Operating manual
REMKO Smart WP MANAGER
Smart-Control for WKF/WKF-compact 85/120/180
Manual for experienced specialists
0032-2012-09 Edition 1, en_GB
Read the instructions prior to performing any task!
Made by REMKO
Read these operating instructions carefully before commissioning / using this device!
These instructions are an integral part of the system and must
always be kept near or on the device.
Subject to modifications; No liability accepted for errors or misprints!
Translation of the original operating manual
Table of contents
1 Safety and usage instructions............................................................................................................. 4
1.1 General safety notes....................................................................................................................... 4
1.2 Identification of notes...................................................................................................................... 4
1.3 Personnel qualifications.................................................................................................................. 4
1.4 Dangers of failure to observe the safety notes................................................................................ 4
1.5 Safety-conscious working............................................................................................................... 4
1.6 Safety notes for the operator........................................................................................................... 5
1.7 Safety notes for installation, maintenance and inspection.............................................................. 5
1.8 Unauthorised modification and changes......................................................................................... 5
1.9 Intended use................................................................................................................................... 5
1.10 Warranty........................................................................................................................................ 5
1.11 Transport and packaging.............................................................................................................. 6
1.12 Environmental protection and recycling........................................................................................ 6
2
Operation - General
2.1 Design and functions....................................................................................................................... 7
3
Operation - User level ................................................................................................................... 10
3.1 Menu structure of the controller.................................................................................................... 10
4
Operation - Expert level ................................................................................................................ 23
4.1 Commissioning wizard.................................................................................................................. 23
4.2 Template hydraulic diagrams with installation parameters........................................................... 38
4.3 Menu structure of the controller.................................................................................................... 55
5 Installation........................................................................................................................................... 74
5.1 Room installation of the Smart-Control......................................................................................... 74
6 Electrical wiring................................................................................................................................... 75
6.1 Structure electrical connection I/0 module.................................................................................... 75
6.2 Terminal assignment / legend....................................................................................................... 76
7 PV power utilisation............................................................................................................................ 78
7.1 Higher energy consumption from the combination of heat pump and PV plant............................ 78
7.2 Using the PV power surplus.......................................................................................................... 79
7.3 Systems with a photovoltaic plant................................................................................................. 80
8 Index..................................................................................................................................................... 81
.................................................................................................................... 7
3
REMKO Smart WP MANAGER
1
1.1
Carefully read the operating manual before commissioning the units for the first time. It contains
useful tips and notes such as hazard warnings to
prevent personal injury and material damage.
Failure to follow the directions in this manual not
only presents a danger to people, the environment
and the system itself, but will void any claims for
liability.
Keep this operating manual and the refrigerant
data sheet near to the units.
1.2
This section provides an overview of all important
safety aspects for proper protection of people and
safe and fault-free operation.The instructions and
safety notes contained within this manual must be
observed in order to prevent accidents, personal
injury and material damage.
Notes attached directly to the units must be
observed in their entirety and be kept in a fully
legible condition.
Safety notes in this manual are indicated by symbols. Safety notes are introduced with signal words
which help to highlight the magnitude of the danger
in question.
Safety and usage instructions
General safety notes
Identification of notes
DANGER!
CAUTION!
This combination of symbol and signal word
warns of a potentially hazardous situation,
which if not avoided may cause injury or material and environmental damage.
NOTICE!
This combination of symbol and signal word
warns of a potentially hazardous situation,
which if not avoided may cause material and
environmental damage.
This symbol highlights useful tips and recommendations as well as information for efficient
and fault-free operation.
1.3
Personnel qualifications
Personnel responsible for commissioning, operation, maintenance, inspection and installation must
be able to demonstrate that they hold a qualification which proves their ability to undertake the
work.
Contact with live parts poses an immediate
danger of death due to electric shock. Damage
to the insulation or individual components may
pose a danger of death.
DANGER!
This combination of symbol and signal word
warns of a situation in which there is immediate
danger, which if not avoided may be fatal or
cause serious injury.
WARNING!
This combination of symbol and signal word
warns of a potentially hazardous situation,
which if not avoided may be fatal or cause
serious injury.
Dangers of failure to observe
1.4
the safety notes
Failure to observe the safety notes may pose a risk
to people, the environment and the units. Failure to
observe the safety notes may void any claims for
damages.
In particular, failure to observe the safety notes
may pose the following risks:
n The failure of important unit functions.
n The failure of prescribed methods of mainte-
nance and repair.
n Danger to people on account of electrical and
mechanical effects.
1.5
Safety-conscious working
The safety notes contained in this manual, the
existing national regulations concerning accident
prevention as well as any internal company
working, operating and safety regulations must be
observed.
4
1.6
Safety notes for the operator
The operational safety of the units and components is only assured providing they are used as
intended and in a fully assembled state.
n The units and components may only be set up,
installed and maintained by qualified personnel.
n Protective covers (grille) over moving parts
must not be removed from units that are in
operation.
n Do not operate units or components with
obvious defects or signs of damage.
n Contact with certain unit parts or components
may lead to burns or injury.
n The units and components must not be
exposed to any mechanical load, extreme
levels of humidity or extreme temperature.
n Spaces in which refrigerant can leak sufficient
to load and vent. Otherwise there is danger of
suffocation.
n All housing parts and device openings, e.g. air
inlets and outlets, must be free from foreign
objects, fluids or gases.
n The units must be inspected by a service tech-
nician at least once annually. Visual inspections and cleaning may be performed by the
operator when the units are disconnected from
the mains.
Safety notes for installation,
1.7
maintenance and inspection
n Appropriate hazard prevention measures must
be taken to prevent risks to people when performing installation, repair, maintenance or
cleaning work on the units.
n The setup, connection and operation of the
units and its components must be undertaken
in accordance with the usage and operating
conditions stipulated in this manual and comply
with all applicable regional regulations.
n Local regulations and laws such as Water
Ecology Act must be observed.
n The power supply should be adapted to the
requirements of the units.
n Units may only be mounted at the points pro-
vided for this purpose at the factory. The units
may only be secured or mounted on stable
structures, walls or floors.
n Mobile units must be set up securely on suit-
able surfaces and in an upright position. Stationary units must be permanently installed for
operation.
n The units and components should not be oper-
ated in areas where there is a heightened risk
of damage. Observe the minimum clearances.
n The units and components must be kept at an
adequate distance from flammable, explosive,
combustible, abrasive and dirty areas or
atmospheres.
n Safety devices must not be altered or
bypassed.
Unauthorised modification
1.8
and changes
Modifications or changes to units and components
are not permitted and may cause malfunctions.
Safety devices may not be modified or bypassed.
Original replacement parts and accessories
authorised by the manufactured ensure safety. The
use of other parts may invalidate liability for
resulting consequences.
1.9
Intended use
The units are designed depending on the model
and equipment exclusively as a control unit for the
heat pump and the heating system.
Any different or additional use shall be classed as
non-intended use. The manufacturer/supplier
assumes no liability for damages arising from such
use. The user bears the sole risk in such cases.
Intended use also includes working in accordance
with the operating and installation instructions and
complying with the maintenance requirements.
Under no circumstances should the threshold
values specified in the technical data be exceeded.
1.10
For warranty claims to be considered, it is essential
that the ordering party or its representative complete and return the "certificate of warranty" to
REMKO GmbH & Co. KG at the time when the
units are purchased and commissioned.
The warranty conditions are detailed in the "General business and delivery conditions". Furthermore, only the parties to a contract can conclude
special agreements beyond these conditions. In
this case, contact your contractual partner in the
first instance.
Warranty
5
REMKO Smart WP MANAGER
1.11
The devices are supplied in a sturdy shipping container or inside the heat pump casing. Please
check the equipment immediately upon delivery
and note any damage or missing parts on the
delivery and inform the shipper and your contractual partner. For later complaints can not be guaranteed.
Plastic films and bags etc. are dangerous
toys for children!
Why:
- Leave packaging material are not around.
- Packaging material may not be accessible to
children!
Transport and packaging
WARNING!
1.12
Disposal of packaging
All products are packed for transport in environmentally friendly materials. Make a valuable contribution to reducing waste and sustaining raw materials. Only dispose of packaging at approved
collection points.
Disposal of equipment and components
Only recyclable materials are used in the manufacture of the devices and components. Help protect
the environment by ensuring that the devices or
components (for example batteries) are not disposed in household waste, but only in accordance
with local regulations and in an environmentally
safe manner, e.g. using certified firms and recycling specialists or at collection points.
Environmental protection and recycling
6
3
4
5
4
6
7
1
2 2
5
6
7
A
B
2
2.1
Overview of the controls
Operation - General
Design and functions
Fig. 2: Function of the keys
Selecting user / expert mode
NOTICE!
The settings in expert mode may only be configured by REMKO-authorised installers!
There are two different authorisation levels for the
main menu: user mode and expert mode. Some
settings are only visible in expert mode. The
authorisation levels are identified by icons.
Fig. 1: Controls of the Smart-Control
1: SD card
2: Movement indicator
3: Display
4: Softkeys
5: Rotary knob
6: Info key
7: Menu key
Function of the keys
The softkeys underneath the display fulfil different
functions. The current function (e.g. Cancel, OK or
Edit) appears on the display, right above the
respective key. If nothing is shown on the display
above a softkey, this key does not have a function
assigned in the currently active mode.
The softkeys and rotary knob are also used for
navigation purposes. By pressing the right softkey
and turning the rotary knob, you can select the
menu items, allowing you to go deeper into the
menu structure. Pressing the left softkey multiple
times takes you back to the home screen (3D
house icon).
Pressing the Info key (6) delivers information and
support at any time on the area currently selected.
Pressing the Menu key (7) takes you to the main
menu.
The rotary knob (5) allows you move through the
menu. In addition, after selecting a parameter, the
rotary knob can be used to modify the value.
Fig. 3: The user and expert icons
A: User; B: Expert (password-protected)
Briefly press the menu key to access the main
menu for the user.
Press and hold the menu key for 5 sec. to access
the main menu for the expert. Then enter the
expert password.
7
Overview
Next viewStart animation
User
OKBack
Settings
Basic settings
1/6Zurück OK
Einstellungen
Settings
Back
Language / Time
Zurück 1/6
OK
Grundeinstellungen
Basic settings
Back
Language / Time
Time: 14 : 54
Back
2/7
Change
REMKO Smart WP MANAGER
Navigation and changing parameters
Calling up the main menu
Press the menu key until the menu items "Information", "Settings" and "Messages" appear.
Fig. 4: Calling up the main menu
Selecting a menu item
Select the menu item "Settings" (for example) and
then confirm your selection with "OK" (right
softkey).
Confirm the selection "Language / Time" with "OK"
(right softkey). You are now on the parameter
menu of the "Language / Time" folder.
Fig. 7: Language / Time
Selecting a parameter
Press the rotary knob until you reach the "Clock"
parameter.
The bottom bar on the display shows the number
of the current parameter and the total number of
parameters in one menu item (in this case, 2/6).
Fig. 5: Selecting a menu item
Confirm the selection "Basic settings" with "OK"
(right softkey).
Fig. 6: Basic settings
Fig. 8: Selecting a parameter 1
8
Language / Time
Time: 14 : 54
Cancel
2/7
Next
Time: 19 : 54
Language / Time
Cancel 2/7 Next
Overview
Next viewStart animation
Select "Change" (right softkey). The select value
appears marked in blue.
Fig. 9: Selecting a parameter 2
Changing the parameter
Turn the rotary knob to set the number of hours.
Turning the knob to the left reduces the value, and
turning it to the right increases it.
Exiting the menu
Provided that no parameter has been selected, the
label "Back" appears on the display, over the left
softkey. Press the left softkey multiple times to get
back to the home screen.
(After a period of inactivity of 30 minutes, the controller switches back to the home screen automatically.)
Fig. 11: Exiting the menu
Fig. 10: Changing the parameter
"Next" (right softkey) takes you to the menu for setting the number of minutes.
Turn the rotary knob to set the number of minutes.
Confirm your entry with "OK" (right softkey).
9
REMKO Smart WP MANAGER
3
3.1
The following information is primarily directed at
system operators. Specialists can find relevant
additional information in the "Manual for experienced specialists".
The following sections introduce the individual
menu items and their parameters. You will find a
brief description regarding each menu item. Should
you require a more precise description for the individual parameters, then call up the parameter on
the controller and press the key. A help text will
then be displayed.
Operation - User level
Menu structure of the controller
- The following diagrams and explanations
relate to the full menu structure, which my
differ from the menu structure of your own controller. Only the relevant menu items and
parameters are displayed by the Smart-Control, depending upon which heat generators
and functions you have activated. For example,
if no heating cycle has been activated, the corresponding menu items and parameters are
not displayed.
- Values in square brackets [xx] are the factory
settings. They may be modified by software
updates, and mainly serve in the following
tables to provide an understanding of the functions.
- On the Smart-Control the current factory setting is indicated by a green mark.
10
Overview of the menus (User level)
LEVEL 0
3D house
Hot water
Room climate
LEVEL 1
Information Settings Messages
LEVEL 2
Basic
information
Solar
Basic
settings
Solar
Favourites
Main menu
Radiator
Heating /
cooling
Heat pump
heating circ.
Underfloor
heating circ.
Cooling
Aditional
Error messages
warnings
heat generator
Hydraulics
Heat pump
menu
Domestic
hot water
Domestic
hot water
Radiator
heating circ.
Underfloor
heating circ.
Fig. 12: Menu structure overview
11
Overview
Next viewStart animation
2
REMKO Smart WP MANAGER
"3D house" animation
Once the Smart-Control commissioning wizard has
been completed, you will see the home screen with
the 3D house. Pressing the left softkey starts the
animation. To return to the home screen with the
3D house, press "Cancel" (left softkey).
Fig. 13: 3D house
To immediately display temperatures in the
system, you can press "Next view" (right softkey).
This is an overview of the key system data, represented using a 3D house.
