PL-ZRP35//6//1/1/14 PL-RP35//6//1/1/14 PLSERIES coplete line-up including deluxe units that offer added energy savings. The incorporation of wide air-outlet and the i-see Sensor enhances airflow distribution control, achieving an enhanced level of cofort throughout the roo. The synergy of higher energy efficiency and ore cofortable roo environent results in the utost user satisfaction. eluxe 4-way assette Line-up For users seeking even further energy-savings, Mitsubishi Electric offers coplete deluxe units (PL-ZRP) for the coplete line-up of odels in this series fro 34. opared to the standard odels (PL-RP), deluxe odels provide additional energy-savings, contributing to a significant reduction in electricity costs. Line-up Series Model eluxe 4-way assette (PL-ZRP) Standard 4-way assette (PL-RP) 35 6 1 1 14 PL-ZRP35 PL-RP35 Indoor/ obinations PL-ZRP PL-RP PL-ZRP6 PL-RP6 PL-ZRP PL-ZRP1 PL-ZRP1 PL-ZRP14 PL-RP PL-RP1 PL-RP1 PL-RP142 Key Technologies for Higher Energy Efficiency New Heat Exchanger esign Heat exchanger fin size and pitch have been changed, raising energy efficiency. Pre-grooved Piping High-perforance pre-grooved piping is utilised, increasing the heat exchange area. eluxe 4-way assette PL-ZRP Standard 4-way assette PL-RP Power Inverter Standard Inverter Power Inverter Standard Inverter duy ZRP35/ ZRP6/ ZRP1/1/14/ 2/2 P1 P1/14 P2/2 ZRP35/ ZRP6/ ZRP1/1/14/ 2/2 SUZ-K35 SUZ-K/6/ P1 P1/14 P2/2 Rank ++/+ Energy Savings chieved for eluxe 4-way assette Our new deluxe 4-way cassette indoor units cobined with newly designed Power Inverter outdoor units (ZRP) achieve industry-leading seasonal efficiency for both cooling and heating: all rank ++ for cooling and + or higher for heating. Miniu 4.6 Miniu ++ ++ 6.8 ++ ++ ++ + ++ ++ ++ 6.7 + ++ 6.9 6.8 ++ 4.6 4.6 4.2 4.5 4.8 4.8 6.3 4.5 6. 4.5 ooling PL-ZRP35 PL-ZRP PL-ZRP6 PL-ZRP PL-ZRP1 PL-ZRP1 PL-ZRP1 PL-ZRP1 PL-ZRP14 PL-ZRP14 ZRP35VK ZRPVK ZRP6VH ZRPVH ZRP1VK2 ZRP1YK2 ZRP1VK2 ZRP1YK2 ZRP14VK2 ZRP14YK2 For products with capacity over 1., / values are easured based on EN1. These values are for reference purposes only. utoatic Grille Lowering Function (PLP-6J) n autoatic grille lowering function is available for easy filter aintenance. Special wired and wireless reote controllers can be used to lower the grille for aintenance. The grille can be lowered a axiu of 4 fro the ceiling in 8 steps, thus enabling easy cleaning of the air filter. leaning of the filter is an iportant factor for saving energy. 1.2 1.6 2. utoatic descent down to 4 2.4 Grille Elevation Reote ontroller (coes with the autoatic elevation panel) Wired Reote ontroller 2.8 3.2 3.6 4.
Height () Optiu irflow Individual Vane Settings Optiu airflow s provide axiu cofort throughout the roo. In addition to the selection of variable airflow patterns (i.e., 2-, 3- or 4-way), this function allows the independent selection of vertical airflow levels for each vane, thereby aintaining a cofortable roo environent with even teperature distribution. Wide irflow Wide-angle outlets distribute airflow to all corners of the roo. The outlets are larger than those of previous odels and the shape has been iproved for better wide-angle ventilation. Iage of ulti-directional air