SINGLE Technical Data Book. SINGLE for Europe (R410A, HP)

SINGLE Technical Data Book SINGLE for Europe (R4A, HP)

History Ver.1. Release Single TDB for Europe 16. 11. 2 Ver.1.1 Add tco2e data (Specifications) 16. 12. 9 Ver.1. 1.. 9 2

CAC - World-class energy efficiency Maintain optimal comfort and control with energy and cost-efficient technologies Featuring a suite of energy-optimizing technologies, Samsung CAC Single delivers top-class energy efficiency to support business in saving costs and the environment. Plus, CAC Single with its smart technologies fully complies with new European Union (EU) regulations for more efficient performance. Small package, big performance The Samsung Ceiling Type air conditioner boasts a slim, compact design half the size of conventional products with cooling power comparable to larger units. Up to percent less energy use After reaching changes its operation mode to economical. By avoiding inefficient and frequent switching on and off of the compressor, the digital inverter saves up to percent in energy consumption compared to non-inverter air conditioners. Non-inverter M Instead of connecting just one indoor unit, users can connect two, three or four indoor units with a single outdoor unit for more efficient cooling and heating. The indoor units operate and are controlled simultaneously as one cycle within the same mode via one remote controller for up to four rooms. This system is ideal for spaces requiring multiple indoor units, such as openplan offices or shops. as per EU Directive 211/626/EU Q Smart inverter technology offers powerful, quick cooling and heating with minimal electricity consumption, which means real cost savings and less energy waste. The EU has established new regulations to drastically cut the power consumption of air conditioners. Inefficient units will be gradually withdrawn from the market starting in 213. To further support this initiative, the EU is introducing an improved energy labeling system to provide consumers a better idea of how much electricity their units consume. Outdoor Unit Capacity 2 Rooms 3 Rooms 4 Rooms 7.1kW. + 3. kw.2 +.2 12kW 6. + 6. 14kW 7.1 + 7.1.2 +.2 +.2.2 +.2 +.2 3. + 3. + 3. + 3. 3

Features & Benefits CAC Single - Superior performance Stabilize the atmosphere with broad temperature allowance and control Samsung is dedicated to supporting comfortable living and working environments based on the strength of its technologies. With a single unit, CAC Single delivers reliable comfort and control over multiple areas to ensure a pleasant atmosphere in any climate. V!!"# " $" CAC Single outdoor units offer a selection of pipe directions. The internal pipe connection ports allow four different pipe directions, supporting a neater, more organized-looking unit upon installation. Wide temperature performance No matter how extreme the temperature, the highperforming CAC Single can handle the conditionwithout the need for an additional unit. Featuring a wide temperature allowance, it can cool in heat of up to ensure a constant and comfortable home environment. Ideal comfort in minutes The CAC Single digital inverter air conditioner works at maximum capacity at startup. As soon as the temperature reaches the desired or set temperature, CAC Single performs fine adjustments to cope with any changes. This means less temperature fluctuation and ideal comfort in a matter of minutes. 4

I*+,,-.*/ Model Name AC 26 M N 1 D K H EU 289 2:9 2;9 2<9 2=9 2>9 2?9 2@9 BCDEG (1) Classification A& (2) Capacity CAC x 1/ kw (3 digits) () Product Notation 1 1 Way Cassette 4 Way Cassette (6x6) 4 4 Way Cassette, 36 Cassette L LSP Duct M MSP Duct C Ceiling J Console A A3 (Wall Mounted) (3) Version ' 214 J 21 216 M 217 (6) Feature F S P Flagship Standard Deluxe Premium (4) Product Type ( Indoor Unit Outdoor Unit (7) Rating Voltage ) (8) Mode ' %

Nomenclature Outdoor Unit Model Name AC 26 M X A D K H EU 289 2:9 2;9 2<9 2=9 2>9 2?9 2@9 BCDEG HJK Classification () Product Notation A& CAC A Inv+Side+General Temp (2) Capacity X 1/ kw (3 digits) (6) Feature F S P Flagship Standard Deluxe Premium (3) Version ' 214 J 21 216 M 217 (7) Rating Voltage ) (4) Product Type ( Indoor Unit Outdoor Unit (8) Mode ' 6

Line-up Indoor unit NOPRS 2.6 3..2 6. 7.1 9.. 12. 14. 1Way CST TUWX YZ[ (6x6) TUWX YZ[ \]^ YZ[ _Z` abcd efg hijk Ylmnlop Ypqoqmr stuu eviwkxy z{ x }~+,,-.*/ NOPRS 2.6 3..2 6. 7.1 9.. 12. 14. 1Phase \`Wnp L

Line-up DPM (Digital Pack Multi) ƒ - - ACMXAD - - AC12MXAD - - AC1MXAD - - - - ACMXAD - AC12MXAD AC1MXAD - - - ACMXAD - - AC12MXAD - - AC1MXAD - AC1MXAD - - - - - ACMXAD - AC12MXAD - AC1MXAD - - - - - ACMXAD - AC12MXAD AC1MXAD 8

Line-up ƒ - - ACMXAD - AC12MXAD - AC1MXAD - - - ACMXAD - - AC12MXAD - - AC1MXAD - - - - ACMXAD - AC12MXAD - AC1MXAD - - ˆ Š Œ MXJ-2D29K MXJ-3D29K MXJ-4D29K Ž Max. pipe length after DPM kit 1m Max. pipe length difference between IDUs after DPM kit m Max. distance between IDUs m Max. height difference between IDUs.m * Indoor units should be installed in one area which is not divided by a wall

