Protective and safety equipment as well as components that facilitate servicing (e.g. non-return valves, safety valves, overflow valves, shut-off valves) must be installed in accordance with national regulations and standards.
[Docking-ComponentNotesParagraph]
The compressor in a S1156 is inverter-controlled. The compressor’s power is adjusted according to the demand and routed to heating, hot water, cooling or pool heating. If the power is not sufficient for the heating demand, additional heating is connected automatically.
S1156 is supplied with a heating control system, which means that the heating supply to the house takes place according to selected settings. When connecting to a system with thermostats on all radiators (or underfloor heating coils), either a bypass valve must be fitted or some of the thermostats must be removed to ensure there is sufficient flow. For more information about heat production, see the Installer Manual.
S1156 is supplied with a heating and cooling control system, which means that the heating and cooling supply to the house takes place according to selected settings. When connecting to a system with thermostats, either a bypass valve must be fitted or some of the thermostats must be removed to ensure there is sufficient flow. For more information about heating and cooling production, see the Installer Manual.
If hot water heating is required, one or more external water heaters/accumulator tanks are docked.
When there is demand for hot water, S1156 prioritises this and switches to hot water mode. There is no heat production in this mode.
If the hot water temperature exceeds 60 °C, the installation must be supplemented with a mixing valve.
For more information about hot water production, see the manual for S1156 and/or the water heater’s/accumulator tank’s manual.
Passive cooling, cooling function without the compressor running, is achieved by connecting a cooling system to the heat pump’s brine circuit. The collector’s low temperature can be utilised for comfort cooling.
When cooling is required (activated from the outdoor temperature sensor and any room sensor) the circulation pump is activated and the shunt valve provides the correct supply temperature.
An external heating medium pump can be connected via an AUX output in S1156. If the AUX output is being used for any other function, the heating medium pump can instead be connected via the AXC module. The heating medium pump can be connected via the following functions:
additional heat (accessory AXC 40)
shunt-controlled additional heat (accessory AXC 40)
pool (accessory POOL 40)
This function requires the ECS 40/ECS 41 accessory. Shunt valve, supply and return line sensors, as well as circulation pump, are connected to other heating circuits with a lower temperature demand (e.g. underfloor heating system). The temperature in the extra heating system follows the selected curve slope and offset setting. Up to 8 extra heating systems can be connected to the installation.
For further information, see the Installer Manual for the accessory.
See the valve’s manual for a port description.
This function requires the ECS 40/ECS 41 accessory. Shunt valve, supply and return line sensors as well as circulation pump are connected to the extra climate system with a lower temperature demand. The temperature in the extra climate system is in accordance with the selected curve slope and offset setting.
Up to 8 extra climate systems can be connected to the installation.
For further information, see the Installer Manual for the accessory.
See the valve’s manual for a port description.
A circulation pump can be controlled by S1156 to circulate the hot water. The circulating water must have a temperature that prevents bacterial growth and scalding, and national standards must be satisfied. See the appropriate Installer Manual for more information.
The hot water circulation pump can be connected via an AUX output in S1156. If the AUX output is being used for any other function, the hot water circulation pump can instead be connected via the accessory AXC 40. The hot water circulation pump can be connected via the following functions:
hot water comfort (accessory AXC 40)
An external brine pump can be connected via an AUX output in S1156. If the AUX output is being used for any other function, the brine pump can instead be connected via the AXC module. The brine pump can be connected via the following functions:
ground water pump (accessory AXC 40)
This function requires the accessory ERS, which is controlled by S1156. ERS recovers the energy from the ventilation air and supplies it to the property.
For further information, see the Installer Manual for the accessory.
This function requires the accessory FLM S45. FLM S45 is an exhaust air module that is controlled by S1156. FLM S45 recovers energy from the exhaust air and supplies it to the brine.
For further information, see the Installer Manual for the accessory.
‘Ventilation only’ means that the heat pump recovers the heat from the ventilation without using boreholes or ground collectors, and supplies it to the heating system.
For more information, see the manual for the ventilation.
This connection enables the use of ground water as heat source. The ground water is pumped up to an intermediate heat exchanger. An intermediate heat exchanger is used to protect the heat pump's exchanger from dirt and freezing. The water is released into a buried filtration unit or a drilled well.
The ground water pump runs at the same time as the brine pump.
With the accessory ACS 45, a separate cooling system can be connected via a reversing valve. ACS 45 allows both heat and cooling production independently of each other.