conditioning 2-, 3-, 4-way airflow pattern selection * shuffle placeent is required for 2- and 3-way patterns. Previous odel irflow direction at each vane Horizontal can be set using the wired reote controller. This function is only available when indoor unit connects with series. djustable 72 airflow patterns ownward Fixed New 4-Way eiling assette Individual Vane Setting Wide irflow The cobination of individual vane, which enables the optial outlet for each roo layout, and the wide airflow function works to ensure even teperature distribution throughout each roo. The result is uniforly cofortable air conditioning. Wave irflow Thoroughly waring all corners of the roo! Wave irflow Operation Wave irflow is essentially the advanced control of the vanes directing the airflow fro the unit. lown-air is repeated dispersed fro the unit in horizontal and downward directions at tie-lagged intervals to provide unifor heating throughout the roo. Therograph of Wave ontrol Effect Horizontal irflow Wave irflow ownward ownward ownward ownward Wave irflow is possible only when using the heating ode Teperature gap Uneven teperature distribution Teperature gap is iniized. War air is supplied throughout the roo, iniizing uneven teperature distribution. Teperature distribution coparison approxiately 2in after turning on a PL-RP 4-Way ceiling cassette. The easureent point for coparison is a plane 1.2 above the floor. Equipped with High- and Low-ceiling Modes Units are equipped with high- and low-ceiling operation odes that ake it possible to switch the airflow volue to atch roo height. The ability to choose the optiu airflow volue akes it possible to optiize the breezy sensation felt throughout the roo. 1-14 class irflow Range 4-way airflow with high-ceiling 4.5 4-way airflow with standard 3.2 2.7 4-way airflow with low-ceiling irflow pattern Model 4-Way 3-Way 2-Way High-ceiling 3.5 3.5 3.5 35- class 1-14 class Standard 2.7 3. 3.3 Low-ceiling 2.5 2.7 3. High-ceiling 4.5 4.5 4.5 Standard 3.2 3.6 4. Low-ceiling 2.7 3. 3.3 Horizontal irflow Horizontal irflow function has been added to reduce drafty-feeling distribution. Horizontal irflow prevents cold drafts fro striking the body directly, thereby keeping the body fro becoing over-chilled. utoatic ir-speed djustent n autoatic air-speed ode that adjusts airflow speed autoatically is adopted to aintain cofortable roo conditions at all ties. This autoatically adjusts the air-speed to conditions that atch the roo environent. [irflow istribution] PL-RP1 Flow angle, cooling at 2 (ceiling height 3.2) 3.2 3 1. 2. 3. 4. 5. (/s) t the start of heating/cooling operation, the airflow is set to high-speed to quickly heat/cool the roo. Strong 2 1 Horizontal irflow 5 4 3 2 1 Floor distribution () ore horizontal airflow is achieved using the new ode. Sudge spots on the ceiling ay for where the airflow is not evenly distributed. When the roo teperature reaches the desired, the airflow speed is decreased autoatically for stable cofortable heating/cooling operation. Gentle
