Air Conditioning R32 SYSHP MINI 07-16 EVO-P Mini Heat Pump Monobloc Series Engineering Data Manual 7,4 to 14,0 kW 8,5 to16,2 kW
CONTENTS Part 1 General Information ............................................................................ 3 Part 2 Engineering Data ............................................................................... 17 Part 3 Installation and Field Settings..........................................................
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Part 1 General Information 1 SYSHP MINI system ................................................................................... 4 2 Product lineup ......................................................................................... 6 3 Nomenclature ........................................................................................... 6 4 System Design and Unit Selection .........................................................
1 6<6+3 0,1, system 1.1 System Schematic SYSHP MINI is an integrated air to water heat pump system which is one-stop solution for space heating, space cooling and domestic hot water, The outdoor heat pump system extracts heat from the outdoor air and transfers this heat through refrigerant piping to the plate heat exchanger in the hydronic system.
1.2 System Configurations SYSHP MINI can be configured to run with the electric heater either enabled or disabled and can also be used in conjunction with an auxiliary heat source such as a boiler. The chosen configuration affects the size of heat pump that is required. Three typical configurations are described below. Configuration 1: Heat pump only The heat pump covers the required capacity and no extra heating capacity is necessary.
2 Product lineup Power Model Refrigerant supply(V/Ph/Hz) SYSHP MINI 05 EVO-P Q 220-240/1/50 R32 SYSHP MINI 07 EVO-P Q 220-240/1/50 R32 SYSHP MINI 09 EVO-P Q 220-240/1/50 R32 SYSHP MINI 12 EVO-P Q 220-240/1/50 R32 SYSHP MINI 14 EVO-P Q 220-240/1/50 R32 SYSHP MINI 16 EVO-P Q 220-240/1/50 R32 SYSHP MINI 12 EVO-P R 380-415/3/50 R32 SYSHP MINI 14 EVO-P R 380-415/3/50 R32 SYSHP MINI 16 EVO-P R 380-415/3/50 R32 Appearance 3 Nomenclature SYSHP MINI 07 EVO -P Q WŽǁĞƌ ^ƵƉƉůLJ Z͗ ϯͲ
4 System Design and Unit Selection 4.
4.2 6<6+3 0,1, Leaving Water Temperature (LWT) Selection The recommended design LTW ranges for different types of heat emitter are: For floor heating: 30 to 35⁰C For fan coil units: 30 to 45⁰C For low temperature radiators: 40 to 50⁰C 4.
Part 2 Engineering Data 1 Specifications .......................................................................................... 10 2 Electrical characteristic............................................................................16 3 Dimensions and Center of Gravity ....................................................... 16 4 Operating Limits ..................................................................................... 17 5 Capactiy Tables ...................................................
1 Specifications Model SYSHP MINI Power supply(V/Ph/Hz) Heating A7W35 Rated input W 1226 1663 2128 5.30 5.05 4.70 Capacity W 6600 8500 10200 Rated input W 1650 2237 2795 4.00 3.80 3.65 Capacity W 6300 8200 9400 Rated input W 1969 2603 3032 3.20 3.15 3.10 Capacity W 5600 7100 8200 Rated input W 1333 1797 2158 4.20 3.95 3.80 Capacity W 6500 7500 8500 Rated input W 2063 2459 2881 3.15 3.05 2.
SEER Sound power level2 Compressor Fan Water outlet at 35℃ 5.09 5.19 5.08 Water outlet at 55℃ 7.81 8.09 8.
Model SYSHP MINI Power supply(V/Ph/Hz) Heating A7W35 Rated input W 2490 3000 3556 4.90 4.70 4.50 Capacity W 12500 14500 16200 Rated input W 3378 4085 4696 3.70 3.55 3.45 Capacity W 12000 14000 16000 Rated input W 4000 4746 5614 3.00 2.95 2.85 Capacity W 12300 13000 14500 Rated input W 3417 3714 4462 3.60 3.50 3.25 Capacity W 12000 13000 14300 Rated input W 4138 4643 5296 2.90 2.80 2.
Sound power level2 Compressor Fan Heating A7W35 dB 70 72 72 Heating max dB 74 74 74 Heating slince mode 1 dB 66 67 67 Heating slince mode 2 dB 64 64 64 Cooling A35W18 dB 69 71 71 Cooling max dB 74 74 74 Cooling slince mode1 dB 66 67 67 Cooling slince mode2 dB 63 64 64 Type DC twin rotary DC twin rotary DC twin rotary Type DC motor DC motor DC motor 1 1 1 5200 5200 5200 Fin coil Fin coil Fin coil Number Air flow Air side heat exchanger Type Throt
Model SYSHP MINI Power supply(V/Ph/Hz) Heating A7W35 Rated input W 2490 3000 3556 4.90 4.70 4.50 Capacity W 12500 14500 16200 Rated input W 3378 4085 4696 3.70 3.55 3.45 Capacity W 12000 14000 16000 Rated input W 4000 4746 5614 3.00 2.95 2.85 Capacity W 12300 13000 14500 Rated input W 3417 3714 4462 3.60 3.50 3.25 Capacity W 12000 13000 14300 Rated input W 4138 4643 5296 2.90 2.80 2.