Outdoor Units 1. Summary Table 266 2. Dimensional Drawing 267 3. Center of Gravity 272 4. Electrical Wiring Diagram 27. Sound Data 279 6. Capacity Correction 287 7. Operation Range 291 8. Piping Diagram 292

1. Summary Table Outdoor Units Model Code 2.6 7 x 48 x 28 32.8 29 46 47 9 3. 7 x 48 x 28 32.8 3 48 48 61.2 8 x 638 x 3 43.8 48 48 62 6 8 x 638 x 3 43.8 49 49 62 7.1 8 x 798 x 3 3 1 49 1 6 9 9 x 998 x 33 72 78 2 3 68 9 9 x 998 x 33 72 78 2 3 68 9 x 998 x 33 72 78 2 4 69 9 x 998 x 33 72 78 2 4 69 12 9 x 998 x 33 77 78 4 6 12 9 x 998 x 33 77 78 4 6 14 9 x 12 x 33 111 3 4 69 14 9 x 12 x 33 111 3 4 69 š œ Sound power level is based on cooling operation.

2. Dimensional Drawing Outdoor Units AC26/3MXADKH Units : mm [inches] Ęɇ ʪ Uʪϑʀθ Χϩ ͱ 1 Refrigerant liquid pipe ߦࢩߣ ߧߥ ߨף 2 Refrigerant gas pipe ߪࢩߥ ߤߧ ף 3 Uθɇ ²ͱ ʪ

Outdoor Units AC2/6MXADKH Units : mm [inches] Ęɇ ʪ Uʪϑʀθ Χϩ ͱ 1 Refrigerant liquid pipe ߦࢩߣ ߧߥ ߨף 2 Refrigerant gas pipe ߤࢩߣ ߩ ߤߣף 3 Uθɇ ²ͱ ʪ

2. Dimensional Drawing Outdoor Units AC71MXADKH Units : mm [inches] Ęɇ ʪ Uʪϑʀθ Χϩ ͱ 1 Refrigerant liquid pipe ߦࢩߣ ߧߥ ߨף 2 Refrigerant gas pipe ߪࢩߧ ߪߪ ߧߣף 3 Uθɇ ²ͱ ʪ

Outdoor Units AC//12MXAD*H Units : mm [inches] Ęɇ ʪ Uʪϑʀθ Χϩ ͱ 1 Refrigerant liquid pipe ߪࢩߥ ߤߧ ף 2 Refrigerant gas pipe ߪࢩߧ ߪߪ ߧߣף 3 Piping intake knockout hole Front / Side / Rear / Bottom 4 Power wiring conduit θͱ ϩ ࢩ Ɗ ʒʪ ࢩ ŵʪɇθ ߪࢩߥ ߣ ߦߥף Communication wiring conduit θͱ ϩ ࢩ Ɗ ʒʪ ࢩ ŵʪɇθ ߪࢩߩ ߤߤף 6 Uθɇ ²ͱ ʪ Connect with the provided drain plug

2. Dimensional Drawing Outdoor Units AC1MXAD*H Units : mm [inches] Ęɇ ʪ Uʪϑʀθ Χϩ ͱ 1 Refrigerant liquid pipe ߪࢩߥ ߤߧ ף 2 Refrigerant gas pipe ߪࢩߧ ߪߪ ߧߣף 3 Piping intake knockout hole Front / Side / Rear / Bottom 4 Power wiring conduit θͱ ϩ ࢩ Ɗ ʒʪ ࢩ ŵʪɇθ ߪࢩߥ ߣ ߦߥף Communication wiring conduit θͱ ϩ ࢩ Ɗ ʒʪ ࢩ ŵʪɇθ ߪࢩߩ ߤߤף 6 Uθɇ ²ͱ ʪ Connect with the provided drain plug

3. Center of Gravity Outdoor Units AC26/3MXADKH Units : mm [inches] ª «Units : mm [inches]

3. Center of Gravity Outdoor Units AC71MXADKH Units : mm [inches] ² ª³ ª³ Units : mm [inches] ±

Outdoor Units AC1MXAD*H Units : mm [inches] žµ

4. Electrical Wiring Diagram Outdoor Units AC26/3MXADKH ¹ º»¼ Printed circuit board(main) Electronic Expansion Valve Printed circuit board(dred) BLDC Motor Thermistor AMBIENT SMPS Printed circuit board(smps) Thermistor OLP Thermistor CONDENSOR Printed circuit board(sub) ž

Outdoor Units AC2/6/71MXADKH ¹ º»¼ Printed circuit board(main) Electronic Expansion Valve Printed circuit board(dred) BLDC Motor Thermistor AMBIENT SMPS Printed circuit board(smps) Thermistor CONDENSOR Printed circuit board(sub) Thermistor OLP ž

4. Electrical Wiring Diagram Outdoor Units AC//12/1MXADKH ¹ º»¼ Printed circuit board(main) Electronic Expansion Valve Printed circuit board(inverter) BLDC Motor Thermistor AMBIENT Printed circuit board(emi) Thermistor OLP Thermistor CONDENSOR žž

