United Kingdom
Catalog   /   Climate, Heating, Water Heating   /   Heating & Boilers   /   Heat Pumps

Comparison Daikin Altherma 3 R W EHBH08E6V/ERGA06EV 6 kW vs Immergas Magis Pro 6 V2 6 kW

Add to comparison
Daikin Altherma 3 R W EHBH08E6V/ERGA06EV 6 kW
Immergas Magis Pro 6 V2 6 kW
Daikin Altherma 3 R W EHBH08E6V/ERGA06EV 6 kWImmergas Magis Pro 6 V2 6 kW
Outdated ProductOutdated Product
TOP sellers
Main
Optionally, a package is installed that allows you to work at outdoor temperatures down to -15 °C - antifreeze kit option.
Heat sourceair-waterair-water
Suitable forheating and DHWheating and DHW
In box
In box
indoor unit (hydromodule)
outdoor unit
indoor unit (hydromodule)
outdoor unit
Specs
Operating modeheating onlyheating and cooling
Max. heat output
6 kW /at A7/W35/
6 kW /at A7/W35/
Max. cooling output
6.5 kW /at A35/W18/
Power consumption (heating)1.24 kW1.22 kW
Power consumption (cooling)1.47 kW
Power source230 V230 V
Electric heater6 kW
Minimum operating temperature-25 °C-5 °C
Max. water temperature65 °C65 °C
Compressor
inverter
inverter
Energy efficiency
t°C outside77
Supply t°C35 °C35 °C
COP4.854.92
SCOP (W35)4.47
Energy efficiency class (W35)A+++
SCOP (W55)3.26
Energy efficiency class (W55)A++
t°C outside7
Supply t°C45 °C
COP3.5
More specs
Control via smartphonewhen connecting Wi-Fi module
RefrigerantR32R32
Noise level
28 dB /hydronic module noise/
Country of brand originJapanItaly
Dimensions840x440x390 mm440x760x250 mm
Outdoor unit dimensions740x884x388 mm880x638x364 mm
Hydromodule weight42 kg33.5 kg
Outdoor unit weight58.5 kg47.5 kg
Added to E-Catalogjanuary 2022june 2021

Operating mode

Heating and cooling. Heat pumps that work on pumping heat in two directions. The main heating function is usually used for the water circuit of floor heating or radiator heating, and for cooling, such devices can replace fan coil units. It is worth noting that models with this mode can be used, for example, only for heating. For example, if the cooling system already exists, which will simplify the installation of communications in general.

Heating only. There are heat pumps that operate only in heating mode, which is important if the room already has an air conditioning system and cooling is not required.

Max. cooling output

Maximum cooling output delivered by the pump.

The pump operates in the cooling mode removing excess heat from the room to the environment — it plays the role of an air conditioner. The required cooling capacity depends on the area of the building, the specs of its thermal insulation and some other factors; methods of its calculation can be found in special sources. Also note here that conventional heating equipment (radiators, underfloor heating) is not suitable for cooling, for this it is necessary to use special equipment (for example, fan coil units).

Power consumption (heating)

Electric power consumed by the heat pump when operating only for heat transfer, without the use of an additional heating element (if any, see below). The ratio of thermal power to power input determines the thermal coefficient COP (see below) and, accordingly, the overall efficiency of the unit. It also affects overall power consumption (and therefore electricity bills), as well as some power and connection requirements — for example, models powered by 230 V and with a power of more than 5 kW cannot work from an outlet and require a special connection to the mains.

Power consumption (cooling)

For more information on power consumption, see the paragraph above. Here is indicated the consumption of electricity during operation in the cooling.

Electric heater

The power of the heating element installed in the device (if such a function is available).

It isan electric heater in the form of a tube with an incandescent filament inside. Such a heater plays an auxiliary role; it is used when the heat output of the pump itself is not enough — for example, with a significant drop in temperature outside. The main advantage of heating elements is that their efficiency does not depend on outdoor conditions. And the main disadvantage is the high energy consumption. If the heat pump can transfer much more heat energy than it consumes electricity, then the heat output of the heating element is approximately equal to the consumed one. That is why the specs indicate the power of the heating element in general, without specifying what it is about: the indicated figure corresponds to both the heating power and energy consumption. These parameters are similar to those of the heat pump itself; see above for more details.

Minimum operating temperature

The lowest ambient temperature (air or ground, see Heat source) at which a heat pump can safely and reasonably efficiently perform its functions. Efficiency at minimum temperature, of course, is noticeably reduced, but the device can still be used as a heat source.

The data on the minimum operating T allows you to evaluate the suitability of the pump for the cold season.

COP

The COP (coefficient of performance) is a key characteristic that describes the overall efficiency of a heat pump. It represents the ratio between the thermal power and power consumption of the unit (see above) – in other words, how many kilowatts of thermal energy the pump produces per 1 kW of electricity consumed. In modern heat pumps, this figure can exceed 5.

However, note that the actual COP value may vary depending on the outside temperature and the supply temperature. The higher the difference between these temperatures, the more resources are needed to “pump” thermal energy and the lower the COP will be. Therefore, in the specifications it is customary to indicate the COP value for specific temperatures (and in many models – two values, for different options) – this allows you to evaluate the actual capabilities of the unit.

SCOP (W35)

Like the standard COP (see above), this parameter describes the overall efficiency of the heat pump in heating operation and is calculated by the formula: thermal (useful) power divided by electricity consumption. The higher the coefficient, the more efficient the device. And the difference between COP and SCOP is that COP is measured under strictly standard conditions (outside temperature +7 °C, full workload), and SCOP takes into account seasonal temperature fluctuations (for Europe), changes in pump operating modes, the presence of an inverter and some other options. Thanks to this, SCOP is closer to real indicators, and since 2013 this coefficient has been taken as the main one in the territory of the European Union. However, this characteristic is also used for devices supplied to other countries with a similar climate. And in a specific case, measurements are carried out at a water supply temperature of 35 °C.

Energy efficiency class (W35)

The energy efficiency class characterizes the efficiency of electricity consumption by a heat pump. In this case, the final result is at a water supply temperature of 35°. The most energy efficient models have class A with a certain number of pluses (A+, A++, A+++, the more pluses — the lower the energy consumption), the more energy consuming — A, B, C and so on as energy efficiency decreases.