Sound power level2 Compressor Fan Heating A7W35 dB 70 72 72 Heating max dB 74 74 74 Heating slince mode 1 dB 66 67 67 Heating slince mode 2 dB 64 64 64 Cooling A35W18 dB 69 71 71 Cooling max dB 74 74 74 Cooling slince mode1 dB 66 67 67 Cooling slince mode2 dB 64 64 64 Type DC twin rotary DC twin rotary DC twin rotary Type DC motor DC motor DC motor 1 1 1 5200 5200 5200 Fin coil Fin coil Fin coil Number Air flow Air side heat exchanger Type Throt
2 Electrical characteristics Outdoor unit System Voltage (V) Hz Power current Compressor Min. Max. MCA TOCA MFA MSC RLA (V) (V) (A) (A) (A) (A) (A) Fan kW FLA (A) SYSHP MINI 05 EVOP Q 220~240 50 198 264 13 18 25 - 10.5 0.17 1.5 SYSHP MINI 07 EVOP Q 220~240 50 198 264 14.5 18 25 - 10.5 0.17 1.5 SYSHP MINI 09 EVOP Q 220~240 50 198 264 16 18 25 - 10.5 0.17 1.5 SYSHP MINI 12 EVOP Q 220~240 50 198 264 25 30 40 - 17 0.17 1.
4 Operating Limits Heating operating limits T4 35 30 24 19 5 0 -15 -20 -25 5 12 25 40 45 50 55 60 65 70 T1 Cooling operating limits T4 43 19 10 -5 5 11 25 50 T1 Domestic hot water operating limits T4 43 35 30 24 19 5 0 -15 -20 -25 5 12 25 40 45 50 55 60 65 70 T1 Abbreviations: T4: Outdoor temperature(°C) T1: Leaving water temperature (°C) IBH: Backup electric heater AHS: Additional heat source Notes: If IBH/AHS setting is valid, only IBH/AHS turns on; If IBH/AHS setting is invalid, only hea
5 Capactiy Tables 5.1 Heating Capacity Tables (Test standard:EN14511) SYSHP MINI 05 EVO‐P Q Part load: Maximum LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP ‐25 3.92 1.59 2.46 3.89 1.69 2.30 3.86 1.80 2.14 3.83 1.92 1.99 3.60 2.05 1.76 / / / / / / / / / / / / ‐20 4.76 1.73 2.75 4.72 1.84 2.56 4.68 1.97 2.38 4.62 2.10 2.20 4.57 2.24 2.04 4.51 2.39 1.
Part load: 90% LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI ‐25 3.47 1.39 2.49 3.44 1.48 2.32 3.41 1.58 2.16 3.43 1.71 2.01 3.39 1.81 1.87 / / / / / / / / / / / COP / ‐20 4.21 1.51 2.79 4.17 1.61 2.60 4.13 1.72 2.41 4.15 1.86 2.23 4.10 1.98 2.07 4.04 2.12 1.91 2.60 1.41 1.84 / / / / / / ‐15 5.05 1.60 3.15 5.00 1.72 2.90 4.94 1.84 2.
Part load: 30% LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP ‐25 1.02 0.42 2.45 1.01 0.44 2.27 1.00 0.47 2.11 0.99 0.50 1.98 0.97 0.52 1.86 / / / / / / / / / / / / ‐20 1.25 0.44 2.80 1.24 0.48 2.57 1.22 0.51 2.37 1.21 0.55 2.20 1.19 0.58 2.05 1.17 0.61 1.92 1.12 0.61 1.84 / / / / / / ‐15 1.51 0.47 3.23 1.49 0.51 2.93 1.47 0.55 2.
SYSHP MINI 07 EVO‐P Q Part load: Maximum LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI ‐25 4.26 1.80 2.37 4.23 1.91 2.22 4.19 2.02 2.07 4.15 2.15 1.93 3.90 2.27 1.72 / / / / / / / / / / / COP / ‐20 5.17 1.96 2.64 5.12 2.08 2.46 5.08 2.22 2.29 5.02 2.36 2.13 4.96 2.48 2.00 4.89 2.67 1.83 3.25 1.89 1.72 / / / / / / ‐15 6.20 2.09 2.96 6.14 2.
Part load: 90% LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP ‐25 3.82 1.59 2.40 3.79 1.68 2.25 3.76 1.80 2.09 3.72 1.91 1.95 3.68 2.01 1.83 / / / / / / / / / / / / ‐20 4.63 1.72 2.69 4.60 1.83 2.51 4.55 1.95 2.33 4.50 2.08 2.16 4.43 2.19 2.02 4.38 2.35 1.86 3.02 1.66 1.82 / / / / / / ‐15 5.56 1.83 3.03 5.50 1.96 2.80 5.44 2.10 2.
Part load: 30% LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI ‐25 1.23 0.52 2.37 1.21 0.55 2.20 1.15 0.56 2.05 1.13 0.59 1.92 1.12 0.62 1.82 / / / / / / / / / / / COP / ‐20 1.50 0.55 2.71 1.48 0.59 2.50 1.40 0.61 2.31 1.38 0.65 2.14 1.36 0.67 2.02 1.34 0.72 1.87 1.13 0.63 1.79 / / / / / / ‐15 1.80 0.58 3.12 1.78 0.63 2.84 1.69 0.65 2.