Explanation of operating statuses:
Circuit is in operation
Hot water or heating is being heated by solar
energy
The heat pump is in operation
The heating is being provided by conventional
means
Hot water dispensing active
Explanation of other icons:
Manual operation (probe / actuator)
Error raised
Warning raised
Current measured values, such as temperature or
output, are displayed. The lines refer to the individual components.
The charging status of the storage tank is specified
in percent. 100% means that the solar volume of
the storage tank is fully charged.
If a photovoltaic system is integrated, the following
values can be displayed.
Fig. 14: Explanation of View 1
1: Collector array
2: Heat pump outdoor unit
Fig. 15: Explanation of View 2
1: Conv. heat generator
2: Solar storage tank (primary)
3: Storage tank 2
4: Boiler (solid fuel)
5: Radiator
Fig. 16: Explanation of View 3
1: Heat pump power
2: Domestic power supply
3: PV current
Depending on the level of equipment purchased
for the system, some components may not be displayed in the 3D house. It is also possible that
some components will be displayed which are not
present. However, for such components, no temperature or operating statuses are shown.
12
Explanation of operating modes:
Solar
Next viewStart animation
Heat generating device
Next viewStart animation
Loading status solar storage
Next viewStart animation
Standby - the controller waits for the next request
Dispensing operation - hot water is being dis-
pensed
Circulation - circulation is active
Circ.calibration - circulation calibration is per-
formed
Anti-freeze protection - the anti-freeze protection
function is active
Standby function - the standby function is active
Pressing the right softkey zooms in on the individual components in the house and the current
parameters, such as storage tank and collector
temperature, are displayed.
Fig. 19: Component zoom, solar storage tank
charging status
Pressing the right softkey again takes you to the
home screen with the 3D house
Fig. 17: Component zoom, solar
Fig. 18: Component zoom, heat generator
13
REMKO Smart WP MANAGER
Favourites menu: for the user
Using the rotary knob (turning it clockwise) you can
access other views. They allow you to rapidly and
easily adjust the most important parameters and
view the yield in kilowatt hours and weather information.
Hot water
The Storage tank set temperature (set with the
left softkey, then confirm with "OK") is the temperature to which conventional reheating should heat
the storage tank to ensure comfortable conditions.
If there is a solar yield, the storage tank can
become substantially warmer. The maximum temperature for solar charging can be modified under
Settings/Solar/Storage tank. For efficiency reasons, the lowest possible set temperature should
be selected. If the available quantity of hot water is
insufficient, the value should be increased. Pay
attention to the maximum temperature of the heat
generator while doing so.
The Mode (select with the right softkey, then confirm with "OK") for hot water preparation can be set
as follows:
Automatic comfort: Hot water preparation always
takes place according to the setpoint, i.e. no optimisation of the solar yields.
Automatic eco: In order to optimise the solar yields,
during solar storage tank charging, the set temperature of the storage tank is reduced by the "Tolerance during solar operation". This delays the
reheating of the storage tank or, where the solar
output is sufficient, prevents it.
Solar only: The hot water is heated exclusively by
solar, i.e. if the temperature drops below the set
temperature, no conventional reheating takes
place.
Room climate
Colder/Warmer can be used to adjust the temper-
ature of the heating (set with the left softkey, then
confirm with "OK"). If the room temperature is too
low, the room thermostat (on the heater) should
first be set higher. If this is not sufficient, then set
the Warmer/Colder value higher by 1°C. This also
roughly corresponds to one degree of room temperature.
Room climate mode (select the right softkey, then
confirm with "OK") allows you to define the operating status of the room heater.
Automatic (recommended): the mode switches
automatically between heating, standby and
cooling (special equipment), based on the outside
temperature. This takes account of the ability of
the building to retain heat. For example, on cooler
summer nights the room heater stays off, preventing unnecessary operation.
Heating: heating mode occurs in accordance with
the outside temperature and the heating curve
(weather-controlled).
Standby: in standby mode neither heating nor
cooling occurs, however anti-freeze protection is
active.
Cooling: cooling mode occurs in accordance with
the outside temperature and the cooling curve
(weather-controlled).
Fig. 20: Hot water
Then turn the rotary knob clockwise.
Fig. 21: Room climate
Then turn the rotary knob clockwise.
14
One-off hot water / party mode
Solar yield
Time period
History
Activating Party mode (select with the right
softkey) causes the next window of time with
reduced heating to be disregarded, so that the
heating runs in normal mode again. After this
period, the heating again functions according to
the stored time program. To activate/deactivate
"One-off hot water" press the left softkey. The
storage tank is enabled for one-off charging (activated), e.g. for showering outside hot water time
periods).
Fig. 23: Time programmes
Then turn the rotary knob clockwise.
Fig. 22: One-off hot water / party mode
Then turn the rotary knob clockwise.
Time programmes
There are 3 user profiles available for the time
program. For example, Profile A could be used for
early shift weeks, B for late shifts, and C for holidays. You can switch profile using the left softkey.
The displayed time programmes apply to the current day. Blue means reduced mode, red means
normal mode. The current time is displayed above
the time bars.
Time programme for hot water
Time programme for the heater heating cycle
Time programme for the floor heating cycle
The time programmes can be adjusted in the menu
under:
- Settings / Hot water
- Settings / Heater heating cycle
- Settings / Floor heating cycle
Solar yields
The yields of the solar plant are generally calculated using the collector and storage tank temperature, and the medium flow rate. The energy content of one litre of oil or one cubic metre of gas is
10 kWh.
The right softkey is used to select day, week,
month or year values for the bars. The left softkey
activates a scroll function, which allows you to
scroll through historical values using the rotary
knob.
Yields are highly dependent upon solar radiation
and heating requirements. The solar plant will achieve the highest yields on sunny days.
Fig. 24: Solar yields
Then turn the rotary knob clockwise.
You can use the right softkey to activate an "away
period". The system will then function in reduced
mode until the right softkey is pressed again.
15
A
B
REMKO Smart WP MANAGER
CO2 savings
CO2 savings specifies how much CO2 emissions
have been avoided. The calculation of CO2 savings
is based on the amount of renewable energy gen-
erated.
The CO2 savings figure is used to calculate the
Equivalent in trees value. This is based on the
assumption that a beech tree is able to bind 12.5
kg of CO2 per year.
Fig. 25: CO2 savings
"Main menu" menu item
Pressing the Menu key takes you to the main menu. There is an expert mode and a user mode. The two
authorisation levels are identified by icons. Some menu items and parameters are only visible in expert
mode. They may only be adjusted by specialists!
Fig. 26: The user and expert icons
A: User
B: Expert
Authorisation level
Level 1
menu item
Information
Settings
Messages This menu item displays status, fault and warning messages
Description
In this menu item, you can view important information, such as
temperatures, pump requirements, the current collector temperature or any configured parameter settings.
This menu item is used to configure all the settings of the system,
i.e. for heating cycle, hot water or solar.
16
"Information" menu item - User
This menu contains information about the current operating status of the system. The menu is opened with
the key on the right. Pressing the left-hand key allows you to jump up a level in the menu structure again. By
turning the rotary knob, you can select another menu item (for instance "Settings"). Pressing the left key multiple times always allows you to return to the 3D house.
Pressing "OK" (right softkey) takes you to submenus of the menu item "Information".
Authorisa-
tion level
Level 2 menu
item
Basic infor-
mation
Level 3 menu item Level 4 menu item Info
Current operating mode
Previous operating mode
Room climate
Away mode
Status
Date / Time
Version number
Party mode
Anti-freeze protection
IP address
Subnet
Gateway
Time
Date
Time zone
Hardware control panel
Hardware
Software control panel
Software
You can find
many of the indi-
vidual info texts
about the level
2-4 menu items
on your Smart-
Control
Licence information
Linux kernel control panel
Linux kernel
1: Licence for Linux kernel
2: Licence for uBoot
3: Licence for Busybox
4: Licence for Dropbear
5: Licence for zlib
6: Licence for QT
17
REMKO Smart WP MANAGER
"Information" menu item (continued) - User
Authorisa-
tion level
Level 2
menu item
Solar
Hot water
Level 3 menu item Info
Pump A01 / Pump control signal A40
Collector temp. S01
Lower storage tank temp. S02
Storage tank charging status
Storage tank changeover valve A12
Current output
Solar yield
Medium flow rate 1 S23
Inlet temp. S03
Return temp. S04
Circulation pump A04
Circ. actual temp. S05
Circulation request S05
Hygiene function (legionella circuit)
HW request
You can find
many of the indi-
vidual info texts
about the level
2-3 menu items
on your Smart-
Control
Heater
heating cycle
HW storage tank set temp.
HW storage tank actual temp. S08
Lower storage tank temp. S02
Hot water energy
Abs. pump speed A42
Rel. pump speed A42
Heating cycle set temp.
Heating cycle actual temp.
Mixed outside temperature
Heating energy
18
"Information" menu item (continued) - User
Authorisa-
tion level
Level 2 menu
item
Floor
heating cycle
Cooling
Level 3 menu item Info
Abs.prim. pump speed A41
Rel.prim. pump speed A41
Abs.sec. pump speed A45
Rel.sec. pump speed A45
Heating cycle set temp.
Heating cycle actual temp.
Mixed outside temperature
Heating energy
Changeover valve A14
Cooling cycle set temp.
Cooling cycle actual temp.
Mixed outside temperature
Abs.pump speed A43
Rel.pump speed A43
many of the indi-
vidual info texts
about the level
2-3 menu items
on your Smart-
You can find
Control
Hydraulics
Changeover valve 2.WE A11
Heat generator request
Heating water temp. (set value)
Heating water temp. (actual value)
Therm.output
19
REMKO Smart WP MANAGER
"Information" menu item (continued) - User
Authorisa-
tion level
Level 2 menu
item
Heat pump
Level 3 menu item Info
Heat pump status
Remaining idle time
Defrost status S22
Compressor status S21
Fault status S20
Target temperature A44
Enable signal
Disable compressor A30
Heat pump mode A31
Disable signal S16, energy supplier cut-off
Heat pump therm.output
Middle storage tank temp. S09
Max.inlet temperature
Heat pump therm.energy
You can find
many of the indi-
vidual info texts
about the level
2-3 menu items
on your Smart-
Control
Auxiliary heat
generator
Cont. HW offset
Cont. heating offset
Short-term HW offset
Short-term heating offset
Heat generator status
Potential-free output A32
20
"Settings" menu item - User
In this menu you can configure the settings. For example, you can adjust hot water and heating temperatures or change time settings. The menu is opened with the key on the right. Pressing the left-hand key
allows you to jump up a level in the menu structure again. Pressing the left key multiple times always allows
you to return to the 3D house.
Pressing "OK" (right softkey) takes you to submenus of the menu item "Settings".
Authorisa-
tion level
Level 2 menu
item
Basic settings
Solar Storage tank (1) Solar set temp.
Level 3 menu item Level 4 menu item Info
Language / Time
Display
Domestic water heating
Date format
Time format
Language
Time zone
Display brightness
Display contrast
Display off
Storage tank set temp.
Time programme A
Time programme B
Date
Time
Mode
You can find
many of the indi-
vidual info texts
about the level
2-4 menu items
on your Smart-
Control
Hot water
Circulation
Hygiene function (legion-
ella circuit)
Time programme C
Tolerance during solar
mode
Circulation set temp.
Time programme
Day of activation
Mon-Tue-Wed-Thu-Fri-
Sat-Sun
21
REMKO Smart WP MANAGER
"Settings" menu item (continued) - User
Authorisa-
tion level
Level 2 menu
item
Heating /
cooling
Heater
heating cycle
Floor
heating cycle
Level 3 menu item Level 4 menu item Info
Room climate mode
Difference from cooling
Mode
Difference from heating
Cooling
Cooling curve adjustment
Building adaptation Inertia of the heating curve
Time programme A
Time programme B
Time programme C
Room temperature reduc-
tion
Heating curve adjustment
Time programme A
Time programme B
Time programme C
Room temperature reduc-
tion
limit
limit
Time programme
You can find
many of the indi-
vidual info texts
about the level
2-4 menu items
on your Smart-
Control
Heating curve adjustment
Basic settings Output restriction
Graduated tariff
Heat pump
PV power utilisation
"Messages" menu item
Pressing "OK" (right softkey) takes you to submenus of the menu item "Messages".
This is where operating messages, warning
notices and fault messages are displayed.
Explanation of symbols:
Warning message
Number of power tariffs
Time field Tariff 1
Time field Tariff 2
Power tariff 1
Power tariff 2
Power tariff 1
Feed-in tariff
Personal use tariff
Fault message
If one of these symbols appears in the header of
the control screen, please access the menu item
"Messages" and display the details, with instructions on how to rectify the fault, with the key on the
right.
Operating messages indicate which of the regular
operating statuses the system is in.
22
1
4
4.1
The commissioning wizard which starts when the
controller is activated is intended for programming
the controller for use on the existing system. When
the individual parameters are activated or deactivated, corresponding parameter sets are uploaded
automatically, although they are not visible. After
commissioning has been fully completed, the
default set of parameters is enabled. During the
first heating period the thermal characteristics of
the system should be observed, and the parameters optimised as necessary. The lower the
selected water temperatures, the more efficient
operation of the heat pump will be.
Operation - Expert level
Commissioning wizard
You can find simplified commissioning examples in Ä Chapter 4.2 ‘Template hydraulic diagrams with installation parameters’
on page 38
Assigning the unique unit identifier
Here you can address up to 3 Smart-Control units.
Select the unit identifier with the rotary knob and
confirm the entry with "OK". The unit ID number
appears before a red, flashing field in the top right
of the display.
Fig. 29: Assigning the unit identifier
Menu item Parameter Factory setting
Should you require the installation wizard again at
a later point in time (e.g. if you are expanding the
existing system), then you can also call it up manually at any time from the main menu.
Proceed with installation as follows:
Fig. 27: Setting parameters
Fig. 28: Confirm the entry with "OK", then jump to
the next setting with "Next"
Address
control
Panel 1
Press "Next".
