Danfoss DHP-R Operating instructions

Type
Operating instructions

Danfoss DHP-R is a modular heat pump controller designed to provide optimal comfort and energy efficiency in residential and light commercial applications. With its advanced algorithms and user-friendly interface, the DHP-R offers a range of features to enhance heating, cooling, and hot water production.

Key capabilities of the Danfoss DHP-R include:

  • Efficient space heating and cooling: The DHP-R precisely modulates the heat pump's operation to maintain a comfortable室内温度, while minimizing energy consumption.

  • Smart hot water management: The DHP-R can be integrated with various hot water storage systems to provide on-demand hot water and minimize standby losses.

Danfoss DHP-R is a modular heat pump controller designed to provide optimal comfort and energy efficiency in residential and light commercial applications. With its advanced algorithms and user-friendly interface, the DHP-R offers a range of features to enhance heating, cooling, and hot water production.

Key capabilities of the Danfoss DHP-R include:

  • Efficient space heating and cooling: The DHP-R precisely modulates the heat pump's operation to maintain a comfortable室内温度, while minimizing energy consumption.

  • Smart hot water management: The DHP-R can be integrated with various hot water storage systems to provide on-demand hot water and minimize standby losses.

VMBQI202
DHPR
INSTALLATION INSTRUCTIONS
EXPANSION MODULE, HPC EM
COOLING MODULE, HPC CM
VMBQI2022 – Danfoss
VMBQI202
VMBQI202
VMBQI202 Danfoss – 3
Table of contents
Installation for WCS function (warm water loading) ... 4
Installation for TWC function (tap water control)...... 6
Installation for Shunt function ....................... 8
Important information!
24 VAC 1 must not be connected together with:
󰂮
•24VAC2
•24VDC
•Otherequipmentthatuses0-10Vcontrolsignal
•SignalgroundGND
24 VAC 2 must only be used as power supply to:
󰂮
•Externalequipmentthatrequires0-10Vcontrolsignal
•Auxiliarymodules
The two separate 24 VAC circuits must never be connected
󰂮
to each other or to protective ground.
The total power load on 24 VAC 1 respectively 24 VAC 2 must
󰂮
notexceed50VA.
VMBQI2024 – Danfoss
VMBQI202
Expansion module, HPC EM
Theoperationaldescriptionfortheexpansionmoduleisavailableinthecontrollermanual.
Installation for WCS function (warm water loading)
Application
TheexpansionmoduleinWCSoperationalmodecontrolswarmwaterloadingofthe
water heaters.
WCS operation is achieved by setting the switch according to the figure.
Required accessories for installation
Submersiblesensor,Thermokon-DanelkoAKF1004140,itemno.086U3364
One of the following modular cables:
Modularcable0.3m,itemno.086U4227
Modularcable1.1m,itemno.086U4228
Modularcable10.0m,itemno.086U4229
Connectionblock,itemno.086U5121
Other accessories
PilotvalveVVL(2-way),heatexchanger(tapwatervvx),circulationpump.
System image
Heat exchanger
Aheatexchangerisconnectedbetweentheheatpumpandthecirculationforthewaterheatersasdepictedinthesystem
image above.
Circulation pump
Acirculationpumpisconnectedneartheheatexchanger.
Pilot valve
Apilotvalveisconnectedbetweenthecirculationpumpandtheheatexchanger.
Submersible sensor
Asubmersiblesensorisconnectedonthereturnlineoftheheatexchanger,asclosetotheheatexchangeraspossible.
Heat circuit
Hot gas circuit
Cooling agent circuit
VVB VVB VVB VVB
Heatexchanger
Modular cable
Steering valve
Circulation pump
Expansion module
WCS operation