Outdoor Units AC//12/1MXADNH ¹ º»¼ Printed circuit board(main) Electronic Expansion Valve Printed circuit board(inverter) BLDC Motor Thermistor AMBIENT Printed circuit board(emi) Thermistor OLP Thermistor CONDENSOR š œ This wiring diagram applies only to the outdoor unit. Colors blk: black, red: red, blu: blue, wht: white, yel: yellow, brn: brown, sky: skyblue For connection wiring indoor-outdoor transmission F1-F2, outdoor-outdoor transmission OF1-OF2, refer to the installation manual. ½¾ ÀÁÂÀÃÄÁ ÁžÀÆÇȾÁÉÊË Ì Â ÍÍÁÂÀ ¾Ë Ì ÎÆÁ ÉþÁ ÏÐÅÍÀÃÀÑ ž

. Sound Data Outdoor Units Sound Pressure level Microphone 1.m 1m Front Unit: db(a) ÒÓÔÕÖ 46 47 48 48 48 48 49 49 NR Curve 1) 2) Sound Pressure Level (db) 8 7 6 6 4 3 3 2 2 1 Cooling Heating Hearing threshold 63 12 2 2 Octave Band Center Frequency(Hz) NR NR 8 NR NR 7 NR NR 6 NR 6 NR NR NR 4 NR NR 3 NR 3 NR 2 NR 2 NR 1 8 7 6 6 4 3 3 2 2 1 Sound Pressure Level (db) 8 7 6 6 4 3 3 2 2 1 Cooling Heating Hearing threshold 63 12 2 2 Octave Band Center Frequency(Hz) NR NR 8 NR NR 7 NR NR 6 NR 6 NR NR NR 4 NR NR 3 NR 3 NR 2 NR 2 NR 1 8 7 6 6 4 3 3 2 2 1 Ê 4) Sound Pressure Level (db) 8 7 6 6 4 3 3 2 2 1 Heating Cooling Hearing threshold 63 12 2 2 Octave Band Center Frequency(Hz) NR NR 8 NR NR 7 NR NR 6 NR 6 NR NR NR 4 NR NR 3 NR 3 NR 2 NR 2 NR 1 8 7 6 6 4 3 3 2 2 1 Sound Pressure Level (db) 8 7 6 6 4 3 3 2 2 1 Cooling Heating Hearing threshold 63 12 2 2 Octave Band Center Frequency(Hz) NR NR 8 NR NR 7 NR NR 6 NR 6 NR NR NR 4 NR NR 3 NR 3 NR 2 NR 2 NR 1 8 7 6 6 4 3 3 2 2 1 š œ Specifications may be subject to change without prior notice. - Sound pressure level is obtained in an anechoic room. - Sound pressure level is a relative value, depending on the distance and acoustic environment. - Sound pressure level may differ depending on operation condition. - dba = A weighted sound pressure level - ž

Outdoor Units Sound Pressure level Microphone 1.m 1m Front Unit: db(a) ÒÓÔÕÖ 49 1 2 3 2 3 2 4 NR Curve ) 6) Sound Pressure Level (db) 8 7 6 6 4 3 3 2 2 1 Cooling Heating Hearing threshold 63 12 2 2 Octave Band Center Frequency(Hz) NR NR 8 NR NR 7 NR NR 6 NR 6 NR NR NR 4 NR NR 3 NR 3 NR 2 NR 2 NR 1 8 7 6 6 4 3 3 2 2 1 Sound Pressure Level (db) 8 7 6 6 4 3 3 2 2 1 Cooling Heating Hearing threshold 63 12 2 2 Octave Band Center Frequency(Hz) NR NR 8 NR NR 7 NR NR 6 NR 6 NR NR NR 4 NR NR 3 NR 3 NR 2 NR 2 NR 1 8 7 6 6 4 3 3 2 2 1 ØÊ 8) Sound Pressure Level (db) 8 7 6 6 4 3 3 2 2 1 Cooling Heating Hearing threshold 63 12 2 2 Octave Band Center Frequency(Hz) NR NR 8 NR NR 7 NR NR 6 NR 6 NR NR NR 4 NR NR 3 NR 3 NR 2 NR 2 NR 1 8 7 6 6 4 3 3 2 2 1 Sound Pressure Level (db) 8 7 6 6 4 3 3 2 2 1 Cooling Heating Hearing threshold 63 12 2 2 Octave Band Center Frequency(Hz) NR NR 8 NR NR 7 NR NR 6 NR 6 NR NR NR 4 NR NR 3 NR 3 NR 2 NR 2 NR 1 8 7 6 6 4 3 3 2 2 1 š œ Specifications may be subject to change without prior notice. - Sound pressure level is obtained in an anechoic room. - Sound pressure level is a relative value, depending on the distance and acoustic environment. - Sound pressure level may differ depending on operation condition. - dba = A weighted sound pressure level -

. Sound Data Outdoor Units Sound Pressure level Microphone 1.m 1m Unit: db(a) ÒÓÔÕÖ 2 4 4 6 4 6 Front NR Curve 9) ) Sound Pressure Level (db) 8 7 6 6 4 3 3 2 2 1 Cooling Heating Hearing threshold 63 12 2 2 Octave Band Center Frequency(Hz) NR NR 8 NR NR 7 NR NR 6 NR 6 NR NR NR 4 NR NR 3 NR 3 NR 2 NR 2 NR 1 8 7 6 6 4 3 3 2 2 1 Sound Pressure Level (db) 8 7 6 6 4 3 3 2 2 1 Cooling Heating Hearing threshold 63 12 2 2 Octave Band Center Frequency(Hz) NR NR 8 NR NR 7 NR NR 6 NR 6 NR NR NR 4 NR NR 3 NR 3 NR 2 NR 2 NR 1 8 7 6 6 4 3 3 2 2 1 ÙÙÊ Sound Pressure Level (db) 8 7 6 6 4 3 3 2 2 1 Cooling Heating Hearing threshold 63 12 2 2 Octave Band Center Frequency(Hz) NR NR 8 NR NR 7 NR NR 6 NR 6 NR NR NR 4 NR NR 3 NR 3 NR 2 NR 2 NR 1 8 7 6 6 4 3 3 2 2 1 š œ Specifications may be subject to change without prior notice. - Sound pressure level is obtained in an anechoic room. - Sound pressure level is a relative value, depending on the distance and acoustic environment. - Sound pressure level may differ depending on operation condition. - dba = A weighted sound pressure level - Reference acousti

