas Side 3-Way Valve

Accumulator High Pressure S/W Cooling

â&#x20AC;˘ Models : LS-H1868*M0, LS-H2468*M0 Indoor Unit

Outdoor Unit

Liquid Side

Th2

Capillary Tube

2-Way Valve

Th1

Heat Exchanger (Evaporator)

Heat Exchanger (Condenser)

Gas Side Reversing Valve High Pressure S/W

3-Way Valve Accumulator

N.B. :Th1 = thermistor for sensing Indoor air temperature. Th2 = thermistor for sensing Evaporating temperature. = direction of refrigerant flow in cooling mode. = direction of refrigerant flow in Heating mode.

2008 Product Data

Compressor

Cooling Heating

8. Capacity tables

Cooling

8.1 Cooling capacity

LS-H076P*L3 / LS-H076Z*L3 / LS-H076Z*L6 Indoor Air Temperature °CWB °CDB TC 14 20 1.66 16 22 1.94 18 25 2.17 19 27 2.27 22 30 2.49 24 32 2.58

20 SHC 1.29 1.46 1.59 1.65 1.74 1.77

PI 0.46 0.47 0.47 0.48 0.49 0.49

TC 1.63 1.90 2.12 2.22 2.44 2.53

25 SHC 1.28 1.45 1.57 1.63 1.72 1.75

TC 2.09 2.44 2.73 2.85 3.13 3.25

25 SHC 1.69 1.91 2.08 2.15 2.27 2.31

PI 0.54 0.55 0.56 0.57 0.58 0.59

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 1.55 1.24 0.63 1.51 1.22 0.67 1.81 1.41 0.64 1.76 1.38 0.68 2.02 1.53 0.65 1.96 1.49 0.69 2.11 1.57 0.66 2.05 1.54 0.70 2.32 1.66 0.67 2.25 1.62 0.71 2.41 1.69 0.68 2.34 1.65 0.72

TC 1.45 1.69 1.89 1.98 2.17 2.25

40 SHC 1.19 1.34 1.45 1.50 1.58 1.60

PI 0.71 0.72 0.73 0.74 0.75 0.77

TC 1.42 1.65 1.84 1.93 2.12 2.20

43 SHC 1.17 1.32 1.43 1.47 1.55 1.57

PI 0.73 0.74 0.76 0.77 0.78 0.79

PI 0.71 0.73 0.74 0.75 0.76 0.77

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 2.00 1.64 0.83 1.94 1.61 0.88 2.33 1.86 0.85 2.26 1.82 0.89 2.60 2.01 0.86 2.52 1.97 0.90 2.72 2.08 0.87 2.64 2.03 0.92 2.98 2.20 0.88 2.89 2.14 0.93 3.10 2.23 0.90 3.00 2.17 0.95

TC 1.86 2.17 2.43 2.54 2.79 2.89

40 SHC 1.57 1.77 1.92 1.98 2.09 2.11

PI 0.93 0.95 0.96 0.98 0.99 1.01

TC 1.82 2.12 2.37 2.48 2.72 2.83

43 SHC 1.55 1.75 1.89 1.95 2.05 2.07

PI 0.96 0.98 0.99 1.01 1.02 1.04

TC 1.86 2.17 2.43 2.54 2.79 2.89

40 SHC 1.61 1.82 1.97 2.03 2.14 2.17

TC 1.82 2.12 2.37 2.48 2.72 2.83

43 SHC 1.59 1.79 1.94 2.00 2.10 2.13

PI 0.99 1.00 1.02 1.03 1.05 1.06

LS-H096F*L0 Indoor Air Temperature °CWB °CDB TC 14 20 2.14 16 22 2.50 18 25 2.79 19 27 2.91 22 30 3.20 24 32 3.32

20 SHC 1.70 1.93 2.10 2.17 2.30 2.34

PI 0.60 0.61 0.62 0.63 0.64 0.65

LS-H096P*L3 / LS-H096P*L6 Indoor Air Temperature °CWB °CDB TC 14 20 2.14 16 22 2.50 18 25 2.79 19 27 2.91 22 30 3.20 24 32 3.32

20 SHC 1.74 1.98 2.16 2.23 2.36 2.40

PI 0.62 0.63 0.63 0.65 0.65 0.66

TC 2.09 2.44 2.73 2.85 3.13 3.25

25 SHC 1.73 1.96 2.13 2.20 2.33 2.37

PI 0.73 0.74 0.75 0.77 0.78 0.79

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 2.00 1.68 0.85 1.94 1.65 0.90 2.33 1.90 0.86 2.26 1.86 0.91 2.60 2.07 0.88 2.52 2.02 0.92 2.72 2.13 0.89 2.64 2.08 0.94 2.98 2.25 0.90 2.89 2.20 0.95 3.10 2.29 0.92 3.00 2.23 0.97

• Symbol DB : Dry bulb temperature

PI 0.95 0.97 0.98 1.00 1.01 1.03

• Notes [°C]

WB : Wet bulb temperature

[°C]

1. All capacities are net, evaporator fan motor heat is deducted.

TC : Total capacity

[kW]

SHC : Sensible capacity

[kW]

3. Direct interpolation is permissible. Do not extrapolate

PI : Power Input [kW] (Comp.+ indoor fan motor+outdoor fan motor)

Indicates nominal capacity.

4. Capacities are based on the following conditions: - Interconnecting Piping Length 7.5m - Level Difference of Zero.

2008 Product Data

8. Capacity tables

Cooling

LS-H096Z*L5 / LS-H096Z*L6 Indoor Air Temperature °CWB °CDB TC 14 20 2.14 16 22 2.50 18 25 2.79 19 27 2.91 22 30 3.20 24 32 3.32

20 SHC 1.55 1.76 1.91 1.97 2.09 2.13

PI 0.60 0.61 0.62 0.63 0.64 0.65

TC 2.09 2.44 2.73 2.85 3.13 3.25

25 SHC 1.53 1.74 1.89 1.95 2.07 2.10

TC 2.68 3.12 3.48 3.65 4.00 4.15

25 SHC 2.04 2.32 2.52 2.60 2.75 2.80

TC 2.79 3.26 3.63 3.80 4.17 4.33

25 SHC 2.19 2.48 2.70 2.79 2.95 3.00

PI 0.71 0.73 0.74 0.75 0.76 0.77

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 2.00 1.49 0.83 1.94 1.46 0.88 2.33 1.69 0.85 2.26 1.65 0.89 2.60 1.83 0.86 2.52 1.79 0.90 2.72 1.89 0.87 2.64 1.85 0.92 2.98 2.00 0.88 2.89 1.95 0.93 3.10 2.03 0.90 3.00 1.98 0.95

TC 1.86 2.17 2.43 2.54 2.79 2.89

40 SHC 1.43 1.61 1.74 1.80 1.90 1.92

PI 0.93 0.95 0.96 0.98 0.99 1.01

TC 1.82 2.12 2.37 2.48 2.72 2.83

43 SHC 1.41 1.59 1.72 1.77 1.86 1.88

PI 0.96 0.98 0.99 1.01 1.02 1.04

PI 1.00 1.02 1.03 1.05 1.06 1.08

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 2.55 1.99 1.17 2.47 1.94 1.23 2.97 2.25 1.19 2.89 2.20 1.25 3.32 2.44 1.20 3.22 2.38 1.27 3.47 2.52 1.22 3.37 2.46 1.29 3.81 2.66 1.24 3.70 2.60 1.31 3.96 2.70 1.26 3.84 2.63 1.33

TC 2.38 2.78 3.10 3.24 3.56 3.70

40 SHC 1.90 2.15 2.32 2.40 2.53 2.56

PI 1.31 1.33 1.35 1.37 1.39 1.41

TC 2.33 2.71 3.03 3.17 3.48 3.61

43 SHC 1.88 2.12 2.29 2.36 2.48 2.51

PI 1.35 1.37 1.39 1.42 1.44 1.46

PI 0.97 0.99 1.00 1.02 1.03 1.05

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 2.66 2.13 1.13 2.58 2.09 1.19 3.10 2.41 1.15 3.01 2.36 1.21 3.46 2.61 1.17 3.36 2.56 1.23 3.63 2.70 1.19 3.52 2.64 1.25 3.98 2.85 1.20 3.86 2.79 1.27 4.13 2.89 1.22 4.01 2.82 1.28

TC 2.49 2.90 3.24 3.39 3.72 3.86

40 SHC 2.04 2.30 2.49 2.57 2.71 2.74

PI 1.27 1.29 1.31 1.33 1.35 1.37

TC 2.43 2.83 3.16 3.31 3.63 3.77

43 SHC 2.01 2.27 2.45 2.53 2.66 2.69

PI 1.31 1.33 1.35 1.37 1.39 1.41

LS-H126F*L0 Indoor Air Temperature °CWB °CDB TC 14 20 2.73 16 22 3.19 18 25 3.56 19 27 3.72 22 30 4.09 24 32 4.24

20 SHC 2.06 2.34 2.54 2.63 2.79 2.84

PI 0.85 0.86 0.87 0.89 0.90 0.91

LS-C126P*L3 Indoor Air Temperature °CWB °CDB TC 14 20 2.85 16 22 3.33 18 25 3.71 19 27 3.89 22 30 4.27 24 32 4.43

20 SHC 2.21 2.51 2.73 2.82 2.99 3.04

PI 0.82 0.83 0.84 0.86 0.87 0.88

• Symbol

• Notes

DB : Dry bulb temperature

[°C]

WB : Wet bulb temperature

[°C]

1. All capacities are net, evaporator fan motor heat is deducted.

TC : Total capacity

[kW]

3. Direct interpolation is permissible. Do not extrapolate

SHC : Sensible capacity

PI : Power Input [kW] (Comp.+ indoor fan motor+outdoor fan motor)

2008 Product Data

Indicates nominal capacity.

4. Capacities are based on the following conditions: - Interconnecting Piping Length 7.5m - Level Difference of Zero.

8. Capacity tables

Cooling

LS-H126P*L3 / LS-H126P*L6 Indoor Air Temperature °CWB °CDB TC 14 20 2.61 16 22 3.05 18 25 3.40 19 27 3.56 22 30 3.91 24 32 4.06

20 SHC 2.02 2.30 2.50 2.59 2.74 2.79

PI 0.82 0.83 0.84 0.86 0.87 0.88

TC 2.56 2.99 3.33 3.49 3.83 3.97

25 SHC 2.01 2.28 2.47 2.56 2.71 2.75

TC 2.79 3.26 3.63 3.80 4.17 4.33

25 SHC 2.19 2.48 2.70 2.79 2.95 3.00

TC 2.79 3.26 3.63 3.80 4.17 4.33

25 SHC 2.19 2.48 2.70 2.79 2.95 3.00

PI 0.97 0.99 1.00 1.02 1.03 1.05

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 2.44 1.95 1.13 2.37 1.91 1.19 2.85 2.21 1.15 2.76 2.16 1.21 3.18 2.40 1.17 3.08 2.34 1.23 3.32 2.47 1.19 3.22 2.42 1.25 3.65 2.62 1.20 3.54 2.55 1.27 3.78 2.65 1.22 3.67 2.59 1.28

TC 2.28 2.66 2.97 3.10 3.41 3.54

40 SHC 1.87 2.11 2.28 2.36 2.48 2.51

PI 0.93 0.95 0.96 0.98 0.99 1.00

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 2.66 2.13 1.09 2.58 2.09 1.14 3.10 2.41 1.10 3.01 2.36 1.16 3.46 2.61 1.12 3.36 2.56 1.18 3.63 2.70 1.14 3.52 2.64 1.20 3.98 2.85 1.15 3.86 2.79 1.22 4.13 2.89 1.17 4.01 2.82 1.23

TC 2.49 2.90 3.24 3.39 3.72 3.86

40 SHC 2.04 2.30 2.49 2.57 2.71 2.74

PI 1.01 1.03 1.04 1.06 1.07 1.09

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 2.66 2.13 1.18 2.58 2.09 1.24 3.10 2.41 1.20 3.01 2.36 1.26 3.46 2.61 1.21 3.36 2.56 1.28 3.63 2.70 1.23 3.52 2.64 1.30 3.98 2.85 1.25 3.86 2.79 1.32 4.13 2.89 1.27 4.01 2.82 1.34

TC 2.49 2.90 3.24 3.39 3.72 3.86

40 SHC 2.04 2.30 2.49 2.57 2.71 2.74

TC 2.23 2.60 2.90 3.03 3.33 3.45

43 SHC 1.84 2.08 2.25 2.32 2.44 2.47

PI 1.31 1.33 1.35 1.37 1.39 1.41

PI 1.22 1.24 1.26 1.28 1.29 1.31

TC 2.43 2.83 3.16 3.31 3.63 3.77

43 SHC 2.01 2.27 2.45 2.53 2.66 2.69

PI 1.26 1.28 1.30 1.32 1.34 1.35

PI 1.32 1.34 1.36 1.38 1.40 1.42

TC 2.43 2.83 3.16 3.31 3.63 3.77

43 SHC 2.01 2.27 2.45 2.53 2.66 2.69

PI 1.36 1.38 1.40 1.43 1.45 1.47

PI 1.27 1.29 1.31 1.33 1.35 1.37

LS-C126U*M3 Indoor Air Temperature °CWB °CDB TC 14 20 2.85 16 22 3.33 18 25 3.71 19 27 3.89 22 30 4.27 24 32 4.43

20 SHC 2.21 2.51 2.73 2.82 2.99 3.04

PI 0.79 0.80 0.81 0.82 0.83 0.85

LS-H126U*M5 Indoor Air Temperature °CWB °CDB TC 14 20 2.85 16 22 3.33 18 25 3.71 19 27 3.89 22 30 4.27 24 32 4.43

20 SHC 2.21 2.51 2.73 2.82 2.99 3.04

PI 0.85 0.86 0.88 0.89 0.90 0.92

• Symbol DB : Dry bulb temperature

• Notes [°C]

WB : Wet bulb temperature

[°C]

1. All capacities are net, evaporator fan motor heat is deducted.

TC : Total capacity

[kW]

SHC : Sensible capacity

[kW]

3. Direct interpolation is permissible. Do not extrapolate

PI : Power Input [kW] (Comp.+ indoor fan motor+outdoor fan motor)

Indicates nominal capacity.