Submersible sensor
return VVX
KV
VV
VVC
DHP-R
VMBQI202
VMBQI202 Danfoss–5
Connecting
󰂮
Note!Themaximumloadmaynotexceed50VA.
Expansion module
Theexpansionmoduleismountedintheelectriccabinetontheintendedrail.Ifthereisnoroom,themodulecanbeinstal-
ledinanexternal,enclosedcabinetandconnectedwithalongermodularcable.
SettheswitchesonthefrontoftheexpansionmoduletotheWCSposition
ConnectamodularcablebetweenHPCRMExp.outandHPCEMExp.in
Connections of expansion module for WCS operation:
Temperatureinput,T1:Submersiblesensor(heatexchangerreturnline)
Temperatureinput,T2:-
Analogueoutput0-10V,AO1:Signaltopilotvalve
Relay,DO1:Signaltocirculationpump(no-potentialclosure,maximum6A)
Exp.in:ConnectionfromHPCRM
Exp.out:Connectiontopossibleadditionalmodule.
Submersible sensor
ConnecttoT1andGND
Circulation pump
ConnecttoDO1.1to24VAC2.1
ConnectDO1.2tothecontactorcoil(therelaycoil)andfurtherto24VAC2.2
Pilot valve
ConnectAO1tothesignalinputofthepilotvalve
ConnectGNDtopilotvalveGND.IfGNDismissingfromthecontrolvalve,connectGNDtogetherwith24VAC2.2
somewhere in the system. It is best to bridge terminal blocks 144 and 146 in the control cabinet.
ConnectthepilotvalveterminalGto24VAC2.1
ConnectthepilotvalveterminalG0to24VAC2.2.
Exp.in
GGNDG
0
Y
1
Exp.out
DO1.1
T1
T2
AO1
GND
DO1.2
HPC EM
WCS
24 VAC 2.1
24 VAC 2.1
24 VAC 2.2
24 VAC 2.2
M
alt.
GG
0
Y
1
24 VAC 2.1
24 VAC 2.2
AO1
0-10V
Circ. pump
FromExp.out
Submersible sensor
Pilot valve
VMBQI2026 – Danfoss
VMBQI202
Installation for TWC function (tap water control)
Application
In the TWC mode, the expansion module ensures that outgoing hot tap wa- ter
and heat water circulation have a sufficiently high temperature, to prevent the pre-
sence of Legionella bacteria.
TWC operation is achieved by setting the switch according to the figure.
Required accessories
2 PT1000 strap-on temperature detectors with 2 m of cable, item no.
086U3365(itemnumbercorrespondsto1transmitter)
One of the following modular cables:
Modularcable0.3m,itemno.086U4227
Modularcable1.1m,itemno.086U4228
Modularcable10.0m,itemno.086U4229
Connectionblock,itemno.086U5121
System image
Sensor, water heater
Astrap-ontemperaturedetectorisconnectedonthesupplylineleadoftheendheater,beforethemixingvalve.
Sensor, hot water return
Astrap-ontemperaturedetectorisconnectedonthe returnleadofthe warmwatercirculation,beforethecirculation
pump.
Heat circuit
Hot gas circuit
Cooling agent circuit
VVB VVB VVB VVB
Modular cable
Sensor, water heater
Electriccartridge
Sensor, hot water return
Expansion module
TWC function
KV
VV
VVC
DHP-R
VMBQI202
VMBQI202 Danfoss–7
Connecting
󰂮
Note!Themaximumloadmaynotexceed50VA.
Expansion module
Theexpansionmoduleismountedintheelectriccabinetontheintendedrail.Ifthereisnoroom,themodulecanbeinstal-
ledinanexternal,enclosedcabinetandconnectedwithalongermodularcable.
SettheswitchesonthefrontoftheexpansionmoduletotheTWCposition
ConnectamodularcablebetweenHPCRMExp.outandHPCEMExp.in
Connections of expansion module for TWC operation:
Temperature input, T1: Sensor, water heater
Temperature input, T2: Transmitter, hot water return
Analogueoutput0-10V,AO1:-
Relay,DO1:Signaltoelectriccartridge,hotwater(no-potentialclosure,maximum6A)
Exp.in:ConnectionfromHPCRM
Exp.out:Connectiontopossibleadditionalmodule.
Electric cartridge
ConnecttoDO1.1to24VAC2.1.
ConnectDO1.2tothecontactorcoil(therelaycoil)andfurtherto24VAC2.2.
Sensor, water heater
ConnectthesensorcabletoT1andGND.
Sensor, hot water return
ConnectthesensorcabletoT2andGND.
Exp.in
Exp.out
DO1.1
T1