Control panel 1
Control panel 1Control panel 2
Control panel 3
23
1
REMKO Smart WP MANAGER
Setting the country
Select the country with the rotary knob and confirm
the entry with "OK".
Fig. 30: Selecting a country
Menu item Parameter
Deutschland
Schweiz
Österreich
United States
United
Kingdom
Nederland
Factory
setting
Setting country-specific settings
Please confirm this parameter in order to load the
country-specific settings. The selection of the
country determines the setting for the date format,
units of measurement and temperature limits. All
settings can be modified at a later date.
Fig. 31: Setting country-specific settings
Press "OK". The settings are loaded.
Setting the language
All menu entries, commands and parameters are
displayed in plain language in the language
selected.
Select the language with the rotary knob and confirm the entry with "OK".
Country
Press "Next".
Belgique
Luxembourg
France
Espana
Portugal
Italia
Greece
Norge
Sverige
Suomi
Polska
Cesko
Slovensko
Deutschland
Fig. 32: Setting the language
Menu item Parameter
Deutsch
English
Language
setting
Francais
Italiano
Espanol
Factory
setting
Deutsch
Portugues
24
Menu item Parameter
Nederlands
Polski
Press "Next".
Setting the time zone for the winter time
Selecting the time zone for the winter time allows
the switch to daylight savings time to occur automatically. The respective time zone in winter must
be specified.
Central Europe (GER, FR, IT, ES, PL)
-CET (Central European Time, Berlin, Paris)
If UTC (Universal Time Coordinated) is selected,
no automatic switch to daylight savings time
occurs.
Select the time zone with the rotary knob and confirm the entry with "OK".
Factory
setting
Fig. 34: Setting the date
Menu item Parameter Factory setting
Year
Date setting
Press "Next".
Setting the time
From here, you can set the current time. The controller has automatic daylight savings switching,
which can also be activated from the menu "Language / Time".
When setting the time, first the hours are selected,
and then the minutes. The appropriate value is
selected in each case by turning the rotary knob,
and then confirmed with "OK".
Month
Day
Current date
entry
Fig. 33: Setting the time zone
Menu item Parameter Factory setting
Time zones
Time zone
(winter)
Press "Next".
Setting the date
When setting the date, first the four-digit year is
selected, then the month, and finally the day. The
appropriate value is selected in each case by
turning the rotary knob, and then confirmed with
"OK".
from "Winter
-12" to "Winter
+12 (PETT)"
can be set
Winter +1
(CET)
Fig. 35: Setting the time
Menu item Parameter Factory setting
Time setting
Hours
Minutes
Press "Next".
Current time
entry
25
REMKO Smart WP MANAGER
Activating the heat pump
The controller detects automatically that a heat
pump has been connected. If necessary, activate
the heat pump (select with the rotary knob and
confirm with "OK").
Fig. 36: Activating the heat pump
Menu item Parameter Factory setting
Activating
the heat
pump
Activated
Deactivated
Activated
Menu item Parameter Factory setting
Operating
mode selec-
tion
Selection of the auxiliary heat generator:
- Bivalent alternative (heat pump or oil/gas-fired
boiler)
- Monoenergetic (heat pump and/or Smart Serv
electric heating element) according to usable limits
Domestic water heating
Optionally, you can activate or deactivate the
"Domestic water heating" function. Activate
domestic water heating if domestic water has to be
heated for washing or showering (select with the
rotary knob and confirm with "OK"). When this
function is activated, the associated parameters
are then queried. Pay attention to information on
the display.
Monoenergetic
Bivalent alterna-
tive
Monoenergetic
Press "Next".
Selecting the operating mode
Fig. 37: Bivalent alternative operating mode
Fig. 39: Domestic water heating
Press "Next".
Fig. 38: Monoenergetic operating mode
26
Reheating
Desired charging temperature for the hot water
storage tank.
Set temperature to which conventional reheating
should heat the storage tank to ensure comfort. If
there is a solar yield, the storage tank can become
substantially warmer. The maximum temperature
for solar charging can be modified under Settings/
Solar/Storage tank.
For efficiency reasons, the lowest possible set temperature should be selected. If the available quantity of hot water is insufficient, the value should be
increased. Pay attention to the maximum temperature of the heat generator while doing so.
Select the storage tank set temperature with the
rotary knob and confirm with "OK".
Hot water circulation
If there is a hot water circulation pump in the
building, which you are intending to operate in an
energy-saving manner using the controller, this
function must be activated (select with the rotary
knob and confirm with "OK").
Fig. 41: Hot water circulation
Menu item Parameter Factory setting
Hot water
circulation
Deactivated
As required
Activated
Fig. 40: Reheating
Menu item Parameter Factory setting
Storage tank
set temp.
Press "Next".
40°C - 65°C
Factory recom-
mendation
45°C
Press "Next".
27
REMKO Smart WP MANAGER
Circulation type
(dependent on which probes are used)
Impulse circulation:
If briefly dispensing water triggers an impulse on
the flow-operated safety device, this is registered
by the controller and the circulation pump is started
up. This means that the circulation is also active
when it is required.
Temperature-guided circulation:
Temperature-guided circulation keeps the hot
water temperature at the set temperature.
Select the circulation type with the rotary knob,
then confirm the entry with "OK".
Impulse-guided circulation Running time of the circulation
Switch-on time of the circulation pump after a dispensing impulse.
If the circulation line is very short, a shorter running
time may suffice. If the time is not sufficient to
pump hot water to a remote dispensing point, the
running time must be extended.
To set the desired temperature, select it with the
rotary knob and confirm the entry with "OK".
Fig. 43: Impulse-guided circulation - Selecting the
running time of the circulation
Fig. 42: Selecting the circulation type
Menu item Parameter Factory setting
Impulse
Circulation
type
Press "Next".
circulation
Temperature-
guided circula-
tion
As required
Menu item Parameter Factory setting
Impulse-
guided circu-
lation - Run-
ning time of
the circula-
tion
Press "Next".
1 min - 15 mins 5 mins
28
Impulse-guided circulation - Disable switch-on
After the running time of the circulation pump, the
pump cannot be started again while disable switch
on is active. This prevents unnecessary permanent
operation of the pump in the case of continuous
dispensing. If the hot water cools too much while
disable switch-on is active, the time should be
shortened.
To set the desired time, select it with the rotary
knob and confirm the entry with "OK".
Fig. 44: Impulse-guided circulation - Setting disable switch-on
Menu item Parameter Factory setting
Impulse-
guided circu-
lation - Disable switch-
on
Press "Next".
Temperature-guided circulation
Desired set temperature for temperature-guided
circulation.
This should be set at least 5°C below the set temperature for reheating the hot water storage tank,
or even lower for efficiency reasons.
To set the desired temperature, select it with the
rotary knob and confirm the entry with "OK".
1 min - 15 mins 5 mins
Heating cycle for panel heating
Optionally, you can activate or deactivate the
"Panel heating" function. Activate the heating cycle
for panel heating if wall or floor heating is installed.
If there is a system separation in the panel heating,
it must also be activated (select with the rotary
knob and confirm with "OK").
Fig. 45: Activating the panel-heating heating cycle
Menu item Parameter Factory setting
Heating
cycle for
panel
heating (FB)
Press "Next".
Setting heating cycle mode
This is where you can select between the different
heating cycle modes. The choice is between control according to the set "Heating curve" and
"Fixed value control" (select with the rotary knob
and confirm with "OK").
Menu item Parameter Factory setting
Heating
cycle mode
with FB
active
Press "Next".
Deactivated
Activated
Heating curve
Fixed value
Deactivated
According to
design
10°C - 40°C
Menu item Parameter Factory setting
Tempera-
ture-guided
circulation
Press "Next".
29
25°C - 65°C 35°C
2
1
4
3
REMKO Smart WP MANAGER
Heating-curve heating cycle mode
The heating curve can be adjusted in three points,
according to the structure and location-related conditions of the building:
Base point:
The base point corresponds to the minimum set
temperature of the heating water at an outside
temperature of 20°C. If the heating is too cold at
relatively high outside temperatures (trans-seasonal period), the base point should be set higher.
Standard inlet temperature:
the standard inlet temperature corresponds to the
set temperature of the heating water at the
standard outside temperature in the building location. If the heating is not warm enough at low outside temperatures, the standard inlet temperature
should be increased.
Standard outside temperature:
the standard outside temperature is dependent on
the regional location of the building. Please consult
your heating installer.
Setting the heating curve:
- Activate the base point with the right softkey, set
with the rotary knob and conform with the right
softkey.
Fig. 47: Setting the base point
- The standard inlet temperature and the outside
temperature are set using the same procedure.
Fig. 46: Heating curve adjustment
1: Temperature of the heating water in °C
2: Inlet temperature heating curve
3: Return flow heating curve
4: Outside temperature in °C
Fig. 48: Setting the standard inlet temperature
Fig. 49: Setting the outside temperature
Fixed-value-control heating cycle mode
Specify the set temperature for fixed value control
(select with the rotary knob and confirm with "OK").
The heating cycle is kept permanently at this temperature in fixed value control.
Press "Next".
30
System separation
Activation if the floor heating cycle is separated by
a heat exchanger.
To control a separate heating cycle pump with a
system separation by means of a heat exchanger,
the function System separation FBHmust be activated (select with the rotary knob and confirm with
"OK").
Fig. 50: Activating the system separation
Menu item Parameter Factory setting
System sep-
aration FBH
For optimal configuration of the heating curve
parameters, the heating load calculation and/or
energy consumption must be taken into account.
Differences between the installed parameters and
the design of the actual building can cause the
heat pump to run inefficiently.
Operating the heating cycle with a fixed value is
not recommended, as it will cause the heat pump
to operate inefficiently.
Deactivated
Deactivated
Activated
Heating cycle for radiator heating
Activate if a heating cycle with radiators is
installed. (select with the rotary knob and confirm
with "OK")
Fig. 51: Activating the heating cycle for radiator
heating
Menu item Parameter Factory setting
Heating
cycle for
radiator
heating (HK)
Press "Next".
Setting heating cycle mode
This is where you can select between the different
heating cycle modes. The choice is between control according to the set "Heating curve" and
"Fixed value control" (select with the rotary knob
and confirm with "OK").
Menu item Parameter Factory setting
Heating
cycle mode
for HK active
Deactivated
Activated
Heating curve
Fixed value 10°C - 40°C
Deactivated
According to
design
Press "Next".
Heating-curve heating cycle mode
The heating curve can be adjusted in three points,
according to the structure and location-related conditions of the building:
Base point:
The base point corresponds to the minimum set
temperature of the heating water at an outside
temperature of 20°C. If the heating is too cold at
relatively high outside temperatures (trans-seasonal period), the base point should be set higher.
31
2
1
4
3
REMKO Smart WP MANAGER
Standard inlet temperature:
the standard inlet temperature corresponds to the
set temperature of the heating water at the
standard outside temperature in the building location. If the heating is not warm enough at low outside temperatures, the standard inlet temperature
should be increased.
Standard outside temperature:
the standard outside temperature is dependent on
the regional location of the building. Please consult
your heating installer.
Fig. 52: Heating curve adjustment
1: Temperature of the heating water in °C
2: Inlet temperature heating curve
3: Return flow heating curve
4: Outside temperature in °C
Setting the heating curve:
- Activate the base point with the right softkey, set
with the rotary knob and conform with the right
softkey.
- The standard inlet temperature and the outside
temperature are set using the same procedure.
Fig. 54: Setting the standard inlet temperature
Setting the building time constant
The building time constant specifies the ability of
the building to retain heat. The building constant is
dependent upon the type of building (see table).
The value (select with the rotary knob and confirm
with "OK") is also dependent on individual temperature perception, and so the information in the
table should only be treated as a guide.
Fixed-value-control heating cycle mode
Specify the set temperature for fixed value control
(select with the rotary knob and confirm with "OK").
The heating cycle is kept permanently at this temperature in fixed value control.
For optimal configuration of the heating curve
parameters, the heating load calculation and/or
energy consumption must be taken into account.
Differences between the installed parameters and
the design of the actual building can cause the
heat pump to run inefficiently.
Operating the heating cycle with a fixed value is
not recommended, as it will cause the heat pump
to operate inefficiently.
Press "Next".
Fig. 53: Setting the base point
32
Building
type
Heat retention ability
Recom-
mended value
Light Low heat retention ability, e.g. prefab / wood-frame houses approx. 10h
Medium Moderate heat retention ability, e.g. house made from hollow blocks approx. 20h
Heavy High heat retention ability, e.g. brick house approx. 30h
Very heavy Very high heat retention ability, e.g. exterior and interior walls > 30cm approx. 60h
Passive Well-insulated, e.g. zero-energy housing approx. 100h
Fig. 55: Setting the building time constant
Menu item Parameter Factory setting
Building time
constant
0 - 100 h
According to
design! - 10 h
Press "Next".
Setting the standard heating load
Set the standard heating load (select with the
rotary knob and confirm with "OK"). The standard
heating load is obtained by multiplying the specific
heating load by the living area to be heated. You
can calculate the standard heating load from the
following table.
Building performance requirements
Year of construction Specific heating load
Up to 1970, uninsulated
1977 to 1984
1985 to 1995
New build, EnEv
New build, KfW 40/60
Zero-energy house
120 - 180 W/m
70 - 100 W/m
50 - 70 W/m
40 - 50 W/m
20 - 30 W/m
10 - W/m
2
2
2
2
2
2
Fig. 56: Setting the standard heating load
Menu item Parameter Factory setting
Standard
heating load
0 - 25 kW
According to
design! - 14.0
kW
Press "Next".
33
REMKO Smart WP MANAGER
Cooling function
Activate (select with the rotary knob and confirm
with "OK") if the building is to be actively cooled
with the heat pump in summer.
Please ensure that the cycle being used for the
cooling function is designed for this purpose.
Fig. 57: Activating the cooling function
Menu item Parameter Factory setting
Cooling
function
Deactivated
Deactivated
Activated
Solar plant
Deactivate (turn the rotary knob to the left and confirm with "OK") if no solar plant is installed. It can
be activated again at a later date.