4. Capacities are based on the following conditions: - Interconnecting Piping Length 7.5m - Level Difference of Zero.

2008 Product Data

8. Capacity tables

Cooling

LS-C186G*L0 Indoor Air Temperature °CWB °CDB TC 14 20 4.28 16 22 4.99 18 25 5.57 19 27 5.83 22 30 6.40 24 32 6.64

20 SHC 3.18 3.61 3.93 4.06 4.31 4.38

PI 1.22 1.24 1.26 1.28 1.29 1.31

TC 4.19 4.89 5.45 5.71 6.26 6.50

25 SHC 3.15 3.58 3.88 4.01 4.25 4.32

TC 4.19 4.89 5.45 5.71 6.26 6.50

25 SHC 3.15 3.58 3.88 4.01 4.25 4.32

PI 1.44 1.47 1.49 1.51 1.53 1.56

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 3.99 3.07 1.68 3.87 3.00 1.77 4.66 3.47 1.71 4.52 3.40 1.80 5.20 3.76 1.74 5.04 3.68 1.83 5.44 3.89 1.77 5.28 3.80 1.86 5.97 4.11 1.79 5.79 4.01 1.88 6.19 4.17 1.81 6.01 4.07 1.91

TC 3.73 4.35 4.85 5.08 5.57 5.78

40 SHC 2.94 3.32 3.59 3.70 3.90 3.95

PI 1.89 1.92 1.95 1.98 2.00 2.03

TC 3.64 4.25 4.74 4.96 5.45 5.65

43 SHC 2.90 3.27 3.53 3.64 3.83 3.88

PI 1.95 1.98 2.01 2.04 2.07 2.10

PI 1.54 1.56 1.59 1.61 1.63 1.66

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 3.99 3.07 1.79 3.87 3.00 1.89 4.66 3.47 1.82 4.52 3.40 1.92 5.20 3.76 1.85 5.04 3.68 1.95 5.44 3.89 1.88 5.28 3.80 1.98 5.97 4.11 1.90 5.79 4.01 2.01 6.19 4.17 1.93 6.01 4.07 2.03

TC 3.73 4.35 4.85 5.08 5.57 5.78

40 SHC 2.94 3.32 3.59 3.70 3.90 3.95

PI 2.01 2.04 2.07 2.11 2.13 2.16

TC 3.64 4.25 4.74 4.96 5.45 5.65

43 SHC 2.90 3.27 3.53 3.64 3.83 3.88

PI 2.08 2.11 2.14 2.18 2.20 2.24

TC 3.73 4.35 4.85 5.08 5.57 5.78

40 SHC 2.94 3.32 3.59 3.70 3.90 3.95

TC 3.64 4.25 4.74 4.96 5.45 5.65

43 SHC 2.90 3.27 3.53 3.64 3.83 3.88

PI 1.95 1.98 2.01 2.04 2.07 2.10

LS-H186G*L0 Indoor Air Temperature °CWB °CDB TC 14 20 4.28 16 22 4.99 18 25 5.57 19 27 5.83 22 30 6.40 24 32 6.64

20 SHC 3.18 3.61 3.93 4.06 4.31 4.38

PI 1.30 1.32 1.34 1.36 1.38 1.40

LS-C186V*L3/LS-H186V*L3 Indoor Air Temperature °CWB °CDB TC 14 20 4.28 16 22 4.99 18 25 5.57 19 27 5.83 22 30 6.40 24 32 6.64

20 SHC 3.18 3.61 3.93 4.06 4.31 4.38

PI 1.22 1.24 1.26 1.28 1.29 1.31

TC 4.19 4.89 5.45 5.71 6.26 6.50

25 SHC 3.15 3.58 3.88 4.01 4.25 4.32

PI 1.44 1.47 1.49 1.51 1.53 1.56

• Symbol DB : Dry bulb temperature

PI 1.89 1.92 1.95 1.98 2.00 2.03

• Notes [°C]

WB : Wet bulb temperature

[°C]

1. All capacities are net, evaporator fan motor heat is deducted.

TC : Total capacity

[kW]

SHC : Sensible capacity

[kW]

3. Direct interpolation is permissible. Do not extrapolate

PI : Power Input [kW] (Comp.+ indoor fan motor+outdoor fan motor)

2008 Product Data

Indicates nominal capacity.

4. Capacities are based on the following conditions: - Interconnecting Piping Length 7.5m - Level Difference of Zero.

8. Capacity tables

Cooling

LS-C1863*M3 Indoor Air Temperature °CWB °CDB TC 14 20 4.28 16 22 4.99 18 25 5.57 19 27 5.83 22 30 6.40 24 32 6.64

20 SHC 3.49 3.96 4.31 4.46 4.73 4.80

PI 1.30 1.32 1.34 1.36 1.38 1.40

TC 4.19 4.89 5.45 5.71 6.26 6.50

25 SHC 3.46 3.92 4.26 4.40 4.66 4.74

TC 4.19 4.89 5.45 5.71 6.26 6.50

25 SHC 3.37 3.82 4.15 4.29 4.55 4.62

PI 1.54 1.56 1.59 1.61 1.63 1.66

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 3.99 3.36 1.79 3.87 3.29 1.89 4.66 3.81 1.82 4.52 3.73 1.92 5.20 4.13 1.85 5.04 4.04 1.95 5.44 4.27 1.88 5.28 4.17 1.98 5.97 4.51 1.90 5.79 4.40 2.01 6.19 4.57 1.93 6.01 4.46 2.03

TC 3.73 4.35 4.85 5.08 5.57 5.78

40 SHC 3.22 3.64 3.94 4.06 4.28 4.33

PI 2.01 2.04 2.07 2.11 2.13 2.16

TC 3.64 4.25 4.74 4.96 5.45 5.65

43 SHC 3.18 3.58 3.87 3.99 4.20 4.25

PI 2.08 2.11 2.14 2.18 2.20 2.24

PI 1.51 1.54 1.56 1.59 1.61 1.63

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 3.99 3.28 1.77 3.87 3.21 1.86 4.66 3.71 1.79 4.52 3.63 1.89 5.20 4.03 1.82 5.04 3.94 1.92 5.44 4.16 1.85 5.28 4.06 1.95 5.97 4.39 1.87 5.79 4.29 1.98 6.19 4.46 1.90 6.01 4.35 2.00

TC 3.73 4.35 4.85 5.08 5.57 5.78

40 SHC 3.14 3.55 3.84 3.96 4.17 4.22

PI 1.98 2.01 2.04 2.07 2.10 2.13

TC 3.64 4.25 4.74 4.96 5.45 5.65

43 SHC 3.10 3.49 3.78 3.89 4.10 4.15

PI 2.04 2.08 2.11 2.14 2.17 2.20

PI 1.55 1.57 1.59 1.62 1.64 1.66

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 4.10 3.15 1.80 3.98 3.09 1.90 4.79 3.57 1.83 4.64 3.49 1.93 5.34 3.87 1.86 5.18 3.78 1.96 5.59 4.00 1.89 5.42 3.90 1.99 6.13 4.22 1.91 5.95 4.12 2.02 6.37 4.28 1.94 6.17 4.18 2.04

TC 3.83 4.47 4.99 5.22 5.73 5.95

40 SHC 3.02 3.41 3.69 3.80 4.01 4.06

PI 2.02 2.05 2.08 2.12 2.14 2.17

TC 3.74 4.37 4.87 5.10 5.60 5.81

43 SHC 2.98 3.36 3.63 3.74 3.94 3.99

PI 2.09 2.12 2.15 2.19 2.21 2.25

LS-H1863*M3 Indoor Air Temperature °CWB °CDB TC 14 20 4.28 16 22 4.99 18 25 5.57 19 27 5.83 22 30 6.40 24 32 6.64

20 SHC 3.40 3.86 4.20 4.34 4.61 4.68

PI 1.28 1.30 1.32 1.34 1.36 1.38

LS-C1868*M0 / LS-H1868*M0 Indoor Air Temperature °CWB °CDB TC 14 20 4.40 16 22 5.13 18 25 5.73 19 27 5.99 22 30 6.58 24 32 6.82

20 SHC 3.27 3.71 4.04 4.17 4.43 4.50

PI 1.30 1.32 1.34 1.37 1.38 1.40

TC 4.30 5.02 5.60 5.86 6.44 6.68

25 SHC 3.24 3.67 3.99 4.13 4.37 4.44

• Symbol DB : Dry bulb temperature

• Notes [°C]

WB : Wet bulb temperature

[°C]

1. All capacities are net, evaporator fan motor heat is deducted.

TC : Total capacity

[kW]

SHC : Sensible capacity

[kW]

3. Direct interpolation is permissible. Do not extrapolate

PI : Power Input [kW] (Comp.+ indoor fan motor+outdoor fan motor)

Indicates nominal capacity.

4. Capacities are based on the following conditions: - Interconnecting Piping Length 7.5m - Level Difference of Zero.

2008 Product Data

8. Capacity tables

Cooling

LS-C226G*L0 Indoor Air Temperature °CWB °CDB TC 14 20 5.70 16 22 6.66 18 25 7.43 19 27 7.77 22 30 8.53 24 32 8.85

20 SHC 4.18 4.75 5.16 5.34 5.66 5.76

PI 1.77 1.80 1.82 1.85 1.88 1.91

TC 5.58 6.52 7.27 7.61 8.35 8.67

25 SHC 4.14 4.70 5.11 5.28 5.59 5.68

TC 5.12 5.97 6.66 6.97 7.65 7.94

25 SHC 3.80 4.31 4.68 4.84 5.12 5.20

TC 5.58 6.52 7.27 7.61 8.35 8.67

25 SHC 4.14 4.70 5.11 5.28 5.59 5.68

PI 2.10 2.13 2.16 2.20 2.23 2.26

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 5.32 4.03 2.44 5.16 3.95 2.58 6.21 4.56 2.48 6.02 4.47 2.62 6.93 4.95 2.52 6.72 4.84 2.66 7.25 5.11 2.56 7.03 4.99 2.70 7.96 5.40 2.60 7.72 5.27 2.73 8.26 5.48 2.63 8.01 5.35 2.77

TC 4.97 5.80 6.47 6.77 7.43 7.71

40 SHC 3.86 4.36 4.72 4.87 5.13 5.19

TC 4.86 5.66 6.32 6.62 7.26 7.53

43 SHC 3.81 4.29 4.64 4.79 5.04 5.10

PI 2.74 2.78 2.82 2.87 2.91 2.95

PI 2.83 2.87 2.92 2.97 3.00 3.05

PI 1.98 2.01 2.04 2.08 2.10 2.13

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 4.88 3.70 2.31 4.73 3.62 2.43 5.69 4.18 2.34 5.52 4.09 2.47 6.35 4.54 2.38 6.16 4.44 2.51 6.65 4.69 2.42 6.45 4.58 2.55 7.29 4.95 2.45 7.08 4.83 2.58 7.57 5.02 2.49 7.34 4.90 2.62

TC 4.56 5.32 5.93 6.21 6.81 7.07

40 SHC 3.54 4.00 4.32 4.46 4.70 4.76

PI 2.59 2.63 2.67 2.71 2.75 2.79

TC 4.45 5.19 5.79 6.06 6.66 6.91

43 SHC 3.49 3.94 4.26 4.39 4.62 4.67

PI 2.67 2.71 2.76 2.80 2.84 2.88

PI 2.10 2.13 2.16 2.20 2.23 2.26

TC 4.97 5.80 6.47 6.77 7.43 7.71

40 SHC 3.86 4.36 4.72 4.87 5.13 5.19

PI 2.74 2.78 2.82 2.87 2.91 2.95

TC 4.86 5.66 6.32 6.62 7.26 7.53

43 SHC 3.81 4.29 4.64 4.79 5.04 5.10

PI 2.83 2.87 2.92 2.97 3.00 3.05

LS-H226G*L0 Indoor Air Temperature °CWB °CDB TC 14 20 5.23 16 22 6.10 18 25 6.81 19 27 7.13 22 30 7.82 24 32 8.12

20 SHC 3.83 4.35 4.73 4.89 5.19 5.28

PI 1.67 1.70 1.72 1.75 1.77 1.80

LS-C226V*L3 Indoor Air Temperature °CWB °CDB TC 14 20 5.70 16 22 6.66 18 25 7.43 19 27 7.77 22 30 8.53 24 32 8.85

20 SHC 4.18 4.75 5.16 5.34 5.66 5.76

PI 1.77 1.80 1.82 1.85 1.88 1.91

• Symbol

• Notes

DB : Dry bulb temperature

[°C]

WB : Wet bulb temperature

[°C]

1. All capacities are net, evaporator fan motor heat is deducted.

TC : Total capacity

[kW]

SHC : Sensible capacity

[kW]

3. Direct interpolation is permissible. Do not extrapolate

PI : Power Input [kW] (Comp.+ indoor fan motor+outdoor fan motor)

2008 Product Data

Indicates nominal capacity.