OES HVING OL FEET OTHER YOU? The i-see Sensor is the answer to your probles! Mode ooling Mode War air rises to the ceiling! Legs and feet feel cold! In heating ode, the upper body gets war but legs and feet reain chilly. Even though the teperature on the reote controller is at a preset teperature, the teperature at floor level reains cold. s a result, there s no feeling of getting warer. When cooling, the legs and feet get too cold, chilling the entire body. t the beginning of operation, the roo is nice and cool; but before long the teperature at floor level drops, causing the feeling of being too cold. teperature-sensing technology iproves energy efficiency and enhances roo cofort The i-see Sensor is an innovative Mitsubishi Electric technology that uses a radiation-based sensor to onitor teperature throughout an entire roo. When connected to the air conditioner control panel, i-see Sensor works to axiize roo cofort. i-see Sensor Panel or PLP-6E orner Panel Only (Option) P-S1ME-E i-see Sensor Operation The i-see Sensor rotates 9 at intervals of, accurately easuring the teperature throughout the roo (covering entire floor space). easureent 9 rotation easureent 9 rotation easureent 9 rotation easureent cofortable roo environent cannot be aintained by onitoring only the teperature at the ceiling. Without i-see Sensor Only intake-air teperature at the ceiling was easured, tending to overlook uneven teperature distribution at floor level. Intake-air teperature sensor assette without the i-see Sensor easures teperature in this area only. Intake-air teperature sensor assette equipped with the i-see Sensor easures upper and lower areas. 36 sensing 2.7 11.5 Equipped with 4-Way eiling i-see Sensor oth the floor teperature and intake-air teperature are easured to provide operation that creates a cofortable roo environent fro ceiling to floor. In Mode When you want the teperature felt to be 2 Teperature : 2 (w/o i-see Sensor) 37 Teperature : 2 (w/ i-see Sensor + utoatic ir-speed djustent) 37 13 Teperature gap Teperature felt: 17 (floor level 14) War air rises to the ceiling. This causes poor heating at floor level, leaving legs and feet feeling cold. Roo air wared to floor level 13 Teperature gap iniized Teperature felt: 2 (floor level 2) The i-see Sensor detects the teperature at the floor while the utoatic ir-speed djustent eliinates uneven teperature distribution by thoroughly waring the air down to the floor. In ooling Mode 28 When you want the teperature felt to be 28 Teperature : 27 (w/o i-see Sensor) Floor-level teperature Teperature felt ir teperature (intake-air teperature) t start-up (approx. in) Teperature distribution ecause it takes longer to cool down the floor-level teperature than the air teperature, a teperature of 27 is required. Teperature felt drops fter specified tie Teperature felt: The teperature felt drops according to the drop in floor-level teperature. If the floor-level teperature is not onitored during long cooling operation, the teperature felt becoes chilly. 23 14 28 Teperature : 28 (w/ i-see Sensor + utoatic ir-speed djustent) Floor-level teperature ir teperature (intake-air teperature) Teperature felt t start-up (approx. in) Teperature distribution i-see Sensor coputes the teperature felt by onitoring both intake-air teperature and floorlevel teperature. The air teperature is adjusted at initial start-up, ensuring that the teperature felt reaches a teperature. No drop in teperature felt Teperature Felt: 28 fter specified tie ir teperature is adjusted according to the floor teperature to keep the teperature felt at 28. ofortable without excess chilliness 23 14