Activate (turn the rotary knob to the right and confirm with "OK") if a solar plant is installed.
Fig. 59: Activating the solar plant
Menu item Parameter Factory setting
Solar plant
Deactivated
Deactivated
Activated
Press "Next".
Separate cooling cycle
Activate (select with the rotary knob and confirm
with "OK") if a separate cycle is installed which is
used solely for the cooling function (e.g. with fan
convectors).
Fig. 58: Activating the separate cooling cycle
Menu item Parameter Factory setting
Separate
cooling cycle
Deactivated
Deactivated
Activated
Selecting the pump system
Select the pump system for the speed control
system (select with the rotary knob and confirm
with "OK"). The speed control system is available
for a solar cycle with asynchronous pump (controlled by an A10 with "wave packets"), as well as
for one or two solar cycles with high-efficiency
pump (controlled by an A40/A41 with "PWM").
We recommend activating an EC pump. The solar
pump adapts automatically to solar capacity. If the
temperature difference increases due to increased
solar capacity, the speed of the solar pump is
increased. (This results in a higher degree of efficiency of the solar plant as well as lower power
consumption of the solar pump).
Press "Next".
Fig. 60: Selecting the pump system
34
Menu item Parameter Factory setting
Pump type
(solar cycle)
Solar speed control system
Activate if you want the solar pump to modulate
according to solar capacity
Activation of the speed control system for the
pump in the solar cycle: the pump can be activated
according to demand, for efficiency reasons; as
solar radiation increases, the speed of the pump
increases.
When using a pump which is not suitable for the
speed control system, the system should be deactivated.
(We recommend use of a speed-controlled pump).
Asynchronous
pump
EC pump
Selection
according to
pump type
installed in the
solar cycle
Medium flow rate probe
The amount of heat delivered from solar yields is
recorded continuously, and can be called up in the
form of a daily or cumulative value.
If no medium flow rate probe is installed, a manual
medium flow rate can be selected. The heat meter
can also be deactivated, if desired.
Fig. 62: Selecting the medium flow rate probe
Menu item Parameter Factory setting
Fig. 61: Activating the speed control system
Menu item Parameter Factory setting
Solar speed
control
system
Menu item Parameter Factory setting
Asynchro-
nous speed
control
system
Deactivated
Activated
On
Off
Deactivated
On
Solar HM
Press "Next".
Deactivated
Manual medium
flow rate
Medium flow
rate probe
Setting with
heat meter
installed
35
REMKO Smart WP MANAGER
Setting the impulse rate of the solar medium
flow rate probe
The impulse rate may only be changed (select with
the rotary knob and confirm with "OK") if the loss in
pressure from the collector arrays and the line is
too great.
Recommendation: adjust the medium flow rate to
suit the hydraulic system provided by the customer
Fig. 63: Medium flow rate probe - setting the
impulse rate
Menu item Parameter Factory setting
Impulse rate
for medium
flow rate
probe (if
activated)
0 - 10 ml / Imp 5.7 ml / Imp
Heat transfer medium
Select (select with the rotary knob and confirm with
"OK") the type of solar fluid used, in order to calculate the amount of solar heat.
Fig. 64: Selecting the heat transfer medium
Menu item Parameter
Water
DOWCAL 10
DOWCAL 20
TYFCOR
TYFOCOR-L
TYFOCOR-LS
Factory
setting
Press "Next".
Manual medium flow rate
If there is no medium flow rate probe in the solar
station, manual medium flow rate must be selected
(select with the rotary knob and confirm with "OK").
The heat meter can also be deactivated, if desired.
Press "Next".
Specifying the medium flow rate
The medium flow rate is specified in order to calculate the amount of solar heat. The value can be
viewed on the flow meter when the solar pump is
running.
Enter the value (select with the rotary knob and
confirm with "OK").
Press "Next".
Heat carrier
medium
Press "Next".
ANTIFROGEN-N
ANTIFROGEN-
SOL
Temper-10
Temper-15
Temper-20
Temper-30
Temper-40
Temper-55
GLYTHERMIN P44
TYFOCOR-L
36
Set temperature of the storage tank during
solar charging
Once the solar set temperature is reached, the
solar cycle pump is switched off. With the collector
cooling function activated, the temperature of the
storage tank can continue to rise as far as the set
maximum temperature.
The solar set temperature (select with the rotary
knob and confirm with "OK") should be reduced if
the hot water temperature is regularly too high or if
there is no thermostatic mixing valve installed. At
the same time, when the collector cooling function
is activated, the max. temperature of the storage
tank must be reduced.
Solar heating
If heating is to be provided from the available solar
yield (if required), this parameter must be activated.
If another heat generator is connected to the
system hydraulically, e.g. water-based chimney
heat exchanger, this parameter must be activated.
Fig. 66: Solar heating
Menu item Parameter Factory setting
Fig. 65: Set temperature of the storage tank
Menu item Parameter Factory setting
Solar set
temperature
Press "Next".
5°C - 95°C 85°C
Solar
heating
REMKO recommends installing a domestic hot
water mixer.
Once the last parameter has been entered into the
commissioning wizard, the screen switches to the
overview mode (3D house).
Deactivated
Deactivated
Activated
37
A
B
C
D
HK
FB
KK
B
AB
A
HGM
HGU
REMKO Smart WP MANAGER
4.2
Template hydraulic diagrams with installation parameters
NOTICE!
The following template hydraulic systems are only to be used as a planning aid, and do not replace an
installation drawing! Technical modifications reserved!
The design and planning of customer-provided hydraulic systems must be performed by a specialist
installer!
We recommend adapting plant-specific parameters, such a heating limits and bivalence point, to the
design data!
You can find further hydraulics examples at www.remko.de
Hydraulic diagram for heat pump assembly WKF Köln
Functions: heating or cooling, operating mode: monoenergetic or bivalent alternativeOnly one cycle is possible for cooling; active cooling or floor heating (passive cooling)
The operating mode here can only be monoenergetic or bivalent alternative!
Fig. 67: Example hydraulic diagram for HP assembly WKF Köln
A: Outdoor unit
B: WFK indoor unit
C: Storage tank
D: Second heat generator (max. 20 kW)
FB: Floor heating cycle
HK: Heater heating cycle
KK: Cooling cycle
38
Menu item Parameter Factory setting
Control panel address Control panel 1-3 Control panel 1
Country Deutschland - Slovensko Deutschland
Load setting Accept the parameters Saving process
Language Deutsch - Polski Deutsch
Time zone Var. time zones possible Winter + 1(CET) (for Europe)
Date setting Year / Month / Day Current date setting
Time setting Hours / Minutes Current time setting
Activate heat pump Activated / Deactivated Activated
Operating mode
Domestic water heating Activated / Deactivated Activated
Storage tank set temperature "40°C - 65°C" 45°C
Hot water circulation Activated / Deactivated Deactivated
Circulation type Impulse or Temperature Impulse
Circulation running time 1 min - 15 mins 5 mins
Disable switch-on 1 min - 15 mins 5 mins
Circulation type Impulse or Temperature Temperature
Circulation set temp. "25°C - 65°C" 35°C
Area-heating heating cycle Activated / Deactivated Following, as required
Area-heating heating cycle Deactivated No other parameters
Area-heating heating cycle Deactivated Parameter as required
Heating cycle mode Heating curve / Fixed value Heating curve
Heating-curve base point "15°C - 25°C" 20°C (or according to design)
Standard inlet temperature "28°C - 90°C" 35°C (or according to design)
Monoenergetic / Bivalent
alternative
Monoenergetic / Enable as required
Standard outside temperature "0°C - 20°C" According to design or locale
Standard inlet temperature "28°C - 90°C" 35°C (or according to design)
Standard outside temperature "0°C - 20°C" According to design or locale
Heating cycle radiators Activated / Deactivated As required
Heating cycle radiators Activated Following parameters, as required
Heating cycle mode Heating curve / Fixed value Heating curve
Heating-curve base point "15°C - 35°C" 20°C (or according to design)
Standard inlet temperature "40°C - 90°C" 45°C (or according to design)
Standard outside temperature "0°C - 20°C" According to design or locale
Building time constant "0 h - 100 h" 10 h
Standard heating load "0 kW - 25 kW"
39
According to design or heating load calculation
REMKO Smart WP MANAGER
Menu item Parameter Factory setting
Cooling function Activated / Deactivated Deactivated / Enable as required
Separate cooling cycle Activated / Deactivated Deactivated / Enable as required
Solar plant Activated / Deactivated Deactivated / Enable as required
Solar plant Activated Following parameters, as required
Pump type Asynchronous Following parameters, as required
Asynchronous speed control
system
Pump type
Solar speed control system Activated / Deactivated As required
Solar HM Deactivated As required
Manual medium flow rate 2 l/min - 30 l/min Manual medium flow rate 5.0 l/min
Medium flow rate probe 0 ml / lmp - 10 ml / lmp 5.7 ml / lmp
Heat carrier medium As required Tyfocor-L
Solar set temperature "5°C - 95°C" 85°C
Solar heating Activated / Deactivated Deactivated / Enable as required
On / Off As required
EC pump
(high-efficiency pump)
As required
40
Hydraulic diagram for heat pump assembly WKF Frankfurt
A
B
C
D
FB
KW
WW
ZK
AB
B
A
S08
AB
B
A
EFS
HGM
RES
M
Functions: heating and hot water, operating mode: monoenergetic or bivalent alternative. Solar prepared.
Integration of solid fuels possible.
The operating mode here can only be monoenergetic or bivalent alternative!
Fig. 68: Example hydraulic diagram for HP assembly WKF Frankfurt
A: Outdoor unit
B: WFK indoor unit
C: Second heat generator (max. 20 kW)
D: Storage tank
FB: Floor heating cycle
KW: Cold water
WW: Hot water
ZK: Circulation
Menu item Parameter Factory setting
Control panel address Control panel 1-3 Control panel 1
Country Deutschland - Slovensko Deutschland
Load setting Accept the parameters Saving process
Language Deutsch - Polski Deutsch
Time zone Var. time zones possible Winter + 1(CET) (for Europe)
Date setting Year / Month / Day Current date setting
Time setting Hours / Minutes Current time setting
Activate heat pump Activated / Deactivated Activated
Operating mode
Domestic water heating Activated / Deactivated Activated
Storage tank set temperature "40°C - 65°C" 45°C
Hot water circulation Activated / Deactivated Deactivated
Monoenergetic / Bivalent
alternative
Circulation type Impulse or Temperature Impulse
Monoenergetic / Enable as required
41
REMKO Smart WP MANAGER
Menu item Parameter Factory setting
Circulation running time 1 min - 15 mins 5 mins
Disable switch-on 1 min - 15 mins 5 mins
Circulation type Impulse or Temperature Temperature
Circulation set temp. "25°C - 65°C" 35°C
Area-heating heating cycle Activated / Deactivated Following, as required
Area-heating heating cycle Deactivated No other parameters
Area-heating heating cycle Deactivated Parameter as required
Heating cycle mode Heating curve / Fixed value Heating curve
Heating-curve base point "15°C - 25°C" 20°C (or according to design)
Standard inlet temperature "28°C - 90°C" 35°C (or according to design)
Standard outside temperature "0°C - 20°C" According to design or locale
Heating cycle radiators Activated / Deactivated As required
Heating cycle radiators Activated Following parameters, as required
Heating cycle mode Heating curve / Fixed value Heating curve
Heating-curve base point "15°C - 35°C" 20°C (or according to design)
Standard inlet temperature "40°C - 90°C" 45°C (or according to design)
Standard outside temperature "0°C - 20°C" According to design or locale
Building time constant "0 h - 100 h" 10 h
Standard heating load "0 kW - 25 kW"
Cooling function Activated / Deactivated Deactivated / Enable as required
Separate cooling cycle Activated / Deactivated Deactivated / Enable as required
Solar plant Activated / Deactivated Deactivated / Enable as required
Solar plant Activated Following parameters, as required
Pump type Asynchronous Following parameters, as required
Asynchronous speed control
system
Pump type
On / Off As required
EC pump
(high-efficiency pump)
According to design or heating load calculation
As required
Solar speed control system Activated / Deactivated As required
Solar HM Deactivated As required
Manual medium flow rate 2 l/min - 30 l/min Manual medium flow rate 5.0 l/min
Medium flow rate probe 0 ml / lmp - 10 ml / lmp 5.7 ml / lmp
Heat carrier medium As required Tyfocor-L
Solar set temperature "5°C - 95°C" 85°C
Solar heating Activated / Deactivated Deactivated / Enable as required
42
Hydraulic diagram for heat pump assembly WKF Dortmund 2
A
B
C
ZK
FB
KK
KW
WW
AB
B
S08
A
B
AB
A
Functions: heating or cooling and hot water, operating mode: monoenergetic.
Only one cycle is possible for cooling; active cooling or floor heating (passive cooling)!