SYSHP MINI 09 EVO‐P Q Part load: Maximum LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP ‐25 4.40 1.86 2.36 4.37 1.98 2.21 4.41 2.15 2.05 4.37 2.28 1.92 2.97 1.72 1.73 / / / / / / / / / / / / ‐20 5.34 2.04 2.62 5.30 2.17 2.44 5.33 2.35 2.27 5.28 2.50 2.11 5.22 2.66 1.96 5.15 2.83 1.82 3.44 2.01 1.71 / / / / / / ‐15 6.61 2.27 2.91 6.
Part load: 90% LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI ‐25 3.95 1.65 2.39 3.92 1.75 2.24 3.91 1.87 2.09 3.88 2.00 1.94 2.80 1.53 1.83 / / / / / / / / / / / COP / ‐20 4.73 1.77 2.68 4.75 1.90 2.50 4.73 2.04 2.32 4.68 2.18 2.15 4.68 2.35 1.99 4.61 2.49 1.85 3.24 1.78 1.82 / / / / / / ‐15 5.93 1.98 2.99 5.87 2.11 2.78 5.81 2.26 2.
Part load: 30% LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP 1.22 0.51 2.39 1.21 0.55 2.21 1.26 0.61 2.06 1.25 0.65 1.93 0.94 0.53 1.76 / / / / / / / / / / / / ‐20 1.49 0.54 2.74 1.47 0.59 2.51 1.54 0.66 2.32 1.52 0.71 2.15 1.50 0.75 2.01 1.47 0.79 1.87 1.12 0.63 1.79 / / / / / / ‐15 1.92 0.61 3.16 1.90 0.66 2.86 1.88 0.72 2.62 1.
SYSHP MINI 12 EVO‐P Q/R Part load: Maximum LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI ‐25 6.83 3.13 2.18 6.93 3.35 2.07 7.04 3.57 1.97 7.14 3.84 1.86 5.60 3.03 1.85 / / / / / / / / / / / COP / ‐20 8.18 3.38 2.42 8.30 3.62 2.29 8.42 3.90 2.16 8.53 4.16 2.05 8.63 4.47 1.93 8.73 4.80 1.82 6.87 3.84 1.79 / / / / / / ‐15 9.70 3.62 2.68 9.
Part load: 90% LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP 6.03 2.69 2.24 6.12 2.87 2.13 6.22 3.09 2.01 6.40 3.37 1.90 5.10 2.71 1.88 / / / / / / / / / / / / ‐20 7.22 2.89 2.50 7.33 3.11 2.36 7.43 3.35 2.22 7.64 3.64 2.10 7.73 3.90 1.98 7.83 4.21 1.86 6.06 3.33 1.82 / / / / / / ‐15 8.57 3.08 2.78 8.68 3.31 2.62 8.80 3.58 2.46 9.
Part load: 30% LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI ‐25 1.99 0.87 2.28 1.97 0.92 2.13 1.92 0.95 2.02 1.94 1.02 1.91 1.94 1.06 1.83 / / / / / / / / / / / COP / ‐20 2.37 0.92 2.57 2.36 0.99 2.39 2.30 1.02 2.25 2.35 1.11 2.12 2.28 1.14 2.00 2.52 1.32 1.91 2.19 1.19 1.84 / / / / / / ‐15 2.83 0.97 2.93 2.83 1.04 2.71 2.74 1.09 2.
SYSHP MINI 14 EVO‐P Q/R Part load: Maximum LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP ‐25 7.30 3.41 2.14 7.44 3.67 2.03 7.57 3.92 1.93 7.70 4.21 1.83 5.69 3.08 1.85 / / / / / / / / / / / / ‐20 8.75 3.71 2.36 8.89 3.97 2.24 9.03 4.26 2.12 9.18 4.59 2.00 9.31 4.93 1.89 9.46 5.28 1.79 6.87 3.84 1.79 / / / / / / ‐15 10.4 3.98 2.61 10.
Part load: 90% LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI ‐25 6.45 2.92 2.21 6.66 3.19 2.09 6.77 3.42 1.98 6.89 3.68 1.87 5.10 2.71 1.88 / / / / / / / / / / / COP / ‐20 7.73 3.16 2.45 7.96 3.45 2.31 8.09 3.69 2.19 8.22 3.99 2.06 8.24 4.25 1.94 8.37 4.57 1.83 6.06 3.33 1.82 / / / / / / ‐15 9.17 3.37 2.72 9.45 3.69 2.56 9.59 3.98 2.
Part load: 30% LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP ‐25 1.99 0.87 2.28 2.12 0.99 2.15 2.16 1.06 2.04 2.10 1.08 1.94 1.94 1.06 1.83 / / / / / / / / / / / / ‐20 2.37 0.92 2.57 2.55 1.05 2.42 2.59 1.14 2.27 2.52 1.18 2.14 2.56 1.26 2.03 2.73 1.42 1.92 2.19 1.19 1.84 / / / / / / ‐15 2.83 0.97 2.93 3.04 1.11 2.73 3.09 1.22 2.
SYSHP MINI 16 EVO‐P Q/R Part load: Maximum LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI ‐25 7.89 3.83 2.06 8.04 4.10 1.96 8.20 4.41 1.86 8.24 4.63 1.78 5.60 3.03 1.85 / / / / / / / / / / / COP / ‐20 9.45 4.18 2.26 9.62 4.50 2.14 9.80 4.83 2.03 9.81 5.06 1.94 10.1 5.57 1.82 10.2 5.84 1.74 6.87 3.84 1.79 / / / / / / ‐15 11.2 4.50 2.49 11.