SERIES SELETION Power Inverter Series 35- Joint Lap Vector Sine Wave 1-2 Scroll Fan Motor Vector-Wave 35-14 Grooved Piping 35- Heat aulking Fixing Method For Single PL-ZRP35//6//1/1/14 ZRP35/ ZRP6/ ZRP1/1/14 Standard Panel PLP-6 (only Panel) PLP-6LM (with wireless reote controller) utoatic Filter Elevation Panel PLP-6J (only Panel) Standard Panel with i-see Sensor PLP-6E (only Panel) PLP-6LME (with wireless reote controller) For Multi (Twin/Triple/Quadruple) ZRP ZRP1/1/14/2/2 Reote ontroller Enclosed in PLP-6LM/PLP-6LME Standard Inverter Series 35- Joint Lap 1-2 Vector Sine Wave -14 2/2 1-2 35-14 Rotary Scroll Fan Motor Vector-Wave Grooved Piping - Heat aulking Fixing Method For Single PL-RP35//6//1/1/14 SUZ-K35 SUZ-K/6/ P1 P1/14 Standard Panel PLP-6 (only Panel) PLP-6LM (with wireless reote controller) utoatic Filter Elevation Panel PLP-6J (only Panel) For Multi (Twin/Triple/Quadruple) Standard Panel with i-see Sensor PLP-6E (only Panel) PLP-6LME (with wireless reote controller) P1 P1/14 P2/2 Reote ontroller Enclosed in PLP-6LM/PLP-6LME PLZ-ZRP/RP obinations Indoor unit cobinations shown below are possible. apacity obination For Single For Twin For Triple For Quadruple 35 6 1 1 14 2 2 1 1 14 2 2 14 2 2 2 2 Power Inverter (ZRP) 35x1 x1 6x1 x1 1x1 1x1 14x1 35x2 x2 6x2 x2 1x2 1x2 x3 6x3 x3 x4 6x4 istribution Pipe MS-TR-E MS-WR-E MST-111R-E MSF-1111R-E Standard Inverter (P & SUZ) 35x1 x1 6x1 x1 1x1 1x1 14x1 x2 6x2 x2 1x2 1x2 x3 6x3 x3 x4 6x4 istribution Pipe MS-TR-E MS-WR-E MST-111R-E MSF-1111R-E 68
Please fill out the requested inforation Please fill out the requested inforation Please fill out the requested inforation Please fill out the requested inforation PLZ-RP SERIES POWER INVERTER 6-14V/2/2 at reference design teperature at bivalent teperature at operation liit teperature ack Up apacity nnual Electricity onsuption* 2 h/a Operating urrent (ax) Unit Operating urrent (ax) iensions <Panel> H W ir Volue [Lo-Mi2-Mi1-Hi] Sound Level (SPL) [Lo-Mi2-Mi1-Hi] d() d() Outdoor iensions H W ir Volue ooling d() d() ooling d() Operating urrent (ax) reaker Size Ext. iaeter Liquid / Gas Guaranteed Operating Range ooling* 3 1.6-4.5.79 3.6 185 6.8 ++ 1.6-5.2.86 2.4 2.4 (1) 2.4 (1) 2.2 (11) 729 4.6 ++ 13.3.4.28 23 <6> 11-13-15-27-28-29-31 43 45. 45. 13. 15 ~ + 11 ~ +21 PL- ZRP35 ZRP35VK ooling apacity 3.6 Total Input nnual Electricity onsuption* 2 h/a apacity (verage Season) Total Input PL- ZRP ZRPVK 5. 2.3-5.6 1.43 5. 272 ++ 6. 2.5-7.3 1.57 (1) (1) 3.7 (11) 12 4.6 ++ 13.3.4. PL- ZRP6 ZRP6VH PL- ZRP Inverter Heat Pup PL-ZRP1 PL-ZRP1 PL-ZRP14 ZRP1YK2 8-84 - 84 <35-9 - 9> 298-84 - 84 <35-9 - 9> 23 <6> 23 <6> <6> 26 <6> 26 <6> 12-14--18 12-14--18 17-19-21-23 2-23-26-2-23-26- 22--28-31 28-29-31-28-29-31- 28--34-36 -34-37-4-34-37-4 34-36-39-41 58 6-89 - 45. 45. 13. 15 ~ + 11 ~ +21 2.7-6.5 8 3 ++ 7. 2.8-8.2 2.4 4.4 4.4 (1) 4.4 (1) 2.8 (2) 12 4.2 + 1.4... 19. 15 ~ + 2 ~ +21 ZRPVH ZRP1VK2 ZRP1YK2 ZRP1VK2 R41* 1 VK VK2 VH:2 / Single /, YK2:4 / Three / 3.3-8.1 4.9-11.4 4.9-11.4 5.5-14. 