Air to Water Heat Pump

E7- Air to Water Heat Pump Hydro Unit HWS-55XWHM-E HWS-805XWHM-E HWS-805XWHT6-E HWS-805XWHT9-E HWS-05XWHM-E HWS-05XWHT6-E HWS-05XWHT9-E HWS-P805XWHM-E HWS-P805XWHT6-E HWS-P805XWHT9-E HWS-P05XWHM-E HWS-P05XWHT6-E HWS-P05XWHT9-E Outdoor Unit.5 kw 8 kw //6 kw HWS-55H-E HWS-805H-E HWS-05H-E HWS-05H-E HWS-05H8-E HWS-05H8-E HWS-605H8-E HWS-05H8R-E HWS-05H8R-E HWS-605H8R-E HWS-P805HR-E HWS-P05HR-E Hot Water Cylinder HWS-50CSHM-E HWS-0CSHM-E HWS-00CSHM-E

Air to Water Heat Pump Contents. INTRODUCTION........................................................ SYSTEM OVERVIEW................................................... 6 -. System Combination................................................ 7 -. Hydro Unit........................................................ 7 -. Outdoor Unit....................................................... 8 -. Hot Water Cylinder.................................................. 8-5. Options........................................................... 9. SYSTEM SPECIFICATION.............................................. 0. HYDRO UNIT........................................................ -. Specification...................................................... -. Dimension....................................................... 7 -. Piping Diagram................................................... 9 -. Wiring Diagram................................................... -5. Capacity Tables................................................... 8-6. Part Load Tables.................................................. 7-7. Q-H characteristics of hydro unit..................................... 5-8. Options......................................................... 7 5. OUTDOOR UNIT..................................................... 9 5-. Specification..................................................... 50 5-. Dimension...................................................... 56 5-. Piping Diagram.................................................. 59 5-. Wiring Diagram.................................................. 6 5-5. Sound Data..................................................... 67 5-6. Operation Range................................................. 69 6. HOT WATER CYLINDER.............................................. 7 6-. Specification..................................................... 7 6-. Dimension...................................................... 7 6-. Piping Diagram.................................................. 75 6-. Wiring Diagram.................................................. 77

. INTRODUCTION

.INTRODUCTION to ate Heat Pump System World-leading energy efficiency COP of.77* Comfortable heating and hot water supply Versatile installation and operation Welcome Estía to your home! Air-to-water Heat Pump System * kw model Introducing Toshiba s super-efficient space heating and hot water supply system for homes and businesses. Estía represents breakthrough thinking in intelligent heat pump and inverter technologies, by efficiently transferring ambient thermal heat from outside air to heat water indoors. Based on Toshiba s proven light commercial air conditioning system, the Super Digital Inverter, this innovative unit features DC twin rotary compressor, DC inverter and R0A refrigerant, providing the highest coefficient of performance (COP) in its class. This means more power from less energy consumption, and the ideal ecological and economical solution for your home. Hot water cylinder.5 kw 8 kw //6 kw Hot water cylinder

.INTRODUCTION Advantages World-leading energy efficiency - COP of.88* With its best in class COP performance, Estía air to water heat pump system delivers more heating power with less energy consumption. Estía uses high quality components and material which contribute to the overall savings in energy consumption. With the Toshiba advanced inverter, Estía air to water heat pump system only delivers the heating capacity required; thus consuming only the necessary electricity. The hot water temperature is also optimized thanks to Toshiba advanced control depending on the outside air temperature. The milder outside, the air-to-water systems automatically produces lower water temperature to anticipate decreased needs of space heating. The same control logic allows to anticipate as well increasing heating needs when weather conditions become extreme; this overall temperature management gives the best conditions of comfort. All this saving has a positive impact on the personal electricity bill and the whole community by reducing the CO emissions in the atmosphere. *kw model Easy to install Environment conscious Quick and easy to install. The hydro module unit can be placed safely in the most suitable place within the house. There s no need for chimney or underground captors which require additional works on site. The compact outdoor unit can be placed anywhere outside the house or on a balcony, thanks to extensive piping options. The use of Toshiba Estía heat pump contribute to the reduction of global CO emissions in the atmosphere and limit the use of fossil fuels or other non-renewable energy primary sources. Whenever required for maintenance purpose, all the R0A refrigerant (non ozone depleting) can be completely sucked back to the outdoor unit through the powerful embedded Toshiba pump down operation. One system, multiple solutions Estía heat pump systems can be used in combination with different types of emitters: existing heating low temperature radiators, floor heating or fan coil units. The right temperature at the right time It can produce water at different temperatures for several applications simultaneously. Toshiba Estía air to water heat pump system operates smoothly both with low outdoor air temperature down to -0 C in winter and up to C in the summer season. The system has a unique anti-ice build-up protection embedded.

.INTRODUCTION For new houses or refurbishment Estía heat pump offers a variety of combinations, some examples are shown below: zone Shower Bath Kitchen zone Floor heating Hot water tank Floor heating zone heating zone heating with domestic hot water Shower Bath Kitchen way valve HEATING ONLY Panel radiator zone Conventional boiler Panel radiator zone Hot water tank Fan coil HEATING COOLING Buffer tank zone heating / cooling with domestic hot water zone heating with boiler backup zones zones Panel radiator Conventional boiler Panel radiator Shower Bath Kitchen Shower Bath Kitchen Hot water tank Hot water tank Mixing valve Buffer tank Temp. sensor Floor heating Mixing valve Temp. sensor Floor heating Buffer tank zone heating with domestic hot water Buffer tank zone heating with domestic hot water and boiler backup In existing dwellings already equipped with traditional gas or The intelligent Toshiba control balances the energy source in the fuel boilers, Toshiba Estía air to water heat pump system can be most efficient way. combined with the existing heating system to cover exclusively and in an optimized way all the heating needs, all year round. Then, the boiler is only used as a back-up source during some extreme weather days of the winter. 5

. SYSTEM OVERVIEW 6

.SYSTEM OVERVIEW -. System Combination Combination Hydro Unit HWS- 55H-E HWS- 805H-E HWS- 05H-E HWS- 05H-E Outdoor Unit HWS- 05H8-E HWS- 05H8-E HWS- 605H8-E HWS- 05H8R-E HWS- 05H8R-E HWS- 605H8R-E Backup heater HWS-55XWHM-E ~, kw HWS-805XWHM-E ~, kw HWS-805XWHT6-E N ~, 6 kw HWS-805XWHT9-E N~, 9 kw HWS-05XWHM-E ~, kw HWS-05XWHT6-E N~, 6 kw HWS-05XWHT9-E N~, 9 kw 0-0 V model phase model phase with Cord Heater HWS-55XWHM-E HWS-805XWHM-E HWS-805XWHT6-E HWS-805XWHT9-E HWS-05XWHM-E HWS-05XWHT6-E HWS-05XWHT9-E HWS-50 CSHM-E Hot water cylinder HWS-0 CSHM-E HWS-00 CSHM-E -. Hydro Unit.5 kw model 8 kw model Hydro Unit kw, kw, 6 kw model HWS-55XWHM-E Back up heater capacity (kw).0 Power supply Leaving water temperature for back up heater for hot water cylinder heater (option) 0-0 V ~ 50 Hz 0-0 V ~ 50 Hz Heating 0-55 Cooling 7-5 Hydro Unit HWS-805XWHM-E HWS-805XWHT6-E HWS-805XWHT9-E Back up heater capacity (kw).0 6.0 9.0 Power supply Leaving water temperature for back up heater 0-0 V ~ 50 Hz 80-00 V N~ 50 Hz 80-00 V N~ 50 Hz for hot water cylinder heater (option) 0-0 V ~ 50 Hz Heating 0-55 Cooling 7-5 Hydro Unit HWS-05XWHM-E HWS-05XWHT6-E HWS-05XWHT9-E Back up heater capacity (kw).0 6.0 9.0 Power supply Leaving water temperature for back up heater 0-0 V ~ 50 Hz 80-00 V N~ 50 Hz 80-00 V N~ 50 Hz for hot water cylinder heater (option) 0-0 V ~ 50 Hz Heating 0-55 Cooling 7-5 7