Outdoor Units Sound Pressure level Microphone 1m Unit: db(a) ÒÓÔÕÖ 3 4 3 4 1.m Front NR Curve 12) 13) Sound Pressure Level (db) 8 7 6 6 4 3 3 2 2 1 Cooling Heating Hearing threshold 63 12 2 2 Octave Band Center Frequency(Hz) NR NR 8 NR NR 7 NR NR 6 NR 6 NR NR NR 4 NR NR 3 NR 3 NR 2 NR 2 NR 1 8 7 6 6 4 3 3 2 2 1 Sound Pressure Level (db) 8 7 6 6 4 3 3 2 2 1 Heating Cooling Hearing threshold 63 12 2 2 Octave Band Center Frequency(Hz) NR NR 8 NR NR 7 NR NR 6 NR 6 NR NR NR 4 NR NR 3 NR 3 NR 2 NR 2 NR 1 8 7 6 6 4 3 3 2 2 1 š œ Specifications may be subject to change without prior notice. - Sound pressure level is obtained in an anechoic room. - Sound pressure level is a relative value, depending on the distance and acoustic environment. - Sound pressure level may differ depending on operation condition. - dba = A weighted sound pressure level -

. Sound Data Outdoor Units Sound Power level š œ Specifications may be subject to change without prior notice - Sound power level is an absolute value that a sound source generates. - dba = A-weighted sound power level. - Reference power : 1pW. - Measured according to ISO 3741. Unit: db(a) ÒÓÔÕÖ 9 61 62 62 NR Curve 1) 2) Sound Power Level (db) 1 9 8 7 6 6 4 3 3 2 2 1 NR NR 8 NR NR 7 NR NR 6 NR 6 NR NR NR 4 NR NR 3 NR 3 NR 2 NR 2 NR 1 12 2 2 A Octave Band Center Frequency(Hz) 1 9 8 7 6 6 4 3 3 2 2 1 ÚÛ 4) ±

Outdoor Units Sound Power level ßàáâ Specifications may be subject to change without prior notice - Sound power level is an absolute value that a sound source generates. - dba = A-weighted sound power level. - Reference power : 1pW. - Measured according to ISO 3741. Unit: db(a) ãäåæç 6 68 68 69 NR Curve ) 6) Sound Power Level (db) 1 9 8 7 6 6 4 3 3 2 2 1 NR NR 8 NR NR 7 NR NR 6 NR 6 NR NR NR 4 NR NR 3 NR 3 NR 2 NR 2 NR 1 12 2 2 A Octave Band Center Frequency(Hz) 1 9 8 7 6 6 4 3 3 2 2 1 èû 8) ÜÝÞ

. Sound Data Outdoor Units Sound Power level ßàáâ Specifications may be subject to change without prior notice - Sound power level is an absolute value that a sound source generates. - dba = A-weighted sound power level. - Reference power : 1pW. - Measured according to ISO 3741. Unit: db(a) ãäåæç 69 69 NR Curve 9) ) êêû 12) ÜÝé

Outdoor Units Wall Mounted Type (A3) ßàáâ Specifications may be subject to change without prior notice - Sound power level is an absolute value that a sound source generates. - dba = A-weighted sound power level. - Reference power : 1pW. - Measured according to ISO 3741. Unit: db(a) ãäåæç 69 NR Curve 13) ÜÝë

6. Capacity Correction Outdoor Units AC26/3MXADKH/EU Cooling íîïð ñðòóôõ ö ø 1 2 3 - - - - 2 - - - - 2 - - - - 1 - - - 92 - - 9 92-97 9 92 97 9 92-96 94 91 - - 92 - - - 88 - - - - - - - - - - - - Heating íîïð ñðòóôõ ö ø 1 2 3 - - - - 2 - - - - 2 - - - - 1 - - - 92 - - 9 92-97 9 92 97 9 92-97 9 92 - - 9 92 - - - 92 - - - - - - - - - - - - ßàáâ Capacities are based on following conditions; Refrigerant pipe length : m / Level difference : m. ÜÝì

Outdoor Units AC2/6MXADKH/EU Cooling íîïð ñðòóôõ ö ø 1 2 2 3 3 - - - - - - 2 - - - - - - 2 - - - 92 1 - - 94 92-96 94 92 98 96 94 92 98 96 94 92 97 9 93 91 89-94 93 91 89 - - 92 88 - - - - 89 86 - - - - - - - - - - - Heating íîïð ñðòóôõ ö ø 1 2 2 3 3 - - - - - - 2 - - - - - - 2 - - - - 94 92 1 - - - 9 94 92 - - 97 9 94 92-98 97 9 94 92 98 97 9 94 92-98 97 9 94 92 - - 97 9 94 92 - - - 9 94 92 - - - - 94 92 - - - - - - - - - - - - ßàáâ Capacities are based on following conditions; Refrigerant pipe length : m / Level difference : m. ÜÝÝ