7 2. 2. 7 3.23 3 4 3 685 6.7 6.9 6.8 ++ ++ ++ 8. 11.2 11.2 14. 3.5-1.2 4.5-14. 4.5-14. 5. -. 1. 2.6 2.6 3. 1 (1) (1) (1) (1) (1) (1) (1) (1) 3.5 (2) 5.8 (2) 5.8 (2) 7. (2) 16 22 22 2778 4.5 4.8 4.8 * 4 + ++ ++ 1 27.2 8.7 27.3.5.8.8.9.45.74.74.8 943-9 - 3 (+).. 19. 15 ~ + 2 ~ +21 1 11. 11. 15 ~ + 2 ~ +21 123 11. 11. 8. 15 ~ + 2 ~ +21 5.5-14. 7 3.23 5 6.3 14. 5. -. 3. 1 (1) (1) 7. (2) 2778 * 4 1.3.9.8 22--28-31 34-36-39-41 1338-1 - 3 (+4) 1 1 12. 12. 12. 12. 15 ~ + 15 ~ + 2 ~ +21 2 ~ +21 ZRP14VK2 6.2-15. 7 3.7 7 * 4. 5.7-18. 4. 3.4 1.6 1.6 (1) 1.6 (1) 7.9 (2) 34 4.5* 4 29.1.12 24-26-29-118 12. 12. 28. 4 15 ~ + 2 ~ +21 ZRP14YK2 6.2-15. 7 3.7 781 6.* 4. 5.7-18. 4. 3.4 1.6 1.6 (1) 1.6 (1) 7.9 (2) 34 4.5* 4 1.12 24-26-29-131 12. 12. 13. 15 ~ + 2 ~ +21 *1 leakage contributes to cliate change. with lower global waring potential (GWP) would contribute less to global waring than a refrigerant with higher GWP, if leaked to the atosphere. This appliance contains a refrigerant fluid with a GWP equal to 19. This eans that if 1 of this refrigerant fluid would be leaked to the atosphere, the ipact on global waring would be 19 ties higher than 1 of O2, over a period of 1 years. Never try to interfere with the refrigerant circuit yourself or disasseble the product yourself and always ask a professional. *2 Energy consuption based on standard test results. ctual energy consuption will depend on how the appliance is used and where it is located. *3 air protection guide is required where abient teperature is lower than 5. *4 / values are easured based on EN1. These values are reference purpose only. SPLZ-P SERIES SERIES STNR INVERTER SUZ at reference design teperature at bivalent teperature at operation liit teperature ack Up apacity nnual Electricity onsuption* 2 h/a Operating urrent (ax) Unit Operating urrent (ax) iensions <Panel> H W ir Volue [Lo-Mi2-Mi1-Hi] Sound Level (SPL) [Lo-Mi2-Mi1-Hi] d() d() Outdoor iensions H W ir Volue ooling d() d() ooling d() Operating urrent (ax) reaker Size Ext. iaeter Liquid / Gas Guaranteed Operating Range ooling* 3 1.4-3.9 1.9 3.6 21 6. + - 5. 1.4 2.6 2.3 (1) 2.3 (7) 2.3 (1).3 8 4.2 + 8.4.3.22 22 <6> 11-12-13-15 27-28-29-31 5-8 - 285 35 36.3 34.8 8.2 1 6.35 / 9. 2 12 1 ~ + 1 ~ +24 PL- RP35 SUZ- K35V5 ooling apacity 3.6 Total Input nnual Electricity onsuption* 2 h/a apacity (verage Season) Total Input PL- RP SUZ- KV5 5.5 2.3-5.6 1. 5.5 1 6. + 6. - 7.2 (1) (7) (1).5 13 4. + 12.4.5.36 PL- RP6 SUZ- K6V5 PL- RP Inverter Heat Pup PL-RP1 PL-RP1 PL-RP142 P1YH 8-84 - 84 <35-9 - 9> 298-84 - 84 <35-9 - 9> 22 <6> 23 <6> 23 <6> <6> <6> <6> 12-14--18 12-14--18 14--18-21 2-23-26-2-23-26- 22--28-31 28-29-31-28-29-31- 28---34-34-37-4 -34-37-4 34-36-39-41.6.6 12. 2 15 ~ + 1 ~ +24 2.3-6.3 1.91 3 6. + 7. 2.5-8. 2.6 4.6 4. (1) (7) 4. (1).6 12 + 14.4.5.36 88-84 - 3 4.9.2 14. 2 6.35 / 15.88 15 ~ + 1 ~ +24 SUZ- KV5 P1VH4 P1YH2 P1VH3 R41* 1 V5 VH3 VH4:2 / Single /, YH YH2:4 / Three / 2.8-8.1 4.9-11.2 4.9-11.2 5.5-14. 2.1 3.12 3.12 4.9 3.1 429 8 8 5.8 5.2 5.2 + 8. 11.2 11.2 14. 2.6-1.2 4.5-4.5-5. -. 2.2 3.28 3.28 1 3.41 5.8 8. 8. (1) 6.3 (1) 6.3 (1) 5.1 (7) (7) (7) (1) 5. (15) 5. (15) 1.1 1913 2945 2945 +.6 28.9 13.9 29..7.14.14.15..94.94 1. 53.1.2.1 2 15 ~ + 1 ~ +24 5.5-14. 