Resol DeltaSol MX User Manual

Download

*11211902*

11211902

Thank you for buying this RESOL product. Please read this manual carefully to get the best performance from this unit.

Please keep this manual safe.

DeltaSol

www.resol.com

Manual

System controller for complex solar and heating systems

Manual for the specialised craftsman

Installation Operation Functions and options Troubleshooting

Beginning with rmware version 2.01

The Internet portal for easy and secure access to

your system data – www.vbus.net

Safety advice

Please pay attention to the following safety advice in order to avoid danger and

damage to people and property.

Instructions

Attention must be paid to the valid local standards, regulations and directives!

Information about the product

Proper usage

The system controller is designed for electronically controlling solar thermal sys-

tems and heating systems in compliance with the technical data specied in this

manual. Improper use excludes all liability claims.

CE Declaration of conformity

The product complies with the relevant directives and is therefore labelled with the CE mark. The Declaration of Conformity is available upon request, please contact the manufacturer.

Note

Strong electromagnetic elds can impair the function of the controller.

Î Make sure the controller as well as the system are not exposed to

strong electromagnetic elds.

Target group

These instructions are exclusively addressed to authorised skilled personnel. Only qualied electricians should carry out electrical works. Initial installation must be effected by the system owner or qualied personnel

named by the system owner.

Description of symbols

WARNING!

Warnings are indicated with a warning triangle!

Î They contain information on how to avoid the danger

described.

Signal words describe the danger that may occur, when it is not avoided.

• WARNING means that injury, possibly life-threatening injury, can occur.

• ATTENTION means that damage to the appliance can occur.

Note

Notes are indicated with an information symbol.

Î Arrows indicate instruction steps that should be carried out.

Disposal

• Dispose of the packaging in an environmentally sound manner.

• Dispose of old appliances in an environmentally sound manner. Upon request we

will take back your old appliances bought from us and guarantee an environmentally sound disposal of the devices.

Subject to technical change. Errors excepted.

DeltaSol® MX

The DeltaSol

MX is the most versatile system controller for complex solar and

heating systems in our product range. It is ideal to control a combination of solar and non-solar parts of the system.

Easy combination and parameterisation of pre-programmed functions for several millions of hydraulic variants.

Contents

1 Overview ............................................................................................... 4

1.1 Optional functions ........................................................................................................5

2 Installation ............................................................................................ 5

2.1 Mounting ......................................................................................................................... 5

2.2 Electrical connection .................................................................................................... 7

2.3 Data communication / Bus ........................................................................................... 8

2.4 SD card slot .................................................................................................................... 8

3 Step-by-step parameterisation ........................................................... 9

4 Operation and function ..................................................................... 10

4.1 Buttons .......................................................................................................................... 10

4.2 Selecting menu points and adjusting values .......................................................... 10

4.3 Adjusting the timer ....................................................................................................12

4.4 Adjusting optional functions .....................................................................................14

4.5 Output selection submenu ................................................................ 16

5 Commissioning ................................................................................... 19

5.1 Basic systems ................................................................................................................20

5.2 Overview of relay and sensor allocation ...............................................................21

6 Main menu .......................................................................................... 43

6.1 Menu structure ............................................................................................................ 44

7 Status ................................................................................................... 45

7.1 Measured / Balance values .......................................................................................... 45

7.2 Solar ...............................................................................................................................45

7.3 Arrangement ................................................................................................................ 45

7.4 Heating ...........................................................................................................................45

7.5 HQM .............................................................................................................................. 45

7.6 Messages ........................................................................................................................ 45

7.7 Home screen ................................................................................................................ 46

8 Solar ..................................................................................................... 46

8.1 Basic setting ..................................................................................................................46

8.2 Optional functions ......................................................................................................49

8.3 Function control .......................................................................................................... 60

8.4 Holiday function ........................................................................................................... 61

8.5 Solar expert menu ......................................................................................................62

9 Arrangement ...................................................................................... 62

9.1 Optional functions ......................................................................................................63

10 Heating ................................................................................................ 72

10.1 Shared relays .................................................................................................................72

10.2 Heating circuits ............................................................................................................ 74

10.3 Optional functions ...................................................................................................... 83

10.4 Screed drying ................................................................................................................ 87

11 HQM .................................................................................................... 88

12 Basic settings ...................................................................................... 89

13 SD card ................................................................................................ 90

14 Manual mode ...................................................................................... 91

15 User code ............................................................................................ 92

16 Inputs / Modules ................................................................................... 92

16.1 Modules ......................................................................................................................... 92

16.2 Inputs ..............................................................................................................................92

17 Troubleshooting .................................................................................. 94

18 Accessories ......................................................................................... 97

19 Index .................................................................................................... 98

1 Overview

• 14 relay outputs and 12 inputs for Pt1000, Pt500 or KTY temperature sensors

• Up to 5 extension modules via RESOL VBus

(45 sensors and 39 relays

in total)

• Inputs for analogue and digital Grundfos Direct Sensors

as well as 1

FlowRotor

• Integrated control of up to 4 high-efciency pumps via PWM outputs

• Data logging, storing and rmware updates via SD memory card

• Cooling over the heating circuit with condensation detection by means of a dew point switch

• Simplied timer, 0-10 V boiler control and DHW preheating

• Basic solar systems also for 3 collector elds

Technical data Inputs: 12 Pt1000, Pt500 or KTY temperature sensor inputs (can optionally be

used for remote controls, operating mode switches or potential-free switches), 3 impulse inputs for V40 owmeters (can optionally be used for Pt1000, Pt500 or KTY temperature sensors, remote controls, operating mode switches or potential-free switches); 1 input for a FlowRotor, 1 CS10 solar cell, 4 Grundfos Direct SensorsTM (2 x analogue, 2 x digital)