4. Capacities are based on the following conditions: - Interconnecting Piping Length 7.5m - Level Difference of Zero.

8. Capacity tables

Cooling

LS-H226V*L3 Indoor Air Temperature °CWB °CDB TC 14 20 5.70 16 22 6.66 18 25 7.43 19 27 7.77 22 30 8.53 24 32 8.85

20 SHC 4.18 4.75 5.16 5.34 5.66 5.76

PI 1.67 1.70 1.72 1.75 1.77 1.80

TC 5.58 6.52 7.27 7.61 8.35 8.67

25 SHC 4.14 4.70 5.11 5.28 5.59 5.68

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 5.32 4.03 2.31 5.16 3.95 2.43 6.21 4.56 2.34 6.02 4.47 2.47 6.93 4.95 2.38 6.72 4.84 2.51 7.25 5.11 2.42 7.03 4.99 2.55 7.96 5.40 2.45 7.72 5.27 2.58 8.26 5.48 2.49 8.01 5.35 2.62

TC 4.97 5.80 6.47 6.77 7.43 7.71

40 SHC 3.86 4.36 4.72 4.87 5.13 5.19

PI 2.59 2.63 2.67 2.71 2.75 2.79

PI 2.10 2.13 2.16 2.20 2.23 2.26

TC 4.97 5.80 6.47 6.77 7.43 7.71

40 SHC 3.86 4.36 4.72 4.87 5.13 5.19

PI 2.15 2.18 2.22 2.26 2.28 2.32

Outdoor Air Temperature : °CDB 32 35 TC SHC PI TC SHC PI 5.32 5.68 2.51 5.16 5.56 2.64 6.21 6.43 2.55 6.02 6.29 2.68 6.93 6.97 2.59 6.72 6.82 2.72 7.25 7.20 2.63 7.03 7.03 2.77 7.96 7.61 2.66 7.72 7.43 2.81 8.26 7.72 2.70 8.01 7.53 2.85

TC 4.97 5.80 6.47 6.77 7.43 7.71

40 SHC 5.44 6.14 6.65 6.85 7.22 7.31

PI 1.98 2.01 2.04 2.08 2.10 2.13

TC 4.86 5.66 6.32 6.62 7.26 7.53

43 SHC 3.81 4.29 4.64 4.79 5.04 5.10

PI 2.67 2.71 2.76 2.80 2.84 2.88

PI 2.74 2.78 2.82 2.87 2.91 2.95

TC 4.86 5.66 6.32 6.62 7.26 7.53

43 SHC 3.81 4.29 4.64 4.79 5.04 5.10

PI 2.83 2.87 2.92 2.97 3.00 3.05

PI 2.81 2.85 2.90 2.95 2.98 3.03

TC 4.86 5.66 6.32 6.62 7.26 7.53

43 SHC 5.36 6.05 6.54 6.74 7.10 7.18

PI 2.90 2.95 2.99 3.04 3.08 3.13

LS-C2463*M5 / LS-H2463*M5 Indoor Air Temperature °CWB °CDB TC 14 20 5.70 16 22 6.66 18 25 7.43 19 27 7.77 22 30 8.53 24 32 8.85

20 SHC 4.18 4.75 5.16 5.34 5.66 5.76

PI 1.77 1.80 1.82 1.85 1.88 1.91

TC 5.58 6.52 7.27 7.61 8.35 8.67

25 SHC 4.14 4.70 5.11 5.28 5.59 5.68

LS-C2468*M0 / LS-H2468*M0 Indoor Air Temperature °CWB °CDB TC 14 20 5.70 16 22 6.66 18 25 7.43 19 27 7.77 22 30 8.53 24 32 8.85

20 SHC 5.89 6.69 7.27 7.52 7.98 8.11

PI 1.81 1.84 1.87 1.90 1.93 1.96

TC 5.58 6.52 7.27 7.61 8.35 8.67

25 SHC 5.84 6.62 7.19 7.43 7.87 8.00

• Symbol

• Notes

DB : Dry bulb temperature

[°C]

WB : Wet bulb temperature

[°C]

1. All capacities are net, evaporator fan motor heat is deducted.

TC : Total capacity

[kW]

SHC : Sensible capacity

[kW]

3. Direct interpolation is permissible. Do not extrapolate

PI : Power Input [kW] (Comp.+ indoor fan motor+outdoor fan motor)

Indicates nominal capacity.

4. Capacities are based on the following conditions: - Interconnecting Piping Length 7.5m - Level Difference of Zero.

2008 Product Data

8. Capacity tables

Heating

8.2 Heating capacity

LS-H076P*L3/LS-H076Z*L3/LS-H076Z*L6 Indoor Air Temperature

-10

-5

Outdoor Air Temperature : °CWB 2 4 6 TC PI TC PI TC PI

°CDB

1.44

0.46

1.70

0.50

1.97

0.55

2.07

0.56

2.17

0.58

2.29

1.40

0.47

1.65

0.52

1.91

0.56

2.00

0.58

2.10

0.60

2.22

1.36

0.49

1.60

0.53

1.85

0.58

1.94

0.60

2.04

0.62

1.31

0.50

1.54

0.55

1.78

0.60

1.87

0.62

1.96

0.64

1.26

0.52

1.49

0.57

1.72

0.62

1.81

0.64

1.89

0.66

0.59

2.48

0.62

2.74

0.66

0.61

2.40

0.64

2.65

0.69

2.14

0.63

2.33

0.66

2.57

0.71

2.07

0.65

2.24

0.68

2.48

0.73

2.00

0.67

2.17

0.70

2.39

0.75

LS-H096F*L0 Indoor Air Temperature

-10

-5

Outdoor Air Temperature : °CWB 2 4 6 TC PI TC PI TC PI

°CDB

1.88

0.61

2.21

0.66

2.56

0.72

2.69

0.74

2.82

0.76

2.98

0.78

3.23

0.82

3.56

0.88

1.82

0.63

2.14

0.68

2.48

0.74

2.61

0.77

2.73

0.79

2.88

0.80

3.12

0.85

3.45

0.91

1.77

0.65

2.08

0.71

2.41

0.77

2.53

0.79

2.65

0.82

2.78

0.83

3.03

0.87

3.34

0.94

1.70

0.67

2.01

0.73

2.32

0.79

2.44

0.82

2.55

0.84

2.70

0.86

2.92

0.90

3.22

0.97

1.64

0.69

1.94

0.75

2.24

0.82

2.35

0.84

2.47

0.87

2.61

0.88

2.82

0.93

3.11

1.00

LS-H096P*L3/LS-H096P*L6 Indoor Air Temperature

-10

-5

Outdoor Air Temperature : °CWB 2 4 6 TC PI TC PI TC PI

°CDB

1.84

0.66

2.17

0.73

2.51

0.79

2.63

0.81

2.76

0.84

2.92

0.85

3.16

0.90

3.48

0.96

1.78

0.69

2.10

0.75

2.43

0.82

2.55

0.84

2.67

0.87

2.82

0.88

3.06

0.93

3.37

0.99

1.73

0.71

2.04

0.77

2.36

0.84

2.47

0.87

2.59

0.90

2.72

0.91

2.97

0.96

3.27

1.03

1.67

0.73

1.96

0.80

2.27

0.87

2.39

0.90

2.50

0.92

2.64

0.94

2.86

0.99

3.16

1.06

1.61

0.75

1.90

0.82

2.19

0.90

2.30

0.92

2.41

0.95

2.55

0.97

2.76

1.02

3.05

1.09

• Symbol DB : Dry bulb temperature

• Notes [°C]

WB : Wet bulb temperature

[°C]

1. All capacities are net, evaporator fan motor heat is deducted.

TC : Total capacity

[kW]

SHC : Sensible capacity

[kW]

3. Direct interpolation is permissible. Do not extrapolate

PI : Power Input [kW] (Comp.+ indoor fan motor+outdoor fan motor)

2008 Product Data

Indicates nominal capacity.

4. Capacities are based on the following conditions: - Interconnecting Piping Length 7.5m - Level Difference of Zero.

8. Capacity tables

Heating

LS-H096Z*L5 / LS-H096Z*L6 Indoor Air Temperature

-10

-5

Outdoor Air Temperature : °CWB 2 4 6 TC PI TC PI TC PI

°CDB

1.84

0.62

2.17

0.68

2.51

0.74

2.63

0.76

2.76

0.78

2.92

1.78

0.64

2.10

0.70

2.43

0.76

2.55

0.79

2.67

0.81

2.82

1.73

0.66

2.04

0.72

2.36

0.79

2.47

0.81

2.59

0.84

1.67

0.68

1.96

0.75

2.27

0.81

2.39

0.84

2.50

0.86

1.61

0.70

1.90

0.77

2.19

0.84

2.30

0.86

2.41

0.89

0.80

3.16

0.84

3.48

0.90

0.82

3.06

0.87

3.37

0.93

2.72

0.85

2.97

0.90

3.27

0.96

2.64

0.88

2.86

0.92

3.16

0.99

2.55

0.90

2.76

0.95

3.05

1.02

LS-H126F*L0 Indoor Air Temperature

-10

-5

Outdoor Air Temperature : °CWB 2 4 6 TC PI TC PI TC PI

°CDB

2.47

0.89

2.91

0.97

3.37

1.06

3.54

1.09

3.71

1.12

3.92

1.14

4.24

1.20

4.68

1.29

2.40

0.92

2.82

1.01

3.26

1.09

3.43

1.13

3.59

1.16

3.80

1.18

4.11

1.24

4.54

1.33

2.32

0.95

2.74

1.04

3.17

1.13

3.33

1.17

3.49

1.20

3.66

1.22

3.99

1.29

4.40

1.38

2.24

0.98

2.64

1.07

3.05

1.17

3.21

1.20

3.36

1.24

3.55

1.26

3.84

1.33

4.24

1.42

2.16

1.01

2.55

1.10

2.95

1.20

3.10

1.24

3.24

1.28

3.43

1.30

3.71

1.37

4.10

1.46

LS-H126P*L3/LS-H126P*L6 Indoor Air Temperature

-10

-5

Outdoor Air Temperature : °CWB 2 4 6 TC PI TC PI TC PI

°CDB

2.47

0.89

2.91

0.97

3.37

1.06

3.54

1.09

3.71

1.12

3.92

1.14

4.24

1.20

4.68

1.29

2.40

0.92

2.82

1.01

3.26

1.09

3.43

1.13

3.59

1.16

3.80

1.18

4.11

1.24

4.54

1.33

2.32

0.95

2.74

1.04

3.17

1.13

3.33

1.17

3.49

1.20

3.66

1.22

3.99

1.29

4.40

1.38

2.24

0.98

2.64

1.07

3.05

1.17

3.21

1.20

3.36

1.24

3.55

1.26

3.84

1.33

4.24

1.42

2.16

1.01

2.55

1.10

2.95

1.20

3.10

1.24

3.24

1.28

3.43

1.30

3.71

1.37

4.10

1.46

• Symbol

• Notes

DB : Dry bulb temperature

[°C]

WB : Wet bulb temperature

[°C]

1. All capacities are net, evaporator fan motor heat is deducted.

TC : Total capacity

[kW]

3. Direct interpolation is permissible. Do not extrapolate

SHC : Sensible capacity

PI : Power Input [kW] (Comp.+ indoor fan motor+outdoor fan motor)

Indicates nominal capacity.