Part load: 90% LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP 7.05 3.26 2.16 7.19 3.49 2.06 7.34 3.76 1.95 7.37 3.98 1.85 5.10 2.71 1.88 / / / / / / / / / / / / ‐20 8.45 3.54 2.39 8.61 3.79 2.27 8.77 4.10 2.14 8.78 4.33 2.03 9.08 4.75 1.91 9.10 5.03 1.81 6.06 3.33 1.82 / / / / / / ‐15 10.0 3.78 2.65 10.2 4.08 2.50 10.4 4.39 2.
Part load: 30% LWT 25 DB 30 35 40 45 50 55 60 65 HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI COP HC PI ‐25 2.33 1.01 2.31 2.29 1.06 2.17 2.34 1.14 2.05 2.35 1.21 1.95 1.94 1.06 1.83 / / / / / / / / / / / COP / ‐20 2.59 0.99 2.61 2.76 1.13 2.44 2.81 1.23 2.29 2.82 1.31 2.16 2.80 1.37 2.04 2.92 1.51 1.93 2.19 1.19 1.84 / / / / / / ‐15 3.08 1.04 2.97 3.28 1.19 2.75 3.33 1.30 2.
5.2 Cooling Capacity Tables (Test standard:EN14511) SYSHP MINI 05 EVO‐P Q Part load: Maximum LWT 5 DB ‐5 0 5 10 15 20 25 30 35 40 43 7 10 15 18 20 25 CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER / / / / / / / / / 4.56 0.56 8.21 4.79 0.57 8.41 4.96 0.58 8.60 5.47 0.60 9.04 / / / / / / / / / 4.56 0.56 8.21 4.79 0.57 8.41 4.96 0.58 8.60 5.47 0.60 9.04 / / / / / / / / / 4.67 0.58 8.13 4.92 0.59 8.
Part load: 70% LWT 5 DB ‐5 0 5 10 15 20 25 30 35 40 43 7 10 15 18 20 25 CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER / / / / / / / / / 3.19 0.38 8.49 3.35 0.39 8.68 3.47 0.39 8.89 3.83 0.41 9.32 / / / / / / / / / 3.19 0.38 8.49 3.35 0.39 8.68 3.47 0.39 8.89 3.83 0.41 9.32 / / / / / / / / / 3.27 0.39 8.38 3.45 0.40 8.56 3.53 0.40 8.76 3.90 0.43 9.17 / / / / / / / / / 3.48 0.43 8.
SYSHP MINI 07 EVO‐P Q Part load: Maximum LWT 5 DB ‐5 0 5 10 15 20 25 30 35 40 43 7 10 15 18 20 25 CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER / / / / / / / / / 4.84 0.59 8.15 5.09 0.61 8.35 5.27 0.62 8.55 5.81 0.65 8.98 / / / / / / / / / 4.84 0.59 8.15 5.09 0.61 8.35 5.27 0.62 8.55 5.81 0.65 8.98 / / / / / / / / / 4.97 0.62 8.07 5.23 0.63 8.26 5.35 0.63 8.45 5.92 0.67 8.
Part load: 70% LWT 5 DB ‐5 0 5 10 15 20 25 30 35 40 43 7 10 15 18 20 25 CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER / / / / / / / / / 3.39 0.40 8.43 3.56 0.41 8.63 3.69 0.42 8.83 4.06 0.44 9.26 / / / / / / / / / 3.39 0.40 8.43 3.56 0.41 8.63 3.69 0.42 8.83 4.06 0.44 9.26 / / / / / / / / / 3.48 0.42 8.32 3.66 0.43 8.50 3.75 0.43 8.71 4.14 0.45 9.11 / / / / / / / / / 3.54 0.44 7.
SYSHP MINI 09 EVO‐P Q Part load: Maximum LWT 5 DB ‐5 0 5 10 15 20 25 30 35 40 43 7 10 15 18 20 25 CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER / / / / / / / / / 5.13 0.63 8.10 5.39 0.65 8.30 5.58 0.66 8.50 6.15 0.69 8.92 / / / / / / / / / 5.13 0.63 8.10 5.39 0.65 8.30 5.58 0.66 8.50 6.15 0.69 8.92 / / / / / / / / / 5.26 0.66 8.02 5.54 0.68 8.20 5.67 0.67 8.40 6.27 0.71 8.
Part load: 70% LWT 5 DB ‐5 0 5 10 15 20 25 30 35 40 43 7 10 15 18 20 25 CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER / / / / / / / / / 3.45 0.41 8.38 3.62 0.42 8.57 3.75 0.43 8.77 4.13 0.45 9.20 / / / / / / / / / 3.45 0.41 8.38 3.62 0.42 8.57 3.75 0.43 8.77 4.13 0.45 9.20 / / / / / / / / / 3.53 0.43 8.27 3.72 0.44 8.44 3.81 0.44 8.65 4.21 0.47 9.05 / / / / / / / / / 4.10 0.52 7.