6. Capacity Correction Outdoor Units AC71///12MXAD*H/EU Cooling íîïð ñðòóôõ ö ø 1 2 2 3 3 4 3 - - - - - - 93 92 91 2 - - - - - 94 93 92 91 2 - - - - 96 94 93 92 91 1 - - - 97 96 94 93 92 91 - - 98 97 96 94 93 92 91-99 98 97 96 94 93 92 91 99 98 97 96 94 93 92 91-98 97 96 9 94 93 92 91 89 - - 97 96 9 94 92 91 88 - - - 9 9 93 92 91 89 88 - - - - 94 93 92 89 87 - - - - - 92 91 88 86 - - - - - - 91 89 88 8 Heating íîïð ñðòóôõ ö ø 1 2 2 3 3 4 3 - - - - - - 9 94 93 92 2 - - - - - 96 9 94 93 92 2 - - - - 96 96 9 94 93 92 1 - - - 97 96 96 9 94 93 92 - - 98 97 96 96 9 94 93 92-99 98 97 96 96 9 94 93 92 99 98 97 96 96 9 94 93 92-99 98 97 96 96 9 94 93 92 - - 98 97 96 96 9 94 93 92 - - - 97 96 96 9 94 93 92 - - - - 96 96 9 94 93 92 - - - - - 96 9 94 93 92 - - - - - - 9 94 93 92 ßàáâ Capacities are based on following conditions; Refrigerant pipe length : m / Level difference : m. ÜÝù

Outdoor Units AC1MXAD*H/EU Cooling íîïð ñðòóôõ ö ø 1 2 2 3 3 4 6 6 7 3 - - - - - - 9 94 93 92 91 91 89 88 2 - - - - - 96 9 94 93 92 91 91 89 88 2 - - - - 97 96 9 94 93 92 91 91 89 88 1 - - - 97 97 96 9 94 93 92 91 91 89 88 - - 98 97 97 96 9 94 93 92 91 91 89 88-99 98 97 97 96 9 94 93 92 91 91 89 88 99 98 97 97 96 9 94 93 92 91 91 89 88-99 98 97 96 9 9 94 93 92 91 89 88 87 - - 98 97 96 9 94 93 93 92 91 89 88 86 - - - 97 96 9 94 93 92 91 89 88 87 8 - - - - 9 9 94 93 92 91 89 88 86 84 - - - - - 94 93 93 92 91 89 87 86 83 - - - - - - 93 92 91 89 88 87 8 82 Heating íîïð ñðòóôõ ö ø 1 2 2 3 3 4 6 6 7 3 - - - - - - 96 9 94 94 93 92 91 91 2 - - - - - 96 96 9 94 94 93 92 91 91 2 - - - - 97 96 96 9 94 94 93 92 91 91 1 - - - 98 97 96 96 9 94 94 93 92 91 91 - - 99 98 97 96 96 9 94 94 93 92 91 91-99 99 98 97 96 96 9 94 94 93 92 91 91 99 99 98 97 96 96 9 94 94 93 92 91 91-99 99 98 97 96 96 9 94 94 93 92 91 91 - - 99 98 97 96 96 9 94 94 93 92 91 91 - - - 98 97 96 96 9 94 94 93 92 91 91 - - - - 97 96 96 9 94 94 93 92 91 91 - - - - - 96 96 9 94 94 93 92 91 91 - - - - - - 96 9 94 94 93 92 91 91 ßàáâ Capacities are based on following conditions; Refrigerant pipe length : m / Level difference : m. Üùú

7. Operation Range üýþÿ % or less 3 C or less - % or less ßàáâ The assumed installation conditions are follows - The pipe length(including elbow) is m. - The level difference is m. Üùû

8. Piping Diagram AC26MNNDKH/EU+AC26MXADKH/EU, AC26MNJDKH/EU+AC26MXADKH/EU AC3MNNDKH/EU+AC3MXADKH/EU, AC3MNJDKH/EU+AC3MXADKH/EU OUTDOOR UNIT INDOOR UNIT Service Valve- Gas Pipe (SV_G) IDU Heat Exchanger Mid (T_IM) Heat Exchanger - Indoor unit (HX_ID) IDU Heat Exchanger IN (T_II) Outdoor Fan Motor1 (OFM1) Electronic Expansion Valve- Main1 (E_M1) Indoor Room (T_IR) Indoor Fan Motor (IFM) Ambient (T_A) Heat Exchanger - Main(Outdoor unit) (HX_M) Cond Out (T_A) Service Valve- Liquid Pipe (SV_L) Solenoid valve - 4Way (V_4W) Top (T_CT) Discharge pipe (T_D) (COMP) ÜùÜ

8. Piping Diagram C HX_M HX_ID! Filter F"#$ EEV E_M E#%$ &"% E'()&" & *)#* +,)"& Solenoid Valve V_4W S #& "- *)#* +./) Valve (etc) SV_G SV_L S*"% 1)#* + 3) 4"( S*"% 1)#* + "67"- 4"( T_CT T8 "$ + C ( T ( T_D T8 "$ + 9"%8): ("( T_CO T8 "$ + C &- ;7$ Thermistor T_A T_IR T_IM T8 "$ + < ="&$ T8 "$ + >&-? @AB!DG T_II @AB!DG! OFM1 ;7$- F)&, $ O Fan IFM >&- F)&, $ Üù2