4. Capacities are based on the following conditions: - Interconnecting Piping Length 7.5m - Level Difference of Zero.

2008 Product Data

8. Capacity tables

Heating

LS-H126U*M5 Indoor Air Temperature

-10

-5

Outdoor Air Temperature : °CWB 2 4 6 TC PI TC PI TC PI

°CDB

2.61

0.91

3.08

1.00

3.56

1.08

3.74

1.12

3.92

1.15

4.14

2.53

0.94

2.98

1.03

3.45

1.12

3.62

1.16

3.79

1.19

4.01

2.45

0.97

2.89

1.06

3.34

1.16

3.51

1.19

3.68

1.23

2.37

1.00

2.79

1.10

3.22

1.20

3.39

1.23

3.55

1.27

2.28

1.04

2.69

1.13

3.11

1.23

3.27

1.27

3.43

1.31

1.17

4.48

1.23

4.95

1.32

1.21

4.34

1.28

4.79

1.37

3.87

1.25

4.21

1.32

4.65

1.41

3.75

1.29

4.06

1.36

4.48

1.46

3.62

1.33

3.92

1.40

4.33

1.50

LS-H186G*L0 Indoor Air Temperature

-10

-5

Outdoor Air Temperature : °CWB 2 4 6 TC PI TC PI TC PI

°CDB

3.66

1.50

4.31

1.64

4.99

1.79

5.24

1.84

5.49

1.90

5.80

1.93

6.28

2.03

6.93

2.18

3.54

1.55

4.18

1.70

4.83

1.85

5.07

1.91

5.32

1.96

5.62

2.00

6.08

2.10

6.71

2.25

3.44

1.60

4.05

1.75

4.69

1.91

4.92

1.97

5.16

2.03

5.42

2.06

5.90

2.17

6.51

2.32

3.32

1.65

3.91

1.81

4.52

1.97

4.75

2.03

4.97

2.09

5.25

2.13

5.69

2.24

6.28

2.40

3.20

1.71

3.77

1.86

4.36

2.03

4.58

2.09

4.80

2.16

5.07

2.19

5.49

2.31

6.06

2.47

LS-H186V*L3 Indoor Air Temperature

-10

-5

Outdoor Air Temperature : °CWB 2 4 6 TC PI TC PI TC PI

°CDB

3.66

1.44

4.31

1.58

4.99

1.72

5.24

1.77

5.49

1.82

5.80

1.86

6.28

1.95

6.93

2.09

3.54

1.49

4.18

1.63

4.83

1.78

5.07

1.83

5.32

1.89

5.62

1.92

6.08

2.02

6.71

2.16

3.44

1.54

4.05

1.68

4.69

1.84

4.92

1.89

5.16

1.95

5.42

1.98

5.90

2.09

6.51

2.23

3.32

1.59

3.91

1.74

4.52

1.89

4.75

1.95

4.97

2.01

5.25

2.04

5.69

2.15

6.28

2.31

3.20

1.64

3.77

1.79

4.36

1.95

4.58

2.01

4.80

2.07

5.07

2.11

5.49

2.22

6.06

2.38

• Symbol

• Notes

DB : Dry bulb temperature

[°C]

WB : Wet bulb temperature

[°C]

1. All capacities are net, evaporator fan motor heat is deducted.

TC : Total capacity

[kW]

SHC : Sensible capacity

[kW]

3. Direct interpolation is permissible. Do not extrapolate

PI : Power Input [kW] (Comp.+ indoor fan motor+outdoor fan motor)

2008 Product Data

Indicates nominal capacity.

4. Capacities are based on the following conditions: - Interconnecting Piping Length 7.5m - Level Difference of Zero.

8. Capacity tables

Heating

LS-H1863*M3 Indoor Air Temperature

-10

-5

Outdoor Air Temperature : °CWB 2 4 6 TC PI TC PI TC PI

°CDB

3.86

1.39

4.55

1.51

5.26

1.65

5.52

1.70

5.79

1.75

6.12

3.74

1.43

4.40

1.57

5.09

1.71

5.35

1.76

5.60

1.81

5.92

3.63

1.48

4.27

1.62

4.94

1.76

5.19

1.82

5.44

1.87

3.49

1.53

4.12

1.67

4.76

1.82

5.00

1.87

5.24

1.93

3.37

1.57

3.98

1.72

4.60

1.87

4.83

1.93

5.06

1.99

1.78

6.62

1.87

7.31

2.01

1.84

6.41

1.94

7.08

2.08

5.71

1.90

6.22

2.00

6.86

2.14

5.54

1.96

5.99

2.07

6.62

2.21

5.35

2.02

5.79

2.13

6.39

2.28

LS-H1868*M0 Indoor Air Temperature

-10

-5

Outdoor Air Temperature : °CWB 2 4 6 TC PI TC PI TC PI

°CDB

3.92

1.34

4.62

1.47

5.34

1.60

5.61

1.65

5.88

1.70

6.21

1.72

6.72

1.82

7.42

1.94

3.79

1.39

4.47

1.52

5.17

1.65

5.43

1.70

5.69

1.75

6.01

1.78

6.51

1.88

7.18

2.01

3.68

1.43

4.34

1.57

5.02

1.71

5.27

1.76

5.52

1.81

5.80

1.84

6.31

1.94

6.97

2.08

3.55

1.48

4.18

1.62

4.84

1.76

5.08

1.81

5.32

1.87

5.62

1.90

6.09

2.00

6.72

2.14

3.43

1.52

4.04

1.67

4.67

1.81

4.90

1.87

5.14

1.93

5.43

1.96

5.88

2.06

6.49

2.21

LS-H226G*L0 Indoor Air Temperature

-10

-5

Outdoor Air Temperature : °CWB 2 4 6 TC PI TC PI TC PI

°CDB

4.35

1.90

5.13

2.07

5.93

2.26

6.23

2.33

6.53

2.40

6.90

2.44

7.47

2.57

8.24

2.75

4.22

1.96

4.97

2.14

5.75

2.33

6.03

2.40

6.32

2.48

6.68

2.52

7.23

2.65

7.98

2.84

4.09

2.02

4.82

2.21

5.57

2.41

5.85

2.48

6.13

2.56

6.44

2.60

7.02

2.74

7.74

2.93

3.94

2.09

4.64

2.28

5.37

2.49

5.64

2.56

5.91

2.64

6.25

2.68

6.76

2.83

7.47

3.03

3.81

2.15

4.48

2.35

5.19

2.56

5.45

2.64

5.71

2.72

6.03

2.77

6.53

2.91

7.21

3.12

• Symbol

• Notes

DB : Dry bulb temperature

[°C]

WB : Wet bulb temperature

[°C]

1. All capacities are net, evaporator fan motor heat is deducted.

TC : Total capacity

[kW]

3. Direct interpolation is permissible. Do not extrapolate

SHC : Sensible capacity

PI : Power Input [kW] (Comp.+ indoor fan motor+outdoor fan motor)

Indicates nominal capacity.

4. Capacities are based on the following conditions: - Interconnecting Piping Length 7.5m - Level Difference of Zero.

2008 Product Data

8. Capacity tables

Heating

LS-H226V*L3 Indoor Air Temperature

-10

-5

Outdoor Air Temperature : °CWB 2 4 6 TC PI TC PI TC PI

°CDB

4.75

1.90

5.59

2.07

6.47

2.26

6.80

2.33

7.12

2.40

7.53

4.60

1.96

5.42

2.14

6.27

2.33

6.58

2.40

6.90

2.48

7.29

4.46

2.02

5.26

2.21

6.08

2.41

6.39

2.48

6.69

2.56

4.30

2.09

5.07

2.28

5.86

2.49

6.16

2.56

6.45

2.64

4.15

2.15

4.89

2.35

5.66

2.56

5.94

2.64

6.23

2.72

2.44

8.15

2.57

8.99

2.75

2.52

7.89

2.65

8.71

2.84

7.03

2.60

7.65

2.74

8.45

2.93

6.82

2.68

7.38

2.83

8.14

3.03

6.58

2.77

7.12

2.91

7.86

3.12

LS-H2463*M5 Indoor Air Temperature

-10

-5

Outdoor Air Temperature : °CWB 2 4 6 TC PI TC PI TC PI

°CDB

4.75

1.93

5.59

2.11

6.47

2.30

6.80

2.37

7.12

2.44

7.53

2.48

8.15

2.61

8.99

2.80

4.60

2.00

5.42

2.18

6.27

2.38

6.58

2.45

6.90

2.52

7.29

2.57

7.89

2.70

8.71

2.90

4.46

2.06

5.26

2.25

6.08

2.46

6.39

2.53

6.69

2.61

7.03

2.65

7.65

2.79

8.45

2.99

4.30

2.13

5.07

2.33

5.86

2.53

6.16

2.61

6.45

2.69

6.82

2.74

7.38

2.88

8.14

3.09

4.15

2.19

4.89

2.40

5.66

2.61

5.94

2.69

6.23

2.77

6.58

2.82

7.12

2.97

7.86

3.18

LS-H2468*M0 Indoor Air Temperature

-10

-5

Outdoor Air Temperature : °CWB 2 4 6 TC PI TC PI TC PI

°CDB

5.23

2.02

6.16

2.21

7.13

2.40

7.48

2.48

7.84

2.55

8.29

2.60

8.97

2.73

9.90

2.93

5.06

2.09

5.96

2.28

6.90

2.49

7.25

2.56

7.59

2.64

8.02

2.68

8.69

2.83

9.59

3.03

4.91

2.16

5.79

2.36

6.69

2.57

7.03

2.65

7.37

2.73

7.74

2.77

8.43

2.92

9.30

3.13

4.73

2.23

5.58

2.43

6.45

2.65

6.78

2.73

7.10

2.81

7.50

2.86

8.12

3.01

8.97

3.23

4.57

2.29

5.39

2.51

6.23

2.73

6.54

2.81

6.86

2.90

7.25

2.95

7.84

3.10

8.66

3.32

• Symbol

• Notes

DB : Dry bulb temperature

[°C]

WB : Wet bulb temperature

[°C]

1. All capacities are net, evaporator fan motor heat is deducted.

TC : Total capacity

[kW]

SHC : Sensible capacity

[kW]

3. Direct interpolation is permissible. Do not extrapolate

PI : Power Input [kW] (Comp.+ indoor fan motor+outdoor fan motor)

2008 Product Data

Indicates nominal capacity.

4. Capacities are based on the following conditions: - Interconnecting Piping Length 7.5m - Level Difference of Zero.

9. Capacity coefficient fector Cooling

Capacity(%)

100 18k_S8 Chassis 24k_S8 Chassis

07k/09k/12k 18k/22k/24k 90

70 7.5

Total Pipe Length(m)

Heating

Capacity(%)

100 18k_S8 Chassis 24k_S8 Chassis

07k/09k/12k 18k/22k/24k 90

70 7.5

Total Pipe Length(m)

2008 Product Data

9. Capacity coefficient fector Max. Pipe Length(m)

Capacity(Btu/h) 07k 09k 12k 18k 22k 24k 18k (S8 Chassis) 24k (S8 Chassis)

Max. Elevation (m)

Additional Refrigerant[g/m(oz/ft)] 20(0.22)

15.0

7.5 30(0.32)

20.0

7.5

20(0.22) 30(0.32)

Notes ❈ Equivalent pipe length = actual pipe length + number of band x 0.3 Indoor unit

CAUTION:

Outdoor unit Outdoor unit

A B

A Outdoor unit

Indoor unit

Oil trap

Indoor unit

• Capacity is based on standard length and maximum allowance length is on the basis of reliability. • Oil trap should be installed every 5~7 meters.

If piping length is more than 5m

Notes ❈ Equivalent pipe length = actual pipe length + number of band x 0.3 ❈ Additional Refrigerant Charge Example: For Model No. LS-H076P*L3 having 15m pipe length, additional refrigerant to be charged is (15-7.5) x 20 = 150g

2008 Product Data

10. Operation range Without Low Ambient Kit Cooling

Heating

46 Operative

21 Operative

-5 18

Warming up Operation

Continuous operation

Outdoor Unit [°C DB]

Standard operation

-5 Operative

-10 16

32 Indoor Unit [°C DB]

30 Indoor Unit [°C DB]

Operative: Intermittent operation due to the operational conditions (indoor/outdoor temperature, humidity, load etc.) can cause the heating capacity to decrease

With Low Ambient Kit Cooling

Heating

46 Operative

Continuous operation

-5 18

32 Indoor Unit [°C DB]

❈ If outdoor temperature falls below 0˚C, the cooling capacity and operating characteristics could be different than rated.

Warming up Operation

24 Outdoor Unit [°C DB]

Outdoor Unit [°C DB]

Standard operation

-5 Operative

-10 16

30 Indoor Unit [°C DB]

Operative: Intermittent operation due to the operational conditions (indoor/outdoor temperature, humidity, load etc.) can cause the heating capacity to decrease

2008 Product Data

10. Operation range Tropical Model only Cooling

Heating

Continuous operation

24 Operation Warming up

Outdoor Unit [°C DB]

Continuous operation

0 Operative -5

Indoor Unit [°C DB] • Although low ambient kit is installed, in case outdoor temperature goes below 0°C, the cooling capacity can be dropped and operation characteristics can be slightly different.