Outputs: 14 relays, 13 of them semiconductor relays for speed control, 1 potential-free relay, 4 PWM outputs (switchable to 0-10 V)

PWM frequency: 512 Hz PWM voltage: 10.5 V Switching capacity:

1 (1) A 240 V~ (semiconductor relay) 4 (2) A 24 V⎓ / 240 V~ (potential-free relay)

Total switching capacity: 6.3 A 240 V~ Power supply: 100 … 240 V~ (50 … 60 Hz) Supply connection: type Y attachment Standby: 0.84 W Temperature controls class: VIII

Energy efciency contribution: 5 %

Mode of operation: type 1.B.C.Y action Rated impulse voltage: 2.5 kV Data interface: RESOL VBus

, SD card slot

VBus

current supply: 35 mA

Functions: 7 integrated calorimeters and control of weather-compensated heating

circuits. Adjustable system parameters and add-on options (menu-driven), balance and diagnostics functions, function control according to VDI 2169

Housing: plastic, PC-ABS and PMMA Mounting: wall mounting, also suitable for mounting into patch panels Indication / Display: full graphic display Operation: 7 buttons Protection type: IP 20 / DIN EN 60529 Protection class: I Ambient temperature: 0 … 40 °C Degree of pollution: 2 Dimensions: 253 × 200 × 47 mm

253

200

1.1 Optional functions

Solar

Bypass

CS bypass

External heat exchanger

Tube collector

Target temperature

Antifreeze

Backup heating suppression

Parallel relay

Cooling mode

Drainback

Twin pump

Heat dump

Flow rate monitoring

Pressure monitoring

2 Installation

2.1 Mounting

WARNING!

Electric shock!

Upon opening the housing, live parts are exposed!

Î Always disconnect the device from power supply before

opening the housing!

Note

Strong electromagnetic elds can impair the function of the device.

Î Make sure the device as well as the system are not exposed to strong

electromagnetic elds.

The unit must only be located in dry interior rooms. The controller must additionally be supplied from a double pole switch with contact

gap of at least 3 mm. Please pay attention to separate routing of sensor cables and mains cables.

In order to mount the device to the wall, carry out the following steps:

Î Unscrew the crosshead screw from the cover and remove it along with the

cover from the housing.

Î Mark the upper fastening point on the wall. Drill and fasten the enclosed wall

plug and screw leaving the head protruding.

Î Hang the housing from the upper fastening point and mark the lower fastening

points (centres 233 mm).

Î Insert lower wall plugs. Î Fasten the housing to the wall with the lower fastening screw and tighten. Î Carry out the electrical wiring in accordance with the terminal allocation (see

page 7).

Î Put the cover on the housing. Î Attach with the crosshead screw.

Arrangement

Parallel relay

Mixer

Zone loading

Error relay

Heat exchange

Solid fuel boiler

Circulation

Return preheating

Function block

Irradiation switch

Return mixing function

Heating

Thermal disinfection

DHW heating

DHW preheating

Chap. 2.2

FR1 Ga2 Ga1

IP 20

DeltaSol® MX

S2S3S4S5S6S7S8S9S10

S11

S12

ABC

R13

R12

T6,3A

100 ... 240 V~

50-60 Hz

R11

R10R9R8R7R6

R5NR4R3R2

L' L

CS10

R14-A

R14-M

R14-R

PWM

0-10V

VBus

Gd2 Gd1

VBus

GND

S13/ IMP1

S14/ IMP2

S15/ IMP3

R1-R13 1 (1) A 240 V~

4 (2) A 24 V /240 V~R14

2.2 Electrical connection

WARNING!

Electric shock!

Upon opening the housing, live parts are exposed!

Î Always disconnect the device from power supply

before opening the housing!

ATTENTION!

ESD damage!

Electrostatic discharge can lead to damage to electronic com-

ponents!

Î Take care to discharge properly before touching

the inside of the device! To do so, touch a grounded surface such as a radiator or tap!

Note

Connecting the device to the power supply must always be the last step of the installation!

Note

The pump speed must be set to 100 % when auxiliary relays or valves are

connected.

Note

It must be possible to disconnect the device from the mains at any time.

Î Install the mains plug such that it is accessible at any time. Î If this is not possible, install a switch that can be accessed.

Do not use the device if it is visibly damaged!

The controller is equipped with 14 relays in total to which loads such as pumps, valves, etc. can be connected:

Relays 1 … 13 are semiconductor relays, designed for pump speed control:

Conductor R1 … R13

Neutral conductor N (common terminal block) Protective earth conductor ⏚ (common terminal block) Relay 14 is a potential-free relay:

R14-A = normally open contact

R14-M = centre contact R14-R = normally closed contact

Depending on the product version, mains cables and sensor cables are already connected to the device. If that is not the case, please proceed as follows:

The temperature sensors (S1 to S12) have to be connected to the terminals S1 to S12 and GND (either polarity).

The V40 owmeters can be connected to the terminals S13 / IMP1 to S15 / IMP3 and GND (either polarity).

Connect the irradiation sensor CS10 to the terminals CS10 and GND with cor- rect polarity. To do so, connect the cable marked GND to the GND common terminal block, the cable marked CS to the terminal marked CS10.

The terminals marked PWM / 0-10 V are control outputs for high-efciency pumps.

Note

When Grundfos Direct Sensors

are used, connect the sensor ground

common terminal block to PE.

Connect the analogue Grundfos Direct Sensors™ to the Ga1 and Ga2 inputs. Connect the digital Grundfos Direct Sensors™ to the Gd1 and Gd2 inputs. Connect the FlowRotor to the FR1 input. (The FlowRotor is not available in the

RESOL portfolio) The controller is supplied with power via a mains cable. The power supply of the

device must be 100 … 240 V~ (50 … 60 Hz).