AC26MN1DKH/EU+AC26MXADKH/EU, AC26MNADKH/EU+AC26MXADKH/EU AC3MN1DKH/EU+AC3MXADKH/EU, AC3MNADKH/EU+AC3MXADKH/EU OUTDOOR UNIT INDOOR UNIT Service Valve- Gas Pipe (SV_G) IDU Heat Exchanger Mid (T_IM) Heat Exchanger - Indoor unit (HX_ID) IDU Heat Exchanger IN (T_II) Outdoor Fan Motor1 (OFM1) Electronic Expansion Valve- Main1 (E_M1) Indoor Room (T_IR) Indoor Fan Motor (IFM) Ambient (T_A) Heat Exchanger - Main(Outdoor unit) (HX_M) Cond Out (T_A) Service Valve- Liquid Pipe (SV_L) Solenoid valve - 4Way (V_4W) Top (T_CT) Discharge pipe (T_D) (COMP) HIJ

8. Piping Diagram C HX_M HX_ID! Filter F"#$ EEV E_M E#%$ &"% E'()&" & *)#* +,)"& Solenoid Valve V_4W S #& "- *)#* +./) Valve (etc) SV_G SV_L S*"% 1)#* + 3) 4"( S*"% 1)#* + "67"- 4"( T_CT T8 "$ + C ( T ( T_D T8 "$ + 9"%8): ("( T_CO T8 "$ + C &- ;7$ Thermistor T_A T_IR T_IM T8 "$ + < ="&$ T8 "$ + >&-? @AB!DG T_II @AB!DG! OFM1 ;7$- F)&, $ O Fan IFM >&- F)&, $ HIK

AC26MNLDKH/EU+AC26MXADKH/EU, AC3MNLDKH/EU+AC3MXADKH/EU AC3MNMDKH/EU+AC3MXADKH/EU OUTDOOR UNIT INDOOR UNIT Service Valve- Gas Pipe (SV_G) IDU Heat Exchanger Mid (T_IM) Heat Exchanger - Indoor unit (HX_ID) IDU Heat Exchanger IN (T_II) Outdoor Fan Motor1 (OFM1) Electronic Expansion Valve- Main1 (E_M1) Indoor Room (T_IR) Indoor Fan Motor (IFM) Ambient (T_A) Heat Exchanger - Main(Outdoor unit) (HX_M) Cond Out (T_A) Service Valve- Liquid Pipe (SV_L) Solenoid valve - 4Way (V_4W) Top (T_CT) Discharge pipe (T_D) (COMP) HIL

8. Piping Diagram C HX_M HX_ID! Filter F"#$ EEV E_M E#%$ &"% E'()&" & *)#* +,)"& Solenoid Valve V_4W S #& "- *)#* +./) Valve (etc) SV_G SV_L S*"% 1)#* + 3) 4"( S*"% 1)#* + "67"- 4"( T_CT T8 "$ + C ( T ( T_D T8 "$ + 9"%8): ("( T_CO T8 "$ + C &- ;7$ Thermistor T_A T_IR T_IM T8 "$ + < ="&$ T8 "$ + >&-? @AB!DG T_II @AB!DG! OFM1 ;7$- F)&, $ O Fan IFM >&- F)&, $ HIM

AC2MNNDKH/EU+AC2MXADKH/EU, AC2MNJDKH/EU+AC2MXADKH/EU AC2MN4DKH/EU+AC2MXADKH/EU, AC6MNNDKH/EU+AC6MXADKH/EU AC71MNNDKH/EU+AC71MXADKH/EU, AC71MN4DKH/EU+AC71MXADKH/EU AC71MN4PKH/EU+AC71MXADKH/EU OUTDOOR UNIT INDOOR UNIT Service Valve- Gas Pipe (SV_G) IDU Heat Exchanger Mid (T_IM) Heat Exchanger - Indoor unit (HX_ID) IDU Heat Exchanger IN (T_II) Outdoor Fan Motor1 (OFM1) Electronic Expansion Valve- Main1 (E_M1) Indoor Room (T_IR) Indoor Fan Motor (IFM) Ambient (T_A) Heat Exchanger - Main(Outdoor unit) (HX_M) Cond Out (T_A) Service Valve- Liquid Pipe (SV_L) Solenoid valve - 4Way (V_4W) Top (T_CT) Discharge pipe (T_D) Accumulator (AC) (COMP) HIN

8. Piping Diagram C HX_M HX_ID! Tank <%%7 7#)$ Filter F"#$ EEV E_M E#%$ &"% E'()&" & *)#* +,)"& Solenoid Valve V_4W S #& "- *)#* +./) Valve (etc) SV_G SV_L S*"% 1)#* + 3) 4"( S*"% 1)#* + "67"- 4"( T_CT T8 "$ + C ( T ( T_D T8 "$ + 9"%8): ("( T_CO T8 "$ + C &- ;7$ Thermistor T_A T_IR T_IM T8 "$ + < ="&$ T8 "$ + >&-? @AB!DG T_II @AB!DG! OFM1 ;7$- F)&, $ O Fan IFM >&- F)&, $ HII