SYSHP MINI 12 EVO‐P Q/R Part load: Maximum LWT 5 DB ‐5 0 5 10 15 20 25 30 35 40 43 7 10 15 18 20 25 CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER / / / / / / / / / 10.28 1.47 7.00 10.92 1.55 7.04 11.60 1.49 7.77 12.49 1.79 6.99 / / / / / / / / / 10.53 1.30 8.08 10.92 1.55 7.04 11.70 1.44 8.15 12.49 1.79 6.97 / / / / / / / / / 10.53 1.31 8.03 11.11 1.44 7.69 11.60 1.51 7.70 12.61 1.73 7.
Part load: 70% LWT 5 DB ‐5 0 5 10 15 20 25 30 35 40 43 7 10 15 18 20 25 CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER / / / / / / / / / 7.60 0.70 10.87 8.11 0.72 11.30 8.64 0.64 13.51 8.74 0.60 14.60 / / / / / / / / / 7.71 0.62 12.47 8.18 0.68 12.11 8.64 0.64 13.40 8.65 0.67 13.00 / / / / / / / / / 7.67 0.66 11.59 8.12 0.72 11.22 8.52 0.74 11.50 8.65 0.68 12.77 / / / / / / / / / 7.
SYSHP MINI 14 EVO‐P Q/R Part load: Maximum LWT 5 DB ‐5 0 5 10 15 20 25 30 35 40 43 7 10 15 18 20 25 CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER / / / / / / / / / 10.76 1.62 6.66 11.51 1.72 6.68 12.08 1.73 6.99 13.20 2.00 6.60 / / / / / / / / / 11.02 1.44 7.64 11.51 1.73 6.66 12.29 1.60 7.68 13.20 2.01 6.58 / / / / / / / / / 11.02 1.45 7.60 11.70 1.61 7.27 12.29 1.61 7.64 13.33 1.94 6.
Part load: 70% LWT 5 DB ‐5 0 5 10 15 20 25 30 35 40 43 7 10 15 18 20 25 CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER / / / / / / / / / 7.97 0.78 10.22 8.57 0.81 10.61 8.63 0.74 11.64 10.73 1.09 9.81 / / / / / / / / / 8.09 0.70 11.63 8.51 0.86 9.88 8.70 0.70 12.44 10.66 1.14 9.32 / / / / / / / / / 8.04 0.74 10.85 8.58 0.81 10.54 8.64 0.75 11.56 10.69 1.13 9.45 / / / / / / / / / 8.
SYSHP MINI 16 EVO‐P Q/R Part load: Maximum LWT 5 DB ‐5 0 5 10 15 20 25 30 35 40 43 7 10 15 18 20 25 CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER / / / / / / / / / 11.45 1.73 6.62 12.19 1.84 6.63 12.64 1.91 6.63 13.71 2.19 6.25 / / / / / / / / / 11.63 1.61 7.23 12.19 1.84 6.62 12.75 1.84 6.92 13.71 2.20 6.23 / / / / / / / / / 11.63 1.62 7.19 12.39 1.72 7.22 12.86 1.78 7.22 13.84 2.13 6.
Part load: 70% LWT 5 DB ‐5 0 5 10 15 20 25 30 35 40 43 7 10 15 18 20 25 CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER CC PI EER / / / / / / / / / 8.16 0.79 10.28 8.73 0.82 10.67 9.09 0.83 10.91 11.44 1.39 8.22 / / / / / / / / / 8.22 0.75 10.91 8.66 0.87 9.94 9.09 0.84 10.84 11.38 1.43 7.96 / / / / / / / / / 8.17 0.80 10.22 8.74 0.82 10.60 9.10 0.84 10.84 11.43 1.40 8.14 / / / / / / / / / 8.
6 Hydronic Performance 6<6+3 0,1, (92 3 4 100 90 External static pressure(kPa) 80 70 60 50 40 30 20 10 0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.2 3.4 3.6 3.8 Water flow(m3/h) 6<6+3 0,1, 12 / 4 / 16 (92 3 4 6<6+3 0,1, 12 / 14 / 6 (92 3 5 90 80 External static pressure(kPa) 70 60 50 40 30 20 10 0 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 Water 48 2.2 flow(m3/h) 2.4 2.6 2.8 3.
7 Sound Levels 7.1 Overall Table 2‐8.1: Sound pressure levels1 dB(A) 2 Model name SYSHP MINI 05 EVO‐P Q 48 SYSHP MINI 07 EVO‐P Q 51 SYSHP MINI 09 EVO‐P Q 53 SYSHP MINI 12 EVO‐P Q 56 SYSHP MINI 14 EVO‐P Q 58 SYSHP MINI 16 EVO‐P Q 58 SYSHP MINI 12 EVO‐P R 57 SYSHP MINI 14 EVO‐P R SYSHP MINI 16 EVO‐P R 59 59 Notes: 1. Sound pressure level is measured at a position 1m in front of the unit and (1+H)/2m (where H is the height of the unit) above the floor in a semi‐anechoic chamber.