Fig. 69: Example hydraulic diagram for HP assembly WKF Dortmund 2
A: Outdoor unit
B: WFK indoor unit
C: Storage tank
FB: Floor heating cycle
KK: Cooling cycle
KW: Cold water
WW: Hot water
ZK: Circulation
Menu item Parameter Factory setting
Control panel address Control panel 1-3 Control panel 1
Country Deutschland - Slovensko Deutschland
Load setting Accept the parameters Saving process
Language Deutsch - Polski Deutsch
Time zone Var. time zones possible Winter + 1(CET) (for Europe)
Date setting Year / Month / Day Current date setting
Time setting Hours / Minutes Current time setting
Activate heat pump Activated / Deactivated Activated
Operating mode
Domestic water heating Activated / Deactivated Activated
Monoenergetic / Bivalent
alternative
Monoenergetic / Enable as required
Storage tank set temperature "40°C - 65°C" 45°C
Hot water circulation Activated / Deactivated Deactivated
Circulation type Impulse or Temperature Impulse
43
REMKO Smart WP MANAGER
Menu item Parameter Factory setting
Circulation running time 1 min - 15 mins 5 mins
Disable switch-on 1 min - 15 mins 5 mins
Circulation type Impulse or Temperature Temperature
Circulation set temp. "25°C - 65°C" 35°C
Area-heating heating cycle Activated / Deactivated Following, as required
Area-heating heating cycle Deactivated No other parameters
Area-heating heating cycle Deactivated Parameter as required
Heating cycle mode Heating curve / Fixed value Heating curve
Heating-curve base point "15°C - 25°C" 20°C (or according to design)
Standard inlet temperature "28°C - 90°C" 35°C (or according to design)
Standard outside temperature "0°C - 20°C" According to design or locale
Heating cycle radiators Activated / Deactivated As required
Heating cycle radiators Activated Following parameters, as required
Heating cycle mode Heating curve / Fixed value Heating curve
Heating-curve base point "15°C - 35°C" 20°C (or according to design)
Standard inlet temperature "40°C - 90°C" 45°C (or according to design)
Standard outside temperature "0°C - 20°C" According to design or locale
Building time constant "0 h - 100 h" 10 h
Standard heating load "0 kW - 25 kW"
Cooling function Activated / Deactivated Deactivated / Enable as required
Separate cooling cycle Activated / Deactivated Deactivated / Enable as required
Solar plant Activated / Deactivated Deactivated / Enable as required
Solar plant Activated Following parameters, as required
Pump type Asynchronous Following parameters, as required
Asynchronous speed control
system
Pump type
On / Off As required
EC pump
(high-efficiency pump)
According to design or heating load calculation
As required
Solar speed control system Activated / Deactivated As required
Solar HM Deactivated As required
Manual medium flow rate 2 l/min - 30 l/min Manual medium flow rate 5.0 l/min
Medium flow rate probe 0 ml / lmp - 10 ml / lmp 5.7 ml / lmp
Heat carrier medium As required Tyfocor-L
Solar set temperature "5°C - 95°C" 85°C
Solar heating Activated / Deactivated Deactivated / Enable as required
44
Hydraulic diagram for heat pump assembly WKF compact Stuttgart
A
B
FB
KK
KW WWZK
B
AB
A
Functions: heating or cooling and hot water, operating mode: monoenergetic.
Only one cycle is possible for cooling; active cooling or floor heating (passive cooling)!
Fig. 70: Example hydraulic diagram for HP assembly WKF compact Stuttgart
A: Outdoor unit
B: WKF compact indoor unit
FB: Floor heating cycle
KW: Cold water
WW: Hot water
ZK: Circulation
KK: Cooling cycle
Menu item Parameter Factory setting
Control panel address Control panel 1-3 Control panel 1
Country Deutschland - Slovensko Deutschland
Load setting Accept the parameters Saving process
Language Deutsch - Polski Deutsch
Time zone Var. time zones possible Winter + 1(CET) (for Europe)
Date setting Year / Month / Day Current date setting
Time setting Hours / Minutes Current time setting
Activate heat pump Activated / Deactivated Activated
Operating mode
Monoenergetic / Bivalent
alternative
Monoenergetic / Enable as required
Domestic water heating Activated / Deactivated Activated
Storage tank set temperature "40°C - 65°C" 45°C
Hot water circulation Activated / Deactivated Deactivated
45
REMKO Smart WP MANAGER
Menu item Parameter Factory setting
Circulation type Impulse or Temperature Impulse
Circulation running time 1 min - 15 mins 5 mins
Disable switch-on 1 min - 15 mins 5 mins
Circulation type Impulse or Temperature Temperature
Circulation set temp. "25°C - 65°C" 35°C
Area-heating heating cycle Activated / Deactivated Following, as required
Area-heating heating cycle Deactivated No other parameters
Area-heating heating cycle Deactivated Parameter as required
Heating cycle mode Heating curve / Fixed value Heating curve
Heating-curve base point "15°C - 25°C" 20°C (or according to design)
Standard inlet temperature "28°C - 90°C" 35°C (or according to design)
Standard outside temperature "0°C - 20°C" According to design or locale
Heating cycle radiators Activated / Deactivated As required
Heating cycle radiators Activated Following parameters, as required
Heating cycle mode Heating curve / Fixed value Heating curve
Heating-curve base point "15°C - 35°C" 20°C (or according to design)
Standard inlet temperature "40°C - 90°C" 45°C (or according to design)
Standard outside temperature "0°C - 20°C" According to design or locale
Building time constant "0 h - 100 h" 10 h
Standard heating load "0 kW - 25 kW"
Cooling function Activated / Deactivated Deactivated / Enable as required
Separate cooling cycle Activated / Deactivated Deactivated / Enable as required
Solar plant Activated / Deactivated Deactivated / Enable as required
Solar plant Activated Following parameters, as required
Pump type Asynchronous Following parameters, as required
Asynchronous speed control
system
On / Off As required
According to design or heating load calculation
Pump type
Solar speed control system Activated / Deactivated As required
Solar HM Deactivated As required
Manual medium flow rate 2 l/min - 30 l/min Manual medium flow rate 5.0 l/min
Medium flow rate probe 0 ml / lmp - 10 ml / lmp 5.7 ml / lmp
Heat carrier medium As required Tyfocor-L
Solar set temperature "5°C - 95°C" 85°C
Solar heating Activated / Deactivated Deactivated / Enable as required
EC pump
(high-efficiency pump)
As required
46
Hydraulic diagram for heat pump assembly WKF compact Mannheim bivalent
A
B
C
D
HK
FB
KK
KW
WWZK
B
AB
A
HGU
Schema WKF_compact_Mannheim_bivalent_D_01_03
Functions: heating or cooling and hot water, operating mode: monoenergetic or bivalent alternative
Only one cycle is possible for cooling; active cooling or floor heating (passive cooling)!
The operating mode here can only be bivalent alternative!
Fig. 71: Example hydraulic diagram for HP assembly WKF compact Mannheim bivalent
A: Outdoor unit
B: WKF compact indoor unit
C: Second heat generator (max. 20 kW)
D: Storage tank
FB: Floor heating cycle
HK: Heater heating cycle
KK: Cooling cycle
KW: Cold water
WW: Hot water
ZK: Circulation
Menu item Parameter Factory setting
Control panel address Control panel 1-3 Control panel 1
Country Deutschland - Slovensko Deutschland
Load setting Accept the parameters Saving process
Language Deutsch - Polski Deutsch
Time zone Var. time zones possible Winter + 1(CET) (for Europe)
Date setting Year / Month / Day Current date setting
Time setting Hours / Minutes Current time setting
Activate heat pump Activated / Deactivated Activated
Operating mode
Domestic water heating Activated / Deactivated Activated
Monoenergetic / Bivalent
alternative
Monoenergetic / Enable as required
Storage tank set temperature "40°C - 65°C" 45°C
Hot water circulation Activated / Deactivated Deactivated
47
REMKO Smart WP MANAGER
Menu item Parameter Factory setting
Circulation type Impulse or Temperature Impulse
Circulation running time 1 min - 15 mins 5 mins
Disable switch-on 1 min - 15 mins 5 mins
Circulation type Impulse or Temperature Temperature
Circulation set temp. "25°C - 65°C" 35°C
Area-heating heating cycle Activated / Deactivated Following, as required
Area-heating heating cycle Deactivated No other parameters
Area-heating heating cycle Deactivated Parameter as required
Heating cycle mode Heating curve / Fixed value Heating curve
Heating-curve base point "15°C - 25°C" 20°C (or according to design)
Standard inlet temperature "28°C - 90°C" 35°C (or according to design)
Standard outside temperature "0°C - 20°C" According to design or locale
Heating cycle radiators Activated / Deactivated As required
Heating cycle radiators Activated Following parameters, as required
Heating cycle mode Heating curve / Fixed value Heating curve
Heating-curve base point "15°C - 35°C" 20°C (or according to design)
Standard inlet temperature "40°C - 90°C" 45°C (or according to design)
Standard outside temperature "0°C - 20°C" According to design or locale
Building time constant "0 h - 100 h" 10 h
Standard heating load "0 kW - 25 kW"
Cooling function Activated / Deactivated Deactivated / Enable as required
Separate cooling cycle Activated / Deactivated Deactivated / Enable as required
Solar plant Activated / Deactivated Deactivated / Enable as required
Solar plant Activated Following parameters, as required
Pump type Asynchronous Following parameters, as required
Asynchronous speed control
system
On / Off As required
According to design or heating load calculation
Pump type
Solar speed control system Activated / Deactivated As required
Solar HM Deactivated As required
Manual medium flow rate 2 l/min - 30 l/min Manual medium flow rate 5.0 l/min
Medium flow rate probe 0 ml / lmp - 10 ml / lmp 5.7 ml / lmp
Heat carrier medium As required Tyfocor-L
Solar set temperature "5°C - 95°C" 85°C
Solar heating Activated / Deactivated Deactivated / Enable as required
EC pump
(high-efficiency pump)
As required
48
Hydraulic diagram for heat pump assembly WKF Düsseldorf 2
A
B
C
FBKKKW
WW
ZK
AB
B
A
S08
B
AB
A
EFS
Functions: heating or cooling and hot water, operating mode: monoenergetic.
Only one cycle is possible for cooling; active cooling or floor heating (passive cooling)!
Fig. 72: Example hydraulic diagram for HP assembly WKF Düsseldorf 2
A: Outdoor unit
B: WFK indoor unit
C: Storage tank
FB: Floor heating cycle
KK: Cooling cycle
KW: Cold water
WW: Hot water
ZK: Circulation
Menu item Parameter Factory setting
Control panel address Control panel 1-3 Control panel 1
Country Deutschland - Slovensko Deutschland
Load setting Accept the parameters Saving process
Language Deutsch - Polski Deutsch
Time zone Var. time zones possible Winter + 1(CET) (for Europe)
Date setting Year / Month / Day Current date setting
Time setting Hours / Minutes Current time setting
Activate heat pump Activated / Deactivated Activated
Operating mode
Domestic water heating Activated / Deactivated Activated
Storage tank set temperature "40°C - 65°C" 45°C
Hot water circulation Activated / Deactivated Deactivated
Circulation type Impulse or Temperature Impulse
Monoenergetic / Bivalent
alternative
Monoenergetic / Enable as required
49
REMKO Smart WP MANAGER
Menu item Parameter Factory setting
Circulation running time 1 min - 15 mins 5 mins
Disable switch-on 1 min - 15 mins 5 mins
Circulation type Impulse or Temperature Temperature
Circulation set temp. "25°C - 65°C" 35°C
Area-heating heating cycle Activated / Deactivated Following, as required
Area-heating heating cycle Deactivated No other parameters
Area-heating heating cycle Deactivated Parameter as required
Heating cycle mode Heating curve / Fixed value Heating curve
Heating-curve base point "15°C - 25°C" 20°C (or according to design)
Standard inlet temperature "28°C - 90°C" 35°C (or according to design)
Standard outside temperature "0°C - 20°C" According to design or locale
Heating cycle radiators Activated / Deactivated As required
Heating cycle radiators Activated Following parameters, as required
Heating cycle mode Heating curve / Fixed value Heating curve
Heating-curve base point "15°C - 35°C" 20°C (or according to design)
Standard inlet temperature "40°C - 90°C" 45°C (or according to design)
Standard outside temperature "0°C - 20°C" According to design or locale
Building time constant "0 h - 100 h" 10 h
Standard heating load "0 kW - 25 kW"
Cooling function Activated / Deactivated Deactivated / Enable as required
Separate cooling cycle Activated / Deactivated Deactivated / Enable as required
Solar plant Activated / Deactivated Deactivated / Enable as required
Solar plant Activated Following parameters, as required
Pump type Asynchronous Following parameters, as required
Asynchronous speed control
system
Pump type
On / Off As required
EC pump
(high-efficiency pump)
According to design or heating load calculation
As required
Solar speed control system Activated / Deactivated As required
Solar HM Deactivated As required
Manual medium flow rate 2 l/min - 30 l/min Manual medium flow rate 5.0 l/min
Medium flow rate probe 0 ml / lmp - 10 ml / lmp 5.7 ml / lmp
Heat carrier medium As required Tyfocor-L
Solar set temperature "5°C - 95°C" 85°C
Solar heating Activated / Deactivated Deactivated / Enable as required
50
Hydraulic diagram for heat pump assembly WKF compact Stuttgart Solar
A
B
FBKKKW WW
ZK
S02
B
AB
A
Functions: heating or cooling/hot water and solar, operating mode: monoenergetic
Only one cycle is possible for cooling; active cooling or floor heating (passive cooling)!