2008 Product Data

Indoor Unit [°C DB] Operative: Intermittent operation according to operation condition (indoor/outdoor temperature, humidity, and load) the heating capacity can be drop

11. Air Velocity and temperature distribution(Reference data) ART COOL Deluxe 7kBtu/h Cooling

Heating

Discharge angle:45°

Discharge angle:50°

Air velocity [m/s]

2.7m

Air velocity [m/s]

2.7m

1.0

1.0 1m

0.75

0.75 0.5 5m

0.5 0m 0m

Temperature [˚C]

2.7m

0m 0m

Temperature [˚C]

2.7m

30 29

25 5m

0m 0m

ART COOL Deluxe 9kBtu/h Cooling

Heating

Discharge angle:45°

Discharge angle:50°

Air velocity [m/s]

2.7m

Air velocity [m/s]

2.7m

2m 1.2 1.0

1.0 1m

0.75

0.75 0.5 5m

0.5 0m 0m

Temperature [˚C]

2.7m

Temperature [˚C]

2.7m

25 3m

28 29

24 2m

0m 0m

30 2m

0m 0m

2008 Product Data

11. Air Velocity and temperature distribution(Reference data) ART COOL Deluxe 12kBtu/h Cooling

Heating

Discharge angle:45°

Discharge angle:50° Air velocity [m/s]

Air velocity [m/s]

2.7m

1.2 1.0

1.0

0.75

0.5

0.75

0.5 2m

0m 0m

Temperature [˚C]

2.7m

0m 0m

Temperature [˚C]

2.7m

29 24

25 5m

0m 0m

28 5m

0m 0m

ART COOL Standard 12kBtu/h Cooling

Heating

Discharge angle:45°

Air velocity [m/s]

2.7m

Air velocity [m/s]

2.7m

1.2 1.0

1.0

0.75 0.5 5m

0.75

0.5

0m 0m

Temperature [˚C]

2.7m

29 24

25 5m

2008 Product Data

28 1m

0m 0m

11. Air Velocity and temperature distribution(Reference data) ART COOL 18 kBtu/h Cooling

Heating

Discharge angle:45°

Discharge angle:50° Air velocity [m/s]

Air velocity [m/s]

1.5 1.25

2.7m

2m 1.5 1.25

1.0 0.5 5m

0.75

19 25 4m

0m 0m

Temperature [˚C]

0.75

0.5

23 2m

1.0

2.7m

0m 0m

33 27

25 5m

0m 0m

2008 Product Data

12. Sound levels 12.1 Indoor Units Overall Notes: - Sound measured at 1m away from the center of the unit. - Data is valid at free field condition. - Data is valid at nominal operation condition. - Reference accoustic pressure 0dB=20µPa. - Sound level will vary depending on a range of factors such as the construction(acoustic absorption coefficient) of particular room in which the equipment is installed. - The operating conditions are assumed to be standard.

1m 0.8m Microphone Sound Levels [dB(A)] H M L 34 25 30

Model LS-H076P*L3 LS-H076Z*L3 LS-H076Z*L6 LS-H096F*L0 LS-H096P*L3 LS-H096P*L6 LS-H096Z*L5 LS-H096Z*L6 LS-H126F*L0 LS-C126P*L3 LS-H126P*L3 LS-H126P*L6 LS-C126U*M3 LS-H126U*M5

42 43

36 37

30 31

36 37

32 33

30 29

LS-C186G*L0 LS-H186G*L0 LS-C186V*L3 LS-H186V*L3 LS-C1863*M3 LS-H1863*M3 LS-C1868*M0 LS-H1868*M0 LS-C226G*L0 LS-H226G*L0 LS-C226V*L3 LS-H226V*L3 LS-C2463*M5 LS-H2463*M5 LS-C2468*M0 LS-H2468*M0

Sound Pressure Level

44 44

41 41

31 37

LS-H076Z*L3, LS-H076Z*L6

NC-65

60 NC-60

NC-55

NC-50 NC-45

NC-40

NC-35

NC-30

Approximate Hearing Threshold 63

NC-65

125

250

500

1000

2000

4000

NC-55

NC-50 NC-45

NC-40

NC-35

NC-30

NC-25

NC-15

Octave Band Center Frequency (Hz)

125

250

500

1000

2000

4000

LS-H096P*L3, LS-H096P*L6

NC-65

60 NC-60

NC-55

NC-50 NC-45

NC-40

NC-35

NC-30

NC-25

Approximate Hearing Threshold

NC-15

10 63

125

250

500

1000

2000

4000

8000

Octave Band Center Frequency (Hz)

2008 Product Data

NC-40

NC-35

NC-30

NC-25

Approximate Hearing Threshold

NC-20 NC-15

10 63

125

250

500

1000

2000

4000

8000

Octave Band Center Frequency (Hz)

LS-H126F*L0 80

High Middle Low

NC-65

NC-60

NC-55

NC-50 NC-45

NC-40

NC-35

NC-30

NC-25

Approximate Hearing Threshold

NC-20

NC-45

LS-H096Z*L5, LS-H096Z*L6 Sound Pressure Level (dB re 20µPa )

High Middle Low

NC-50

8000

NC-55

Octave Band Center Frequency (Hz)

NC-60

NC-20

8000

NC-65

NC-60

Approximate Hearing Threshold

NC-15

High Middle Low

NC-20

High Middle Low

NC-25

LS-H096F*L0 80

Sound Pressure Level (dB re 20µPa )

High Middle Low

Sound Pressure Level (dB re 20µPa )

LS-H076P*L3 80

Sound Levels [dB(A)] H M L

Model

NC-15

125

250

500

1000

2000

4000

8000

Octave Band Center Frequency (Hz)

NC-55

NC-50 NC-45

NC-40

NC-35

NC-30

NC-25

Approximate Hearing Threshold

NC-20

NC-60

NC-20 NC-15

10 63

125

250

500

1000

2000

4000

8000

Octave Band Center Frequency (Hz)

12. Sound levels LS-H126P*L3, LS-H126P*L6 80

Sound Pressure Level (dB re 20µPa )

NC-65

60 NC-60

NC-55

NC-50 NC-45

NC-40

NC-35

NC-30

250

500

1000

2000

4000

NC-35

NC-30

NC-25

NC-15

125

250

500

1000

2000

4000

8000

Sound Pressure Level (dB re 20µPa )

NC-65

60 NC-60

NC-55

NC-50 NC-45

NC-40

NC-35

NC-30

125

250

500

1000

2000

4000

NC-65

NC-60

NC-55

NC-50 NC-45

NC-40

NC-35

NC-30

NC-25

NC-15

70 NC-70 NC-65

NC-60 NC-55

NC-50 NC-45

NC-40 NC-35

NC-30 NC-25

Sound Pressure Level (dB re 20µPa )

125

250

500

1000

2000

4000

NC-65

NC-60

NC-55

NC-50 NC-45

NC-40

NC-35

NC-30

NC-25

Approximate Hearing Threshold

500

1000

2000

4000

8000

1000

2000

4000

8000

High Middle Low

NC-65

60 NC-60

NC-55

NC-50 NC-45

NC-40

NC-35

NC-30

NC-25

Approximate Hearing Threshold

NC-20 NC-15

10 63

125

250

500

1000

2000

4000

8000

Octave Band Center Frequency (Hz)

LS-C2463*M5, LS-H2463*M5

NC-15

125

250

500

1000

2000

4000

8000

Octave Band Center Frequency (Hz)

High Middle Low

NC-65

60 NC-60

NC-55

NC-50 NC-45

NC-40

NC-35

NC-30

NC-25

Approximate Hearing Threshold

NC-20

Octave Band Center Frequency (Hz)

500

NC-15

250

LS-C1863*M3, LS-H1863*M3

8000

High Middle Low

NC-20

125

Octave Band Center Frequency (Hz)

250

NC-15

LS-C226G*L0, LS-H226G*L0 LS-C226V*L3, LS-H226V*L3

NC-20

Octave Band Center Frequency (Hz)

LS-C1868*M0 LS-H1868*M0

125

NC-25

Approximate Hearing Threshold

NC-20

8000

Octave Band Center Frequency (Hz)

NC-30

Approximate Hearing Threshold

NC-15

NC-20

High Middle Low

NC-25

Approximate Hearing Threshold

NC-35

NC-40

Octave Band Center Frequency (Hz)

High Middle Low

NC-45

NC-20

NC-50

LS-C186G*L0, LS-H186G*L0 LS-C186V*L3, LS-H186V*L3

NC-55

NC-40

LS-H126U*M5

Sound Pressure Level (dB re 20µPa )

NC-45

8000

NC-60

NC-50

Octave Band Center Frequency (Hz)

Sound Pressure Level (dB re 20µPa )

NC-55

Sound Pressure Level (dB re 20µPa )

125

NC-65

NC-60

Approximate Hearing Threshold

NC-15

10 63

NC-65

NC-20

High Middle Low

NC-25

Approximate Hearing Threshold

High Middle Low

Sound Pressure Level (dB re 20µPa )

High Middle Low

LS-C126U*M3 80

Sound Pressure Level (dB re 20µPa )

LS-C126P*L3 80

NC-20 NC-15

10 63

125

250

500

1000

2000

4000

8000

Octave Band Center Frequency (Hz)

2008 Product Data

12. Sound levels

LS-C2468*M0 LS-H2468*M0 90

Sound Pressure Level (dB re 20 Pa)

70 NC-70 NC-65

NC-60 NC-55

NC-50 NC-45

NC-40 NC-35

NC-30 NC-25

NC-20 NC-15

10 63

125

250

500

1000

2000

4000

Octave Band Center Frequency (Hz)

2008 Product Data

8000

12. Sound levels 12.2 Outdoor Units Overall Notes: - Sound measured at 1m away from the center of the unit. - Data is valid at free field condition. - Data is valid at nominal operation condition. - Reference accoustic pressure 0dB=20µPa. - Sound level will vary depending on a range of factors such as the construction(acoustic absorption coefficient) of particular room in which the equipment is installed. - The operating conditions are assumed to be standard.

Center of Outdoor Unit

Sound Levels [dB(A)] H

Model LS-H076P*L3 LS-H076Z*L3 LS-H076Z*L6 LS-H096F*L0 LS-H096P*L3 LS-H096P*L6 LS-H096Z*L5 LS-H096Z*L6 LS-H126F*L0 LS-C126P*L3 LS-H126P*L3 LS-H126P*L6 LS-C126U*M3 LS-H126U*M5

LS-C186G*L0 LS-H186G*L0 LS-C186V*L3 LS-H186V*L3 LS-C1863*M3 LS-H1863*M3 LS-C1868*M0 LS-H1868*M0 LS-C226G*L0 LS-H226G*L0 LS-C226V*L3 LS-H226V*L3 LS-C2463*M5 LS-H2463*M5 LS-C2468*M0 LS-H2468*M0

Sound Pressure Level LS-H076P*L3 LS-H076Z*L3 LS-H076Z*L6 LS-H096F*L0

Sound Levels [dB(A)] H

Model

LS-H096P*L3 LS-H096P*L6 LS-H096Z*L5 LS-H096Z*L6

LS-H126F*L0 LS-C126P*L3 LS-H126P*L3

50 55

LS-H126P*L6 LS-C126U*M3 LS-H126U*M5

LS-C1868*M0 LS-H1868*M0

NC-65

NC-55

NC-50 NC-45

NC-40

NC-35

NC-30

125

250

500

1000

2000

4000

NC-45

NC-40

NC-35

NC-30

NC-25

Approximate Hearing Threshold

NC-15

NC-50

NC-20

NC-55

NC-25

Approximate Hearing Threshold

60 NC-60

125

Octave Band Center Frequency (Hz)

LS-C186G*L0 LS-H186G*L0 LS-C186V*L3

NC-55

50 NC-50

250

500

1000

2000

4000

NC-40

NC-30

8000

LS-C226G*L0 LS-C226V*L3 LS-H226G*L0 LS-H226V*L3

NC-65

NC-45

NC-40

NC-35

NC-30

NC-25

NC-15

125

250

500

1000

2000

4000

Octave Band Center Frequency (Hz)

8000

NC-55

NC-50 NC-45

NC-40

NC-35

NC-30

NC-25

Approximate Hearing Threshold

NC-20

10 63

NC-60

NC-15

125

250

500

1000

2000

4000

Octave Band Center Frequency (Hz)

1000

2000

4000

8000

LS-C2463*M5 LS-H2463*M5

NC-60

NC-55

NC-50 NC-45

NC-40

NC-35

NC-30

NC-25

Approximate Hearing Threshold

NC-20

10 63

Sound Pressure Level (dB re 20µPa )

NC-50

Sound Pressure Level (dB re 20µPa )

NC-55

500

60 NC-60

250

NC-65

Approximate Hearing Threshold

NC-15

125

Octave Band Center Frequency (Hz)

NC-20

NC-25

Appr oximate Hearing Thr eshold

NC-35

Octave Band Center Frequency (Hz)

LS-H186V*L3 LS-C1863*M3 LS-H1863*M3

NC-45

NC-15

NC-60

NC-20

8000

Sound Pressure Level (dB re 20µPa )

NC-60

Sound Pressure Level (dB re 20µPa )

NC-20 NC-15

10 63

125

250

500

1000

2000

4000

8000

Octave Band Center Frequency (Hz)

2008 Product Data

12. Sound levels LS-C2468*M0 LS-H2468*M0 80

NC-65

Sound Pressure Level (dB re 20ÂľPa )

60 NC-60 NC-55

50 NC-50 NC-45

NC-40 NC-35

NC-30

NC-25

Appr oximate Hearing Thr eshold

NC-20 NC-15

10 63

125

250

500

1000

2000

4000

8000

Octave Band Center Frequency (Hz)

2008 Product Data

13. Remote controller Type 1 (Wireless LCD) The remote control transmits the signals to the system. Signal transmitter

START/STOP BUTTON Operation starts when this button is pressed and stops when the button is pressed again.