4.9 3.1 14. 5. -. 1 3.41 14..15 1. <6> 22--28-31 34-36-39-41 P14VH3 5.5-15. 5.21 2.61. 5. - 18. 4.98 3.21.5.15 1. 24-26-29-943 - 9-3 (+) 13-9 - 3 (+) 6. 6. 28. 15 ~ + 15 ~ +21 77 6. 6. 13. 15 ~ + 15 ~ +21 1. 1. 28. 15 ~ + 15 ~ +21 11 1. 1. 13. 15 ~ + 15 ~ +21 1. 1. 2 4 15 ~ + 15 ~ +21 P14YH 5.5-15. 5.21 2.61. 5. - 18. 4.98 3.21 14..15 1. 24-26-29-11 1. 1. 13. 15 ~ + 15 ~ +21 *1 leakage contributes to cliate change. with lower global waring potential (GWP) would contribute less to global waring than a refrigerant with higher GWP, if leaked to the atosphere. This appliance contains a refrigerant fluid with a GWP equal to 19. This eans that if 1 of this refrigerant fluid would be leaked to the atosphere, the ipact on global waring would be 19 ties higher than 1 of O2, over a period of 1 years. Never try to interfere with the refrigerant circuit yourself or disasseble the product yourself and always ask a professional. *2 Energy consuption based on standard test results. ctual energy consuption will depend on how the appliance is used and where it is located. *3 air protection guide is required where abient teperature is lower than 5. *4 / values are easured based on EN1. These values are reference purpose only.
PLZ-RP SERIES POWER INVERTER 6-14V/2/2 at reference design teperature at bivalent teperature at operation liit teperature ack Up apacity nnual Electricity onsuption* 2 h/a Operating urrent (ax) Unit Operating urrent (ax) iensions <Panel> H W ir Volue [Lo-Mi2-Mi1-Hi] Sound Level (SPL) [Lo-Mi2-Mi1-Hi] d() d() Outdoor iensions H W ir Volue ooling d() d() ooling d() Operating urrent (ax) reaker Size Ext. iaeter Liquid / Gas Guaranteed Operating Range ooling* 3 1.6-4.5.88 3.5 189 6.5 ++ 1.6-5.2.96 2.3 2.3 (1) 2.3 (1) 2.2 (11) 7 + 13.2.3.22 22 <6> 11-12-13-15 27-28-29-31 43 45. 45. 13. 15 ~ + 11 ~ +21 PL- RP35 ZRP35VK ooling apacity 3.5 Total Input nnual Electricity onsuption* 2 h/a apacity (verage Season) Total Input PL- RP ZRPVK 5. 2.3-5.6 1.43 5. 311 5.6 + 6. 2.5-7.3 1.82 (1) (1) 3.7 (11) 1313 +.5.36 PL- RP6 ZRP6VH PL- RP Inverter Heat Pup PL-RP1 PL-RP1 PL-RP142 ZRP1YK2 8-84 - 84 <35-9 - 9> 298-84 - 84 <35-9 - 9> 22 <6> 23 <6> 23 <6> <6> <6> <6> <6> 12-14--18 12-14--18 14--18-21 2-23-26-2-23-26- 22--28-31 22--28-31 28-29-31-28-29-31- 28---34-34-37-4 -34-37-4 34-36-39-41 34-36-39-41 6-89 - 45. 45. 13. 15 ~ + 11 ~ +21 2.7-6.5 1.9 3 5.7 + 7. 2.8-8.2 2.17 4.4 4.4 (1) 4.4 (1) 2.8 (2) 1576 3.9 1.5.36.. 19. 15 ~ + 2 ~ +21 ZRPVH ZRP1VK2 ZRP1YK2 ZRP1VK2 R41* 1 VK VK2 VH:2 / Single /, YK2:4 / Three / 3.3-8.1 4.9-11.4 4.9-11.4 5.5-14. 1.87 2.21 2.21 3. 3.13 387 1 2 8 6.5 5.* 4 ++ ++ ++ 8. 11.2 11.2 14. 3.5-1.2 4.5-14. 4.5-14. 5. -. 2.21 2.95 2.95 3.91 3.58 (1) (1) (1) (1) (1) (1) (1) (1) 3.5 (2) 5.8 (2) 5.8 (2) 7. (2) 11 21 21 34 3.9* 4 + + + 1 27.4 8.9 27.5.7.14.14.15..94.94 1. 943-9 - 3 (+).. 19. 15 ~ + 2 ~ +21 1 11. 11. 15 ~ + 2 ~ +21 123 11. 11. 8. 15 ~ + 2 ~ +21 5.5-14. 3. 3.13 886 4.9* 4 14. 5. -. 3.91 3.58 (1) (1) 7. (2) 34 3.9* 4 1.5.15 1. 1338-1 - 3 (+4) 1 1 12. 12. 12. 12. 15 ~ + 15 ~ + 2 ~ +21 2 ~ +21 ZRP14VK2 6.2-15. 4.4 3.5 8 5.5* 4. 5.7-18. 6 3.36 1.6 1.6 (1) 1.6 (1) 7.9 (2) 37 4.* 4 29.1. 24-26-29-118 12. 12. 28. 4 15 ~ + 2 ~ +21 ZRP14YK2 6.2-15. 