7.2 Octave Band Levels (NR) SYSHP MINI 05 EVO‐P Q octave band levels 120 Cooling in rated frequency 110 Outdoor air temperature 35⁰C 100 DB; EWT 12⁰C, LWT 7⁰C Octave band sound pressure level /dB 90 NR‐90 80 NR‐80 70 NR‐70 60 Outdoor air temperature 35⁰C DB; EWT 23⁰C, LWT 18⁰C NR‐60 50 NR‐50 40 NR‐40 30 Heating in rated frequency Outdoor air temperature 7⁰C DB, 85% R.H.; EWT 30⁰C, LWT 35⁰C. NR‐30 20 NR‐20 10 NR‐10 0 ‐10 Cooling in rated frequency NR‐0 31.
SYSHP MINI 09 EVO‐P Q octave band levels 120 Cooling in rated frequency 110 Outdoor air temperature 35⁰C 100 DB; EWT 12⁰C, LWT 7⁰C Octave band sound pressure level /dB 90 80 70 60 Cooling in rated frequency NR‐80 Outdoor air temperature 35⁰C NR‐70 DB; EWT 23⁰C, LWT 18⁰C NR‐60 50 NR‐50 40 NR‐40 30 Heating in rated frequency Outdoor air temperature 7⁰C DB, 85% R.H.; EWT 30⁰C, LWT 35⁰C. NR‐30 20 10 0 ‐10 NR‐90 31.
SYSHP MINI 14 EVO‐P Q octave band levels 120 Cooling in rated frequency 110 Outdoor air temperature 35⁰C DB; 100 EWT 12⁰C, LWT 7⁰C Octave band sound pressure level /dB 90 NR‐90 80 NR‐80 70 NR‐70 60 Outdoor air temperature 35⁰C DB; EWT 23⁰C, LWT 18⁰C NR‐60 50 NR‐50 40 NR‐40 30 20 NR‐30 10 NR‐20 0 NR‐10 ‐10 Cooling in rated frequency 31.5 63 125 250 500 1000 2000 4000 8000 Heating in rated frequency Outdoor air temperature 7⁰C DB, 85% R.H.; EWT 30⁰C, LWT 35⁰C.
SYSHP MINI 12 EVO‐P Roctave band levels 120 Cooling in rated frequency 110 Outdoor air temperature 35⁰C 100 DB; EWT 12⁰C, LWT 7⁰C Octave band sound pressure level /dB 90 NR‐90 80 NR‐80 70 NR‐70 60 Outdoor air temperature 35⁰C DB; EWT 23⁰C, LWT 18⁰C NR‐60 50 NR‐50 40 NR‐40 30 20 NR‐30 10 NR‐20 0 NR‐10 ‐10 Cooling in rated frequency 31.5 63 125 250 500 1000 2000 4000 8000 Heating in rated frequency Outdoor air temperature 7⁰C DB, 85% R.H.; EWT 30⁰C, LWT 35⁰C.
SYSHP MINI 16 EVO‐P R octave band levels 120 Cooling in rated frequency 110 Outdoor air temperature 35⁰C 100 DB; EWT 12⁰C, LWT 7⁰C Octave band sound pressure level /dB 90 NR‐90 80 NR‐80 70 NR‐70 60 Outdoor air temperature 35⁰C DB; EWT 23⁰C, LWT 18⁰C NR‐60 50 NR‐50 40 NR‐40 30 20 NR‐30 10 NR‐20 0 NR‐10 ‐10 Cooling in rated frequency 31.5 63 125 250 500 1000 Octave band center frequency (Hz) 2000 4000 8000 Heating in rated frequency Outdoor air temperature 7⁰C DB, 85% R.
8 Climate Related Curves The climate related curves can be selected in the user interface, MENU > PRESET TEMPERATURE > WEATHER TEMP. SET. WEATHER TEMP. SET menu If WEATHER TEMP. SET is active, the leaving water set temperature (T1s) will automatically change as outdoor ambient temperature (T4) changes. Totally 32 weather temperature curves are already set by experienced engineer and one personalized curve is available, which meets the diversified requirements of temperature.
High temperature curves for heating mode1 T1S(℃) Leaving water set temperature (⁰C ) 54 Curve 1 Curve 2 49 Curve 3 Curve 4 44 Curve 5 Curve 6 Curve 7 39 ‐30 ‐25 ‐20 ‐15 ‐10 34 ‐5 0 Curve 8 5 10 15 20 25 30 35 40 T4(℃) Outdoor ambient temperature (⁰C ) Low temperature curves for cooling mode1 T1S(℃) 24 22 Leaving water set temperature (⁰C ) 20 Curve 1 18 Curve 2 Curve 3 16 Curve 4 14 Curve 5 Curve 6 12 Curve 7 10 Curve 8 8 6 ‐10 ‐5 4 T4(℃) 0 5 10 15 20 25 30 Outdo
High temperature curves for cooling mode1 T1S(℃) Leaving water set temperature (⁰C ) 25 23 Curve 1 Curve 2 Curve 3 21 Curve 4 Curve 5 19 Curve 6 Curve 7 Curve 8 17 ‐10 ‐5 15 T4(℃) 0 5 10 15 20 25 30 35 40 45 50 Outdoor ambient temperature (⁰C ) The automatic setting curves are the ninth curve for cooling and heating mode.
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Part 3 Installation and Field Settings 1 User Interface Field Settings ................................................................ 60 2 Operation parameter...........................................................................
1 1.1 User Interface Field Settings Introduction During installation, the settings and parameters should be configured by the installer to suit the installation configuration, climate conditions and end-user preferences. The relevant settings are accessible and programmable through the FOR SERVICEMAN menu on the user interface.