Connect the mains cable to the following terminals: Neutral conductor N Conductor L

WARNING!

Electric shock!

L' is a fused contact permanently carrying voltage.

Î Always disconnect the device from power supply

before opening the housing!

Conductor L' (L' is not connected with the mains cable. L' is a fused contact permanently carrying voltage.)

Protective earth conductor ⏚ (common terminal block)

Note

For more details about the commissioning procedure see page 9.

2.3 Data communication / Bus

The controller is equipped with the RESOL VBus

for data transfer and energy

supply to external modules. The connection is to be carried out at the terminals marked VBus (any polarity).

One or more RESOL VBus

modules can be connected via this data bus, such as:

• RESOL DL2 / DL3 Datalogger

• RESOL KM1 Communication module

Furthermore, the controller can be connected to a PC or integrated into a network via the RESOL VBus

/USB or VBus® /LAN interface adapter (not included). Different solutions for visualisation and remote parameterisation are available on the website www.resol.com. On the website, rmware updates are also available.

Note

For more information about accessories, see page 97.

2.4 SD card slot

The controller is equipped with an SD card slot.

With an SD card, the following functions can be carried out:

• Store measurement and balance values onto the SD card. After the transfer to a

computer, the values can be opened and visualised, e. g. in a spreadsheet.

• Prepare adjustments and parameterisations on a computer and transfer them via

the SD card.

• Store adjustments and parameterisations on the SD card and, if necessary, re-

trieve them from there.

• Download rmware updates from the Internet and install them on the controller.

Note

For more information about using an SD card, see page 90.

3 Step-by-step parameterisation

The DeltaSol® MX is a controller that offers a broad variety of functions to

the user. At the same time, the user has a lot of freedom in congurating them. Therefore, to set up a complex system, careful planning is required. We recommend drawing a sketch of the system rst.

If planning, hydraulic construction and electrical connection have all been carried out successfully, proceed as follows:

1. Running the commissioning menu

After the commissioning menu has been nished (see page 19), further adjustments can be made. The commissioning menu can be repeated any time by means

of a reset (see page 89). Additional adjustments will be deleted.

For further information about the commissioning menu see page page 19.

2. Registering sensors

If owmeters, ow switches, Grundfos Direct Sensors™, a FlowRotor, room control units, remote controls, switches and/or external extension modules are connected, these have to be registered in the Inputs / Modules menu.

For further information about the registration of modules and sensors see page

92.

3. Activating solar optional functions

The basic solar system has been adjusted during commissioning. Now, up to 16 optional functions can be selected, activated and adjusted.

Relays available can be allocated to optional functions which require a relay. The controller always suggests the numerically smallest relay available.

Sensors can be allocated to more than one function. For further information about the solar optional functions see page 49.

4. Activating optional arrangement functions

Up to 16 optional functions for the non-solar part of the arrangement can be selected, activated and adjusted.

Relays available can be allocated to optional functions which require a relay. The controller always suggests the numerically smallest relay available.

Sensors can be allocated to more than one function. For further information about the optional arrangement functions see page 63.

5. Adjusting heating circuits and activating optional heating functions

If one or more heating circuits are to be controlled, heating circuits can be activated and adjusted. Internal heating circuits can only be activated if at least 3 relays are available.

For the heating part of the arrangement, up to 16 optional functions can be selected, activated and adjusted.

To heating circuits and optional functions which require one or more relays, the

corresponding number of free relays can be allocated. The controller always sug-

gests the numerically smallest relay available.

Sensors can be allocated to more than one function. For further information about heating circuits and optional heating functions see

page 74.

4 Operation and function

4.1 Buttons

The controller is operated via the 7 buttons next to the display. They have the following functions:

Button ❶ - scrolling upwards Button ❸ - scrolling downwards Button ❷ - increasing adjustment values Button ❹ - reducing adjustment values Button ➄ - con rming Button ➅ - entering the status menu / chimney sweeper mode (system-dependent) Button ➆ - escape button for changing into the previous menu / to the holidays

Operating control LED (in the directional pad)

Green: Everything OK Red: Screed drying cancellation Red  ashing: Sensor fault / initialisation / chimney sweeper function active Green  ashing: Manual mode / screed drying active

4.2 Selecting menu points and adjusting values

During normal operation of the controller, the display is in the main menu. If no button is pressed for 1 min, the display illumination goes out. After 4 further minutes, the controller will display the home screen (see page 46).

Press any key to reactivate the display illumination.

Î In order to scroll through a menu or to adjust a value, press either buttons ❶

and ❸ or buttons ❷ and ❹. Î To open a submenu or to con rm a value, press button ➄. Î To enter the status menu, press button ➅ – uncon rmed adjustments will not

be saved. Î To enter the previous menu, press button ➆ – uncon rmed adjustments will

not be saved.

If no button has been pressed within a couple of minutes, the adjustment is cancelled and the previous value is retained.

If the symbol » is shown behind a menu item, pressing button ➄ will open a new submenu.

If the symbol ➕ is shown in front of a menu item, pressing button ➄ will open a new submenu. If it is already opened, a ➖ is shown instead of the ➕.

current value savedminimum value maximum value

adjusted value (not yet con rmed)

adjustment channel

Values and adjustments can be changed in different ways: Numeric values can be adjusted by means of a slide bar. The minimum value is indi-

cated to the left, the maximum value to the right. The large number above the slide

bar indicates the current adjustment. By pressing buttons ❷ or ❹ the upper slide

bar can be moved to the left or to the right. Only after the adjustment has been con rmed by pressing button ➄ will the num-

ber below the slide bar indicate the new value. The new value will be saved if it is con rmed by pressing button ➄ again.

active area inactive area

When 2 values are locked against each other, they will display a reduced adjustment range depending on the adjustment of the respective other value.