AC2MNADKH/EU+AC2MXADKH/EU, AC71MNADKH/EU+AC71MXADKH/EU OUTDOOR UNIT INDOOR UNIT Service Valve- Gas Pipe (SV_G) IDU Heat Exchanger Mid (T_IM) Heat Exchanger - Indoor unit (HX_ID) IDU Heat Exchanger IN (T_II) Outdoor Fan Motor1 (OFM1) Electronic Expansion Valve- Main1 (E_M1) Indoor Room (T_IR) Indoor Fan Motor (IFM) Ambient (T_A) Heat Exchanger - Main(Outdoor unit) (HX_M) Cond Out (T_A) Service Valve- Liquid Pipe (SV_L) Solenoid valve - 4Way (V_4W) Top (T_CT) Discharge pipe (T_D) Accumulator (AC) (COMP) PQQ

8. Piping Diagram C HX_M HX_ID! Tank <%%7 7#)$ Filter F"#$ EEV E_M E#%$ &"% E'()&" & *)#* +,)"& Solenoid Valve V_4W S #& "- *)#* +./) Valve (etc) SV_G SV_L S*"% 1)#* + 3) 4"( S*"% 1)#* + "67"- 4"( T_CT T8 "$ + C ( T ( T_D T8 "$ + 9"%8): ("( T_CO T8 "$ + C &- ;7$ Thermistor T_A T_IR T_IM T8 "$ + < ="&$ T8 "$ + >&-? @AB!DG T_II @AB!DG! OFM1 ;7$- F)&, $ O Fan IFM >&- F)&, $ PQR

AC2MNCDKH/EU+AC2MXADKH/EU, AC2MNMDKH/EU+AC2MXADKH/EU AC2MNLDKH/EU+AC2MXADKH/EU, AC6MNMDKH/EU+AC6MXADKH/EU AC71MNCDKH/EU+AC71MXADKH/EU, AC71MNMDKH/EU+AC71MXADKH/EU AC71MNLDKH/EU+AC71MXADKH/EU OUTDOOR UNIT INDOOR UNIT Service Valve- Gas Pipe (SV_G) IDU Heat Exchanger Mid (T_IM) Heat Exchanger - Indoor unit (HX_ID) IDU Heat Exchanger IN (T_II) Outdoor Fan Motor1 (OFM1) Electronic Expansion Valve- Main1 (E_M1) Indoor Room (T_IR) Indoor Fan Motor (IFM) Ambient (T_A) Heat Exchanger - Main(Outdoor unit) (HX_M) Cond Out (T_A) Service Valve- Liquid Pipe (SV_L) Solenoid valve - 4Way (V_4W) Top (T_CT) Discharge pipe (T_D) Accumulator (AC) (COMP) PQH

8. Piping Diagram C HX_M HX_ID! Tank <%%7 7#)$ Filter F"#$ EEV E_M E#%$ &"% E'()&" & *)#* +,)"& Solenoid Valve V_4W S #& "- *)#* +./) Valve (etc) SV_G SV_L S*"% 1)#* + 3) 4"( S*"% 1)#* + "67"- 4"( T_CT T8 "$ + C ( T ( T_D T8 "$ + 9"%8): ("( T_CO T8 "$ + C &- ;7$ Thermistor T_A T_IR T_IM T8 "$ + < ="&$ T8 "$ + >&-? @AB!DG T_II @AB!DG! OFM1 ;7$- F)&, $ O Fan IFM >&- F)&, $ PQP

ACMN4DKH/EU+ACMXADKH/EU, ACMN4PKH/EU+ACMXADKH/EU ACMN4DKH/EU+ACMXADKH/EU, ACMN4PKH/EU+ACMXADKH/EU ACMN4DKH/EU+ACMXADNH/EU, ACMN4PKH/EU+ACMXADNH/EU AC12MN4DKH/EU+AC12MXADKH/EU, AC12MN4PKH/EU+AC12MXADKH/EU AC12MN4DKH/EU+AC12MXADNH/EU, AC12MN4PKH/EU+AC12MXADNH/EU OUTDOOR UNIT INDOOR UNIT Service Valve- Gas Pipe (SV_G) IDU Heat Exchanger Mid (T_IM) Heat Exchanger - Indoor unit (HX_ID) IDU Heat Exchanger IN (T_II) Outdoor Fan Motor1 (OFM1) Electronic Expansion Valve- Main1 (E_M1) Indoor Room (T_IR) Indoor Fan Motor (IFM) Ambient (T_A) Heat Exchanger - Main(Outdoor unit) (HX_M) Cond Out (T_A) Service Valve- Liquid Pipe (SV_L) Solenoid valve - 4Way (V_4W) Top (T_CT) Discharge pipe (T_D) Accumulator (AC) (COMP) PQJ

8. Piping Diagram C HX_M HX_ID! Tank <%%7 7#)$ Filter F"#$ EEV E_M E#%$ &"% E'()&" & *)#* +,)"& Solenoid Valve V_4W S #& "- *)#* +./) Valve (etc) SV_G SV_L S*"% 1)#* + 3) 4"( S*"% 1)#* + "67"- 4"( T_CT T8 "$ + C ( T ( T_D T8 "$ + 9"%8): ("( T_CO T8 "$ + C &- ;7$ Thermistor T_A T_IR T_IM T8 "$ + < ="&$ T8 "$ + >&-? @AB!DG T_II @AB!DG! OFM1 ;7$- F)&, $ O Fan IFM >&- F)&, $ PQK