.SYSTEM OVERVIEW -. Outdoor Unit Single Phase model HWS-55H-E HWS-805H-E HWS-05H-E HWS-05H-E Power supply 0-0 V ~ 50 Hz Type INVERTER Function Heating & Cooling Capacity (kw).5 8.0..0 Heating Input (kw) 0.9.79.0. COP (W/W).90.6.88.50 Capacity (kw).5 6.0 0.0.0 Cooling Input (kw).6.9.6.8 EER (W/W).08.0.07.89 Refrigerant R0A Dimension HxWxD (mm) 60x800x00 890x900x0,0x900x0 Phase model Power supply Type Function Heating Cooling Refrigerant HWS- 05H8-E -. Hot Water Cylinder HWS- 05H8-E HWS- 605H8-E HWS- 05H8R-E 80-00 V N~ 50 Hz INVERTER Heating & Cooling with Cord heater HWS- 05H8R-E HWS- 605H8R-E Capacity (kw)..0 6.0..0 6.0 Input (kw)..6.7..6.7 COP.80..0.80..0 Capacity (kw) 0.0.0.0 0.0.0.0 Input (kw).6.8.80.6.8.80 EER.07.89.7.07.89.7 R0A Dimension HxWxD (mm),0x900x0 Cord heater (W) 75 Hot water cylinder (option) HWS-50CSHM-E HWS-0CSHM-E HWS-00CSHM-E Water volume litres 50 0 00 Max water temperature 75 Electric heater (kw).75 (0 V ~) Height (mm),090,7,00 Diameter (mm) 550 Material Stainless steel 8

.SYSTEM OVERVIEW -5. Options No. Part name Model name Application Remarks External output board TCB-PCINE External input board TCB-PCMOE Second Remote Controller HWS-AMS5E Boiler-linked output, Alarm output Defrost signal output, compressor operation signal output Cooling/heating thermostat input Forced-stop signal input Wired Remote Controller for Room air temperature control Up to two boards (according to applications) Up to two boards (according to applications) 9

. SYSTEM SPECIFICATION 0

.SYSTEM SPECIFICATION Rated Heating condition LWT=5 C dt=5deg =7 C Rated Cooling condition LWT=7 C dt=5deg =5 C Power supply HWS-55H-E HWS-805H-E HWS-05H-E HWS-05H-E HWS-55XWH**-E HWS-805XWH**-E HWS-05XWH**-E HWS-05XWH**-E Capacity kw.5 8.0..0 Input kw 0.9.79.0. COP W/W.90.6.88.50 Rated water flow rate l/min.90.90.0 0.0 Capacity kw.5 6.0 0.0.0 Input kw.6.9.6.8 EER W/W.08.0 9.00.89 Rated water flow rate l/min.90 7.0 8.90.50 ~ 0V 50Hz Maximum current A.0 9.0.80.80 Rated Heating condition LWT=5 C dt=5deg =7 C Rated Cooling condition LWT=7 C dt=5deg =5 C Power supply HWS-05H8-E HWS-05H8-E HWS-605H8-E HWS-05XWH**-E HWS-05XWH**-E HWS-605XWH**-E Capacity kw..0 6.0 Input kw..6.7 COP W/W.80..0 Rated water flow rate l/min.0 0.0 5.80 Capacity kw 0.0.0.0 Input kw.6.8.80 EER W/W.07.89.7 Rated water flow rate l/min 8.90.50 7.0 * Rated condition capacity and power input are the data at rated compressor operating frequency. * Capacity and power input are measured in accordance with EN5. : Outdoor temperature LWT : Leaving water temperature dt : Delta temperature (deg) Leaving water temperature - Return water temperature (Heating) Return water temperature - Leaving water temperature (Cooling) N~ 80-00V 50Hz Maximum current A.60.60.60

. HYDRO UNIT

.HYDRO UNIT -. Specification --. specifications Back up heater Hot water cylinder heater* Appearance Outer dimension HWS-55XWHM-E HWS-805XWHM-E HWS-805XWHT6-E HWS-805XWHT9-E back up heater kw.0.0 6.0 9.0 Power supply ~ 0-0V 50Hz ~ 0-0V 50Hz N~ 80-00V 50Hz N~ 80-00V 50Hz Maximum current A.00 (A*P) (A*P) Power supply ~ 0-0V 50Hz Maximum current A.0 Color Material Silky shade (Muncel Y8.5-0.5) PCM Height mm 95 Width mm 55 Depth mm 55 Unit weight kg 9 Packing dimension Height mm 070 Width mm 608 Depth mm 6 Total weight Unit and packing kg 5 Heat exchanger Water pump Expansion vessel Pressure relief valve Type Brazed plate Water volume 0.67 Minimum flow rate.0 Power input 8 Delivery head 6. Volume Initial pressure 0. () Operating pressure 0. () Sound pressure level dba 7 Operation water temp. Water pipe Refrigerant pipe Heating C 0~55 Cooling C 7~5 Outlet.9 Inlet.9 Gas 5.9 Liquid 9.5 Drain port mm 6.0 inner diameter for drain hose Note * The electric heater, incorporated in the hot water cylinder, requires separate supply to hydro unit.

.HYDRO UNIT Back up heater Hot water cylinder heater* Appearance Outer dimension HWS-05XWHM-E HWS-05XWHM6-E HWS-05XWHM9-E back up heater kw.0 6.0 9.0 Power supply ~ 0-0V 50Hz N~ 80-00V 50Hz N~ 80-00V 50Hz Maximum current A (A*P) (A*P) Power supply ~ 0-0V 50Hz Maximum current A.0 Color Material Silky shade (Muncel Y8.5-0.5) PCM Height mm 95 Width mm 55 Depth mm 55 Unit weight kg 5 Packing dimension Height mm 070 Width mm 608 Depth mm 6 Total weight Unit and packing kg 58 Heat exchanger Water pump Expansion vessel Pressure relief valve Type Brazed plate Water volume.8 Minimum flow rate 7.5 Power input 87 Delivery head 8.8 Volume Initial pressure 0. () Operating pressure 0. () Sound pressure level dba 9 Operation water temp. Water pipe Refrigerant pipe Heating C 0~55 Cooling C 7~5 Outlet.9 Inlet.9 Gas 5.9 Liquid 9.5 Drain port mm 6.0 inner diameter for drain hose Note * The electric heater, incorporated in the hot water cylinder, requires separate supply to hydro unit.