Passive cooling occurs without the compressor running, active cooling occurs when the compressor is running. The cooling system is connected to the heat pump’s brine circuit.
When cooling is required (activated from the outdoor temperature sensor (EB100-BT1) and room sensor (EB100-BT50), where applicable), the shunt valve (EQ1-QN18) and the circulation pump (EQ1-GP10) are activated.
See the valve’s manual for a port description.
If there is excess heat, this is dumped to a coolant radiator or to the collector.
In installations where some climate systems are not insulated against condensation, the flow to these climate systems can be shut off by a shut-off valve during cooling operation.
This function requires the PCM S40/PCM S42 accessory. The cooling system is connected to the heat pump’s brine circuit, whereby cooling is supplied from the collector via circulation pump, shunt valve and reversing valve.
When cooling is required (activated from the outdoor temperature sensor (EB100-BT1) and room sensor (EB100-BT50), where applicable), the reversing valve, the shunt valve and the circulation pump are activated.
The shunt valve regulates so that the sensor reaches the current set point value corresponding to the outdoor temperature and the set min. value for the cooling temperature.
When there is a risk of condensation, components and climate systems must be insulated against condensation in accordance with current standards and provisions, or the min. supply temperature must be limited.
This function requires the PCS 44 accessory. The cooling system is connected to the heat pump brine circuit, through which cooling is supplied from the collector via the circulation pump and the shunt valve.
When cooling is required (activated from the outdoor temperature sensor (EB100-BT1) and room sensor (EB100-BT50), where applicable), the cooling shunt (EP44-QN18) and the circulation pump (EP44-GP10) are activated.
The shunt valve regulates so that the cooling sensor reaches the current set point value corresponding to the outdoor temperature and the set min. value for the cooling temperature (to prevent condensation).
If the FLM S45 accessory is installed with PCS 44, the cooling output will be reduced.
See the valve’s manual for a port description.
With the POOL 40 accessory, the heat pump can be used to heat a pool.
For further information, see the Installer Manual for the accessory.
In order to fill the system easily with brine, the accessories KB 25/KB 32 are available. These consist of a filterball, reversing valve and shut-off/filling valves, and are available in two sizes.
KB 25 for heat pump sizes up to 13 kW and KB 32 for heat pump sizes up to 30 kW.
This function requires the NIBE PV accessory. NIBE PV is a complete modular system with solar panels in several basic outputs. NIBE PV is connected to S1156, which adjusts to the generated solar electricity produced.
For further information, see the Installer Manual for the accessory.
Additional heat that requires the AXC 40 accessory. AXC 40, via a control signal, can control step-controlled additional heat.
The additional heat is used for heat production.
For further information, see the Installer Manual for the accessory.
Additional heat that requires the AXC 40 accessory. AXC 40, via a control signal, can control additional heat, which can also be prioritised.
The additional heat is used for heat production.
For further information, see the Installer Manual for the accessory.
This function enables district heating additional heat to assist with heating.
This function allows additional district heating to assist with the heating as shunt-controlled additional heat.
The AXC module AA25, external circulation pump GP10 and the sensors BT52, BT25 and BT71 are enclosed and are installed in the district heating module. The sensors BT25 and BT71 are connected to S1156.
The trim valve RN1 is used to regulate the flow over the heat pump and the district heating unit, and to avoid a high district heating return. Ensure the defrosting flow according to the Installer Manual.
This function enables district heating additional heat to produce both heat and hot water, including hot water circulation.
The AXC module AA25, external circulation pump GP10 and the sensors BT52, BT25 and BT71 are enclosed and are installed in the district heating module. The sensors BT25 and BT71 are connected to S1156.
The trim valve RN1 is used to regulate the flow over the heat pump and the district heating unit, and to avoid a high district heating return. Ensure the defrosting flow according to the Installer Manual.
A 2-pipe, parallel-connected buffer vessel is used for high-temperature and/or low-flow systems. This connection principle requires a continuous flow over the external supply temperature sensor (BT25) and it is used as a buffer for the heat pump (volume expansion) and as a buffer for the climate system (for large, temporary power outputs such as defrosting and fan coil, etc.).
For further information, see the Installer Manual for the accessory.
A 3-pipe-connected buffer vessel is used when the system volume in the climate system is below the minimum recommended volume for the heat pump and/or the flow in the heating system is restricted without control.