In this case, the active area of the slide bar is shortened, the inactive area is indicated as a dotted line. The indication of the minimum and maximum values will adapt to

the reduction.

If only one item of several can be selected, they will be indicated with radio buttons.

When one item has been selected, the radio button in front of it is  lled.

If more than one item of several can be selected, they will be indicated with check-

boxes. When an item has been selected, an x appears inside the checkbox.

4.3 Adjusting the timer

When the Timer option is activated, a timer is in- dicated in which time frames for the function can be adjusted.

In the Day selection channel, the days of the week

are available individually and as frequently selected

combinations.

If more than one day or combination is selected, they

will be merged into one combination for the following steps.

The last menu item after the list of days is Continue.

If Continue is selected, the timer menu opens, in which

the time frames can be adjusted.

Adding a time frame:

In order to add a time frame, proceed as follows:

Î Select New time frame.

Î Adjust Start and Stop for the desired time frame.

The time frames can be adjusted in steps of 5 min.

Î In order to save the time frame, select Save and

con rm the security enquiry with Ye s .

Î In order to add another time frame, repeat the

previous steps.

6 time frames can be adjusted per day or combination.

Î Press the left button (⟲) in order to get back to

the day selection.

Copying a time frame:

In order to copy time frames already adjusted into

another day / another combination, proceed as follows:

Î Choose the day / the combination into which the

time frames are to be copied and select Copy from.

A selection of days and / or combinations with time frames will appear.

Î Select the day or combination from which the

time frames are to be copied.

All time frames adjusted for the selected day or combination will be copied.

If the time frames copied are not changed, the day or

combination will be added to the combination from

which the time frames have been copied.

Changing a time frame:

In order to change a time frame, proceed as follows:

Î Select the time frame to be changed. Î Make the desired change.

Î In order to save the time frame, select Save and

con rm the security enquiry with Ye s .

Removing a time frame:

In order to delete a time frame, proceed as follows:

Î Select the time frame that is to be deleted.

Î Select Delete and con rm the security enquiry

with Ye s .

Resetting the timer:

In order to reset time frames adjusted for a certain day

or combination, proceed as follows

Î Select the desired day or combination.

Î Select Reset and con rm the security enquiry

with Ye s .

The selected day or combination will disappear from

the list, all its time frames will be deleted.

In order to reset the whole timer, proceed as follows:

Î Select Reset and con rm the security enquiry

with Ye s .

All adjustments made for the timer are deleted.

4.4 Adjusting optional functions

In the Optional functions menus, optional functions can be selected and adjusted. By selecting Add new function, different pre-programmed functions can be se-

lected.

The kind and number of optional functions offered depends on the previous ad-

justments.

When a function is selected, a submenu will open in which all adjustments required

can be made.

In this submenu, an output and, if necessary, certain system components can be

allocated to the function.

If an output can be allocated to the function, the output selection menu Output will open (see page 16).

When a function has been adjusted and saved, it will appear in the Optional func- tions menu above the menu item Add new function.

This allows an easy overview of functions already saved. An overview about which sensor has been allocated to which component and

which relay has been allocated to which function is given in the Status menu.

At the end of each optional function submenu, the menu items Function and Save function are available. In order to save a function, select Save function and con rm the security enquiry by selecting Yes.

In functions already saved, the menu item Delete function will appear instead.

In order to delete a function already saved, select Delete function and con rm the security enquiry by selecting Yes. The function will become available under Add new function again. The corresponding outputs will be available again.

With the menu item Function, an optional function already saved can be tem-

porarily deactivated or re-activated respectively. In this case, all adjustments will

remain stored, the allocated outputs will remain occupied and cannot be allocated

to another function. The allocated sensor will be monitored for faults.

By selecting Switch, the function can be activated or deactivated respectively by

means of an external potential-free switch.

The selection is only available if a sensor input has previously been set to Switch

in the Inputs / Modules menu.

If Switch is selected, the channel Sensor will appear. In this channel, the sensor

input to which the switch is to be connected can be allocated to the function.

4.5 Output selection submenu

The Output selection submenu is available in almost all optional functions. Therefore, it will not be explained in the individual function descriptions.

In this submenu, relays and / or signal outputs can be allocated to the function se-

lected. All adjustments required for the outputs can be made in this menu.

All controller and module (if connected) outputs available will be displayed. If - is se- lected, the function will run normally in the software but will not operate an output. Relay and signal outputs can be activated separately. Depending on the adjustments made, the following results are possible:

Settings Result

Relay option PWM/0-10 V option Speed control Adapter option Behaviour of the relay output Behaviour of the signal output Behaviour of the adapter

Ye s Ye s Ye s Ye s

On/Off Modulating Modulating

Ye s No Ye s No

Burst control - Modulating

Ye s No Ye s Ye s

On/Off - Modulating

Ye s No No irrelevant*

On/Off - 0 % / 100 %

Ye s Ye s Ye s No

On/Off Modulating 0 % / 100 %

Ye s Ye s Ye s Ye s

On/Off Modulating Modulating

Ye s Ye s No irrelevant*

On/Off 0 % / 100 % 0 % / 100 %

No Ye s Ye s irrelevant*

- Modulating -

No Ye s No irrelevant*

- 0 % / 100 % -

* If the Relay option and / or speed control is deactivated, the adjustment in the adapter option will have no effect.