T2
AO1
GND
DO1.2
HPC EM
TWC
24 VAC 2.1 24 VAC 2.2
Start signal for
electric cartridge
water heater
Hot water return
FromExp.out
VMBQI2028 – Danfoss
VMBQI202
Installation for Shunt operation
Application
Intheshuntmode,theexpansionmodulemaintainstherequiredtemperaturefora
second heat circuit.
The shunt function is achieved by setting the switch according to the figure.
Required accessories
1PT1000strap-ontemperaturedetector,itemno.086U3365
One of the following modular cables:
Modularcable0.3m,itemno.086U4227
Modularcable1.1m,itemno.086U4228
Modularcable10.0m,itemno.086U4229
Connectionblock,itemno.086U5121
Other accessories
Shunt valve, circulation pump.
System image
Sensor, shunt temperature
Astrap-ontemperaturedetectorisconnectedonthesupplylineoftheheatcircuit,afterthecirculationpump.
Heat circuit 1
Heat circuit 2
Hot gas circuit
Cooling agent circuit
VVB VVB VVB VVB
Shunt valve
Sensor, shunt temperature
Circulation pump
Modular cable
Expansion module
Shunt function
KV
VV
VVC
DHP-R
VMBQI202
VMBQI202 Danfoss–9
Connecting
󰂮
Note!Themaximumloadmaynotexceed50VA.
Expansion module
Theexpansionmoduleismountedintheelectriccabinetontheintendedrail.Ifthereisnoroom,themodulecanbeinstal-
ledinanexternal,enclosedcabinetandconnectedwithalongermodularcable.
SettheswitchesonthefrontoftheexpansionmoduletotheShuntposition.
ConnectamodularcablebetweenHPCRMExp.outandHPCEMExp.in
Connections of expansion module for shunt operation:
Temperature input, T1: Sensor, shunt temperature.
Temperatureinput,T2:-
Analogueoutput0-10V,AO1:Signaltoshuntvalve.
Relay,DO1:Signaltocirculationpump(no-potentialclosure,maximum6A).
Exp.in:ConnectionfromHPCRM.
Exp.out:Connectiontopossibleadditionalmodule.
Sensor, shunt temperature
ConnecttoT1andGND
Circulation pump
ConnecttoDO1.1to24VAC2.1.
ConnectDO1.2tothecontactorcoil(therelaycoil)andfurtherto24VAC2.2.
Shunt valve
ConnectAO1tothesignalinputofthepilotvalve.
ConnectGNDtopilotvalveGND.IfGNDismissingfromthecontrolvalve,connectGNDtogetherwith24VAC2.2
somewhere in the system. It is best to bridge terminal blocks 144 and 146 in the control cabinet.
ConnectthepilotvalveterminalGto24VAC2.1.
ConnectthepilotvalveterminalG0to24VAC2.2.
Exp.in
GGNDG
0
Y
1
Exp.out
DO1.1
T1
T2
AO1
GND
DO1.2
HPC EM
Shunt
24 VAC 2.1
24 VAC 2.1
24 VAC 2.2
24 VAC 2.2
0-10V
alt.
M
GG
0
Y
1
24 VAC 2.1
24 VAC 2.2
AO1
Circ. pump
FromExp.out
Shunt temperature
Shunt valve
VMBQI20210 – Danfoss
VMBQI202
Inputs and outputs, HPC EM
Temperature inputs
Input Shunt TWC WCS
T1 Shunt temperature HW heater temp WCS temperature
T2 HW return temp
Analogue outputs
Outputs Shunt TWC WCS
AO1 Control signal Control signal
Relay outputs
Outputs Shunt TWC WCS
DO1 Circulation pump Heater HW Circulation pump
VMBQI202
VMBQI202 Danfoss – 11
Cooling module, HPC CM
The operational description for the cooling module is available in the controller manual.
Installation
Application
The cooling module controls the temperature of a cooling using a pilot valve. The cold is collected from a cooling tank,
which is cooled with active or passive cold.
Passive cold means that cooling agent fluid is circulated through the drill hole and the cooling tank, without activation
ofanyheatingpump.Onlycirculationpumpsforcoolingagentsareused.Theheatfromthecoolingtankistransported
down into the mountain. An assumption for passive cooling to work is that the cooling agent fluid is colder than the coo-
ling tank.
Active cooling means that a heat pump is activated to lower the temperature of the cooling agent, before it is transferred