For further information, see the Installer Manual for the accessory.
|
Designation |
Name |
Specification |
Part No. |
Comments |
|---|---|---|---|---|
|
-EB100 |
Heat pump system |
NIBE S1156 |
||
|
-BT1 |
Outside sensor |
Included in S1156 Modbus: 1 (input) |
||
|
-EB100-BT5 |
Temperature sensor, hot water charging start |
Included in S1156 Modbus: 2014 (input) |
||
|
-EB100-BT6 |
Temperature sensor, hot water charging |
Included in S1156 Modbus: 9 (input) |
||
|
-EB100-BT7 |
Temperature sensor, hot water top |
Included in S1156 Modbus: 8 (input) |
||
|
-EB100-BT25 |
External supply temperature sensor |
Modbus: 39 (input) |
||
|
-EB100-CM2 |
Level vessel, brine |
Included in S1156 |
||
|
-EB100-FL3 |
Safety valve, brine |
Included in S1156 |
||
|
-EB100-GP7 |
External brine pump |
|||
|
-EB100-GP10 |
External heating medium pump |
Modbus: 1826 |
||
|
-EB100-QM31 |
Shut-off valve, heating medium supply line |
|||
|
-QM34 |
Shut off valve, brine out |
|||
|
-EB100-QZ2 |
Filterball, heating medium |
Included in S1156 |
||
|
-QZ3 |
Filterball, brine |
Included in S1156 |
||
|
XL |
XL connections |
|||
|
1 |
Heating medium connection, supply |
|||
|
2 |
Heating medium connection, return |
|||
|
6 |
Brine connection, in |
|||
|
7 |
Brine connection, out |
|||
|
9 |
Connection, hot water heater |
|||
|
-AZ10 |
Exhaust air module |
FLM S45 |
067 011 | |
|
-AZ10-RM1 |
Non-return valve |
Included in FLM S45 |
||
|
-AZ10-GP12 |
Circulation pump |
Included in FLM S45 |
||
|
-AZ10-HQ1 |
Particle filter |
|||
|
-AZ30 |
HRV unit |
NIBE ERS |
||
|
-CL11 |
Pool system |
POOL 40 |
067 062 |
|
|
-CL11-AA25 |
AXC module |
Included in POOL 40 |
||
|
-CL11-BT51 |
Pool sensor |
Included in POOL 40 Modbus: 27 (input) |
||
|
-CL11-EP5 |
Exchanger, pool |
|||
|
-CL11-GP9 |
Circulation pump, pool |
Modbus: 1828 (input) |
||
|
-CL11-HQ4 |
Particle filter, pool |
|||
|
-CL11-QN19 |
Three way valve, pool |
Included in POOL 40 Modbus: 1134 (input)
See the valve’s manual for a port description. |
||
|
-CP4 |
Additional water heater |
|||
|
-CP1 |
Storage tank |
|||
|
-CP1-WM3.2 |
Tundish, T&P valve |
Included in accumulator tank |
||
|
-CP10.1 |
Buffer vessel |
UKV |
Size varies depending on heat pump and system volume. |
|
|
-CP10.2 |
Buffer vessel, cooling |
UKV |
Condensation-insulated vessels for cooling. Size varies depending on heat pump and system volume. |
|
|
-EB1 |
Step-controlled additional heat/electric boiler |
|||
|
-EB1-AA25 |
AXC module |
Included in AXC 40 |
067 060 |
|
|
-EB2 |
External electrical backup |
|||
|
-EM1 |
Shunt controlled additional heat |
|||
|
-EM1-AA25 |
AXC module |
Included in AXC 40 |
067 060 |
|
|
-EM1-BT52 |
Boiler sensor |
Included in AXC 40 Modbus: 38 (input) |
||
|
-EM1-QN11 |
Shunt valve for additional heat |
Modbus: 1034 (input) |
||
|
-EP12 |
Ground water system |
|||
|
-EP12-AA25 |
AXC module |
Included in AXC 40 |
067 060 |
|
|
-EP12-EP4 |
Groundwater exchanger |
|||
|
-EP12-GP3 |
Circulation pump, groundwater |
Modbus: 1835 (input) |
||
|
-EP12-HQ40 |
Particle filter, groundwater |
|||
|
-EP21 |
Climate system 2 |
ECS 40/ECS 41 |
067 287 / 067 288 |
|
|
-EP21-AA25 |
AXC module |
Included in ECS 40/ECS 41 |
||
|
-EP21-BT2 |