Adjustment channel

Description

Adjustment range / selection

Factory setting

Relay Relay option Yes, No No

Relay Relay selection system dependent system dependent

PWM/0-10 V PWM/0-10 V option Yes, No No

Output Signal output selection system dependent system dependent

Signal Signal type PWM, 0-10 V PWM

Prole Characteristic curve Solar, Heating Solar

Speed Speed control Yes, No system dependent

Min. Minimum speed 20 … 100 % 20 %

Max. Maximum speed 20 … 100 % 100 %

Adapter Adapter option Yes, No No

Inverted Inverted switching option Yes, No No

Blocking protection

Blocking protection option Yes, No No

Manual mode Operating mode Max, Auto, Min, Off Auto

1 relay and / or 1 0-10 V output can be allocated to each output selection.

100

0 246810 12 14 16 18 20 22 24

Temperature difference

Pump speed [%]

10,0 10,2 10,4 10,6 10,8

11,2 11,4 11,6 11,8

Temperature difference collector – store [K]

Pump speed [%]

Detail

Speed control

In the Speed adjustment channel, the speed control for the output can be acti-

vated or deactivated respectively If Ye s is selected, the channels Min., Max. and

Adapter will appear.

In the Min. adjustment channel, a relative minimum speed for a pump connected

can be allocated to the output

In the Max. adjustment channel, a relative maximum speed for a pump connected

can be allocated to the output.

If the speed control signal is generated via a VBus

/ PWM interface adapter, the

Adapter option has to be activated. If Ye s is selected, the relay will switch on or

off (no burst control). Speed information will be transmitted via the VBus

For functions controlling loads which are not speed controlled, the speed control

will not be shown on the display (e. g. the bypass type, mixer).

If the temperature difference reaches or exceeds the Switch-on temperature differ-

ence, the pump switches on at 100 % speed for 10 s. Then, the speed is reduced to

the Minimum pump speed value. If the temperature difference exceeds the adjusted

Set value by 1/10 of the rise value, the pump speed increases by one step (1 %). The

response of the controller can be adapted via the parameter Rise. Each time the

difference increases by 1/10 of the adjustable Rise value, the pump speed increases

by one step until the Maximum pump speed of 100% is reached. If the temperature

difference decreases by 1/10 of the adjustable Rise value, pump speed will be de-

creased by one step.

Relay option If the Relay option is activated, a relay can be allocated to the output selection.

0-10 V option

If the 0-10 V option is activated, a 0-10 V output can be allocated to the output selection.

In the Signal channel, a selection between a PWM or a 0-10 V signal can be made. In the Prole channel, characteristic curves for solar and heating pumps can be selected.

Signal characteristic: PWM; Prole: Solar

Input

Solar

Output

100%0%

PWM

0-10 V

100%

Signal characteristic: PWM; Prole: Heating

Input

Heating

Output

100%0%

PWM

0-10 V

100%

Blocking protection

In order to protect the pumps against blocking after standstill, the controller is equipped with a blocking protection option. This option can be activated in the

output selection submenu. The Blocking protection option can be adjusted in the Basic setting / Blocking protection menu (see page 89).

Manual mode

In the Manual mode adjustment channel, the operating mode of the output can be selected. The following options are available:

Off = Output is switched off (manual mode) Min = Output active with minimum speed (manual mode) Max = Output active at 100 % speed (manual mode)

Auto = Output is in automatic mode

Note

After service and maintenance work, the operating mode must be set

back to Auto. Normal operation is not possible in manual mode.

5 Commissioning

When the hydraulic system is  lled and ready for operation, connect the controller

to the mains.

The controller runs an initialisation phase in which the directional pad  ashes red. When the controller is commissioned or when it is reset, it will run a commis-

sioning menu after the initialisation phase. The commissioning menu leads the user through the most important adjustment channels needed for operating the system.

Commissioning menu

The commissioning menu consists of the channels described in the following. In order to make an adjustment, press button ➄. Adjust the value by pressing buttons ❹ and ❷, then push button ➄ to con rm. The next channel will appear in the display.

Adjustment mode

Button navigation

Changing a value

Con rming a value

Next parameter appears

automatically

1. Language:

Î Adjust the desired menu language.

2. Units:

Î Adjust the desired unit system.

4. Time:

Î Adjust the clock time. First of all adjust the hours,

then the minutes.

5. Date:

Î Adjust the date. First of all adjust the year, then the

month and then the day.

3. Daylight savings time adjustment:

Î Activate or deactivate the automatic daylight sav-

ings time adjustment.

6. Selection: System or Scheme

Î Choose whether the controller is to be con g-

ured with a scheme number or with a system and

a variant.

8. Completing the commissioning menu:

After the system has been selected or the scheme

number has been entered, a security enquiry appears. If the security enquiry is con rmed, the adjustments will be saved.

Î In order to con rm the security enquiry, press

button ➄.

Î In order to reenter the commissioning menu

channels, press button ➆. If the security enquiry has been con rmed, the controller will be ready

for operation and should enable an optimum system operation.

Note

The adjustments carried out during commissioning can be changed anytime in the corresponding adjustment channel. Additional

functions and options can also be activated or deactivated (see page 43).

Set the code to the customer code before handing over the controller to the customer (see page 92).

5.1 Basic systems

The controller is pre-programmed for 13 basic systems. The selection depends on

the number of heat sources (collector  elds) and heat sinks (stores, pool). Factory

setting is system 1.1.1. The selection of the basic solar system is one of the most important adjustments

and is thus requested already in the commissioning menu.

First, the number of collector  elds and stores will have to be adjusted, then the hydraulic variant.

Note

A solar system with store loading in layers is implemented as a 2-store

system (store top = store 1; store base = store 2).

The system selected is visualised by the corresponding number of store and collector symbols. The exemplary  gure shows system 2.3.x with 2 collector  elds

and 3 stores.

The hydraulic variant refers to the different actuators that are to be controlled. They are visualised on the display by means of symbols, when the variant is selected. The upper symbol indicates the actuator belonging to the collector  elds, the lower

one the actuators belonging to the stores.

The exemplary  gure shows the display indicated when system 2.3.2 has been se-

lected.

