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- Operating mode
- monovalent: Only the main heat generator is used to cover the heat demand.
- bivalent-alternative: The main heat generator covers the heating demand up to the set bivalence temperature. If the outside temperature drops below the bivalence temperature, the main heat generator switches off and the secondary generator is switched on.
- bivalent-parallel: The main heat generator covers the complete heating requirement up to the set bivalence temperature. If the outside temperature drops below the bivalence temperature, the secondary heat generator switches on and supports the main heat generator.
- Priority control - Determine here whether the heating or the domestic hot water should be heated first when there is a simultaneous demand for domestic hot water and heating.
- Heating limit temperature - If the outdoor temperature rises above the set heating limit temperature, the heating system is switched off completely.
- Cooling limit temperature - If the outside temperature falls below the set cooling limit temperature, the cooling function of the system (if present) is switched off completely.
- Optimize flow temperature ("Weather-compensated control") - Instead of the static flow temperature (of e.g. 35 °C), the flow temperature is adjusted so that the heat requirement of the room with the greatest heat demand is covered. This means that the target flow temperature is determined as the maximum of the temperatures that the respective heat outputs require to cover the heating demand of the room they supply. In the event that a heat output is incorrectly dimensioned, unrealistically high temperatures could occur, so the value is capped. The same principle also applies in cooling mode.
- The option "Optimize flow temperature" must be selected in case of a heat pump system which is also to be used to cool via the underfloor heating systems.
- Self-powered - If a PV system has been created in the project or if a CHP is used, you can use the generated electricity to operate the heat pump.
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