into the cooling tank. If the cooling integral continues to rise, more heat pumps are started. The valve for active cooling
changes its mode and disconnects the drill hole. Therefore, the cooling agent only circulates through the cooling tank and
heat pump, so that all the produced cold can be collected.
Additionally, a dew point control function can be activated in the cooling module. This function is not necessary, but if it is
used a dew point sensor must be connected.
Surplus heat produced during active cooling can either be returned to the drill hole or cooled in a coolant cooler. If a
coolant cooler is used, a temperature sensor is connected for the cooler and the coolant module then controls the cooling
fans.
Required accessories
4PT1000contactstrap-ontemperaturedetectorwith2mofcable,itemno.086U3365(itemnumbercorrespondsto1
detector)
One of the following modular cables:
Modularcable0.3m,itemno.086U4227
Modularcable1.1m,itemno.086U4228
Modularcable10.0m,itemno.086U4229
Connectionblock,itemno.086U5121
Dewpointsensorforwallmounting,itemno.086U3396(ifthedewpointfunctionisused)
VMBQI20212 – Danfoss
VMBQI202
System image
Transmitter, cooling tank
Astrap-ontemperaturedetectorisconnectedonthecoolingtankataboutathirdofthetank’sheight.
Transmitter, cooling circuit
Astrap-ontemperaturedetectorisconnectedonthesupplylineofthecoolingcircuit,afterthecirculationpump.
Transmitter, cooling tank outlet
Astrap-ontemperaturedetectorisconnectedonthereturnlineofthecoolingtank.
Transmitter, coolant cooler
Astrap-ontemperaturedetectorisconnectedonthereturnlinefromthecoolantcooler,asclosetothecooleraspos-
sible.
Heat circuit
Cooling agent circuit
Cooling circuit
Cooling tank
DHP-R
Modular cable
Cooling fan
Sensor, coolant cooler
Sensor, cooling tank outlet
Sensor, cooling tank
Dew point sensor
Sensor, cooling circuit
Circulation pump
Coolant cooler
Circulation pump
cooling circuit
Pilot valve
cooling circuit
Reversingvalve,coolingtank
Reversingvalve
cooling agent return
Reversingvalve
surplus heat
Cooling module
VMBQI202
VMBQI202 Danfoss – 13
Connecting
󰂮
Note!Themaximumloadmaynotexceed50VA.
Cooling module
The cooling module is mounted in the electric cabinet on the intended rail. If there is no room, the module can be installed
inanexternal,enclosedcabinetandconnectedwithalongermodularcable.
ConnectamodularcablebetweenHPCRMExp.outandHPCCMExp.in
Cooling module connections:
Temperature input, T1: Sensor, cooling tank
Temperature input, T2: Sensor, coolant cooler
Temperature input, T3: Sensor, cooling tank outlet
Temperature input, T4: Sensor, cooling circuit
Analogueinput0-10V,AI1:Signalfromdewpointsensor,roomtemperature0-50°C
Analogueinput0-10V,AI2:Signalfromdewpointsensor,relativehumidity0-100%
Analogueoutput0-10V,AO1:Signaltocoolingcircuitpilotvalve
Analogueoutput0-10V,AO2:Signaltocoolingfans
Relay24VAC,DO1:Signaltoreversingvalveagainstcoolingtank(passivecold)
Exp.in Exp.out
GGNDG
0
Y
1
DO1
G0
G0
DO2
G0
DO3
G0
DO4
G0
DO5
G0
24VAC
T1
AO1
AI2
GND
T2
GND
T3
GND
T4
GND
AI1
GND
GND
GND
AO2
GND
HPC CM
24 VAC
0-10V
0-10V
M
24 VAC
M
24 VAC
24 VAC 24 VAC
24 VAC 2.1
24 VAC 2.2
24 VAC 2.1
24 VAC 2.2
GG
0
Y
1
GNDY
1
24 VAC 2.1
24 VAC 2.1
24 VAC 2.2
AO1
24 VAC 2.2
24 VAC 2.1
DO1,2,4
24 VAC 2.2
Pilot valve,
cooling circuit
Pilot valve,
alternative connection
of cooling circuit
Circ. pump,
coolant cooler
Reversingvalve,
surplus heat
Reversingvalve,
cooling agent return
cooling tank
Alternative connection with