4.4 3.5 86 5.5* 4. 5.7-18. 6 3.36 1.6 1.6 (1) 1.6 (1) 7.9 (2) 37 4.* 4 1. 24-26-29-131 12. 12. 13. 15 ~ + 2 ~ +21 *1 leakage contributes to cliate change. with lower global waring potential (GWP) would contribute less to global waring than a refrigerant with higher GWP, if leaked to the atosphere. This appliance contains a refrigerant fluid with a GWP equal to 19. This eans that if 1 of this refrigerant fluid would be leaked to the atosphere, the ipact on global waring would be 19 ties higher than 1 of O2, over a period of 1 years. Never try to interfere with the refrigerant circuit yourself or disasseble the product yourself and always ask a professional. *2 Energy consuption based on standard test results. ctual energy consuption will depend on how the appliance is used and where it is located. *3 air protection guide is required where abient teperature is lower than 5. *4 / values are easured based on EN1. These values are reference purpose only. SPLZ-P SERIES SERIES STNR INVERTER SUZ ooling apacity Total Input nnual Electricity onsuption* 2 apacity (verage Season) Total Input at reference design teperature at bivalent teperature at operation liit teperature ack Up apacity nnual Electricity onsuption* 2 Operating urrent (ax) Unit Operating urrent (ax) iensions <Panel> H W ir Volue [Lo-Mi2-Mi1-Hi] Sound Level (SPL) [Lo-Mi2-Mi1-Hi] d() d() Outdoor iensions H W ir Volue ooling d() d() ooling d() Operating urrent (ax) reaker Size Ext. iaeter Liquid / Gas Guaranteed Operating Range ooling* 3 Inverter Heat Pup PL-ZRP1 PL-ZRP1 PL-ZRP14 P1VH4 P1YH2 P1VH3 P1YH P14VH3 P14YH R41* 1 2 / Single / 4 / Three / 2 / Single / 4 / Three / 2 / Single / 4 / Three / 4.9-11.2 4.9-11.2 5.5-14. 5.5-14. 5.5-15. 5.5-15. 2 2 4.2 4.2 5.1 5.1-3.6 3.6 2. 2. - h/a 61 61 5.4 5.4 11.2 11.2 14. 14... 4.5-4.5-5. -. 5. -. 5. - 18. 5. - 18. 3.137 3.137 3.989 3.989 4.938 4.938 3. 3. 3.24 3.24 8. 8. 6.3 (1) 6.3 (1) (7) (7) 5. (15) 5. (15) h/a 28 28 4. 4. + + 28.7 13.7 28.8 1.6 1.8.8.9.9.12.12.74.74.8.8 26 <6> 2-23 - 26 - - 34-37 - 4 6. 6. 28. 15 ~ + 15 ~ +21 26 <6> 2-23 - 26 - - 34-37 - 4 77 6. 6. 13. 15 ~ + 15 ~ +21 298-84 - 84 <35-9 - 9> 22 - - 28-31 34-36 - 39-41 1. 1. 28. 15 ~ + 15 ~ +21 22 - - 28-31 34-36 - 39-41 943-9 - 3 (+) 13-9 - 3 (+) 11 1. 1. 13. 15 ~ + 15 ~ +21 24-26 - 29-36 - 39-42 - 1. 1. 2 4 15 ~ + 15 ~ +21 24-26 - 29-36 - 39-42 - 11 1. 1. 13. 15 ~ + 15 ~ +21 *1 leakage contributes to cliate change. with lower global waring potential (GWP) would contribute less to global waring than a refrigerant with higher GWP, if leaked to the atosphere. This appliance contains a refrigerant fluid with a GWP equal to 19. This eans that if 1 of this refrigerant fluid would be leaked to the atosphere, the ipact on global waring would be 19 ties higher than 1 of O2, over a period of 1 years. Never try to interfere with the refrigerant circuit yourself or disasseble the product yourself and always ask a professional. *2 Energy consuption based on standard test results. ctual energy consuption will depend on how the appliance is used and where it is located. *3 air protection guide is required where abient teperature is lower than 5. *4 / values are easured based on EN1. These values are reference purpose only.