Operation mode selection button Used to select the operation mode.

ROOM TEMPERATURE SETTING BUTTONS Used to select the room temperature.

INDOOR FAN SPEED SELECTOR Used to select fan speed in four steps low, medium, high and CHAOS.

JET COOL Used to start or stop the speed cooling. (Speed cooling operates super high fan speed in cooling mode.)

CHAOS SWING BUTTON Used to stop or start louver movement and set the desired up/down airflow direction.

6 3 4 2 7 11 8 13

10 CANCEL ON

OFF

9 12

SET AUTO CLEAN

8 9

ON/OFF TIMER BUTTONS Used to set the time of starting and stopping operation. TIME SETTING BUTTONS Used to adjust the time. TIMER SET/CANCEL BUTTON Used to set the timer when the desired time is obtained and to cancel the Timer operation.

SLEEP MODE AUTO BUTTON Used to set Sleep Mode Auto operation.

AIR CIRCULATION BUTTON Used to circulate the room air without cooling or heating.

Cooling Operation

ROOM TEMPERATURE CHECKING BUTTON Used to check the room temperature.

Auto Operation or Auto Changeover

PLASMA(OPTIONAL) Used to start or stop the plasma-purification function.

Healthy Dehumidification Operation

Flip-up door (opened)

Operation Mode

Heating Operation

15 â&#x20AC;˘ Cooling Model(

), Heat Pump Model(

)

16 17

HORIZONTAL AIRFLOW DIRECTION CONTROL BUTTON (NOT ON ALL MODELS) Used to set the desired horizontal airflow direction. RESET BUTTON Used prior to resetting time or after replacing batteries. 2nd F Button Used prior to using modes printed in blue at the bottom of buttons. AUTO CLEAN(OPTIONAL) Used to set Auto Clean mode.

2008 Product Data

13. Remote controller Type 2 (Wireless LCD)

Signal transmitter

OPERATION MODE SELECTION BUTTON Used to select the operation mode.

ROOM TEMPERATURE SETTING BUTTONS Used to select the room temperature.

INDOOR FAN SPEED SELECTOR Used to select fan speed in four steps low, medium, high and CHAOS.

3 ON

OFF

8 SET

CANCEL

12 PLASMA

Flip-up door (opened)

JET COOL Used to start or stop the speed cooling. (Speed cooling operates super high fan speed in cooling mode.) CHAOS SWING BUTTON Used to stop or start louver movement and set the desired up/down airflow direction.

ON/OFF TIMER BUTTONS Used to set the time of starting and stopping operation.

TIME SETTING BUTTONS Used to adjust the time.

TIMER SET/CANCEL BUTTONS Used to set the timer when the desired time is obtained and to cancel the Timer operation.

SLEEP MODE AUTO BUTTON Used to set Sleep Mode Auto operation.

Cooling Operation

AIR CIRCULATION BUTTON Used to circulate the room air without cooling or heating.

Auto Operation

ROOM TEMPERATURE CHECKING BUTTON Used to check the room temperature.

Healthy Dehumidification Operation

PLASMA(OPTION) Used to start or stop the plasma-purification function.

Heating Operation

Operation Mode

â&#x20AC;˘ Cooling Model(

), Heat Pump Model(

)

START/STOP BUTTON Operation starts when this button is pressed and stops when the button is pressed again.

2008 Product Data

HORIZONTAL AIRFLOW DIRECTION CONTROL BUTTON (NOT ON ALL MODELS) Used to set the desired horizontal airflow direction. RESET BUTTON Used prior to resetting time or after replacing batteries.

13. Remote controller The controls will look like the following. Signal transmitter

1. ON/OFF BUTTON Used to turn off/on the unit. 2. OPERATION MODE SELECTION BUTTON Used to select the operation mode. 3. ROOM TEMPERATURE SETTING BUTTONS Used to select the room temperature. 4. INDOOR FAN SPEED SELECTOR BUTTON Used to select fan speed in four steps low, medium, high and CHAOS.

14 10

2 5 17 8 13 9 15

6. CHAOS SWING BUTTON Used to stop or start louver movement and set the desired up/down airflow direction.

18 6 7

7. TIMER AND TIME SETTING BUTTON Used to set the time of starting / stopping and sleeping operation

11 16

8. TIME SETTING BUTTONS Used to adjust the time.

9. TIMER SET / CLEAR BUTTON Used to set and to cancel the timer operation.

10. ROOM TEMPERATURE CHECKING BUTTON Used to check the room temperature.

12. FUNCTION SETTING BUTTON Used to set auto clean and smart clean mode regularly.

Cooling Operation

13. FUNCTION SETTING BUTTON Used to set auto clean and smart clean mode regularly.

Auto Operation or Auto Changeover

Healthy Dehumidification Operation

14. SMART CLEAN BUTTON Used to start or stop the smart clean function.

Heating Operation

15. ENERGY SAVING COOLING BUTTON(OPTIONAL) Used to save Energy.

Air Circulation

), Heat Pump Model(

4 3

11. RESET BUTTON Used prior to resetting time.

Operation Mode

â&#x20AC;˘ Cooling Model(

5. JET COOL BUTTON Used to start or stop the speed cooling. (It operates fan in super high speed in cooling mode)

)

16. LCD LUMINOSITY BUTTON(OPTIONAL) Used to adjust LCD luminosity. 17. HORIZONTAL AIRFLOW DIRECTION CONTROL BUTTON (OPTIONAL) Used to set the desired horizontal airflow direction.

2008 Product Data

14. Installation 14.1 ART COOL • Please read the instruction sheets completely before installing the product. • When the power cord is damaged, replacement work shall be performed by authorized personnel only. • Installation work must be performed in accordance with the national wiring standards by authorized personnel only. NEO plasma filter

Sleeve Bushing-sleeve Putty(gum type sealer) Bend the pipe as close as possible on the wall but be careful so that it may not break.

Signal receptor Front panel

Vinyl tape (wide) • To carry out the drainage test, remove the air filter and pour water into the heat exchanger. • Apply after carrying out a drainage test.

Saddle

14.1.1 Accessories Check the following accessories are included with your unit.

1) Standard accessories 1. Type "B" screws 2. Holder remote control

Name

Installation guide map

Quantity

1 EA

Cooling & heating model has included drain elbow.

Securing screws (Other) 4 EA

2 EA

Type "A" screw plastic anchors

Type "B" screw • Owner's manual • Installation manual

Shape

M4 x 12L

2008 Product Data

14. Installation 14.1.2 Selection of the best location • Do not have any heat or steam near the unit. • Select a place where there are no obstacles in front of the unit. • Make sure that condensation drainage can be conveniently routed away. • Do not install near a doorway. • Ensure that the interval between a wall and the left (or right) of the unit is more than 500mm. The unit should be installed as high as possible on the wall, allowing a minimum of 200mm from ceiling. • Use a stud finder to locate studs to prevent unnecessary damage to the wall. • The mounting wall should be strong and solid enough to protect it from the vibration.

Panel Front Connector

2) Removing pipe cover and side cover Remove two screws(fixing pipe cover)

More than 200mm More than 500mm

Pull up the cover side of desired connecting direction, then cover side is separated. As per the pipe connecting direction on the left or right side, make a path through the hole on the side cover.

More than 500mm

CAUTION

• After removing the pipe hole, cut the burr for safety.

CAUTION

• Install the indoor unit on the wall where the height from the floors is more than 1.5 meters.

14.1.3 Preparing work for installation Pipe hole

1) Open front panel Push the front panel backward and lift it up to remove the two screws. The moment of lifting the both lower parts of panel front, you can hear sound of this panel caming out, In this time the front panel is separated After pulling down this panel a bit, separate the connecting wire with product.

When connecting pipe path through rear wall, don’t remove the hole.

3) Drain hose junction Remove the rubber cap of desired drain direction. As per the following picture, insert drain hose in the handle of drain pan, and join drain hose and connecting hose.

Panel Front Connector

Adhesive

Only one desiring direction

Connecting part Drain hose

rubber cap

2008 Product Data

14. Installation 4) Sticking the installation guide map and fixing indoor unit Put up the installation guide map on the desired surface.

First, drive the two points of the upper parts by screws. (Leave 10mm for hanging product)

Installation guide map

Check the level by horizontal mete and fix lightly the map by adhesive tape. Horizontality

Ins tal lat ion gu ide ma p

Hang the hole of product at the upper screws. (at this time, remove the map) (Make sure the product do not fall down)

Ins tal lat ion gu ide ma p

Inst allat ion guid em ap

Hanger hole (Rear side of product)

Make a hole with diameter of 6mm and depth of 30-35mm when piercing a screw point. Ins tal lat ion gu ide ma p

Drive the lower parts after facing the hole of product with plastic anchors, and fix completely the upper screws.

Plastic anchors

Drill the piercing part for connecting pipe as diameter 50mm. (In case of piercing rear surface)

Drive the four plastic anchors into drilled points. Ins tal lat ion gu ide ma p

Plastic anchors

2008 Product Data

Check if the product is fixed properly by slightly moving the product.

If nothing is wrong till now then connect the pipe and the wire. (Refer to the installation manual reference)

14. Installation 14.1.4 Connection of piping â&#x20AC;˘ Preparing the indoor unit's piping and drain hose for installation through the wall.

3) Connecting the pipings to the in door unit and drain hose to drain pipe Align the center of the pipings and sufficiently tighten the flare nut by hand.

1) Route the indoor tubing and the drain hose in the direction of rear left or right Indoor unit tubing

Flare nut

Pipings

Tighten the flare nut with a wrench.

Spanner (fixed) Flare nut Connection pipe

Drain hose Torque wrench

2) Tape the tubing, drain hose and the connecting cable. Make sure that the drain hose is located at the lowest side of the bundle. Locating at the upper side can cause drain pan to overflow inside the unit.

When extending the drain hose at the indoor unit, install the drain pipe.

Drain pipe

Loop

Indoor unit drain hose Adhesive

Vinyl tape(narrow)

Tape

Power cable Transmission cable Connecting pipe Drain hose

NOTE

If the drain hose is routed inside the room, insulate the hose with an insulation material* so that dripping from condensation will not damage furniture or floors.

4) Wrap the insulation material around the connecting portion. Overlap the connection pipe insulation material and the indoor unit pipe insulation material. Bind them together with vinyl tape so that there is no gap.

Plastic bands Insulation material

*Foamed polyethylene or equivalent is recommended.

2008 Product Data

14. Installation Wrap the area which accommodates the rear piping housing section with vinyl tape.

Indoor unit pipe

Refrigerant pipe Vinyl tape (wide)

Wrap with vinyl tape

WARNING

Installation Information (For right piping) â&#x20AC;˘ Correct method For right piping, follow the instruction given below. 1 Press on the upper side of clamp and unfold the tubing to downward slowly.

Transmission cable

Pipe Vinyl tape(narrow)

Bundle the piping and drain hose together by wrapping them with vinyl tape over the range within which they fit into the rear piping housing section.

Wrap with vinyl tape Pipe

2 Bend the tubing to the right side of chassis. Vinyl tape(wide) Drain hose

2008 Product Data

â&#x20AC;˘ Wrong method 1 Following bending type from left to right could cause problem of pipe damage.

14. Installation • When extending the drain hose, use a commercially available drain extension hose, and be sure to insulate the extended section of the drain hose which is indoors.

14.1.5 Checking the drainage 1) To check the drainage. Pour a glass of water on the evaporator. Ensure the water flows through the drain hose of the indoor unit without any leakage and goes out of the drain exit.

Additional extension drain piping (Field supply part)

Insulating tape

Do not use 'Anti freezing solution' Bigger Ø drain pipes

Indoor unit drain hose

Extension drain piping (Field supply part)

• Make sure the diameter of the extension drain piping is the same as the indoor unit drain hose size or bigger. Drain extension

2) Drain piping • The drain hose should point downward for easy drain flow.

CAUTION

Downward slope

Tip of drain hose dipped in water Water leakage

Sewage

Accumulated drain water Air

Do not raise

Water leakage

Less than 50mm gap

Water leakage

Waving

2008 Product Data

14. Installation 14.1.6 Front panel assembly First, check the side cover assembly exactly then fix power cord in the bottom groove of cover's left side.

14.1.7 Connecting the cable

Assemble connecting lead wire with controller and first fix the upper part of panel front then match the lower part of panel front

Connect the cable to the indoor unit by connecting the wires to the terminals on the control board individually according to the outdoor unit connection. (Ensure that the color of the wires of the outdoor unit and the terminal no. are the same as those of the indoor unit.) The earth wire should be longer than the common wires.