Fig. 73: Example hydraulic diagram for HP assembly WKF compact Stuttgart Solar
A: Outdoor unit
B: WKF compact indoor unit
FB: Floor heating cycle
KW: Cold water
WW: Hot water
ZK: Circulation
KK: Cooling cycle
Menu item Parameter Factory setting
Control panel address Control panel 1-3 Control panel 1
Country Deutschland - Slovensko Deutschland
Load setting Accept the parameters Saving process
Language Deutsch - Polski Deutsch
Time zone Var. time zones possible Winter + 1(CET) (for Europe)
Date setting Year / Month / Day Current date setting
Time setting Hours / Minutes Current time setting
Activate heat pump Activated / Deactivated Activated
Operating mode
Monoenergetic / Bivalent
alternative
Monoenergetic / Enable as required
Domestic water heating Activated / Deactivated Activated
Storage tank set temperature "40°C - 65°C" 45°C
Hot water circulation Activated / Deactivated Deactivated
Circulation type Impulse or Temperature Impulse
51
REMKO Smart WP MANAGER
Menu item Parameter Factory setting
Circulation running time 1 min - 15 mins 5 mins
Disable switch-on 1 min - 15 mins 5 mins
Circulation type Impulse or Temperature Temperature
Circulation set temp. "25°C - 65°C" 35°C
Area-heating heating cycle Activated / Deactivated Following, as required
Area-heating heating cycle Deactivated No other parameters
Area-heating heating cycle Deactivated Parameter as required
Heating cycle mode Heating curve / Fixed value Heating curve
Heating-curve base point "15°C - 25°C" 20°C (or according to design)
Standard inlet temperature "28°C - 90°C" 35°C (or according to design)
Standard outside temperature "0°C - 20°C" According to design or locale
Heating cycle radiators Activated / Deactivated As required
Heating cycle radiators Activated Following parameters, as required
Heating cycle mode Heating curve / Fixed value Heating curve
Heating-curve base point "15°C - 35°C" 20°C (or according to design)
Standard inlet temperature "40°C - 90°C" 45°C (or according to design)
Standard outside temperature "0°C - 20°C" According to design or locale
Building time constant "0 h - 100 h" 10 h
Standard heating load "0 kW - 25 kW"
Cooling function Activated / Deactivated Deactivated / Enable as required
Separate cooling cycle Activated / Deactivated Deactivated / Enable as required
Solar plant Activated / Deactivated Deactivated / Enable as required
Solar plant Activated Following parameters, as required
Pump type Asynchronous Following parameters, as required
Asynchronous speed control
system
Pump type
On / Off As required
EC pump
(high-efficiency pump)
According to design or heating load calculation
As required
Solar speed control system Activated / Deactivated As required
Solar HM Deactivated As required
Manual medium flow rate 2 l/min - 30 l/min Manual medium flow rate 5.0 l/min
Medium flow rate probe 0 ml / lmp - 10 ml / lmp 5.7 ml / lmp
Heat carrier medium As required Tyfocor-L
Solar set temperature "5°C - 95°C" 85°C
Solar heating Activated / Deactivated Deactivated / Enable as required
52
Hydraulic diagram for heat pump assembly WKF Frankfurt Solar
A
B
C
D
FB
WWKW
ZK
AB
B
A
S08
AB
B
A
S02
HGM
EFS
RES
M
Functions: heating/hot water and solar, operating mode: monoenergetic or bivalent possible
The operating mode here can be monoenergetic or bivalent alternative!
Fig. 74: Example hydraulic diagram for HP assembly WKF Frankfurt Solar
A: Outdoor unit
B: WFK indoor unit
C: External heat generator (max. 20 kW)
D: Storage tank
FB: Floor heating cycle
KW: Cold water
WW: Hot water
ZK: Circulation
Menu item Parameter Factory setting
Control panel address Control panel 1-3 Control panel 1
Country Deutschland - Slovensko Deutschland
Load setting Accept the parameters Saving process
Language Deutsch - Polski Deutsch
Time zone Var. time zones possible Winter + 1(CET) (for Europe)
Date setting Year / Month / Day Current date setting
Time setting Hours / Minutes Current time setting
Activate heat pump Activated / Deactivated Activated
Operating mode
Monoenergetic / Bivalent
alternative
Domestic water heating Activated / Deactivated Activated
Storage tank set temperature "40°C - 65°C" 45°C
Hot water circulation Activated / Deactivated Deactivated
Monoenergetic / Enable as required
Circulation type Impulse or Temperature Impulse
53
REMKO Smart WP MANAGER
Menu item Parameter Factory setting
Circulation running time 1 min - 15 mins 5 mins
Disable switch-on 1 min - 15 mins 5 mins
Circulation type Impulse or Temperature Temperature
Circulation set temp. "25°C - 65°C" 35°C
Area-heating heating cycle Activated / Deactivated Following, as required
Area-heating heating cycle Deactivated No other parameters
Area-heating heating cycle Deactivated Parameter as required
Heating cycle mode Heating curve / Fixed value Heating curve
Heating-curve base point "15°C - 25°C" 20°C (or according to design)
Standard inlet temperature "28°C - 90°C" 35 °C (or according to design)
Standard outside temperature "0°C - 20°C" According to design or locale
Heating cycle radiators Activated / Deactivated As required
Heating cycle radiators Activated Following parameters, as required
Heating cycle mode Heating curve / Fixed value Heating curve
Heating-curve base point "15°C - 35°C" 20°C (or according to design)
Standard inlet temperature "40°C - 90°C" 45°C (or according to design)
Standard outside temperature "0°C - 20°C" According to design or locale
Building time constant "0 h - 100 h" 10 h
Standard heating load "0 kW - 25 kW"
Cooling function Activated / Deactivated Deactivated / Enable as required
Separate cooling cycle Activated / Deactivated Deactivated / Enable as required
Solar plant Activated / Deactivated Deactivated / Enable as required
Solar plant Activated Following parameters, as required
Pump type Asynchronous Following parameters, as required
Asynchronous speed control
system
Pump type
On / Off As required
EC pump
(high-efficiency pump)
According to design or heating load calculation
As required
Solar speed control system Activated / Deactivated As required
Solar HM Deactivated As required
Manual medium flow rate 2 l/min - 30 l/min Manual medium flow rate 5.0 l/min
Medium flow rate probe 0 ml / lmp - 10 ml / lmp 5.7 ml / lmp
Heat carrier medium As required Tyfocor-L
Solar set temperature "5°C - 95°C" 85°C
Solar heating Activated / Deactivated Deactivated / Enable as required
54
4.3
Menu structure of the controller
"Information" menu item - Expert
This menu contains information about the current operating status of the system. The menu is opened with
the key on the right. By turning the rotary knob, you can select another menu item (for instance "Settings").
Pressing "OK" (right softkey) takes you to submenus of the menu item "Information".
Authorisa-
tion level
Level 2 menu
item
Level 3 menu item Level 4 menu item Info
Status
Detected unit
Control algorithm
Current operating mode
Previous operating mode
Party mode
Away mode
Room climate
Al connection mode
Anti-freeze protection
Basic infor-
mation
Date / Time
Version number
IP address
Subnet
Gateway
Power consumption L
Mains frequency
Time
Date
Time zone
Hardware control panel
Hardware
Software control panel
Software
Linux kernel control panel
Linux kernel
1: Licence for Linux kernel
2: Licence for uBoot
You can find
many of the indi-
vidual info texts
about the level
2-4 menu items
on your Smart-
Control
Licence information
55
3: Licence for Busybox
4: Licence for Dropbear
5: Licence for zlib
6: Licence for QT
REMKO Smart WP MANAGER
"Information" menu item (continued) - Expert
Authorisa-
tion level
Level 2
menu item
Solar
Hot water
Level 3 menu item Info
Pump A01 / Pump control signal A40
Collector temp. S01
Lower storage tank temp. S02
Storage tank charging status
Storage tank changeover valve A12
Current output
Solar yield
Inlet temp. S03
Return temp. S04
Medium flow rate 1 S23
Circulation pump A04
Circ. set temp.
Circulation request S05
Hygiene function (legionella circuit)
HW request
HW storage tank set temp.
HW storage tank actual temp. S08
Changeover valve A10
You can find
many of the indi-
vidual info texts
about the level
2-3 menu items
on your Smart-
Control
Solar heating
Heater
heating cycle
Lower storage tank temp. S02
Hot water energy
SH mixing valve status A24 / A25
Solar heating
Heating water temp. (set value)
Middle storage tank temp. S 09
Inlet temp. S13
Abs. pump speed A42
Rel.pump speed A42
Heating cycle set temp.
Heating cycle actual temp.
Mixed outside temperature
Heating energy
56
"Information" menu item (continued) - Expert
Authorisa-
tion level
Level 2 menu
item
Floor
heating cycle
Cooling
Level 3 menu item Info
Abs.prim. pump speed A41
Rel.prim. pump speed A41
Abs.sec. pump speed A45
Rel.sec. pump speed A45
HK mixing valve status A20 / A21
Heating cycle set temp.
Heating cycle actual temp.
Inlet temperature S12
Return temperature S11
Mixed outside temperature
Heating energy
Changeover valve A14
Cooling cycle set temp.
Cooling cycle actual temp.
Mixed outside temperature
Abs.pump speed A43
You can find
many of the indi-
vidual info texts
about the level
2-3 menu items
on your Smart-
Control
Hydraulics
Rel.pump speed A43
Bypass valve status A22 / A23
Heat generator request
Heating water temp. (set value)
Heating water temp. (actual value)
Inlet temp. S13
Inlet temp. S14
Return temp. S15
Actual medium flow rate S24
Therm.output
57
REMKO Smart WP MANAGER
"Information" menu item (continued) - Expert
Authorisa-
tion level
Level 2 menu
item
Heat pump
Level 3 menu item Info
Heat pump status
Remaining idle time
Defrost status S22
Compressor status S21
Fault status S20
Target temperature A44
Enable signal A33
Disable compressor A30
Heat pump mode A31
Disable signal S16, energy supplier cut-off
Heat pump elec. output
Heat pump therm.output
Middle storage tank temp. S09
Max.inlet temperature
You can find
many of the indi-
vidual info texts
about the level
2-3 menu items
on your Smart-
Control
Auxiliary heat
generator
Heat pump therm.energy
Cont. HW offset
Cont. heating offset
Short-term HW offset
Short-term heating offset
Heat generator status
Potential-free output A32
58
"Information" menu item (continued) - Expert
Authorisa-
tion level
Level 2 menu
item
Meter read-
ings
Level 3 menu item Level 4 menu item Info
Current output
Solar yield, day
Solar
Heat pump
Solar yield, week
Solar yield, month
Solar yield, year
Solar yield
Heat pump therm. output
Therm. energy (hour)
Therm. energy (day)
Therm. energy (week)
Therm. energy (month)
Therm. energy (year)
Heat pump therm.energy
Output, environment
Environmental energy
(day)
Environmental energy
(week)
You can find
many of the indi-
vidual info texts
about the level
2-4 menu items
on your Smart-
Control
Environmental energy
(year)
Heat pump elec. output
Elec. energy (hour)
Elec. energy (day)
Elec. energy (week)
Elec. energy (month)
Elec. energy (year)
59
REMKO Smart WP MANAGER
"Information" menu item (continued) - Expert
Authorisa-
tion level
Level 2 menu
item
Meter read-
ings
Level 3 menu item Level 4 menu item Info
Current household output
Household energy (hour)
Household
Photovoltaics
Household energy (day)
Household energy (week)
Household energy (month)
Household energy (year)
Photovoltaic output
Photovoltaic yield (hour)
Photovoltaic yield (day)
Photovoltaic yield (week)
Photovoltaic yield (month)
Photovoltaic yield (year)
Photovoltaic yield
Feed-in power
Feed-in (hour)
Feed-in (day)
Feed-in (week)
You can find
many of the indi-
vidual info texts
about the level
2-4 menu items
on your Smart-
Control
Heating & hot water
CO2 savings
Feed-in (month)
Feed-in (year)
Private consumption power
Private consumption (day)
Private consumption
(week)
Private consumption
(month)
Private consumption (year)
Heating energy
Hot water energy
CO2 savings
Equivalent in trees
60
"Information" menu item (continued) - Expert
Authorisa-
tion level
Level 2 menu
item
Checklist
Level 3 menu item Info
Collector temp. S01
Lower storage tank temp. S02
Inlet temp. S03
Return temp. S04
Circ. actual temp. S05
Circulation request S05
HW storage tank act temp. S08
Middle storage tank temp. S09
Outside temperature S10
Return temperature S11
Inlet temperature S12
Inlet temp. S13
Inlet temp. S14
Return temperature S15
Disable signal (energy supplier) S16
You can find
many of the indi-
vidual info texts
about the level
2-3 menu items
on your Smart-
Control
Fault status S20
Compressor status S21
Defrost status S22
Medium flow rate 1 S23
Actual medium flow rate S24
Impulse counter reading S25
Impulse counter reading S26
Impulse counter reading S28
Impulse counter reading S29
61
REMKO Smart WP MANAGER
"Settings" menu item - Expert
In this menu you can configure the settings. For example, you can adjust hot water and heating temperatures or change time settings. The menu is opened with the key on the right. Pressing the left-hand key
allows you to jump up a level in the menu structure again. Pressing the left key multiple times always allows
you to return to the 3D house.
Pressing "OK" (right softkey) takes you to submenus of the menu item "Settings".
Authorisa-
tion level
Level 2 menu
item
Basic settings
Level 3 menu item Level 4 menu item Info
Date
Time
Date format
Time format
Language / Time
Display
Language
Temperature unit
Decimal separator
Time zone
Mains frequency
Display brightness
Display contrast
Display off
Expert password
Control panel address
You can find
many of the indi-
vidual info texts
about the level
2-4 menu items
on your Smart-
Control
Install update
Memory card
Interfaces LAN
Save setting
Load setting
62
"Settings" menu item (continued) - Expert
Authorisa-
tion level
Level 2 menu
item
Basic settings System configuration
Level 3 menu item Level 4 menu item Info
Solar heating
Heating cycle for panel
heating
System separation FBH
Heating cycle for radiators
Cooling function
Separate cooling cycle
Solar collector cooling
function
Solar pump kick function
Solar HM
Auxiliary heat generator
Domestic water heating
Hygiene function (legion-
ella circuit)
Hot water circulation
You can find
many of the indi-
vidual info texts
about the level
2-4 menu items
on your Smart-
Control
Heat pump
Solar plant
Graduated tariffs
PV power utilisation
63
REMKO Smart WP MANAGER
"Settings" menu item (continued) - Expert
Authorisa-
tion level
Level 2 menu
item
Solar
Level 3 menu item Level 4 menu item Info
Max. temperature
Max. temperature hyste-
resis
Min. temperature
Collector
Storage tank 1
Priority logic
Min. temperature hyste-
resis
Hysteresis
Switch-on difference
Switch-off difference
Solar set temp.
Solar set temp. hysteresis
Collector cooling function
ON temp.
Storage tank max. temp.