In this case, each collector  eld has a 2-port valve, the stores are loaded by means

of pump logic. The controller allocates corresponding relay and sensor settings for each basic

system. The allocations of all combinations are shown in chap. 5.2.

7b. Selection of the solar system

(if 6. = System):

Î Adjust the desired solar system (number of collec-

tors and stores, hydraulic variants).

7a. Scheme (if 6. = Scheme):

Î Enter the scheme number of the desired system.

R1; A

Sensors

Collector 1 S1 Store base S2

Relays; PWM/0-10

Solar pump R1; A

System 1.2.1

Sensors

Collector S1 Store 1 base S2 Store 2 base S4

Relays; PWM/0-10

Solar pump R1; A 3-PV store 2 R2

System 1.1.1

5.2 Overview of relay and sensor allocation

R1; A R2; B

R1; A

R2 R3

Sensors

Collector S1 Store 1 base S2 Store 2 base S4

Relays; PWM/0-10

Solar pump store 1 R1 ; A Solar pump store 2 R2; B

Sensors

Collector S1 Store 1 base S2 Store 2 base S4

Relays; PWM/0-10

Solar pump R1; A 2-PV store 1 R2 2-PV store 2 R3

System 1.2.2

System 1.2.3

R1; A

R2 R3 R4

S2 S4

R1; A R2; B R3; C

S5S4S2

System 1.3.1 System 1.3.2

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5

Relays; PWM/0-10

Solar pump R1; A 2-PV store 1 R2 2-PV store 2 R3 2-PV store 3 R4

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5

Relays; PWM/0-10

Solar pump store 1 R1 ; A Solar pump store 2 R2; B Solar pump store 3 R3; C

S2 S4

R1; A

S2 S4 S5

R1; A

R2 R3 R4 R5

System 1.3.3 System 1.4.1

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5

Relays; PWM/0-10

Solar pump R1; A 3-PV store 1 R2 3-PV store 2 R3

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Store 4 base S6

Relays; PWM/0-10

Solar pump R1; A 2-PV store 1 R2 2-PV store 2 R3 2-PV store 3 R4 2-PV store 4 R5

S2 S4 S5

R1; A

R2 R3 R4

S2 S4 S5 S6

R1; A R3; C R4; DR2; B

System 1.4.2 System 1.4.3

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Store 4 base S6

Relays; PWM/0-10

Solar pump R1; A 3-PV store 1 R2 3-PV store 2 R3 3-PV store 3 R4

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Store 4 base S6

Relays; PWM/0-10

Solar pump store 1 R1 ; A Solar pump store 2 R2; B Solar pump store 3 R3; C Solar pump store 4 R4; D

S2 S4 S5 S6

R1; A

R3 R4 R5 R6

S2 S4 S5 S6

R1; A

System 1.5.1 System 1.5.2

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Store 4 base S6 Store 5 base S7

Relays; PWM/0-10

Solar pump R1; A 2-PV store 1 R2 2-PV store 2 R3 2-PV store 3 R4 2-PV store 4 R5 2-PV store 5 R6

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Store 4 base S6 Store 5 base S7

Relays; PWM/0-10

Solar pump R1; A 3-PV store 1 R2 3-PV store 2 R3 3-PV store 3 R4 3-PV store 4 R5

S1 S6

R1;

R2; B

S2 S4 S5 S6

R1; A R2; B R3; C R4; D R5; on/off

System 1.5.3 System 2.1.1

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Store 4 base S6 Store 5 base S7

Relays; PWM/0-10

Solar pump store 1 R1 ; A Solar pump store 2 R2; B Solar pump store 3 R3; C Solar pump store 4 R4; D Solar pump store 5 R5; on/off

Sensors

Collector 1 S1 Store base S2 Collector 2 S6

Relays; PWM/0-10

Pump collector 1 R 1 ; A Pump collector 2 R2; B

S1 S6

R1 R2

R3;

R1;

R2; B

S2 S4

S1 S6

System 2.1.2 System 2.2.1

Sensors

Collector 1 S1 Store base S2 Collector 2 S6

Relays; PWM/0-10

2-PV collector 1 R1 2-PV collector 2 R2 Solar pump R3; A

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Collector 2 S6

Relays; PWM/0-10

Pump collector 1 R 1 ; A Pump collector 2 R2; B 3-PV store 2 R3

R1;

R2; B

S1 S6

R3 R4

S1 S6

R3; A

R4; B

System 2.2.2 System 2.2.3

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Collector 2 S6

Relays; PWM/0-10

Pump collector 1 R 1 ; A Pump collector 2 R2; B 2-PV store 1 R3 2-PV store 2 R4

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Collector 2 S6

Relays; PWM/0-10

2-PV collector 1 R1 2-PV collector 2 R2 Solar pump store 1 R3 ; A Solar pump store 2 R4; B

S2 S4

S1 S6

R3; A

R1; A R2; B

S6S1

S2 S4 S5

R5R4R3

System 2.2.4 System 2.3.1

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Collector 2 S6

Relays; PWM/0-10

2-PV collector 1 R1 2-PV collector 2 R2 Solar pump R3; A 3-PV store 2 R4

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6

Relays; PWM/0-10

Pump collector 1 R 1 ; A Pump collector 2 R2; B 2-PV store 1 R3 2-PV store 2 R4 2-PV store 3 R5

S1 S6

S2 S4 S5

R1; A R2; B R3; C

S2 S4 S5

S1 S6

R3; A

R4 R5 R6

System 2.3.3

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6

Relays; PWM/0-10

Solar pump store 1 R1 ; A Solar pump store 2 R2; B Solar pump store 3 R3; C 2-PV collector 1 R4 2-PV collector 2 R5