ACMNMDKH/EU+ACMXADKH/EU, ACMNMDKH/EU+ACMXADNH/EU ACMNCDKH/EU+ACMXADKH/EU, ACMNMDKH/EU+ACMXADKH/EU ACMNCDKH/EU+ACMXADNH/EU, ACMNMDKH/EU+ACMXADNH/EU AC12MNCDKH/EU+AC12MXADKH/EU, AC12MNMDKH/EU+AC12MXADKH/EU AC12MNCDKH/EU+AC12MXADNH/EU, AC12MNMDKH/EU+AC12MXADNH/EU OUTDOOR UNIT INDOOR UNIT Service Valve- Gas Pipe (SV_G) IDU Heat Exchanger Mid (T_IM) Heat Exchanger - Indoor unit (HX_ID) IDU Heat Exchanger IN (T_II) Outdoor Fan Motor1 (OFM1) Electronic Expansion Valve- Main1 (E_M1) Indoor Room (T_IR) Indoor Fan Motor (IFM) Ambient (T_A) Heat Exchanger - Main(Outdoor unit) (HX_M) Cond Out (T_A) Service Valve- Liquid Pipe (SV_L) Solenoid valve - 4Way (V_4W) Top (T_CT) Discharge pipe (T_D) Accumulator (AC) (COMP) PQL

8. Piping Diagram C HX_M HX_ID! Tank <%%7 7#)$ Filter F"#$ EEV E_M E#%$ &"% E'()&" & *)#* +,)"& Solenoid Valve V_4W S #& "- *)#* +./) Valve (etc) SV_G SV_L S*"% 1)#* + 3) 4"( S*"% 1)#* + "67"- 4"( T_CT T8 "$ + C ( T ( T_D T8 "$ + 9"%8): ("( T_CO T8 "$ + C &- ;7$ Thermistor T_A T_IR T_IM T8 "$ + < ="&$ T8 "$ + >&-? @AB!DG T_II @AB!DG! OFM1 ;7$- F)&, $ O Fan IFM >&- F)&, $ PQM

AC1MN4DKH/EU+AC1MXADKH/EU, AC1MN4PKH/EU+AC1MXADKH/EU AC1MN4DKH/EU+AC1MXADNH/EU, AC1MN4PKH/EU+AC1MXADNH/EU OUTDOOR UNIT INDOOR UNIT Service Valve- Gas Pipe (SV_G) IDU Heat Exchanger Mid (T_IM) Heat Exchanger - Indoor unit (HX_ID) IDU Heat Exchanger IN (T_II) Outdoor Fan Motor1 (OFM1) Outdoor Fan Motor2 (OFM2) Electronic Expansion Valve- Main1 (E_M1) Indoor Room (T_IR) Indoor Fan Motor (IFM) Ambient (T_A) Heat Exchanger - Main(Outdoor unit) (HX_M) Cond Out (T_A) Service Valve- Liquid Pipe (SV_L) Solenoid valve - 4Way (V_4W) Top (T_CT) Discharge pipe (T_D) Accumulator (AC) (COMP) PQN

8. Piping Diagram C HX_M HX_ID! Tank <%%7 7#)$ Filter F"#$ EEV E_M E#%$ &"% E'()&" & *)#* +,)"& Solenoid Valve V_4W S #& "- *)#* +./) Valve (etc) SV_G SV_L S*"% 1)#* + 3) 4"( S*"% 1)#* + "67"- 4"( T_CT T8 "$ + C ( T ( T_D T8 "$ + 9"%8): ("( T_CO T8 "$ + C &- ;7$ Thermistor T_A T_IR T_IM T8 "$ + < ="&$ T8 "$ + >&-? @AB!DG T_II @AB!DG! OFM1 ;7$- F)&, $ O OFM2 Fan ;7$- F)&, $ U IFM >&- F)&, $ PQI

AC1MNCDKH/EU+AC1MXADKH/EU, AC1MNMDKH/EU+AC1MXADKH/EU AC1MNCDKH/EU+AC1MXADNH/EU, AC1MNMDKH/EU+AC1MXADNH/EU OUTDOOR UNIT INDOOR UNIT Service Valve- Gas Pipe (SV_G) IDU Heat Exchanger Mid (T_IM) Heat Exchanger - Indoor unit (HX_ID) IDU Heat Exchanger IN (T_II) Outdoor Fan Motor1 (OFM1) Outdoor Fan Motor2 (OFM2) Electronic Expansion Valve- Main1 (E_M1) Indoor Room (T_IR) Indoor Fan Motor (IFM) Ambient (T_A) Heat Exchanger - Main(Outdoor unit) (HX_M) Cond Out (T_A) Service Valve- Liquid Pipe (SV_L) Solenoid valve - 4Way (V_4W) Top (T_CT) Discharge pipe (T_D) Accumulator (AC) (COMP) PRQ

8. Piping Diagram C HX_M HX_ID! Tank <%%7 7#)$ Filter F"#$ EEV E_M E#%$ &"% E'()&" & *)#* +,)"& Solenoid Valve V_4W S #& "- *)#* +./) Valve (etc) SV_G SV_L S*"% 1)#* + 3) 4"( S*"% 1)#* + "67"- 4"( T_CT T8 "$ + C ( T ( T_D T8 "$ + 9"%8): ("( T_CO T8 "$ + C &- ;7$ Thermistor T_A T_IR T_IM T8 "$ + < ="&$ T8 "$ + >&-? @AB!DG T_II @AB!DG! OFM1 ;7$- F)&, $ O OFM2 Fan ;7$- F)&, $ U IFM >&- F)&, $ PRR