Time interval
Pause time
You can find
many of the indi-
vidual info texts
about the level
2-4 menu items
on your Smart-
Control
Pump setting
Heat meter
Gradient
Pump type
Solar speed control system
Min. pump speed A40
Max. pump speed A40
Medium flow rate probe
selection
Heat carrier medium
Mixing ratio
Impulse rate for medium
flow rate
64
"Settings" menu item (continued) - Expert
Authorisa-
tion level
Level 2 menu
item
Hot water
Level 3 menu item Level 4 menu item Info
Storage tank set temp.
Mode
Time programme A
Time programme B
Domestic water heating
Circulation
Time programme C
Tolerance during solar
mode
Reheating 2 WE
Speed in HW A43
Circulation set temp.
Set temp. hysteresis
Time programme
Running time
Disable switch-on
Circulation type
You can find
many of the indi-
vidual info texts
about the level
2-4 menu items
on your Smart-
Control
Set temperature
Hygiene function (legion-
ella circuit)
Factory-set circulation switching times
Description Value range Factory setting Customer
Time programme Mon-Sun Mon-Sun 00:00-24:00
Hygiene function
Description Value range Factory setting Customer
Set temperature "60°C - 75°C" 60°C
Day of activation Mon-Sun Monday
Time of activation Hrs / Mins 20:00
Circulation pump Activated / Deactivated Deactivated
Day of activation
Time of activation
Activate circulation pump
system
system
65
REMKO Smart WP MANAGER
"Settings" menu item (continued) - Expert
Authorisa-
tion level
Level 2 menu
item
Heating /
cooling
Level 3 menu item Level 4 menu item Info
Building time constant
Building adaptation
Mode
Floor screed drying func-
tion
After the floor screed
function we recommend
this function manually to
finish by deactivating!
Standard heating load
Inertia of the heating curve
Room climate mode
Difference from cooling
limit
Difference from heating
limit
Floor screed drying func-
tion status
Start / end temperature
Max.temperature
Heating phase increment
Drying time
Time at high temperatures
Incremental cooling phase
many of the indi-
vidual info texts
about the level
2-4 menu items
on your Smart-
You can find
Control
Time at low temperatures
Cooling curve adjustment
Time programme
Setpoint increase
Cooling
Floor screed function
Description Value range Factory setting Customer
Floor screed function status Activated / Deactivated Deactivated
Start / end temperature "10°C - 50°C" 20 °C
Max. temperature "20°C - 50°C" 35°C
Incremental heating phase 0.0 K - 10.0 K 5.0 K
Drying time 0.0 h - 192 h 24 h
Room unit
Dewpoint monitoring
Cooling down (outside
temperature reference)
system
Time at high temperature 0.0 h - 192 h 96 h
Incremental cooling phase 0.0 K - 10.0 K 5.0 K
Time at low temperature 0.0 h - 192 h 24 h
66
"Settings" menu item (continued) - Expert
Authorisa-
tion level
Level 2 menu
item
Solar heating
Heater
heating cycle
Level 3 menu item Info
Min. pump speed
Max. pump speed
Heating cycle mode
Time programme A
Time programme B
Time programme C
Room temperature reduction
Max. pump speed A42
Min. pump speed A42
Room unit
Heating curve adjustment
Heating cycle mode
Time programme A
Time programme B
You can find
many of the indi-
vidual info texts
about the level
2-3 menu items
on your Smart-
Control
Time programme C
Room temperature reduction
Floor
heating cycle
Floor & heater heating cycle switching times
Description Value range Factory setting Customer
Time programme A Mon-Sun Mon-Sun 00:00-24:00
Time programme B Mon-Sun Mon-Fri 05:00-23:00
Sat-Sun 06:00-23:00
Time programme C Mon-Sun Mon-Fri 05:00-23:00
Max. pump speed A41
Min. pump speed A41
Room unit
Mixing valve running time
Heating curve adjustment
Max. inlet temperature
Speed adjustment A45
system
Sat-Sun 06:00-23:00
67
REMKO Smart WP MANAGER
"Settings" menu item (continued) - Expert
Authorisa-
tion level
Level 2 menu
item
Heat pump
Level 3 menu item Level 4 menu item Info
Min. pump speed A43
Basic settings
Graduated tariff
Max. pump speed A43
Anti-freeze protection
(defrost mode)
Number of power tariffs
Time field Tariff 1
Time field Tariff 2
Power tariff 1
Power tariff 2
Continual HW adjustment
Short-term HW adjustment
Short-term HTG adjust-
ment
Continual HTG adjustment
PV personal use variant
Power tariff 1
You can find
many of the indi-
vidual info texts
about the level
2-4 menu items
on your Smart-
Control
PV power utilisation
Bivalence point
Auxiliary heat
generator
Control panel
1
"Settings" menu item (continued) - Expert
Authorisa-
tion level
Level 2 menu
item
Domestic supply meter
Energy meter
Photovoltaics (feed-in) Meter constant
Photovoltaics (yield) Meter constant
Room temperature probe correction
Room humidity probe correction
Level 3 menu item Level 4 menu item Info
Heat pump (elec.) Meter constant
(elec.)
Feed-in tariff
Personal use tariff
Continual HW adjustment
Continual HTG adjustment
Bivalence point, heating
Bivalence point, HW
Response to disable signal
Meter constant
You can find
many of the indi-
vidual info texts
about the level
2-4 menu items
on your Smart-
Control
68
"Messages" menu item - Expert
Pressing "OK" (right softkey) takes you to submenus of the menu item "Messages".
This is where operating messages, warning notices and fault messages are displayed.
Explanation of symbols:
Warning message
Fault message
If one of these symbols appears in the header of the control screen, please access the menu item "Messages" and display the details, with instructions on how to rectify the fault, with the key on the right.
Operating messages indicate which of the regular operating statuses the system is in.
Manual mode (relay test)
With this menu item, you can control the individual actuators (pumps, mixing valves, etc.) manually or specify
values of probes for checking.
Parameter Selection parameter
Actuators Manual mode Permanent
Solar cycle pump Output A 01
Auxiliary heat generator Output A 32
HW circulation pump Output A 04
HW changeover valve Output A 10
Generator changeover valve Output A 11
Deactivated
15 minutes
Auto
On
Off
Auto
On
Off
Auto
On
Off
Auto
On
Off
Auto
On
Off
Auto
Solar cycle changeover valve Output A 12
Swimming pool charging pump Output A 13
69
On
Off
Auto
On
Off
REMKO Smart WP MANAGER
"Message" menu item (continued) - Expert
Manual mode (relay test) (continued)
Parameter Selection parameter
Cooling changeover valve Output A 14
Open panel heating cycle mixing
valve
Close panel heating cycle mixing
valve
Output A 20
Output A 21
Auto
On
Off
Auto
On
Off
Auto
On
Off
Open bypass Output A 22
Close bypass Output A 23
Open solar heating valve Output A 24
Close solar heating valve Output A 25
Heat pump operating mode Output A 31
Gross calorific value module
assembly
Output A 34
Auto
On
Off
Auto
On
Off
Auto
On
Off
Auto
On
Off
Auto
Cooling
Heating
Auto
Open
Closed
Internal pump status Output A 43
Auto
On
Off
70
"Message" menu item (continued) - Expert
Manual mode (relay test) (continued)
Parameter Selection parameter
Panel heating cycle pump status Output A 41
Radiator cycle pump status Output A 42
Heat pump request status Output A 44
Auto
On
Off
Auto
On
Off
Auto
On
Off
Auto
Compressor forced off Output A 30
Manual mode (probes)
Parameter Selection parameter
Probes Manual mode Permanent
Lower Storage tank 1 temp. Probe S 02
Middle Storage tank 1 temp. Probe S 09
Panel heating cycle 2nd pump
status
Output A 45
Auto
Deactivated
15 minutes
Probe value
Default value "-60°C - 250°C"
Probe value
Default value "-60°C - 250°C"
On
Off
On
Off
Upper Storage tank 1 temp. Probe S 08
Default value "-60°C - 250°C"
Swimming pool temperature Probe S 07
Default value "-60°C - 250°C"
Outside temperature Probe S 10
Default value "-60°C - 250°C"
71
Probe value
Probe value
Probe value
REMKO Smart WP MANAGER
"Message" menu item (continued) - Expert
Manual mode (probes) (continued)
Parameter Selection parameter
Circulation paddle switch Probe S 05
Auto
On
Off
Circulation temperature Probe S 05
Inlet temp. Solar heating Probe S 13
Heat generator pressure Probe S 42
Coding resistor RC
Probe value
Default value "-60°C - 250°C"
Probe value
Default value "-60°C - 250°C"
Probe value
Default value "0 - 5 bar"
Probe value
Default value
""""""
Unit coding Rc
Coding error
PA
PA (cooling)
STE 611
STE 610
vario
HG (cooling)
OEM 1
OEM 2
OEM 3
OEM 4
OEM 5
Collector 1 temperature Probe S 01
Station 1 medium flow rate Probe S 23
Solar cycle inlet temperature Probe S 03
Probe value
Default value "-60°C - 250°C"
Probe value
Default value "0 - 100 l/min"
Probe value
Default value "-60°C - 250°C"
72
"Message" menu item (continued) - Expert
Manual mode (probes) (continued)
Parameter Selection parameter
Solar cycle return temp. Probe S 04
Panel heating cycle inlet temp. Probe S 12
Panel heating cycle return temp. Probe S 11
Heat pump fault Probe S 20
Defrosting active Probe S 22
Compressor active Probe S 21
Energy supplier external
block(energy supplier contact)
Probe S 16
Probe value
Default value "-60°C - 250°C"
Probe value
Default value "-60°C - 250°C"
Probe value
Default value "-60°C - 250°C"
On
Off
Auto
On
Off
Auto
On
Off
Auto
On
Off
Auto
Slave heat generator 1 OT 1
Slave heat generator 2 OT 2
WE inlet temp. Probe S 14
WE return temp. Probe S 15
WE medium flow rate Probe S 24
On
Off
Auto
On
Off
Auto
Probe value
Default value "-60°C - 250°C"
Probe value
Default value "-60°C - 250°C"
Probe value
Default value "0 - 100 l/min"
73
1
92
50.75
60
Ø 57
7
122.5
73
10.85
2
REMKO Smart WP MANAGER
5
5.1
Installation
Room installation of the Smart-Control
NOTICE!
Only use the unit in dry areas and protect it
from electromagnetic radiation.
The Smart-Control remote can be mounted to a
wall, e.g. in the living room.
To wall mount the Smart-Control remote, proceed
as follows:
1. Fasten the wall bracket directly to the wall
using screws and rawl plugs.
2. Connect the bus connection (maximum 50
m) with shielded cable (4 x 0.5mm²) to the
terminal strip in the cable duct of the
hydraulic module.
3. Plug the connectors into the sockets on the
Smart-Control.
+12V = Yellow / B = Green /
A = Brown / GND = White
4. Slide the Smart-Control into the wall bracket.
You have the option of connecting two Smart-Control remotes at the same time. In this case, one
heating cycle is assigned to each remote. This
assignment is performed by allocating a Control
Panel Number. The Smart-Control for the heat
pump is "always" given the number 1. The heater
heating cycle and floor heating cycle can then be
assigned under number two or three. When the
remote is installed, the Control Panel Number
assigned to the remote must be stored in the controller of the heat pump for the selected heating
cycle.
For programming, follow the installation wizard, as
described in the chapter on commissioning the
heat pump controller.
Fig. 75: Layout and dimensions of the back plate of
the wall bracket
1: Wall bracket / back plate
2: Cable feedthrough for wall installation
74
N LPE
PE N L`
NPE L`
P N 1 L`E A 0
N 1 LPE A 1 `
N `PE A12 L
PE N A13 L`
PE N 14 L`A
0PE N A 1
P
02E N A
PE N A03
P 04E N A
P N A 0 A 1E 2 2
A 2 A
3PE N 2 2
A 4 5PE N 2 A2
Power
t or tpuAc uat Ou ts
Actuator S pplyu
A tu or tpuc at Ou ts
Actua or utputst O
Se r np tsnso I u
S 5 +5V2 GND
6 +5S2 V GND
S 7 +5V ND2 G
8 +5VS2 GND
9 5S2 + V GND
t alAktua or Sign
ND 40G A
GND 41A
GND 42A
GND A43
ND 44G A
ND 45G A
GND 46A
O nS GMI M CLK S ND
NX - TP
K
0T1 0T1
0T2 0T
2
RC
B2 A2
B A2 3
+12V B1 A G D1 N
R NDG
S 0 +5V 40 12 GNDS S4
S 1 +5V ND S42 S 32 G 4
S22 +5V GND S44 S45
+ SS23 5V GND 46 S47
S24
+5V GND S4 S498
1 GS0 ND
S02 GND
Se s r np tsn o I u
S 3 G0 ND
S04 GND
S05 GND
6S0 GND
7S0 GND
8 GS0 ND
Se r p snso In ut
9S0 GND
0S1 GND
S11GND
2 GS1 ND
3 GS1 ND
S 4 G1 ND
S 5 G1 ND
S 6 G1 ND
30A30A
3
1A
A32
A33
3A 4
SD
Fuse
RJ 45
M
SMT /O 01I
M
M
M
M
M
M
nsoSe r
Inputs
S nsore
Inputs
NOTE:
without blocking contactor,
jumper must be inserted
S0 Heat pump electr. meter
(min. 500 lmp./kWh)
S 25
S0 Household electricity
(min. 500 lmp./kWh)
S 26
S0 Gas meter
(min. 500 lmp./kWh)
S 27
S0 PV yield electricity meter
(min. 500 lmp./kWh)
S 28
S0 PV power suplly electr.
meter (min. 500 lmp./kWh)
S 29
S0 Speed specification solar
pump PWM
A 40
Pump HGM
A 42
Pump HGU
A 42
Speed specification primary
pump indoor module
0-10V
A 43
Solar inlet WMZ
S 03
Solar return WMZ
S 04
Circulation return
temp./impuls
S 05
Solar / pool /
2 storage tank
S 07
Not connected
S 06
Storage tank
domestic water
S 08
Midd. storage tank
acquisition
of foreign energy
S 09
External sensor
S 10
Inlet underfloor
S 12
Return underfloor
S 11
Heat pump inlet
S 13
Not connected
S 14
Heat pump return
S 15
EVU contact
S 16
Closed = release
Connected
A 24/25
Terminal block X1
Connected
Connected
Connected
Connected
Connected
Connected
Connected
Connected
Connected
Power supply
Communication
Indoor module
3x1,5mm
2
Changeover valve
solar heating
Open
Close
A 22/23
Bypass mixer
indoor module
A 20/21
HGM mixer
heating cycle
underfloor
A 04
Circulation pump
230 V
A 03
Heating cycle pump
230 V optional
A 02
Underfloor heating pump
230 V optional
A 01
Solar pump
230 V unregulated
A 14
Changeover valve /
cooling pump
A 13
Not connected
A 12
Changeover valve /
solar
A 11
Changeover valve /
Smart BVT
2th heat generator
A 10
Changeover valve /
domestic water
230 V
continuous voltage
Power supply primary
pump indoor module
Power supply I/0 module
S 20 - General alarm signal
outdoor module
S 21 - Operation compressor
S 22 - Operation defrost
S 23 - Ultrasonic flow rate meter solar
S 24 - Ultrasonic flow rate meter heat pump
S 01- Solar collector
S 02- solar upper storage tank
Potential free
A 30
A 31
A 32
A 33
A 34
230V /1~/N/Pe
400V /3~/N/Pe
z.B. 3x 2,5mm²
z.B. 5x 1,5mm²
Outdoor module WKF 180 / WKF 180 Duo
Outdoor module
WKF 85/120 / WKF 120 Duo
Mains voltage connection takes place on site
from Sub-distribution!