Terminal Block Indoor 1(L)

2(N)

Panel front connector

Connected to Outdoor Unit

When installing, refer to the circuit diagram on the control box of indoor unit. • When installing, refer to the wiring diagram on the control cover inside outdoor unit. Panel Front Connector

CAUTION

Suspend the front panel by the hook in the groove and then tighten the 2 screws at the bottom.

2008 Product Data

• The above circuit diagram is subject to change without notice. • Be sure to connect wires according to the wiring diagram. • Connect the wires firmly, so that it cannot be pulled out easily. • Connect the wires according to color codes by referring to the wiring diagram.

14. Installation

CAUTION

After the confirmation of the above conditions, prepare the wiring as follows: 1) Never fail to have an individual power circuit specifically for the air conditioner. As for the method of wiring, be guided by the circuit diagram posted on the inside of control cover. 2) The screw which fasten the wiring in the casing of electrical fittings are liable to become lose due from vibrations to which the unit is subjected during the course of transportation. Check them and make sure that they are all tightly fastened. (If they are loose, it could cause burn-out of the wires.) 3) Confirm the specification of power source. 4) Confirm that electrical capacity is sufficient. 5) See to that the starting voltage is maintained at more than 90 percent of the rated voltage marked on the name plate. 6) Confirm that the cable thickness is as specified in the power source specification. (Particularly note the relation between cable length and thickness. 7) Never fail to equip a leakage breaker where it is wet and moist area. 8) The following would be caused by voltage drop. â&#x20AC;˘ Vibration of a magnetic switch, which will damage the contact point, fuse breaking, disturbance of the normal function of the overload. 9) The means for disconnection from a power supply shall be incorporated in the fixed wiring and have an air gap contact separation of at least 3mm in each active(phase) conductors.

2008 Product Data

14. Installation 14.2 ART COOL mirror • Please read the instruction sheets completely before installing the product. • When the power cord is damaged, replacement work shall be performed by authorized personnel only. • Installation work must be performed in accordance with the national wiring standards by authorized personnel only.

Air filter Installation plate Sleeve Bushing-sleeve Putty(gum type sealer) Bend the pipe as closely on the wall as possible, but be careful that it doesn't break.

Vinyl tape (wide) • To carry out the drainage test, remove the air filters and pour water into the heat exchanger. • Apply after carrying out a drainage test.

Saddle

14.2.1 Accessories Check the following accessories are included with your unit.

1) Standard accessories 1. Type "A" screw 2. Installation plate

Cooling & heating model has included drain elbow.

3. Type "B" screw 4. Remote control holder

Name

Installation panel

Quantity

1 set

Securing screws 4 EA Type "A" screw

2 EA Type "B" screw • Owner's manual • Installation manual

Shape

M4 x 12L

2008 Product Data

(Other)

14. Installation 2) Installation plates dimensions SZ chassis

2008 Product Data

14. Installation

SU chassis

2008 Product Data

14. Installation S3 chassis 567.32 480.5

287.08

239.96

S8 chassis Installation plate

Ø70mm

240mm

100mm Left rear piping

Right rear piping

CAUTION

• Use only those accessories (Standard or optional) which have designated specilications

2008 Product Data

14. Installation 14.2.2 Selection of the best location

1) Preperation

• Do not have any heat or steam near the unit.

• Correct method

• Select a place where there are no obstacles in front of the unit.

For right piping. Follow the instruction given below. • Press on the upper side of clamp. ( )

• Make sure that condensation drainage can be conveniently routed away. • Do not install near to doorway. • Ensure that the interval between a wall and the left (or right) of the unit is more than 100mm. The unit should be installed as high as possible on the wall, allowing a minimum of 200mm from ceiling.

• Bend the tubing to the right side of chassis.

• Use a stud finder to locate studs to prevent unnecessary damage to the wall. • The mounting wall should be strong and solid enough too protect it from the vibration.

More than 100mm

More than 200mm

• Bend the tubing to the left side of chassis. More than 100mm 2300mm

CAUTION

• Install the indoor unit on the wall where the height from the floors is more than 2.3 meters.

• Wrong method • Following bending type from left to right could cause problem of pipe damage.

2008 Product Data

14. Installation 14.2.3 Fixing installation plate The wall you select should be strong and solid enough to prevent vibration Mount the installation plate on the wall with type "A" screws. If mounting the unit on a concrete wall, use anchor bolts. â&#x20AC;˘ Mount the installation plate horizontally by aligning the centerline using a level.

A 92

Distance (mm) B C 44 67

D 44

156

292

100

122

240

122

CHASSIS (Grade)

14.2.4 Connecting the piping Prepare the indoor unit's piping and drain hose for installation through the wall.

Installation Plate

Remove the plastic tubing retainer(Refer to the figure given below) and pull the tubing and drain hose away from chassis. Replace only the plastic tubing holder 1, not the holder 2 in the original position. Type "A" screw

Measure the wall and mark the centerline. It is also important to use caution concerning the location of the installation plate-routing of the wiring to power outlets is through the walls typically. Drilling the hole through the wall for piping connections must be done safely. â&#x20AC;˘ For S3 chassis, the center of the unit is different from that of the installation plate. (SZ)

Installation plate C

Left rear piping

Right rear piping

(SU/S3)

Installation plate C

A Right rear piping

(S8)

Right rear piping

Installation plate

C Left rear piping

A Right rear piping

2008 Product Data

14. Installation

1) For right rear piping

2) For left rear piping

Route the indoor tubing and the drain hose in the direction of rear right.

Route the indoor tubing and the drain hose to the required piping hole position.

Insert the connecting cable into the indoor unit from the outdoor unit through the piping hole.

Insert the piping, drain hose and the connecting cable into the piping hole.

Do not connect the cable to the indoor unit but make a small loop with the cable for easy connection later.

Insert the connecting cable into the indoor unit.

Tape the tubing, drain hose, and the connecting cable. Be sure that the drain hose is located at the lowest side of the bundle. Locating at the upper side can cause drain pan to overflow inside the unit.

â&#x20AC;˘ Don't connect the cable to the indoor unit but make a small loop with the cable for easy connection later. Tape the drain hose and the connecting cables. 1

2 Cable

Drain hose

Tape Connecting pipe Drain hose

Connecting cable

CAUTION

â&#x20AC;˘ If the drain hose is routed inside the room, insulate the hose with an insulation material* so that condensation will not damage furniture or floors. *Foamed polyethylene or equivalent is recommended.

2008 Product Data

Drain pipe

14. Installation

3) Connecting the piping to the indoor unit and the drain hose to drain pipe. Align the center of the pipes and tighten the flare nut by hand.

14.2.5 Wrap the insulation material around the connecting portion. Overlap the connection pipe heat insulation and the indoor unit pipe heat insulation material. Bind them together with vinyl tape so that there may be no gap. Wrap the area which accommodates the rear piping housing section with vinyl tape.

Indoor unit tubing

Flare nut

Pipes

Plastic bands

Insulation material

Tighten the flare nut with a wrench.

Spanner (fixed) Flare nut Connection pipe

Torque wrench

When extending the drain hose at the indoor unit, install the drain pipe.

Refrigerant pipe Vinyl tape (wide)

Indoor unit piping Wrap with vinyl tape

Bundle the piping and drain hose together by wrapping them with cloth tape over the range within which they fit into the rear piping housing section. Pipe Drain hose

Drain pipe

Indoor unit drain hose Vinyl tape(narrow) Adhesive

Vinyl tape (narrow)

Wrap with vinyl tape(wide)

2008 Product Data

14. Installation Reroute the pipings and the drain hose across the back of the chassis. Set the pipings and the drain hose to the back of the chassis with the tubing holder. Hook the edge of tubing holder to tap on chassis and push the bottom of tubing holder to be engaged at the bottom of chassis.

14.2.7 Connection of pipings 1) To remove the front panel from the indoor unit. Set the air direction louvers up-and-down to the position(horizontally) by hand. Remove the securing screws that retain the front panel. Pull the lower left and right sides of the grille toward you and lift it off.

Air filter

Tubing holder

Inlet Grille

14.2.6 Indoor unit installation on the plate Remove the spacer. Ensure that the hooks are properly seated on the installation plate by moving it left and right. Press the lower left and right sides of the unit against the installation plate until the hooks engage into their slots(clicking sound).

â&#x20AC;˘ When extending the drain hose, use a commercially available drain extension hose, and be sure to insulate the extended section of the drain hose which is indoors. (Refer to the figure given below) Additional extension drain piping (Field supply part)

Bigger Ă&#x2DC; drain pipes Connecting cable

Insulating tape

Indoor unit drain hose

Extension drain piping (Field supply part)

Drain hose

â&#x20AC;˘ Make sure the diameter of the extension drain piping is the same as the indoor unit drain hose (hard vinyl chloride, inner diameter 20mm) or bigger.

2008 Product Data

14. Installation 3) Drain piping

14.2.8 Checking the drainage 1) To remove the front panel from the indoor unit. Set the air direction louvers up-and-down to the position(horizontally) by hand.

The drain hose should point downward for easy drain flow. Drain pan

Remove the securing screws that retain the front panel. Pull the lower left and right sides of the grille toward you and lift it off.

Drain hose Leakage checking

Air filter

Inlet Grille CAUTION

Downward slope

2) To check the drainage. Pour a glass of water on the evaporator. Ensure the water flows through the drain hose of the indoor unit without any leakage and goes out the through the drain exit. Less than 50mm gap

Tip of drain hose dipped in water Connecting area drain hose

Water leakage

Sewage

Leakage checking

Accumulated drain water Air

Do not raise

Water leakage

Waving

2008 Product Data

14. Installation 14.2.9 Connecting the cable CAUTION

1) Connect the wires to the terminals on the control board individually according to the outdoor unit connection.

After the confirmation of the above conditions, prepare the wiring as follows:

Ensure that the color of the wires of outdoor unit and the terminal No. are the same as those of indoor unit respectively.

1) Never fail to have an individual power circuit specifically for the air conditioner. As for the method of wiring, be guided by the circuit diagram posted on the inside of control cover.

Terminal Block in Indoor 1(L)

2(N)

Connected to Outdoor unit

2) The screw which fasten the wiring in the casing of electrical fittings are liable to become loose from vibrations to which the unit is subjected during the course of transportation. Check them and make sure that they are all tightly fastened. (If they are loose, it could cause burnout of the wires.) 3) Confirm the specification of power source. 4) Confirm that electrical capacity is sufficient. 5) See to that the starting voltage is maintained at more than 90 percent of the rated voltage marked on the name plate. 6) Confirm that the cable thickness is as specified in the power source specification. (Particularly note the relation between cable length and thickness.) 7) Always install an earth leakage circuit breaker in a wet or moist area. 8) The following would be caused by voltage drop.

Connecting cable

2) Attach the grille onto the cabinet. Grasp left and right side of the grille and engage four tabs on the top inside edge of the chassis. Press the grille toward the chassis until it will be back into place.

2008 Product Data

â&#x20AC;˘ Vibration of a magnetic switch, which will damage the contact point, fuse breaking, disturbance of the normal function of the overload. 9) The means for disconnection from a power supply shall be incorporated in the fixed wiring and have an air gap contact separation of at least 3mm in each active(phase) conductors.

14. Installation 14.3 Flaring work Main cause for gas leakage is due to defect in flaring work. Carry out correct flaring work in the following procedure.

1) Cut the pipes and the cable. Use the piping kit accessory or the pipes purchased locally.

Copper tube

Slanted Uneven Rough

90°

Measure the distance between the indoor and the outdoor unit. Cut the pipes a little longer than measured distance. Pipe

Cut the cable 1.5m longer than the pipe length.

Reamer

2) Burrs removal Point down

Completely remove all burrs from the cut cross section of pipe/tube. Put the end of the copper tube/pipe in a downward direction as you remove burrs in order to avoid dropping of burrs into the tubing.

Flare nut

3) Putting nut on Copper tube

Remove flare nuts attached to indoor and outdoor unit, then put them on pipe/tube having completed burr removal.(not possible to put them on after flaring work)

4) Flaring work Carry out flaring work using flaring tool as shown below. Firmly hold copper pipe in a die in the dimension shown in the table below. Outer diameter mm inch Ø6.35 1/4 Ø9.52 3/8 Ø12.7 1/2 Ø15.88 5/8 Ø19.05 3/4

A mm 1.1~1.3 1.5~1.7 1.6~1.8 1.6~1.8 1.9~2.1

Handle Bar

Bar

"A"

Yoke Cone

Copper pipe Clamp handle

Red arrow mark

Smooth all round Inside is shining without scratches

5) Check after flaring

= Improper flaring =

Compare the flared work with figure on right side. If flare is found to be defective, cut off the flared section and do flaring work again. Even length all round

Inclined Surface Cracked Uneven damaged thickness

2008 Product Data

14. Installation

NOTE

Choice of material for refrigerant piping Copper pipe selection a. The wall thickness of the refrigerant piping should comply with relevant local and national regulation for R410A the design pressure is 3.8MPa.(38.7kgf/cm2) b. If not, we recommend to use with phosphorus deoxidized copper type c. Generally used copper pipe specifications as follows; Thickness Size(Ă¸)mm

R22

6.35

0.7

9.52

0.8

12.70

0.8

15.88

0.8

19.05

0.8

* Never use the pipe which is mixed scrap or a pipe used somewhere else The method how to distinguish the pipe mixed scarp : check the oxidization evidence after leaving the pipe for 24hour. CAUTION

Flare connection and procedure 1. Stiffened pipe must always be annealed at least once prior to the flaring work. 2. A pipe cutter must be used to cut the pipe. (A large pipe cutter must be used where the pipe has a large diameter. When cutting a pipe which is too big for the pipe cutter a metal saw may be used but care must be taken to ensure that the debris from sawing does not get into the pipe.)