.HYDRO UNIT --. Power Wiring specifications Description power Hydro inlet heater power Appearance Power input Power input for backup heater Model name HWS- 05H-E 05H-E 805H-E 55H-E 605H8-E 605H8R-E 05H8-E 05H8R-E 05H8-E 05H8R-E POWER SUPPLY 0-0 V ~ 50 Hz 0-0 V ~ 50 Hz 0-0 V ~ 50 Hz 0-0 V ~ 50 Hz 80-00V N~ 50Hz 80-00V N~ 50Hz 80-00V N~ 50Hz 05XWHM-E 0-0V ~ 50Hz 05XWHT6-E 05XWHT9-E 805XWHM-E 805XWHT6-E 805XWHT9-E 55XWHM-E Power input for cylinder heater 80-00V N~ 50Hz 80-00V N~ 50Hz 0-0V ~ 50Hz 80-00V N~ 50Hz 80-00V N~ 50Hz 0-0V ~ 50Hz 0-0V ~ 50Hz Maximum current --. External Device specifications Installation fuse rating Power Cable.8A 5A.5 mm² or more.8a 5A.5 mm² or more 9.A 0A.5 mm² or more.a 5A.5 mm² or more.6a 6A.5 mm² or more.6a 6A.5 mm² or more A 6A.5 mm² or more A 6A.5 mm² or more, A(A x P) 6A.5 mm² or more A(A x P) 6A.5 mm² or more A 6A.5 mm² or more, A(A x P) 6A.5 mm² or more A(A x P) 6A.5 mm² or more A 6A.5 mm² or more, Connection destination,,,,,,,,,, TB0 A 6A.5 mm² or more, TB0 Outdoor- Connection.5 mm² or more,, TB0 Hydro -Cylinder Connection.5 mm² or more, TB0 Motorized -way valve (for hot water) Motorized -way valve (for cooling) Motorized mixing valve type (for -zone) Power Maximum current Type AC 0 V 00 ma Spring return type Note: -wire SPST and SPDT type can be used by changing the DPSW -. AC 0 V 00 ma Spring return type (normally open) AC 0 V 00 ma 60 sec 90º. SPDT type Note: wire SPST or SPDT valves, with drive times between 0 and 0 seconds, can be used. Valve drive time can be changed using function code 0C. 5

.HYDRO UNIT --. External Device Wiring specifications Description Line spec Maximum current Maximum length Cable size --5. External Output specifications Connection destination,, -way valve control line or line 00 ma m.0 mm² or more (TB05) -way valve control line 00 ma m.0 mm² or more, (TB05),, or Mixing valve control line 00 ma m.0 mm² or more,, (TB0) -zone thermo sensor line 00 ma 5 m.0 mm² or more, (TB06) Cylinder thermo sensor +GND(shield wire) 00 ma 5 m.0 mm² or more, (TB06) Second remote controller 50 ma 50 m.0 mm² or more, (TB07) Group control (total) 50 ma 50 m.0 mm² or more, (TB07) Open protocol interface 50 ma 50 m.0 mm² or more, (TB07) Description Output Maximum current Max voltage External pump AC0V A m External boost heater AC0V A m Boiler control ALARM Output Compressor Operation Output Defrost Output Non-voltage contacts Non-voltage contacts Non-voltage contacts Non-voltage contacts --6. External Input specifications Maximum length Connection Output as required when outdoor air temperature is -0 C or less 0.5 A AC0 V m Output as required when outdoor air temperature is -0 C or less (output A DC V m trigger temperature can be changed using FC) 0.5 A AC0 V m A DC V m 0.5 A AC0 V m A DC V m 0.5 A AC0 V m A DC V m Description Input Maximum length Emergency stop control Non-voltage m Cooling thermostat input Non-voltage m Heating thermostat input Non-voltage m 6

.HYDRO UNIT -. Dimension 55 9.5 -dia.x7 long hole (for dia.8-0 anchor bolt) B leg part 7.5 80 7.5 0 Anchor bolt long hole pitch 0 0 0 960 Anchor bolt long hole pitch Manometer Remote controller A leg part 0 -dia.x7 U-shape hole (for dia.8-0 anchor bolt) 9.5 6 7.5 58 86.5 5.5 5 5 7.5 55 9 90 0 Hot water outlet connecting pipe A 59 Drain nipple Water inlet connecting pipe B.5 09.5 Gas line dia C Liquid line dia D 59.5 HWS-55XWHM-E HWS-805XWHM-E/HWS-805XWHT*-E HWS-05XWHM-E/HWS-05XWHT*-E HWS-P805XWHM-E/HWS-P805XWHT*-E HWS-P05XWHM-E/HWS-P05XWHT*-E A /" /" B /" /" C.7 5.88 5.88 D 6.5 9.5 9.5 7

.HYDRO UNIT External output board (TCB-PCINE) Size (mm) : H x L7 x W79 Weight (g) : 57 79 69 - Øhole 7 6 Terminal (Screw M) External input board (TCB-PCMOE) Size (mm) : H8 x L55.5 x W60 Weight (g) : 0 Terminal (Screw M) 55.5 -Ø hole 5.5 NCC- TCB-PCMO TCB-PCMOE 60 50 PJ7 8

.HYDRO UNIT -. Piping Diagram Water system diagram Fan coil unit By-pass valve (locally procured) Radiator unit By-pass valve (locally procured) Moterized mixing valve (locally procured) AC0 V M Buffer tank (locally procured) AC pump (locally procured) Floor heating M Expansion vessel set : bar Pressure switch.5 MPa Low pressure sensor TC 8~6 kw (Single phase) ( place) Air vent valve Pressure relief valve set : bar THO Thermal protector Single operation set : 95 ± 5 C AC pump max : 0 bar Booster heater (local) Safety valve set :.5bar Motorized -way valve (locally procured) AC0 V Strainer (locally procured) 0 mesh Drain cock for water charge (locally procured) Relief valve(uk) 90 C 0 bar Cylinder heater Ø :.75 kw Thermal protector (auto) set : 75 ± C TWO Manometer gage : - 6bar Water vent valve Backup heater Ø : kw Ø : 6 kw Ø : 9 kw Flow sw TWI Water heat exchanger max : 0bar Pressure relief Set value : 7 bar (UK) Water outlet Thermal cut-out (manual reset) 8 C (+k/-k) TTW Reducing valve (UK).5 bar Water inlet Local hot water system Boiler (local) Hot water cylinder -way valve for cooling mode (locally procured) AC0 V zone zone TFI 9

.HYDRO UNIT Refrigeration cycle system diagram Expansion vessel Heating / Hot-water supply Defrosting / Cooling Manometer Pressure Switch TWO Water vent valve Air vent valve TD Backup heater Low Pressure sensor Compressor Safety valve -way valve Plate-type water heat exchanger TS Circulating pump THO P TWI TC Pulse motor valve Flow switch TE Outdoor heat exchanger Accumulator 0