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6

Relays; PWM/0-10

2-PV collector 1 R1 2-PV collector 2 R2 Solar pump R3; A 2-PV store 1 R4 2-PV store 2 R5 2-PV store 3 R6

System 2.3.2

S2 S4 S5

S1 S6

R1; A

R2; B

R3 R4

S2 S4

R3; A

System 2.3.4 System 2.3.5

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6

Relays; PWM/0-10

Pump collector 1 R 1 ; A Pump collector 2 R2; B 3-PV store 1 R3 3-PV store 2 R4

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6

Relays; PWM/0-10

2-PV collector 1 R1 2-PV collector 2 R2 Solar pump R3; A 3-PV store 1 R4 3-PV store 2 R5

S2 S4 S5 S7

R2; B

R1; A

S2 S4 S5 S7

R2; B

R1; A

System 2.4.1

System 2.4.2

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6 Store 4 base S7

Relays; PWM/0-10

Pump collector 1 R 1 ; A Pump collector 2 R2; B 2-PV store 1 R3 2-PV store 2 R4 2-PV store 3 R5 2-PV store 4 R6

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6 Store 4 base S7

Relays; PWM/0-10

Pump collector 1 R 1 ; A Pump collector 2 R2; B 3-PV store 1 R3 3-PV store 2 R4 3-PV store 3 R5

S2 S4 S5 S7

R2; B R3; CR1; A

R4; D

S2 S4 S5 S7

R3; A

System 2.4.3 System 2.4.4

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6 Store 4 base S7

Relays; PWM/0-10

Solar pump store 1 R1 ; A Solar pump store 2 R2; B Solar pump store 3 R3; C Solar pump store 4 R4; D 2-PV collector 1 R5 2-PV collector 2 R6

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6 Store 4 base S7

Relays; PWM/0-10

2-PV collector 1 R1 2-PV collector 2 R2 Solar pump R3; A 2-PV store 1 R4 2-PV store 2 R5 2-PV store 3 R6 2-PV store 4 R7

R1; A

R2; B

R3; C

S6 S8

S2 S4 S5 S7

R3; A

System 2.4.5

System 3.1.1

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6 Store 4 base S7

Relays; PWM/0-10

2-PV collector 1 R1 2-PV collector 2 R2 Solar pump R3; A 3-PV store 1 R4 3-PV store 2 R5 3-PV store 3 R6

Sensors

Collector 1 S1 Store base S2 Collector 2 S6 Collector 3 S8

Relays; PWM/0-10

Pump collector 1 R 1 ; A Pump collector 2 R2; B Pump collector 3 R3; C

System 3.2.1

R1; A

R2; B

R4; C

S6 S8

System 3.1.2

R1 R2 R4

S6 S8

R3; A

Sensors

Collector 1 S1 Store base S2 Collector 2 S6 Collector 3 S8

Relays; PWM/0-10

2-PV collector 1 R1 2-PV collector 2 R2 Solar pump R3; A 2-PV collector 3 R4

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Collector 2 S6 Collector 3 S8

Relays; PWM/0-10

Pump collector 1 R 1 ; A Pump collector 2 R2; B 3-PV store 2 R3 Pump collector 3 R4; C

System 3.2.2

R1; A

R2; B

R5; C

S6 S8

System 3.2.3

S6 S8

R3; A

R4; B

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Collector 2 S6 Collector 3 S8

Relays; PWM/0-10

Pump collector 1 R 1 ; A Pump collector 2 R2; B 2-PV store 1 R3 2-PV store 2 R4 Pump collector 3 R5; C

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Collector 2 S6 Collector 3 S8

Relays; PWM/0-10

2-PV collector 1 R1 2-PV collector 2 R2 Solar pump store 1 R3 ; A Solar pump store 2 R4; B 2-PV collector 3 R5

System 3.2.4

S6 S8

R3; A

System 3.3.1

R1; A

R2; B R6; C

S6 S8

R4R3

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Collector 2 S6 Collector 3 S8

Relays; PWM/0-10

2-PV collector 1 R1 2-PV collector 2 R2 Solar pump R3; A 3-PV store 2 R4 2-PV collector 3 R5

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6 Collector 3 S8

Relays; PWM/0-10

Pump collector 1 R 1 ; A Pump collector 2 R2; B 2-PV store 1 R3 2-PV store 2 R4 2-PV store 3 R5 Pump collector 3 R6; C

System 3.3.2

R5 R6

S6 S8

R2; B

R1; A

R3; C

System 3.3.3

R1 R2 R7

S6 S8

R3; A

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6 Collector 3 S8

Relays; PWM/0-10

Solar pump store 1 R1 ; A Solar pump store 2 R2; B Solar pump store 3 R3; C 2-PV collector 1 R4 2-PV collector 2 R5 2-PV collector 3 R6

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6 Collector 3 S8

Relays; PWM/0-10

2-PV collector 1 R1 2-PV collector 2 R2 Solar pump R3; A 2-PV store 1 R4 2-PV store 2 R5 2-PV store 3 R6 2-PV collector 3 R7

System 3.3.4

R1; A

R2; B R5; C

S6 S8

System 3.3.5

R1 R2 R6

S6 S8

R3; A

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6 Collector 3 S8

Relays; PWM/0-10

Pump collector 1 R 1 ; A Pump collector 2 R2; B 3-PV store 1 R3 3-PV store 2 R4 Pump collector 3 R5; C

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6 Collector 3 S8

Relays; PWM/0-10

2-PV collector 1 R1 2-PV collector 2 R2 Solar pump R3; A 3-PV store 1 R4 3-PV store 2 R5 2-PV collector 3 R6

System 3.4.1

System 3.4.2

R1; A

R2; B

R6; C

S6 S8

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6 Store 4 base S7 Collector 3 S8