Supply temperature sensor, climate system 2 |
Included in ECS 40/ECS 41 Modbus: 3 (input) |
||
|
-EP21-BT3 |
Return line sensor, climate system 2 |
Included in ECS 40/ECS 41 Modbus: 77 (input) |
||
|
-EP21-GP10 |
Circulation pump, climate system 2 |
Included in ECS 40/ECS 41 Modbus: 1825 (input) |
||
|
-EP21-QN25 |
Shunt valve, climate system 2 |
Included in ECS 40/ECS 41 Modbus: 1032 (input)
See the valve’s manual for a port description. |
||
|
-EP21-RM1 |
Non-return valve |
|||
|
-EP44 |
Cooling system 1 |
PCS 44 |
067 296 |
|
|
-EP44-AA25 |
AXC module |
Included in PCS 44 |
||
|
-EP44-BT64 |
Flow temperature sensor, cooling |
Included in PCS 44 Modbus: 30 (input) |
||
|
-EP44-BT65 |
Return line sensor, cooling |
Included in PCS 44 Modbus: 31 (input) |
||
|
-EP44-GP10 |
Circulation pump, cooling system 1 |
Included in PCS 44 Modbus: 1833 (input) |
||
|
-EP44-QN18 |
Shunt valve, cooling system 1 |
Included in PCS 44 Modbus: 1832 (input)
See the valve’s manual for a port description. |
||
|
-EP44-RM1 |
Non-return valve |
Included in PCS 44 |
||
|
-EP45 |
Cooling system 1 |
|||
|
-EQ1_PCM |
Passive cooling |
PCM S40/PCM S42 |
067 295 / 067 625 |
|
|
-EQ1 |
Active/passive cooling |
ACS 45 |
067 248 |
|
|
-EQ1-AA25 |
AXC module |
Included in ACS 45 |
||
|
-EQ1-BP6 |
Pressure gauge, brine |
|||
|
-EQ1-BT57 |
Temperature sensor, collector |
Included in ACS 45 Modbus: 90 (input) |
||
|
-EQ1-BT64 |
Flow temperature sensor, cooling |
Included in ACS 45 Modbus: 30 (input) |
||
|
-EQ1-BT75 |
Temperature sensor, flow line after heat dump |
Included in ACS 45 Modbus: 91 (input) |
||
|
-EQ1-CM3 |
Expansion vessel, brine |
|||
|
-EQ1-EP6 |
Heat exchanger |
|||
|
-EQ1-FL3 |
Safety valve, brine |
|||
|
-EQ1-GP10 |
Circulation pump |
Modbus: 1831 |
||
|
-EQ1-GP14 |
Circulation pump for heat dump |
Modbus: 1831 |
||
|
-EQ1-QN12 |
Reversing valve, cooling |
Modbus: 1830 (input)
See the valve’s manual for a port description. |
||
|
-EQ1-QN18 |
Shunt valve, cooling shunt |
Modbus: 1570 (input)
See the valve’s manual for a port description. |
||
|
-EQ1-QN36 |
Shunt valve, heating shunt |
Modbus: 1569 (input)
See the valve’s manual for a port description. |
||
|
-EQ1-RM1 |
Non-return valve, heat dump |
|||
|
-EQ1-RM2 |
Non-return valve, heat dump |
|||
|
-GC1 |
Solar panels |
NIBE PV |
||
|
-QZ1 |
Hot water circulation (HWC) |
|||
|
-QZ1-FQ3 |
Mixer valve, HWC |
|||
|
-QZ1-GP11 |
Circulation pump, HWC |
Modbus: 1063 (input) |
||
|
-QZ1-RM1 |
Non-return valve, HWC |
|||
|
-QZ1-RN1 |
Trim valve, HWC |
|||
|
-QZ20 |
Filling kit |
KB 25/KB 32 |
089 368 / 089 971 |
KB 25 (max. 13 kW), KB 32 (max. 30 kW) |
|
XL |
Miscellaneous |
|||
|
-BP5 |
Pressure gauge, heating medium |
|||
|
-BP6 |
Pressure gauge, brine |
|||
|
-CM1 |
Expansion vessel, heating medium |
|||
|
-CM3 |
Expansion vessel, brine |
Expansion vessel in closed system |
||
|
-FL2 |
Safety valve, heating medium |
|||
|
-RM1 |
Non-return valve |
|||
|
-RM2 |
Non-return valve |
|||
|
-QM12 |
Filling valve, brine |
|||
|
-QM31 |
Shut-off valve, heating medium supply line |
|||
|
-QM42 |
Shut-off valve, brine in |
Designations according to standard EN 81346-2.
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