.HYDRO UNIT -. Wiring Diagram --. Color identification BLK : BLACK BLU : BLUE BRW : BROWN GRN : GREEN GRY : GRAY ORN : ORANGE PNK : PINK RED : RED WHI : WHITE YEL : YELLOW WHI WHI WHI YEL BLU BRW RED WHI YEL WPM 5 5 5 5 55 56 57 58 59 TB 05 TB 0 WPM WV BH WV YEL BLU BRW WHI WHI RED 9 9 8 7 7 6 5 5 Type (-wire spring return) CN0 (WHI) CR0 CR CR CR CN0 (WHI) F0 (5A) RED Remote controller (HWS-AMS5E) AB GRY WHI F9, F0 AC50 V YEL-GRN T.5A BLU BLU BLU BRW BRW BRW PNK BLU BRW WHI ORN MIXV RY 0 RY RY RY CN0 (WHI) Relay PC board (MCC-) Type (-wire SPDT type) A RY 05 A RED 5 5 5 BLU ORN GRN BRW YEL-GRN BRW BLU RED WHI YEL WHI RED 6 7 5 6 5 6 5 7 5 *Option Remote controller (HWS-AMS5E) TC AB TB 07 7A 7B GRY WHI BLK BLK BLK TWI BLK TWO BLK BLK CN (BLU) CN50 (YEL) CN500 (BLU) CN60 (YEL) CN60 (RED) CN60 (WHI) CN60 (BLU) CN0 (YEL) RY60 RY600 RY60 RY60 RY60 CN0 (BRW) RY605 CN05 (RED) SW0 SW0 ON BLK RY606 THO BLK CN06 (WHI) WHI BLK CN07 (BLU) LPS PC board (MCC-5) RY607 RED CN (WHI) *Option TTW BRW BRW TFI 6A 6B 6C 6D TB 06 CN (WHI) RED RED CN (WHI) SW0 SW SW SW ON CN605 (YEL) SW06 SW07 SW ON ON ON ON CN606 (BLU) CN05 (GRN) A B OFF ON CN00 (WHI) CN08 (BLU) CN09 (GRN) CN0 (RED) CN (BLK) CN00 (RED) CN0 (WHI) CN0 (YEL) CN0 (WHI) CN0 (WHI) F00 Fuse T5A 50 V~ YEL GRN RED 5 6 P00 GRN GRN GRN GRN GRN GRN GRN GRN YEL YEL YEL YEL YEL YEL YEL YEL BLK BLK BLK BLK BRW BRW RED RED ORN 5 ORN 6 WHI WHI BLK Relay PC board (MCC-7) PJ0 Relay PC board (MCC-7) PJ0 Photocoupler input PC board (MCC-) PJ7 Photocoupler input PC board (MCC-) PJ7 K K K K TB TB TB TB 7 RY 0 8 Flow switch Pressure switch.5mpa Transformer Thermal protector (auto) 75 5 *Option PC board Boiler control O/P Alerm O/P Compressor operation O/P Defrost O/P Hot water tank thermostat I/P Emergency stop I/P Cooling thermostat I/P Heating thermostat I/P. The one-dot chain line indicates wiring at the local site, and the dashed line indicates accessories sold separately and service wires, respectively.., and indicates the terminal board and the numerals indicate the terminal numbers.. indicates PC board. * Be sure to fix the electric parts cover surely with screws. (Otherwise water enters into the box resulting in malfunction.) RED WHI YEL 57 58 59 TB 05 RED PNK WHI ORN TB 0 7 5 7 5 RED WHI YEL BLK WHI ORN WHI PNK 5 GRY WHI RED *See DIP SW_ WV Type (-wire SPST type) Type (-wire SPDT type) MIXV Type (-wire SPST type) PNK ORN 6 8 RED 5 7 RY 06 6 RY 0 WHI A A 8 7 6 WHI A RY RY RY 0 0 0 * A * HWS-805XWHT6-E : Installed HWS-05XWHT6-E : Installed HWS-805XWHT9-E : Installed HWS-05XWHT9-E : Installed HWS-805XWHM-E : Not installed HWS-05XWHM-E : Not installed RED WHI GRY TB 0 Power supply 0-0 V~ 50 Hz or 80-00 V~ 50 Hz TB 0 BRW BLU L T BRW BLU F F L T BRW BLU YEL/GRN L N RY05 F, F Fuse AC50 V T0A *Option Power supply 0-0 V~ 50 Hz Hot water cylinder L L 5L RY0 T T 6T GRY BRW BLU F F F5 BRW BLU BLK F6 F7 T T Thermal protector (Single operation) 95 5 Thermal protector (Single operation) 95 5 Backup heater Thermal protector (Single operation)95 5 L L 5L RY0 F8 BLU GRY BLU 6T BLK BLU BLU L L L N TB 0 Power supply 80-00 V N~ 50 Hz F~8 Fuse AC50 V T0A Backup heater Backup heater HWS-805XWHT9-E HWS-05XWHT9-E RY0 L L 5L L L T BRW BLU F F BRW BLU T F5 BLK 6T T T BLK F6 BLU 95 5 Thermal protector (Single operation) 95 5 BLU 5L 6T F~6 Fuse AC50 V T0A L LL N TB 0 Power supply 80-00 V N~ 50 Hz Thermal protector (Single operation) RY0 Backup heater Backup heater HWS-805XWHT6-E HWS-05XWHT6-E F L L T T BRW BLU F BRW BLU Thermal protector (Single operation) 5L 6T 95 5 RY0 F,F Fuse AC50 V T0A L N TB 0 Power supply 0-0 V~ 50 Hz Backup heater HWS-55XWHM-E HWS-805XWHM-E HWS-05XWHM-E Symbol Parts name Symbol Parts name WPM Water pump motor TC Water heat exchanger temperature sensor WV -way valve (locally procured) TWI Water inlet temperature sensor WV -way valve (locally procured) TWO Water outlet temperature sensor MIXV Mixing valve (locally procured) THO Heater outlet temperature sensor BH Booster heater TTW Hot water cylinder temperature sensor RY0~RY06 Relay0~Relay06 TFI Floor heating inlet temperature sensor LPS Low pressure sensor TB Terminal block Backup heater,, Heater AC0V, kw. The one-dot chain line indicates wiring at the local site, and the dashed line indicates accessories sold separately and service wires, respectively.., and indicates the terminal board and the numbers indicate the terminal numbers.. indicates P.C. board. * Be sure to fix the electric parts cover surely with screws. (Otherwise water enters into the box resulting in malfunction.)