1L
L 2
L 3
N
P e
1 2 3 4 Pe
Mains voltage connection takes place on
site from Sub-distribution!
E-heating coil
9KW
Power supply
400V/3~/N/P/E
e.g. 5x2,5mm
2
Plug on the electric heating coil
Outdoor module
3x1,5mm
2
Emergency
stop outdoor
module
Heating/
cooling
Release
2. heat gener.
BVT/Serv
Release
compressor
Without
function
Open
Close
Open
Close
6
6.1
Electrical wiring
Structure electrical connection I/0 module
Cable cross-sections corresponding to the supplied connection cable!
Place the load lines separatly from the measure lines!
Fig. 76: Structure electrical connection, I/0 module
75
REMKO Smart WP MANAGER
6.2
Terminal assignment / legend
Terminal assignment
Terminal Input Output Signal Connection layout
PW X Power supply I/O 230V
PP X Power supply primary pump indoor module
S01 X Probe solar collector
S02 X Probe solar upper storage tank
S03 X Probe solar inlet WMZ solar
S04 X Probe solar return WMZ solar
S05 X Circulation return temp./Impuls
S06 X Not connected
S07 X Solar / pool / 2 storage tank
S08 X Storage tank domestic water
S09 X Unregulated 3. heat generator middle storage tank
S10 X External sensor
S11 X Heating cycle 2 mixer circuit return
S12 X Heating cycle 2 mixer circuit VL
S13 X Heat pump inlet
S14 X Without function
S15 X Heat pump return
S16 X
S20 X General alarm signal outdoor module
S21 X Operation compressor
S22 X Operation defrost
S23 X Ultrasonic flow rate meter solar, impulse rate
S24 X Ultrasonic flow rate meter heat pump, impulse rate
S25 X Heat pump electricity meter S0
S26 X Household electricity S0
S27 X Gas meter S0
S28 X PV yield electricity meter S0
EVU contact (opener) / Dew point monitoring
(external)
S29 X PV power suplly electricity meter S0
A01 X Unregulated solar pump ( 230 V )
A02 X Pump heating cycle floor (230 V)
A03 X Pump heating cycle radiator (230 V)
A04 X Circulation pump
A10 X Changeover valve domestic water
76
Terminal Input Output Signal Connection layout
A11 X Changeover valve 2. heat generator
A12 X Changeover valve solar / 2. storage tank pool
A13 X Not connected
A14 X Changeover valve / pump cooling
A20 X HK2 mixer open
A21 X HK2 mixer closed
A22 X Bypass mixer open
A23 X Bypass mixer closed
A24 X Changeover valve solar heating (open)
A25 X Changeover valve solar heating (close)
A30 X Heat pump emergency stop (outdoor module)
A31 X Heat pump heating / cooling (operating mode)
A32 X
A33 X Enable compressor
A34 X Without function
A40 X Speed specification solar pump PWM
A41 X Speed specification heating cycle floor (0-10V)
A42 X Speed specification heating cycle radiator-10V)
A43 X
A44 X Setpoint specification outdoor module 0-10V
A45 X
A46 X Not connected
MI
MO
CLK
Enable 2. heating generator auxillary heater or
vessel
Speed specification primary pump indoor module
0-10V
Speed specification pump heating cycle floor (secondery circuit / system separation)
Without function
nSS
GND
OT 1 (2x) Opentherm 2 heating generator Interface
OT 2 (2x) Not connected
B1,A1,GND
+12 Volt,
B2 / A2 RS 485_2
B3 / A2 RS 485_3
R RC coding resistor, WKF 85/120/180
77
Operating module
A
B
2
1
3
A
B
2
1
3
REMKO Smart WP MANAGER
7
7.1
PV power utilisation
Higher energy consumption from the combination of heat pump and PV plant
Ideal for new and existing photovoltaic plants
In order to increase the proportion of renewable
energies, the heat pump can be combined with a
photovoltaic plant. The controller uses as much of
the self-generated solar power as possible for heat
generation. By storing the solar power in the form
of heat, the energy consumption and therefore the
cost-effectiveness of the photovoltaic plant are
increased.
Smart heating function
Optimised use of PV power and smart grid
offers
The smart heating function optimises the use of
self-generated PV power with the heat pump.
In order to optimise the system, we recommend
the installation of a buffer tank with a capacity of at
least 500 litres. Furthermore, in addition to the
feed-in and personal use tariff, the controller can
store up to nine reference power tariffs. This allows
smart grid offers to be used to reduce heating
costs.
Personal use of self-generated solar power
with a heat pump
Heat pump operation is favoured when self-generated, low-price PV power is available. This means
that less, expensive power has to come from the
grid and dependence on rises in the cost of electricity is reduced.
n The controller continuously measures the
output of the PV plant and household power
consumption.
n As soon as there is a surplus, the setpoint for
hot water and heating is increased, in order to
use the power with the heat pump itself.
Can also be used for modernisation, in combination with solar heat
In addition, the heat pump can also be combined
with a solar heat system. This means that the solar
plant heats the domestic water during the sunny
months, and supports the heating system in the
trans-seasonal period.
Cost savings with smart grid offers
In order to compensate for the variation in feed-in
with renewable energies, in future ever more
energy suppliers will offer graduated tariffs. This
means very reasonable electricity prices, if there is
a lot of renewable energy available or not much is
being consumed. Heat pump operation is favoured
by the controller in times with more reasonable
electricity prices.
Fig. 78: An overview of the function
A: Power tariff
B: Setpoint adjustment
1: Power tariff [ct/kWh]
2: Time
3: Setpoint adjustment [K]
The power tariff is entered via the controller's well-
Fig. 77: An overview of the function
A: Setpoint with smart heating
B: Feed-in
1: Output
2: Time
3: Temperature
known, intuitive user interface. Depending on the
deviation of the current tariff from the average, the
setpoints are raised or lowered.
78
2
1
4
3
2
4
3
1
7.2
Using the PV power surplus
The self-generated photovoltaic power is used in
the first instance for power needs in the home
(lighting, household appliances, etc.). If more PV
power is produced than is required, it is used to
produce heat with the heat pump, instead of being
fed into the public grid. However, the surplus PV
power is only employed if it is cheaper to use it for
personal use than the returns from the feed-in tariffs. In order to achieve this, the current output of
the PV plant, the actual domestic power consumption and the actual electrical output of the heat
pump are required. Existing electronic electricity
meters with an S0 interface can be used for this
purpose. This assumes that approval has been
granted to do so by the energy supplier. Otherwise, a privately-owned electricity meter can be
installed for the "PV power utilisation" function.
The impulse rate of the S0 output on the meter or
of the inverter should be at least 500 lmp./kWh. If
the impulse rate of the installed meters is lower
than this, we recommend upgrading the meters to
models with the appropriate impulse rate. The
impulse rate can be set on the controller. Please
also note that on most electricity meters the
impulse rate is entered on the front. However, this
mostly applies to the LED indicator and not for the
S0 output. The impulse rate of the S0 output must
always be taken from the technical documentation
of the meter.
Fig. 80: Positioning of meters provided by a third
party
W: Power meter
1: Heat pump
2: Energy supplier
3: Household
4: Photovoltaics
PB: P-reference
PE: P-feed-in
PP: P-photovoltaics
PW: P-heat pump
The meters are mounted on a top-hat rail. A threephase meter is required for the household electricity, while the heat pump and the PV plant each
require either a one-phase or likewise a threephase meter, depending on the model.
Fig. 79: Positioning of privately-owned meters
W: Power meter
1: Heat pump
2: Energy supplier
3: Household
4: Photovoltaics
PH: P-household
PP: P-photovoltaics
PW: P-heat pump
WKF/WKF compact
85 and 120
One-phase Three-phase
The meters for PV generation and reference/feedin are always included on PV plants with a personal use option. Instead a single the bidirectional
meter for reference and feed-in (shown in the diagram) two separate counters for reference and
feed-in can also be used.
The electricity meter for the heat pump power consumption is not strictly necessary, however it can
be added as described above.
Shielded cables with a cable section of at least 0.5
mm2 must be used for the connection between the
electricity meters and the REMKO controller. A
separate cable must be used for each power
meter, in order to avoid interaction between the
signals.
WKF/WKF compact
180
79
WP
SN
PV
HH
WP
PV
HH
21
SN
REMKO Smart WP MANAGER
Systems with a
7.3
photovoltaic plant
Systems
The smart heating function can be used with the
following variants:
n Hybrid heat pump
n Split air/water heat pump
either with or without solar heat, in each case.
Electrical connection of the heat pump
In order for the heat pump to be able to use the PV
power, the heat pump must be connected to the
same electrical connection as the PV plant. The
following connection variants are possible:
n Connection of the heat pump to the household
electricity meter. The use heat pump power tariffs is then not possible.
n Connection of the heat pump to an electricity
meter with a heat pump power tariff. Feed-in of
the PV power via the household electricity connection. The use of PV electricity by the heat
pump is then not possible, heat pump graduated tariffs can be used. However, it is possible
to switch over the heat pump at a later time.
Fig. 81: Connection diagram with separate power
meters
HH: Household
PV: Photovoltaics
SN: Mains
WP: Heat pump
Connection of the controller to the electricity
meters and inverter
In order to measure the output of the PV plant,
household electricity and heat pump, the controller
requires a connection to the electricity meters and
to the inverter of the PV plant. The controller uses
S0 interfaces for this purpose. Many electronic
power meters and many inverters already come
with such an interface integrated. In case no suitable units are installed or usable, reasonablypriced meters can be purchased privately and
fitted.
Fig. 82: Connection diagram with power meters
from the energy supplier
HH: Household
PV: Photovoltaics
SN: Mains
WP: Heat pump
1: Reference
2: Feed-in
80
8
C
Changing parameters.......................................... 8
Connection of the controller to the electricity
meters and inverter............................................ 80
Controls, Overview............................................... 7
D
Disposal of equipment......................................... 6
E
Environmental protection..................................... 6
Expert mode, Selecting........................................ 7
F
Function of the keys............................................. 7
I
Installation.......................................................... 74
Intended use........................................................ 5
K
Key function......................................................... 7
M
Menu
N
Navigation............................................................ 8
O
Operation
Index
3D house.......................................................
Information
.......... 17, 18, 19, 20, 55, 56, 57, 58, 59, 60, 61
Main menu.................................................... 16
Messages........................ 22, 69, 70, 71, 72, 73
Settings......... 21, 22, 62, 63, 64, 65, 66, 67, 68
Expert level................................................... 23
User level...................................................... 10
12
P
Photovoltaic power surplus................................ 79
R
Room installation............................................... 74
S
Safety
Dangers of failure to observe the safety
notes............................................................... 4
General........................................................... 4
Identification of notes...................................... 4
Notes for inspection........................................ 5
Notes for installation....................................... 5
Notes for maintenance.................................... 5
Personnel qualifications.................................. 4
Safety-conscious working............................... 4
Safety notes for the operator.......................... 5
Unauthorised modification ............................. 5
Unauthorised replacement part manufacture.. 5
Smart grid offers................................................ 78
Smart heating function................................. 78, 80
U
User mode, Selecting........................................... 7
Using photovoltaic power............................. 78, 80
W
Warranty.............................................................. 5
81
REMKO Smart WP MANAGER
82
Consulting
Thanks to intensive training,
our consultants are always
completely up-to-date in terms
of technical knowledge. This has
given us the reputation of being
more than just an excellent,
reliable supplier:
REMKO, a partner
helping you find solutions to
your problems.
Distribution
REMKO offers not just a well
established sales network both
nationally and internationally, but
also has exceptionally highlyqualified sales specialists.
REMKO field staff are more than
just sales representatives: above
all, they must act as advisers to
our customers in air conditioning
and heating technology.
SFlbCustomer Service
Our equipment operates
precisely and reliably. However,
in the event of a fault, REMKO
customer service is quickly at
the scene. Our comprehensive
network of experienced dealers
always guarantees quick and
reliable service.
REMKO INTERNATIONAL
… and also right in your neighbourhood!
Make use of our experience and advice
We reserve the right to make technical changes, and provide no guarantee as to the accuracy of this data!
REMKO GmbH & Co. KG
Air conditioning and heating technology
Im Seelenkamp 12 D-32791 Lage
Postfach 1827 D-32777 Lage
Telephone +49 5232 606-0
Telefax +49 5232 6 06-260
E-mail info@remko.de
Website www.remko.de
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