1.2 Menu Structure FOR SERVICEMAN 1 DHW MODE SETTING 2 COOL MODE SETTING 3 HEAT MODE SETTING 4 AUTO MODE SETTING 5 TEMP. TYPE SETTING 6 ROOM THERMOSTAT 7 OTHER HEATING SOURECE 8 HOLIDAY AWAY SETTING 9 SERVICE CALL 10 RESTORE FACTORY SETTINGS 11TEST RUN 12 SPECIAL FUNCTION 13 AUTO RESTART 14 POWER INPUT LIMITATION 15 INPUT DEFINE 16 CASCADE SET 17 HMI ADDRESS SET 18 COMMON SET 1 DHW MODE SETTING 1.1 DHW MODE 1.2 DISINFECT 1.3 DHW PRIORITY 1.4 PUMP_D 1.5 DHW PRIORITY TIME SET 1.6 dT5_ON 1.7 dT1S5 1.
1.3 FOR SERVICEMAN Menu FOR SERVICEMAN allows installers to input the system configuration and set the system parameters. To enter FOR SERVICEMAN, go to MENU > FOR SERVICEMAN. FOR SE RVICEMAN Please input password: Enter the password, using ◄ ► to navigate between digits and using ▼ ▲ to adjust the numerical values. The password is 234. Then the following pages will be displayed after putting the password. 2 3 4 ENTER ADJUST FOR SERVICEMAN menu FOR SERVICEMAN 1/3 2/3 7. OTHER HEATING SOURCE 8.
mode is on. If DHW mode is available and the space heating/cooling is OFF, then heat pump will change to DHW mode. If YES is selected in the DHW PRIORITY mode, then a maximum of three parameters(DHW PRIORITY TIME SET, t_DHWHP RESTRICT, t_DHWHP MAX) are needed to be set. Please refer to the behind introduction. PUMP_D sets whether or not the DHW pump is controlled by heat pump. If the DHW pump is controlled by heat pump, select YES. If the DHW pump is not controlled by heat pump, select NON.
T5S_DISINFECT sets target water temperature of water tank of disinfect function. T5S_DI sets the DHW tank disinfection operation target temperature. Caution: during the disinfection operation (duration: t_DI_MAX) the domestic hot water temperature at the hot water taps will at times be equal to the value set for T5S_DI. t_DI_HIGHTEMP sets that length of time that the DHW tank disinfection operation target temperature is maintained.
PUMP_D TIMER enable or disable the DHW pump run as timed and keeps running for PUMP_D RUNNING TIME PUMP_D RUNNING TIME set the certain time that the DHW pump will keep running PUMP_D DISINFECT enable or disable the DHW pump operates when heat pump is in disinfect mode and T5S_DI- T5≤2 ACS FUNCTION enable or disable the second water tank control T5_2 1.5 COOL MODE SETTING Menu MENU > FOR SERVICEMAN > COOL MODE SETTING COOL MODE SETTING menu 2 COOL MODE SETTING 2.1 COOL MODE 2.2 t_T4_FRESH_C 2.
t_INTERVAL_C sets the cooling mode compressor re-start delay. When the compressor stops running, it will not re-start until at least t_INTERVAL_C minutes have elapsed. T1SetC1 sets the water temperature 1 of personalized setting curve for cooling mode. T1SetC2 sets the water temperature 2 of personalized setting curve for cooling mode. T4C1 sets the ambient temperature 1 of personalized setting curve for cooling mode. T4C2 sets the ambient temperature 2 of personalized setting curve for cooling mode.
dTSH sets the temperature difference between the actual room temperature (Ta) and set room temperature (TS) above which the heat pump provides hot water to the space heating terminals. When TS – Ta ≥ dTSH the heat pump provides hot water to the space heating terminals and when Ta ≥ TS the heat pump does not provide hot water to the space heating terminals. dTSH is only relevant if YES is selected for ROOM TEMP in the 5 TEMP. TYPE SETTING menu.
1.8 TEMP. TYPE SETTING Menu MENU > FOR SERVICEMAN > TEMP. TYPE SETTING TEMP. TYPE SETTING menu The TEMP. TYPE SETTING is used for selecting whether the water flow temperature or room temperature is used to control the ON/OFF of the heat pump. When ROOM TEMP. is enabled, the target water flow temperature will be calculated from climate curves. 5 TEMP. TYPE SETTING 5.1 WATER FLOW TEMP. YES 5.2 ROOM TEMP. NON 5.
1.9 ROOM THERMOSTAT Menu MENU > FOR SERVICEMAN > ROOM THERMOSTAT ROOM THERMOSTAT menu As an alternative to control space heating/cooling modes according to the leaving water temperature and/or the room temperature detected by the temperature sensor inside the user interface, separate room thermostat can be installed and used to control space heating/cooling modes. 6 ROOM THERMOSTAT NON 6.
dT1_IBH_ON sets the temperature difference between the heat pump leaving water set temperature (T1S) and the heat pump leaving water temperature (T1) above which the backup electric heater is on. When T1S - T1 ≥ dT1_IBH_ON the backup electric heater is on. t_IBH_DELAY sets the delay time for the electric heater to turn on after the compressor starts. T4_IBH_ON T4_IBH_ON sets the ambient temperature below which the backup electric heater is on.