7 5 7 5 5 7 6 8 7 6.HYDRO UNIT Self-diagnosis by remote controller Block Check code Cause Supposed defective parts F0 Disconnection or short circuit TD sensor F06 Disconnection or short circuit TE sensor F07 Disconnection or short circuit TL sensor F08 Disconnection or short circuit sensor F Disconnection or short circuit TS sensor F Disconnection or short circuit TH sensor F5 Mistake the connectionsensor TE, TS sensor F Disconnection or short circuit PD sensor H0 Comp break down Power voltage, installation condition H0 Comp doesn't operate Comp or comp wiring H0 Over current error P.C.board H0 Over heating error Compressor case thermo L0 None capacity setting in outdoor unit L5 Wrong combination of hydro unit Check the model name L9 Other cause P0 Overheat of discharge temp. TD sensor P0 High pressure error Comp, PMV P05 Voltage error Voltage (0V 0%) P07 Over heating error IGBT on the inverter P5 Detect gas leak Low gas amount P9 WV is not changing direction WV P0 High pressure protection PMV P Outdoor fan drive system error P.C.board or fan motor P6 Over current error Over current error P9 Comp starting failure Comp winding short A0 Pump, flow error Low water flow or mach water flow A0 Over heating error for room heating TWO, THO senso r A0 Over heating error for hot water supply TTW sensor A0 Water frozen error TC, TWO sensor detect low temp. A05 Water frozen error TWI, TWO, THO sensor detect low temp. A07 High pressure error High pressure senso r A08 Low pressure error Low pressure senso r A09 Backup heater error Thermal protector A0 Water frozen error TC, TWO sensor detect low temp. (cooling only) A Release error TWO sensor A Heater error No activate heater A Pump, flow error Pump, Flow switch E0 No return signal from RC Remote controller E0 No return signal between hydro and outdoor unit Connection cable F0 Disconnection or short circuit TC sensor F0 Disconnection or short circuit TWI sensor F Disconnection or short circuit TWO sensor F8 Disconnection or short circuit THO sensor F9 Get out THO sensor from piping THO sensor F0 Get out TFI sensor from piping TFI sensor F Detect low amount error Low pressure sensor L0 Wrong combination of outdoor unit Check the model name L09 None capacity setting in hydro unit Check fanction code 0 L6 Zone is setting without no zone setting DP-SW_, setting Hot water F Disconnection or short circuit TTW sensor cylinder F7 Disconnection or short circuit TFI sensor *Option THO TWO DIP Switch Setting Switch mode Switch Description Default setting P pump operation for hot water HP synchronized OFF ON Continuous run P pump operation for heating Normally run OFF ON Stopped at over 0 C SW0 Interlocking of P with internal pump Independent of the internal pump OFF ON Interlocked with the internal pump P pump interval running Stopping OFF ON Interval running Energizing internal heater Energized OFF ON Not energized Energizing hot water cylinder heater Energized OFF ON Not energized SW Energizing booster heater Energized OFF ON Not energized OFF Hot water supply operation Provided OFF ON Not provided Zone operation Provided OFF ON Not provided SW Zone operation Not provided OFF ON Provided OFF -wire WV type setting SPST Type, spring returning OFF ON SPDT Type Interlocking with boiler Not provided OFF ON Provided SW Backup for power interruption Provided OFF ON Not provided ON Switch mode Switch Description Default setting Boiler install location Heating side after WV OFF ON Before WV OFF SW0 External thermostat for tank Not provided OFF ON Provided External thermostat for indoor unit Not provided OFF ON Provided * TWI TC HWS-P805XWHT6-E : Installed HWS-P05XWHT6-E : Installed HWS-P805XWHT9-E : Installed HWS-P05XWHT9-E : Installed HWS-P805XWHM-E : Not installed HWS-P05XWHM-E : Not installed * *Option Remote controller (HWS-AMS5E) AB HWS-P805XWHT6TR : Installed HWS-P05XWHT6TR : Installed HWS-P05XWHT9TR : Installed HWS-P805XWHMTR : Not installed HWS-P05XWHMTR : Not installed 9 7 Parts name Water heat exchanger temperature sensor Water heat exchanger inlet temperature sensor Water heat exchanger outlet temperature sensor Backup heater outlet temperature sensor Hot water cylinder temperature sensor Floor heating inlet temperature sensor Terminal block Symbol TC TWI TWO THO TTW TFI TB Symbol Parts name WPM Water pump motor WV -way valve (local) WV -way valve (local) MIXV Mixing valve (local) BH Booster heater RY0~RY06 Relay0~Relay06 LPS Low pressure sensor Backup heater,, Heater AC0V, kw TFI TTW 5 9 8 7 6 5 5 6 6 5 6 5 7 5 5 5 6 5 6 LPS Remote controller (HWS-AMS5E) AB A B 7A 7B TB 07 L GRY WHI TB 06 6A 6B 6C 6D RED RED BRW BRW RED WHI BLK BLK BLK BLK BLK BLK BLK BLK BLK WHI GRY *Option p.c.board WARNING Perform the grounding from the earth terminal in the terminal block of the outdoor unit. CAUTION Electric shock may happen. Don't touch the electric parts. Color identification BLK : BLACK BLU : BLUE BRW : BROWN GRN : GREEN GRY : GRAY ORN : ORANGE PNK : PINK RED : RED WHI : WHITE YEL : YELLOW Boiler control O/P Alerm O/P K K Relay p.c.board (MCC-7) PJ0 GRN GRN GRN GRN CN (WHI) CN (WHI) CN (WHI) CN07 (BLU) CN06 (WHI) CN05 (RED) CN0 (BRW) CN0 (YEL) CN (BLU) CN08 (BLU) CN0 (WHI) YEL TB RY 0 Compressor operation O/P Defrost O/P K K Relay p.c.board (MCC-7) PJ0 GRN GRN GRN GRN CN09 (GRN) P.C.board (MCC-5) CN50 (YEL) TB RED 5 5 BLU ORN GRN BRW BLU BRW CN0 (WHI) RY RY RY CR0 CR CR CR WHI Hot water tank thermostat I/P Emergency stop I/P Photocoupler input p.c.board (MCC-) PJ7 TB YEL YEL YEL YEL CN0 (WHI) WHI CN0 (RED) Relay p.c.board (MCC-) RED F0 (5A) SW YEL YEL YEL YEL CN (BLK) OFF Cooling thermostat I/P Heating thermostat I/P Photocoupler input p.c.board (MCC-) PJ7 TB SW0 SW0 BRW CN500 (BLU) BLK ON ON YEL GRN RED 7 RY 0 8 Flow switch CN00 (RED) RY60 CN60 (YEL) YEL-GRN F9, F0 AC50V T.5A BLU BLU BLU YEL-GRN BLU SW0 SW SW SW WPM BRW BRW BRW CN0 (WHI) ON ON ON ON RED. The one-dot chain line indicates wiring at the local site, and the dashed line indicates accessories sold separately and service wires, respectively.., and indicates the terminal board and the numberals ndicate the terminal numbers.. indicates P.C. board. * Be sure to fix the electric parts cover surely with screws. (Otherwise water enters into the box resulting in malfunction.) RY600 CN60 (RED) BLK BLK WHI RY 05 A A Thermal protector (auto) 75 5 CN0 (YEL) SW06 YEL SW07 ON BRW BRW RED RED ORN ORN CN0 (WHI) RY60 RY60 WHI WHI WHI WHI RED RED PNK WHI ORN RED WHI YEL BRW BLU YEL CN60 (WHI) RY607 RY606 RY605 RY60 TB 0 58 TB 05 5 5 5 5 55 56 57 59 Transformer CN0 (WHI) WHI WHI F00 Fuse T5A 50V~ MIXV BH WV WV WPM P00 BLK CN00 (WHI) CN05 (GRN) CN606 (BLU) CN605 (YEL) CN60 (BLU) Type (-wire SPDT type) Type (-wire spring return) 7 5 PNK WHI ORN RED WHI YEL RED RED WHI GRY PNK WHI ORN WHI BLK YEL WHI RED TB 0 TB 05 57 58 59 A A *See DIP SW_ RY RY RY 0 0 0 RY 0 A A RY 06 PNK ORN 6 8 MIXV Type (-wire SPST type) WHI WHI * RED Parts layout WV Type (-wire SPST type) Type (-wire SPDT type) P.C.board MCC-5 GRY WHI RED Trans former Backup heater Thermal protector (Single operation) Backup heater Thermal protector (Single operation) Backup heater Thermal protector (Single operation) TB 0 MG-SW (RY0) 95 5 95 5 95 5 Thermal protector (Single operation) Relay (RY0) Relay P.C.board MCC-7 (Option) Backup heater Thermal protector (Single operation) 95 5 Backup heater 95 5 MG-SW (RY0) Backup heater Thermal protector (Single operation)95 5 L L MG-SW(RY05) Relay (RY0) RY0 L L 5L L L Fuse Relay (F9 F0) (RY06) Relay P.C.board MCC-7 RY0 5L L L 5L L L 5L RY0 5L L L RY05 Power supply 0-0V~ 50Hz or 80-00V~ 50Hz RY0 RY0 T T (Option) 6T T T 6T 6T T T GRY 6T T T Fuse (F F F F F5 F6 F7 F8) F, F Fuse AC50V T0A BLU BRW BLU T T 6T T T BLK BLU BRW BLU BRW BLU BLU BLK BLU BRW F F Relay P.C.board MCC- (Option) Relay P.C.board MCC- F F F F F5 F6 F F F5 F6 F7 F8 F,F Fuse AC50V T0A F~6 Fuse AC50V T0A F~8 Fuse AC50V T0A TB 0 TB 05 BLU BRW BLU BLK BLU BRW BLU GRY BLU BLK BLU BRW BRW BLU YEL/GRN BRW BLU *Option L N TB 0 L L N HWS-P805XWHM-E HWS-P05XWHM-E HWS-P805XWHMTR HWS-P05XWHMTR L N TB 0 HWS-P805XWHT6-E HWS-P05XWHT6-E HWS-P805XWHT6TR HWS-P05XWHT6TR TB 0 L L L N HWS-P805XWHT9-E HWS-P05XWHT9-E HWS-P05XWHT9TR TB 0 L L L N TB 0 TB 0 TB 0 TB 06 Power supply 0-0V~ 50Hz Power supply 80-00V N~ 50Hz Power supply 80-00V N~ 50Hz Power supply 0-0V~ 50Hz Hot water cylinder

.HYDRO UNIT --. Power line Electrical connection to hydro unit Backup heater 0-0V ~ type (kw type) Backup heater 80-00V N~ type (6,9kW type) Input power 0-0V 50Hz Input power 0-0V N~ 50Hz Leakage breaker 0mA Leakage breaker 0mA L N TB0 L L L N TB0 to hydro unit electrical connection Hot water cylinder Input power 0-0V~ 50Hz Leakage breaker 0mA L N TB0 TB0 L N Leakage breaker 0 ma Input power for cylinder heater 0 V ~ 50 Hz Input power 80-00V N~ 50Hz Leakage breaker 0mA L L L N TB0 Outdoor unit