3. Set the flaring tool to make sure the flare size remains within the prescribed limits. 4. Coat the inner and outer surface of the flare with refrigerator oil (Ester or ether oil). (this ensures that the flare nut passes smoothly, preventing the pipe Oil from twisting.) Do not use SUNISO-4GS oil.

External diameter of pipe D (in) (mm) 1/4 6.35 3/8 9.52 1/2 12.7 5/8 15.88 3/4 19.05

CAUTION

1. Burrs should be carefully removed. 2. 2 spanners should be used to grip the pipe. 3. The flare nut must be inserted before starting the flaring operation. 4. The appropriate amount of torque should be used to tighten the flare nut. 5. Check that there is no superficial damage to the surface of the flare.

100

2008 Product Data

Pipe widening dimension A 8.6~9.0 12.6~13.0 15.8~16.2 19.0~19.4 22.9~23.3

Oil

14. Installation NOTE

Flange connection and procedure 1) Cut the pipe using a pipe cutter.

7) Apply refrigerant oil on the inside and outside of the flared section. (Do not apply SUNISO oil) (Be careful to keep dust away)

2) The cut edge has burrs. (the amount of burrs becomes larger when pipe wall is thick) 8) Tighten the flare nut. (Use a torque wrench to apply the proper tightening force)

3) Remove the burrs using a reamer (Be careful not to let particles enter the pipe. Point the pipe end downward during cutting)

4) Clean the inside of the pipe (use a thin stick with a cloth wrapped around it)

9) • Check for gas leaks. (Check at the threaded section of the flare nut for gas leak) • Spay –type gas leak detecting products are available on the market. • Soap water may be used to check for leaks , but use only neutral soap to prevent corrosion of the flare nut. • Be sure to wipe the nut area clean after the gas leak check.

5) Before flaring , clean the cone section of the flaring tool.

Corn section

6) Flare the pipe. Rotate the flaring tool 3 or 4 turns after a clicking sound is produced. this results in a clean flared surface

2008 Product Data

101

14. Installation 14.4 Pipe connection flaring NOTE

CAUTION

1. After installation completion make sure to open the valve. operating the unit with the valve shut off will destroy the compressor (Refer to the additional refrigerant charge detail information) 2. Use R22 to add refrigerant. All field piping must be installed by a licensed refrigeration technician 3. Must comply with local and national standard regulations.

Improper piping and flaring can lead to the leakage of refrigerant

NOTE

For flaring work of the piping, follow the instructions in the installation manual to each unit.

1) Connecting the piping to the indoor unit and drain hose to drain pipe Align the center of the piping and sufficiently tighten the flare nut by hand. Tighten the flare nut with a wrench. Wrap the insulation material around the connecting portion. Outside diameter(Ă&#x2DC;) mm inch 6.35 1/4 9.52 3/8 12.7 1/2 15.88 5/8 19.05 3/4

Torque kg.f.m 1.80~2.50 3.40~4.20 5.50~6.60 6.30~8.20 9.90~12.1

Indoor unit tubing

Flare nut

Pipes

Open-end wrench (fixed) Flare nut Wrench

Connection pipe

Indoor unit tubing

2) Wrap the insulation material around the connecting portion. Overlap the connection pipe insulation material and the indoor unit pipe insulation material. Bind them together with vinyl tape so that there is no gap. Wrap the area which accommodates the rear piping housing section with vinyl tape.

Indoor unit pipe

Connection pipe

Wrap with vinyl tape Vinyl tape (wide) Connecting cable Pipe

When the piping is passed through a tray, duct work or a sleeve the insulation wrapping on the pipe is not required.

Vinyl tape(narrow)

3) Close up a socket out of use with a brass cap. Align the center of the piping and sufficiently tighten the brass cap by hand. Tighten the brass cap with a wrench. Wrap the area contacted with insulation. CAUTION

Over tightening of the flare nuts in the pipes may cause nuts to crack or the refrigerant to leak.

102

2008 Product Data

CAUTION

Never use the plastic cap during closing.

14. Installation 14.5 Air Purging Air purging The air and moisture remaining in the refrigerant system have undesirable effects as indicated below. 1. Pressure in the system rises. 2. Operating current rises. 3. Cooling(or heating) efficiency drops. 4. Moisture in the refrigerant circuit may freeze and block capillary tubing. 5. Water may lead to corrosion of parts in the refrigeration system. Therefore, after evacuating the system, take a leak test for the piping and tubing between the indoor and outdoor unit.

Air purging with vacuum pump 1. Preparation â&#x20AC;˘ Check that each tube(both liquid and gas side tubes) between the indoor and outdoor units have been properly connected and all wiring for the test run has been completed. Remove the service valve caps from both the gas and the liquid side on the outdoor unit. Note that both the liquid and the gas side service valves on the outdoor unit are kept closed at this stage. 2. Leak test â&#x20AC;˘ Connect the manifold valve(with pressure gauges) and dry nitrogen gas cylinder to this service port with charge hoses. CAUTION

Be sure to use a manifold valve for air purging. If it is not available, use a stop valve for this purpose. The "Hi" knob of the manifold valve must always be kept close. â&#x20AC;˘ Pressurize the system to no more than 150 P.S.I.G. with dry nitrogen gas and close the cylinder valve when the gauge reading reached 150 P.S.I.G. Next, test for leaks with liquid soap. CAUTION

To avoid nitrogen entering the refrigerant system in a liquid state, the top of the cylinder must be higher than its bottom when you pressurize the system. Usually, the cylinder is used in a vertical standing position. 1. Do a leak test of all joints of the tubing(both indoor and outdoor) and both gas and liquid side service Manifold valve valves. Indoor unit Pressure Bubbles indicate a leak. Be sure to wipe off the gauge soap with a clean cloth. Lo

2. After the system is found to be free of leaks, relieve the nitrogen pressure by loosening the charge hose connector at the nitrogen cylinder. When the system pressure is reduced to normal, disconnect the hose from the cylinder.

Outdoor unit

Charge hose

Nitrogen gas cylinder(in vertical standing position)

2008 Product Data

103

14. Installation

Soap water method 1. Remove the caps from the 2-way and 3-way valves. 2. Remove the service-port cap from the 3-way valve. 3. To open the 2-way valve turn the valve stem counterclockwise approximately 90째, wait for about 2~3 sec, and close it. 4. Apply a soap water or a liquid neutral detergent on the indoor unit connection or outdoor unit connections by a soft brush to check for leakage of the connecting points of the piping. 5. If bubbles come out, the pipes have leakage

Liquid side

Gas side 2-way valve (Open) 3-way valve (Close)

Evacuation 1. Connect the charge hose end described in the preceding steps to the vacuum pump to evacuate the tubing and indoor unit. Confirm the "Lo" knob of the manifold valve is open. Then, run the vacuum pump. The operation time for evacuation varies with tubing length and capacity of the pump. The following table shows the time required for evacuation.

Hexagonal wrench

Indoor unit

Required time for evacuation when 30 gal/h vacuum pump is used If tubing length is less than 10m (33 ft) 10 min. or more

If tubing length is longer than 10m (33 ft) 15 min. or more Outdoor unit

2. When the desired vacuum is reached, close the "Lo" knob of the manifold valve and stop the vacuum pump.

Finishing the job 1. With a service valve wrench, turn the valve stem of liquid side valve counter-clockwise to fully open the valve. 2. Turn the valve stem of gas side valve counter-clockwise to fully open the valve. 3. Loosen the charge hose connected to the gas side service port slightly to release the pressure, then remove the hose. 4. Replace the flare nut and its bonnet on the gas side service port and fasten the flare nut securely with an adjustable wrench. This process is very important to prevent leakage from the system. 5. Replace the valve caps at both gas and liquid side service valves and fasten them tight. This completes air purging with a vacuum pump. The air conditioner is now ready to test run.

Manifold valve Pressure gauge

Open

Vacuum pump

104

2008 Product Data

Cap

14. Installation 14.6 Test Running 1. Check that all tubing and wiring are properly connected. 2. Check that the gas and liquid side service valves are fully open.

Prepare remote controller 1. Remove the battery cover by pulling it according to the arrow direction. 2. Insert new batteries making sure that the (+) and (–) of battery are installed correctly. 3. Reattach the cover by pushing it back into position. NOTE

• Use 2 AAA(1.5volt) batteries. Do not use rechargeable batteries. • Remove the batteries from the remote controller if the system is not used for a long time.

Settlement of outdoor unit 1. Anchor the outdoor unit with a bolt and nut(ø10mm) tightly and horizontally on a concrete or rigid mount. 2. When installing on the wall, roof or rooftop, anchor the mounting base securely with a nail or wire assuming the influence of wind and earthquake. 3. If the vibration of the unit is transmitted to the hose, secure the unit with an anti-vibration rubber.

Bolt

Tubing connection

Evaluation of the performance Operate the unit for 15~20 minutes, then check the system refrigerant charge: 1. Measure the pressure of the gas side service valve. 2. Measure the temperature of the intake and discharge of air.

Intake temperature

Discharge air

3. Ensure the difference between the intake temperature and the discharge is more than 8°C 4. For reference; the gas side pressure of optimum condition is as below.(Cooling)

Discharge temperature

The air conditioner is now ready for use. ambient Refrigerant Outside TEMP. R22

35°C (95°F)

The pressure of the gas side service valve. 4~5kg/cm2G(56.8~71.0 P.S.I.G.)

2008 Product Data

105

14. Installation NOTE

If the actual pressure is higher than shown, the system is most likely over-charged, and charge should be removed. If the actual pressure are lower than shown, the system is most likely undercharged, and charge should be added.

PUMP DOWN This is performed when the unit is relocated or the refrigerant circuit is serviced. Pump Down means collecting all refrigerant into the outdoor unit without the loss of refrigerant.

CAUTION

Be sure to perform Pump Down procedure in the cooling mode.

Pump Down Procedure 1. Connect a low-pressure gauge manifold hose to the charge port on the gas side service valve. 2. Open the gas side service valve halfway and purge the air in the manifold hose using the refrigerant. 3. Close the liquid side service valve(all the way). 4. Turn on the unit's operating switch and start the cooling operation. 5. When the low-pressure gauge reading becomes 1 to 0.5kg/cm2 G(14.2 to 7.1 P.S.I.G.), fully close the gas side valve and then quickly turn off the unit. Now Pump Down procedure is completed, and all refrigerant is collected into the outdoor unit.

106

2008 Product Data

14. Installation 14.7 Installation Guide at the Seaside CAUTION 1. Air conditioners should not be installed in areas where corrosive gases, such as acid or alkaline gas, are produced. 2. Do not install the product where it could be exposed to sea wind (salty wind) directly. It can result corrosion on the product. Corrosion, particularly on the condenser and evaporator fins, could cause product malfunction or inefficient performance. 3. If outdoor unit is installed close to the seaside, it should avoid direct exposure to the sea wind. Otherwise it needs additional anticorrosion treatment on the heat exchanger.

Selecting the location(Outdoor Unit) 1) If the outdoor unit is to be installed close to the seaside, direct exposure to the sea wind should be avoided. Install the outdoor unit on the opposite side of the sea wind direction.

Sea wind

2) In case, to install the outdoor unit on the seaside, set up a windbreak not to be exposed to the sea wind.

Windbreak

• It should be strong enough like concrete to prevent the sea wind from the sea. • The height and width should be more than 150% of the outdoor unit.

Sea wind

• It should be keep more than 70 cm of space between outdoor unit and the windbreak for easy air flow.

3) Select a well-drained place. 1. If you can’t meet above guide line in the seaside installation, please contact LG Electronics for the additional anticorrosion treatment. 2. Periodic ( more than once/year ) cleaning of the dust or salt particles stuck on the heat exchanger by using water

2008 Product Data

107

P/No.: MFL42618002

Air Conditioner 20 Yeouido-dong, Yeongdeungpo-gu, Yeouido P.O.Box 335 Seoul, 150-721, Korea. http://www.lgeaircon.com

File No. : A8974 Volume:1

Certificate No. : E00626/1

The air conditioners manufactured by LG have received ISO9001 certificate for quality assurance and ISO14001 certificate for environmental management system.