constant voltage feed for
2-point24VACreversingvalve.
Circ. pump,
coolant circuit
Dew point sensor
Cooling fans
FromExp.out
Sensor, cooling tank
Sensor, surplus cooler
Sensor, cooling tank outlet
Sensor, cooling circuit
Roomtemperature
Relativeairhumidity
VMBQI20214 – Danfoss
VMBQI202
Relay24VAC,DO2:Signaltoreversingvalveagainstcoolingagentreturn(activecold)
Relay24VAC,DO3:Signaltocoolantcoolercirculationpump
Relay24VAC,DO4:Signaltoreversingvalve,surplusheat
Relay24VAC,DO5:Signaltocoolingcircuitcirculationpump
Transmitter, cooling tank
ConnecttoT1andGND
Transmitter, coolant cooler
ConnecttoT2andGND
Transmitter, cooling tank outlet
ConnecttoT3andGND
Transmitter, cooling circuit
ConnecttoT4andGND
Dew point sensor
Connect to 24 VAC 2.1 and 24 VAC 2.2
ConnectroomtemperaturesensortoAI1andGND
ConnectrelativeairhumiditysensortoAI2andGND
Pilot valve, cooling circuit
ConnectAO1tothesignalinputofthepilotvalve
ConnectGNDtopilotvalveGND.IfGNDismissingfromthecontrolvalve,connectGNDtogetherwith24VAC2.2
somewhere in the system. It is best to bridge terminal blocks 144 and 146 in the control cabinet.
ConnectthepilotvalveterminalGto24VAC2.1
ConnectthepilotvalveterminalG0to24VAC2.2
Cooling fans
ConnectAO2tothesignalinputofthecoolingfan
ConnectGNDtothecoolingfanGND
Voltage feed to DO output terminals
Connect 24 VAC to 24 VAC 2.1
ConnectG0to24VAC2.2
Reversing valve, cooling tank
ConnectstartrelaytoDO1andG0
Reversing valve, cooling agent return
ConnectstartrelaytoDO2andG0
Circulation pump, coolant cooler
ConnectstartrelaytoDO3andG0
Reversing valve, surplus heat
ConnectstartrelaytoDO4andG0
Circulation pump, cooling circuit
ConnectstartrelaytoDO5andG0
Alternative connection of reversing valves:
Whenconstantvoltagefeedtoareversalvalve’s2-point24VACadjusterisrequired,establishdirectconnectionto24VAC
2.1and24VAC2.2.Astartrelayisnotnecessarywhenusinga2-point24VACactuator.
Connectthecontrolsignaltothecorrespondingdigitaloutputterminal,DO1,DO2orDO4.
VMBQI202
VMBQI202 Danfoss–15
Inputs and outputs, HPC CM
Temperature inputs
Input Use Measurement range
T1 Temperature cooling tank -30 to 70 °C
T2 Temp coolant cooler -30 to 70 °C
T3 Temp outlet cooling tank -30 to 70 °C
T4 Temp cooling circuit 0 to 100 °C
Analogue inputs
Input Use
AI1 Room temperature 0 to 50 °C
AI2 Relative humidity 0 to 100 %
Analogue outputs
Outputs Use
AO1 Control valve cooling circuit
AO2 Cooling fans
Relay outputs
Outputs Use
DO1 Valve passive cooling (Exchange valve brine to tank) 24 VAC
DO2 Valve active cooling 24 VAC
DO3 Circulation pump surplus cooler 24 VAC
DO4 Valve surplus heat 24 VAC
DO5 Circulation pump cooling circuit 24 VAC
VMBQI202
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Danfoss DHP-R Operating instructions

Type
Operating instructions

Danfoss DHP-R is a modular heat pump controller designed to provide optimal comfort and energy efficiency in residential and light commercial applications. With its advanced algorithms and user-friendly interface, the DHP-R offers a range of features to enhance heating, cooling, and hot water production.

Key capabilities of the Danfoss DHP-R include:

  • Efficient space heating and cooling: The DHP-R precisely modulates the heat pump's operation to maintain a comfortable室内温度, while minimizing energy consumption.

  • Smart hot water management: The DHP-R can be integrated with various hot water storage systems to provide on-demand hot water and minimize standby losses.

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