.HYDRO UNIT --. Control line Mixing-Valve type for zone control Mixing-Valve type for zone control Max m 0 V 00 ma 0.75 mm² or more Temp sensor in hot water cylinder Pump (local) Max m 0 V 00 ma 0.75 mm² or more Booster heater (local) Way-Valve for cooling stop Max m 0 V A 0.75 mm² or more Way-Valve for hot water cylinder Max m 0 V A 0.75 mm² or more 5 6 7 8 9 TB0 TB05 CN08 OPTION PJ0 CW N TB07 CCW TB06 CN09 OPTION PJ0 A B C D Max 5 m shielded wire 0.75 mm² or more Temp sensor for zone control nd remote controller A B Max 5 m shielded wire 0.75 mm² or more Max 50 m shielded wire 0.75 mm² or more Max m non voltage 0.75 mm² or more Alert output (local) Boiler operation (local) Defrost output (local) Compressor operation output (local) TB0 5 5 5 5 55 56 57 58 59 WPM WV BH WV TB 05 MIXV TB 0 TB0 L L L N L L L N 6A 6B 6C 6D TTW TF TB 06 Don't apply 0-0V or breakdown will occur. TB 0 L HOT WATER CYLINDER TB 0 N L TB 0 N TB0 to Hot water cylinder Input power 0-0 V ~ 50 Hz Input power 0-0 V ~ 50 Hz Input power 80-00 V N ~ 50 Hz Sensor connection connection Hot water cylinder power supply Backup heater power supply

.HYDRO UNIT --. External Device Electrical connection for external booster heater Booster Heater 5 6 7 8 9 Terminal Block 05 Electrical connection for external additional pumps Pump 0 5 6 7 8 9 Terminal Block 05 5

.HYDRO UNIT -way valve (diverter) connection Required Valve Specification: Electrical Specification: 0 V; 50 Hz; <00 ma Valve Diameters: Port A, Port B: Ø /" Return Mechanism: types of -way valve (diverter) can be used. Set the -way valve in use with the DIP switch SW- on the Hydro Unit board. SW- Type -wire spring return OFF Type -wire SPST OFF Type -wire SPDT ON Type : SPRING RETURN port A to Hot water cylinder Hydro Unit Type : SPST port A to Hot water cylinder Hydro Unit port AB to port A open 7 8 9 TB 05 port AB to port A close open 7 8 9 TB 05 port B to Room heating or cooling port B to Room heating or cooling Type : SPDT port A to Hot water cylinder Hydro Unit port AB to port A close open TB 05 7 8 9 port B to Room heating or cooling 6

.HYDRO UNIT -way mixing valve connection Required Actuator Specification Electrical Specification:0 V; 50 Hz; <00 ma The -way mixing valve is used to achieve the temperature differential needed in a -zone heating system. Connect the -way mixing valve to terminals, and on Terminal Block 0 (for Type mixing valve) or on terminals, and on Terminal Block 0 (for Type mixing valve). Connect the -way mixing valve in accordance with the diagrams below:- Type : SPDT Type : SPST port A to Zone Heating Hydro Unit port A to Zone Heating port AB to open port A close TB 0 port AB to port A close open Hydro Unit TB 0 port B BLANK OFF port B BLANK OFF Hot water cylinder connection (optional) Earth leakage breaker INPUT Power 0-0 V ~ 50 Hz L N Terminal block 0 Hot water cylinder Hot water cylinder electrical box connections 7

.HYDRO UNIT -5. Capacity Tables HWS-55H-E HWS-55XWH**-E Rated heating capacity and power input Rated condition LWT=5 C dt=5deg =7 C Capacity kw.5 Power input kw 0.9 COP W/W.90 Rated water flow rate /min.9 * Rated heating capacity and power input are the data at rated compressor operating frequency. * Heating capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature dt : Delta temperature (deg) Leaving water temperature - return water temperature 8

.HYDRO UNIT Average heating capacity and power input Capacity (kw) LWT 0 5 0 5 50 55-0.60.6-5.0..8-7..8..9. -.0.6.8 5.05.85.69.6.97 5. 5.66 5. 5.09 7 6.75 6.8 6.6 6. 6. 6.5 0 7.8 7.0 7.5 6.89 6.7 6.6 8. 7.78 7.9 7. 7.5 6.75 5 8.59 8.6 8.0 7.86 7.57 7. 0 9.57 9.5 8.99 8.90 8.8 7.56 Power input (kw) LWT 0 5 0 5 50 55-0 0.7 0.8-5..8. -7..9.56.7.89 -..0.59.78.9.0...6.8.95.09 7.5.56.79.87.0. 0..55.78.9....55.78.9.7. 5.0.55.78.99.8. 0.8.5.78.99.05.05 COP LWT 0 5 0 5 50 55-0.6.9-5.77.5. -7.8.0.7.8. -.6.0.0.8.50..8.5.8..7. 7.66.8.70..0.8 0 5.7.77.0.6.5.86 5.7 5.0..7.9.0 5 6. 5.9.5.95.7. 0 6.9 6.9 5.05.7.09.69 * Heating capacity and power input are include defrost cycle data. * Heating capacity and power input are shown at maximum compressor operating frequency. * Heating capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature 9

.HYDRO UNIT Heating peak capacity and power input Capacity (kw) LWT 0 5 0 5 50 55-0.97.9-5.66.6.56-7.5.8..7. - 5.60 5. 5.6 5.0.9.77 6.5 6.9 5.9 5.68 5. 5.8 7 7.6 6.8 6.6 6. 6. 6.5 0 7.8 7.0 7.5 6.89 6.7 6.6 8. 7.78 7.9 7. 7.5 6.75 5 8.59 8.6 8.0 7.86 7.57 7. 0 9.57 9.5 8.99 8.90 8.8 7.56 Power input (kw) COP LWT 0 5 0 5 50 55-0 0.76 0.85-5..5.50-7.8..58.7.89 -..7.6.78.9.0..55.69.8.96.09 7..56.79.87.0. 0..55.78.9....55.78.9.7. 5.0.55.78.99.8. 0.8.5.78.99.05.05 LWT 0 5 0 5 50 55-0.59.8-5.0.67.7-7.55..80.5.8 -.7.69..87.5.7.5.99.5..77.8 7 5..8.70..0.8 0 5.7.77.0.6.5.86 5.7 5.0..7.9.0 5 6. 5.9.5.95.7. 0 6.9 6.9 5.05.7.09.69 * Heating capacity and power input are shown peak value during operation. * Heating capacity and power input are shown at maximum compressor operating frequency : Outdoor temperature (DB C) LWT : Leaving water temperature 0

.HYDRO UNIT HWS-55H-E HWS-55XWH**-E Rated cooling capacity and power input Rated condition LWT=7 C dt=5deg =5 C Capacity kw.5 Power input kw.6 EER W/W.90 Rated water flow rate /min.9 * Rated cooling capacity and power input are the data at rated compressor operating frequency * Cooling capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature dt : Delta temperature (deg) Return water temperature - leaving water temperature

.HYDRO UNIT Cooling capacity and power input Capacity (kw) LWT 7 0 5 8 0 5.98 6. 7.09 7.6 7.55 7 5.6 6.0 6.5 6.7 7.06 0 5.5 5.8 6.9 6.5 6.8 5 5.8 5.5 5.89 6. 6.9 0.8.9.55.79 5.5.7.79..9.78 Power input (kw) LWT 7 0 5 8 0..7.5.5.56 7.59.6.66.67.70 0.66.69.7.7.76 5.78.80.8.8.86 0.9.8.6.6...5..6.8 COP LWT 7 0 5 8 0.8.7.66.75.8 7.5.7.9.0.5 0.8.5.66.7.89 5.9.08...9 0.57.8..8.58.7.6.87.0. * Cooling capacity and power input are shown at maximum compressor operating frequency. * Cooling capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature

.HYDRO UNIT HWS-805H-E HWS-805XWH**-E Rated heating capacity and power input Rated condition LWT=5 C dt=5deg =7 C Capacity kw 8.0 Power input kw.79 COP W/W.6 Rated water flow rate /min.9 * Rated heating capacity and power input are the data at rated compressor operating frequency. * Heating capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature dt : Delta temperature (deg) Leaving water temperature - return water temperature

.HYDRO UNIT Average heating capacity and power input Capacity (kw) LWT 0 5 0 5 50 55-0.7.6.57-5.0.8.. -7 5.5 5.00.9.8.7-5.88 5.76 5.69 5.6 5.56 5. 6.8 6.7 6.5 6. 6. 6. 7 8.75 8.5 8. 8. 7.9 7.70 0 9.8 9.0 8.76 8.50 8. 8. 9.8 9.5 9.5 8.99 8.7 8.67 5 0. 0.0 9.7 9.6 9.8 9.0 0.7..0 0.75 0.6 0. Power input (kw) COP LWT 0 5 0 5 50 55-0..5.76-5.9.60.85. -7.7.85.5.5.75 -.76.89.0.5.8.0.77.9..5.85. 7.8.0...6.8 0.79.97.7.8.58.8.78.96.6.6.56.8 5.76.9.9..68.97 0.75.9.7..66.00 LWT 0 5 0 5 50 55-0.6.7.0-5.95.68.9.95-7.98.70.8.97.7 -.5.0.59..97.75.67..86.50..00 7.8..76.6.0.7 0 5.8.57.0.58.0.87 5.50.85.8.80.0.06 5 5.88 5.6.5.88..0 0 6.7 5.87 5.08.5.9. * Heating capacity and power input are include defrost cycle data. * Heating capacity and power input are shown at maximum compressor operating frequency. * Heating capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature

.HYDRO UNIT Heating peak capacity and power input Capacity (kw) LWT 0 5 0 5 50 55-0.88.78.7-5.59.7.. -7 5.89 5.7 5.65 5.55 5.9-6.8 6.60 6.8 6.5 6. 5.8 7.70 7.6 7. 7. 7.0 6.77 7 8.75 8.5 8. 8. 7.9 7.70 0 9.8 9.0 8.76 8.50 8. 8. 9.8 9.5 9.5 8.99 8.7 8.67 5 0. 0.0 9.7 9.6 9.8 9.0 0.7..0 0.75 0.6 0. Power input (kw) LWT 0 5 0 5 50 55-0..55.89-5.5.65.0.8-7.55.68.0..56 -.57.7.06..6.7.56.7.05.8.6.76 7.8.0...6.8 0.79.97.7.8.58.8.78.96.6.6.56.8 5.76.9.9..68.97 0.75.9.7..66.00 COP LWT 0 5 0 5 50 55-0.68..98-5.00.7.0.89-7.79..76.0.07 -..86.5.6.8..9.7.59.0.68.5 7.8..76.6.0.7 0 5.8.57.0.58.0.87 5.50.85.8.80.0.06 5 5.88 5.6.5.88..0 0 6.7 5.87 5.08.5.9. * Heating capacity and power input are shown peak value during operation. * Heating capacity and power input are shown at maximum compressor operating frequency. : Outdoor temperature (DB C) LWT : Leaving water temperature 5

.HYDRO UNIT HWS-805H-E HWS-805XWH**-E Rated cooling capacity and power input Rated condition LWT=7 C dt=5deg =5 C Capacity kw 6.0 Power input kw EER W/W.0 Rated water flow rate /min 7. * Rated cooling capacity and power input are the data at rated compressor operating frequency. * Cooling capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature dt : Delta temperature (deg) Return water temperature - leaving water temperature 6

.HYDRO UNIT Cooling capacity and power input Capacity (kw) LWT 7 0 5 8 0 7. 7.9 8.9 8.95 9.6 7 7.8 7.7 8.0 8.75 9. 0 7. 7.67 8. 8.67 9. 5 7.00 7.55 8.0 8.5 9.9 0 6. 6.9 7. 7.8 8. 5.9 5.75 6. 6. 6.85 Power input (kw) LWT 7 0 5 8 0.65.68.7.7.77 7.0.0.08..5 0.6.0..7. 5..6.5.5.59 0.6.66.7.7.80.7.8.8.8.0 COP LWT 7 0 5 8 0.5.7.97 5.7 5.6 7.57.79.99.5.8 0.9.8.67.8.0 5.89.06..6.55 0.5.60.7.85.0.7..58.7.85 * Cooling capacity and power input are shown at maximum compressor operating frequency. * Cooling capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature 7

.HYDRO UNIT Heating capacity and input specifications HWS-05H-E HWS-05XWH**-E Rated heating capacity and power input Rated condition LWT=5 C dt=5deg =7 C Capacity kw. Power input kw.0 COP W/W.88 Rated water flow rate /min. * Rated heating capacity and power input are the data at rated compressor operating frequency. * Heating capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature dt : Delta temperature (deg) Leaving water temperature - return water temperature 8

.HYDRO UNIT Average heating capacity and power input Capacity (kw) LWT 0 5 0 5 50 55-0 5. 5.5 5.0.9-5 6.79 6.57 6.8 6.9-7 8. 8.0 7.8 7.58 7.5-9.79 9.8 9. 8.9 8.67 7.6 0. 0.0 9.8 9.5 9. 8. 7 5..6..6. 0.98 0 6.0 5.5.97..89.6 6.95 6. 5.68 5..55.9 5 8.0 7.0 6. 5.07.00.7 0.09 9. 8. 7.0 5.8.6 Power input (kw) LWT 0 5 0 5 50 55-0..5.9. -5..6.0. -7.68.89..79. -.6.8.9.7.7..60.80..67..07 7.00..50.76.0.99 0.99..8.7.00.96.98.0.7.7.99.95 5.9.6..50.67.6 0.9...8.65.6 COP LWT 0 5 0 5 50 55-0..08.75.9-5.78.50.0.80-7.0.78..00.7 -.7..80.0.08.85.0.60.0.59.5.99 7 5.0.5.0.6.6.75 0 5.7.8..86.8.9 5.70 5.07.5.06.65.09 5 6. 5.5.85..8. 0 7.5 6.0 5.5.90..67 * Heating capacity and power input are include defrost cycle data. * Heating capacity and power input are shown at maximum compressor operating frequency. * Heating capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature 9

.HYDRO UNIT Heating peak capacity and power input Capacity (kw) LWT 0 5 0 5 50 55-0 6.6 6.0 6.08 5.8-5 7.7 7.5 7.6 7. -7 9.95 9.67 9. 9.6 8.8 -.5.8 0.89 0.57 0.6 8.60.8..07.7.8 9.5 7 5..6..6. 0.98 0 6.0 5.5.97..89.6 6.95 6. 5.68 5..55.9 5 8.0 7.0 6. 5.07.00.7 0.09 9. 8. 7.0 5.8.6 Power input (kw) COP LWT 0 5 0 5 50 55-0..6.75. -5.9.5.95. -7.7.6.06.8.89 -.5.69..5.97.9.5.7..56.98.95 7.00..50.76.0.99 0.99..8.7.00.96.98.0.7.7.99.95 5.9.6..50.67.6 0.9...8.65.6 LWT 0 5 0 5 50 55-0.85.6..88-5..97.9. -7.0.66.09.6.7 -.59.5.9.98.59.9 5..59.86.9.86. 7 5.0.5.0.6.6.75 0 5.7.8..86.8.9 5.70 5.07.5.06.65.09 5 6. 5.5.85..8. 0 7.5 6.0 5.5.90..67 * Heating capacity and power input are shown peak value during operation. * Heating capacity and power input are shown at maximum compressor operating frequency. : Outdoor temperature (DB C) LWT : Leaving water temperature 0