TBH FUNCTION enable or disable tank booster heater. dT5_TBH_OFF sets the temperature difference between the DHW set temperature (T5S) and the DHW tank water temperature (T5) below which the tank booster heater is not used. When T5 > Min(T5S+dT5_TBH_OFF, 65°C), the tank booster heater is off. t_TBH_DELAY sets the delay time for the tank booster heater to turn on after the compressor starts. T4_TBH_ON sets the ambient temperature above which the tank booster heater will not be used.
1.13 RESTORE FACTORY SETTINGS MENU > FOR SERVICEMAN > RESTORE FACTORY SETTINGS RESTORE FACTORY SETTINGS is used to restore all the parameters set in the user interface to factory defaults. On selecting YES, the process of restoring all settings to factory defaults begins and progress is displayed as a percentage. RESTORE FACTORY SETTINGS screens 10 RESTORE FACTORY SETTINGS ALL THE SETTINGS WILL COME BACK TO FACTORY DEFAULT.
1.14.1 POINT CHECK The POINT CHECK menu is used to check the operation of individual components. Use ▼▲ to scroll to the components you want to check and press COMFIRM to toggle the on/off state of the component. If a valve does not turn on/off when its on/off state is toggled or if a pump/heater does not operate when turned on, check the component’s connection to the hydronic system main PCB.
1.14.4 COOL MODE RUNNING operation MENU > FOR SERVICEMAN > TEST RUN > COOL MODE RUNNING COOL MODE RUNNING display 11 TEST RUN The COOL MODE RUNNING operation is used to check the operation of the system in space cooling mode. During the COOL MODE RUNNING operation, the leaving water set temperature is 7°C. The current actual leaving water temperature is displayed on the user interface. The unit operates until the leaving water temperature drops to the set temperature or the next command is received. 1.14.
1.15.2 PREHEATING FOR FLOOR MENU > FOR SERVICEMAN > SPECIAL FUNCTION > PREHEATING FOR FLOOR Before floor heating, if a large amount of water remains on the floor, the floor may be warped or even rupture during floor heating operation, in order to protect the floor, floor drying is necessary, during which the temperature of the floor should be increased gradually. During first operation of the unit, air may remain in the water system which can cause malfunctions during operation.
Phase 1: gradual temperature increase from a starting point of 25°C to the peak temperature Phase 2: maintain peak temperature Phase 3: gradual temperature decrease from the peak temperature to 45°C FLOOR DRYING UP settings WARM UP TIME(t_DRYUP) sets the duration of Phase 1. KEEP TIME(t_HIGHPEAK) sets the duration of Phase 2. TEMP. DOWN TIME(t_DRYD) sets the duration of Phase 3. PEAK TEMP.(T_DRYPEAK) sets the heat pump leaving water set temperature for Phase 2.
1.18 INPUT DEFINE MENU > FOR SERVICEMAN > INPUT DEFINE INPUT DEFINE sets sensors and functions to fulfill with installation. INPUT DEFINE 15 INPUT DEFINE REMOTE ON/OFF 15.1 M1M2 15.2 SMART GRID NON 15.3 T1T2 NON 15.4 Tbt NON DEFROST 15.5 P_X PORT ADJUST M1M2 sets the remote control function of M1M2 for ON/OFF of heat pump or TBH SMART GRID sets whether SMART GRID control signal is connected to hydronic PCB.
1.20 HMI ADDRESS SET MENU > FOR SERVICEMAN > HMI ADDRESS SET HMI ADDRESS SET 17 HMI ADDRESS SET 17.1 HMI SET MASTER 17.2 HMI ADDRESS FOR BMS 1 17.3 STOP BIT 1 ADJUST HMI SET sets the wired controller is master or slave. (0=MASTER, 1=SLAVE) When HMI SET is set to SLAVE, the controller can only switch the operation mode, turn on or off, set the temperature, and cannot set other parameters and functions. HMI ADDRESS FOR BMS sets the HMI address code for BMS.
2 Operation parameter MENU > OPERATION PARAMETER This menu is for installer or service engineer reviewing the operation parameters. The interface below is for reference and different units’ state correspond to different parameter values. Operation parameter OPPERATION PARAMETER ONLINE UNITS NUMBER #00 1 OPPERATION PARAMETER COMP. FREQUENCY #00 32℃ 50℃ 2970 kPa P2 COMP. PRESSURE T2B PLATE F-IN TEMP. 1380 kPa 21℃ T3 OUTDOOR EXCHANGE TEMP. 42℃ ADDRESS 2/10 T2 PLATE F-OUT TEMP.
The following parameter ranges are used to roughly determine whether the system is running properly: Discharge temperature(Tp) for heating/DHW mode T4<-10℃ Twout+15<Tp<Tw_out+40 -10℃≤T4<10℃ Twout+10<Tp<Tw_out+35 10℃≤T4<25℃ Twout+10<Tp<Tw_out+30 T4≥25℃ Twout+10<Tp<Tw_out+28 Note: T4 means ambient temperature Tw_out means leaving water temperature.
Tel. +39 0362 680 1 Fax +39 0362 680 693 www.systemair.com Systemair · EDM SYSHP MINI EVO-P S-1GB/06.22 As part of our ongoing product improvement programme, our products are subject to change without prior notice. Non contractual photos.