.HYDRO UNIT Cooling capacity and input specifications HWS-05H-E HWS-05XWH**-E Rated cooling capacity and power input Rated condition LWT=7 C dt=5deg =5 C Capacity kw 0.0 Power input kw.6 EER W/W.07 Rated water flow rate /min 8.7 * Rated cooling capacity and power input are the data at rated compressor operating frequency. * Cooling capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature dt : Delta temperature (deg) Return water temperature - leaving water temperature

.HYDRO UNIT Cooling capacity and power input Capacity (kw) LWT 7 0 5 8 0..0.95.67.75 7 0.7.6.5.. 0 0.5...05. 5 0...0.75.8 0 9.8 9.98 0.78..8 7.06 7.67 8.9 8.78 9.5 Power input (kw) LWT 7 0 5 8 0.5.6.7.7.9 7.68.7.7.76.79 0.9.95.98.0.05 5.9..9..9 0.57.57.58.6.69.06.05.05.07.0 COP LWT 7 0 5 8 0 5.8 5.58 5.97 6.9 6.75 7.00.9.57.80 5. 0.6.88...6 5...55.7.96 0.57.79.0.6.6.0.5.7.86.07 * Cooling capacity and power input are shown at maximum compressor operating frequency. * Cooling capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature

.HYDRO UNIT Heating capacity and input specifications HWS-05H-E HWS-05XWH**-E Rated heating capacity and power input Rated condition LWT=5 C dt=5deg =7 C Capacity kw.0 Power input kw. COP W/W.50 Rated water flow rate /min 0. * Rated heating capacity and power input are the data at rated compressor operating frequency. * Heating capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature dt : Delta temperature (deg) Leaving water temperature - return water temperature

.HYDRO UNIT Average heating capacity and power input Capacity (kw) LWT 0 5 0 5 50 55-0 5.9 5.69 5.6 5.0-5 7.6 7. 6.89 6.7-7 8.98 8.6 8. 7.6 7. - 0.7 0.07 9.9 8.9 8. 7.8.08 0.65 0.0 9. 8.8 8.0 7 7. 6.7 5.50.6.0.67 0 8.9 7.58 6.8.97.67.6 9.5 8.58 7. 5.8.5.96 5 0.96 9.56 7.68 5.80.9.8 0.6.9 9. 7.0 5.5.58 Power input (kw) COP LWT 0 5 0 5 50 55-0.60.8.07. -5.7.96..5-7.05.9.59.89.9 -.0.5.5.8..6.96.0.9.78.07.0 7.65.95.97.00.0.06 0.66.95.97.00.0.06.6.9.9.9.95.98 5.6.90.89.88.87.89 0..68.67.65.6.66 LWT 0 5 0 5 50 55-0.7.0.75.5-5.77.7..85-7.9.6.6.96.70 -.8.0.68..0.88.7..88.9.6.0 7.77..90.56..87 0 5.00.5.09.7.9.0 5.6.7.8.0.66.6 5 5.79 5.0.5.07.60. 0 6.80 5.78 5.5.7.7.7 * Heating capacity and power input are include defrost cycle data. * Heating capacity and power input are shown at maximum operating frequency. * Heating capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature

.HYDRO UNIT Heating peak capacity and power input Capacity (kw) LWT 0 5 0 5 50 55-0 6.56 6.6 6.0 5.6-5 8.6 8. 7.90 7.7-7.9 0.79 0. 9.59 8.9 -.98.50.80.09 0.7 8.88..59.8.0.6 9.6 7 7. 6.7 5.50.6.0.67 0 8.9 7.58 6.8.97.67.6 9.5 8.58 7. 5.8.5.96 5 0.96 9.56 7.68 5.80.9.8 0.6.9 9. 7.0 5.5.58 Power input (kw) LWT 0 5 0 5 50 55-0.5.65.9.5-5.66.8..6-7.8.0..59.87 -.89..0.69.98.00.89..0.68.98.0 7.65.95.97.00.0.06 0.66.95.97.00.0.06.6.9.9.9.95.98 5.6.90.89.88.87.89 0..68.67.65.6.66 COP LWT 0 5 0 5 50 55-0.6.9.07.79-5..95.5.9-7.96.56.08.67. -.9.0.7.0.6..89.6.77.7.8.0 7.77..90.56..87 0 5.00.5.09.7.9.0 5.6.7.8.0.66.6 5 5.79 5.0.5.07.60. 0 6.80 5.78 5.5.7.7.7 * Heating capacity and power input are shown peak value during operation. * Heating capacity and power input are shown at maximum compressor operating frequency. : Outdoor temperature (DB C) LWT : Leaving water temperature 5

.HYDRO UNIT Cooling capacity and input specifications HWS-05H-E HWS-05XWH**-E Rated cooling capacity and power input Rated condition LWT=7 C dt=5deg LWT=5 C Capacity kw.0 Power input kw.8 EER W/W.89 Rated water flow rate /min.5 * Rated cooling capacity and power input are the data at rated compressor operating frequency. * Cooling capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature dt : Delta temperature (deg) Return water temperature - Leaving water temperature 6

.HYDRO UNIT Cooling capacity and power input Capacity (kw) LWT 7 0 5 8 0.9.0 5.50 6.8 7.7 7.59.55.5 5.9 6.5 0.8.9.09.8 5.90 5.78.59.9.0 5.00 0 9.6 0.0 0.75.6.05 7.9 7.79 8.8 8.69 8.90 Power input (kw) LWT 7 0 5 8 0.88.88.88.88.88 7..... 0.67.67.67.67.67 5.07.07.07.07.07 0.8.76.70.7.68..5..08.05 EER LWT 7 0 5 8 0.6 5.00 5.8 5.69 6.5 7.66.9..5.79 0..59.8.0. 5.89.09.9.5.69 0.7.69.90.0.7.5.7.67.8.9 * Cooling capacity and power input are shown at maximum compressor operating frequency. * Cooling capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature 7

.HYDRO UNIT Heating capacity and input specifications HWS-05H8-E, HWS-05H8R-E HWS-05XWH**-E Rated heating capacity and power input Rated condition LWT=5 C dt=5deg =7 C Capacity kw. Power input kw. COP W/W.80 Rated water flow rate /min. * Rated heating capacity and power input are the data at rated compressor operating frequency. * Heating capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature dt : Delta temperature (deg) Leaving water temperature - return water temperature 8

.HYDRO UNIT Average heating capacity and power input Capacity (kw) LWT 0 5 0 5 50 55-0 5.9 5.0 5. 5.06-5 7.05 6.79 6.7 6.6-7 8.5 8.0 7.9 7.8 7.70-9.5 9. 8.98 8.8 8.69 8..5 0.6 0. 9.8 9.8 8.86 7 5..7..9.5.56 0 6.6 5.7 5.7 5.0.66.85 7.05 6.9 6.0 5.6 5.6.57 5 7.90 7. 6.76 6.0 5.85 5.0 0 0.0 9.7 8.8 8.8 7.9 6.85 Power input (kw) LWT 0 5 0 5 50 55-0.5..59.88-5.0.58.9. -7.68.88.6.6.0 -.6.8..59.97.7.70.90..59.9. 7.9..5.76.08.6 0.9..6.79...9..7.8.5.8 5.90..7.8.7.8 0.88.0.6.8.0.55 COP LWT 0 5 0 5 50 55-0.5.5.98.76-5.9.6..0-7..79..5.9 -.60..79.6.9.95..6..7.. 7 5..69.5.70..88 0 5.6 5.0..96.56. 5.85 5..6.0.68.5 5 6.8 5.5.8.7.80.6 0 6.96 6. 5..80.8.70 * Heating capacity and power input are include defrost cycle data. * Heating capacity and power input are shown at maximum compressor operating frequency. * Heating capacity and power input are measured in accordance with EN5. : Outdoor temperature (DB C) LWT : Leaving water temperature 9