Relays; PWM/0-10

Pump collector 1 R 1 ; A Pump collector 2 R2; B 2-PV store 1 R3 2-PV store 2 R4 2-PV store 3 R5 2-PV store 4 R6 Pump collector 3 R7; C

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6 Store 4 base S7 Collector 3 S8

Relays; PWM/0-10

Pump collector 1 R 1 ; A Pump collector 2 R2; B 3-PV store 1 R3 3-PV store 2 R4 3-PV store 3 R5 Pump collector 3 R6; C

R1; A

R2; B

R7; C

S6 S8

R5 R6

System 3.4.3

R6 R7

S6 S8

R2; BR1; A

R3; C

R4; D

System 3.4.4

R2 R8

S6 S8

R3; A

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6 Store 4 base S7 Collector 3 S8

Relays; PWM/0-10

Solar pump store 1 R1 ; A Solar pump store 2 R2; B Solar pump store 3 R3; C Solar pump store 4 R4; D 2-PV collector 1 R5 2-PV collector 2 R6 2-PV collector 3 R7

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6 Store 4 base S7 Collector 3 S8

Relays; PWM/0-10

2-PV collector 1 R1 2-PV collector 2 R2 Solar pump R3; A 2-PV store 1 R4 2-PV store 2 R5 2-PV store 3 R6 2-PV store 4 R7 2-PV collector 3 R8

System 3.4.5

R2 R7

S6 S8

R3; A

Sensors

Collector 1 S1 Store 1 base S2 Store 2 base S4 Store 3 base S5 Collector 2 S6 Store 4 base S7 Collector 3 S8

Relays; PWM/0-10

2-PV collector 1 R1 2-PV collector 2 R2 Solar pump R3; A 3-PV store 1 R4 3-PV store 2 R5 3-PV store 3 R6 2-PV collector 3 R7

6 Main menu

In this menu, the different menu areas can be selected.

The following menus are available:

• Status

• Solar

• Arrangement

• Heating

• HQM

• Basic settings

• SD card

• Manual mode

• User code

• Inputs / Modules

Î Select the menu area by pressing buttons ❶ and ❸. Î Press button ➄ in order to enter the menu area selected.

Note

If no button is pressed for 1 min, the display illumination goes out. After 4 further minutes, the controller will display the home screen (see page

46).

Î In order to get from the status menu into the main menu, press but-

ton ➆!

Main menu

Status

Solar

Arrangement

Heating

HQM

Basic settings

SD card

Manual mode

User code

Inputs / Modules

Solar

Basic setting

Optional functions

Function control

…

Arrangement

Optional functions

Basic setting

System

Collector

Store

Loading logic

Optional functions

Parallel relay

Mixer

Zone loading

Error relay

…

Heating

Shared relays

Heating circuits

Optional functions

Parallel relay

Output

Reference relay

Overrun

Delay

Speed

…

Basic settings

Language

Auto DST

Date

Time

Temp. unit

Flow unit

…

Inputs / Modules

Modules

Inputs

6.1 Menu structure

Note

The menu items and adjustment values selectable are variable depending on adjustments already made. The gure only shows an exemplary excerpt of the complete menu in order to visualise the menu structure.

7 Status

In the status menu of the controller, the status messages for every menu area can

be found.

Use the buttons ❷ and ❹ for scrolling through the status menu.

❷

❹

At the end of each submenu, the menu item Adjustment values can be found.

If Adjustment values is selected, the corresponding menu will open.

Î In order to get back to the status menu, press button ➆.

7.1 Measured / Balance values

In the Status / Meas. / Balance values menu, all current measurement values as well as a range of balance values are displayed. Some of the menu items can be

selected in order to enter a submenu. Each sensor and relay is indicated with the component or function it has been

allocated to. The symbol ▶ at the edge of the display next to a sensor allocated to a function, means that this sensor has several functions. Use buttons ❷ and ❹ to scroll to these functions. The sensors and relays of the controller and all modules connected are listed in numerical order.

7.2 Solar

The Status / Solar menu shows all status information of the solar system and all

optional functions activated.

7.3 Arrangement

The Status / Arrangement menu shows all status information of all activated op-

tional functions of the arrangement.

7.4 Heating

In the Status / Heating menu, the status of the demands and heating circuits acti-

vated as well as of the selected optional functions is indicated.

7.5 HQM

In the Status / HQM menu, all current measured values of the  ow and return

sensors,  ow rate and power as well as heat quantities are indicated.

7.6 Messages

In the Status / Messages menu, error and warning messages are indicated.

During normal operation, the message Everything OK is indicated.

When a monitoring function from the function control is activated and detects a

fault condition, a corresponding message will be indicated (see table page 60).

A message consists of the name of the monitoring function, a 4-digit error code and

a short text description of the fault condition.

In order to acknowledge a message, proceed as follows:

Î Select the code line of the desired message by pressing buttons ❶ and ❸. Î Acknowledge the message by pressing button ➄. Î Con rm the security enquiry by selecting Ye s .

When the installer user code has been entered, the menu item Restarts will ap-

pear below the messages. The value indicates the number of controller restarts

since commissioning. This value cannot be reset.

Error code Display Monitoring function Cause

0001 !Sensor fault! Sensor line break Sensor line broken

0002 !Sensor fault! Sensor short circuit Sensor line short-circuited

0011 !DT too high! DT too high

Collector 50 K > than

store to be loaded

0021 !Night circulation! Night circulation

Betw. 11 p.m. and 5 a.m.

col. temp > 40 °C

0031 !FL/RE interch.! FL/RL interchanged

Col. temp. does not rise after switching on

0041 !Flow r. monit.! Flow rate monitoring No  ow rate at sensor

0051 !Overpressure! Overpressure monitoring

Max. system pressure exceeded

0052 !Low pressure! Low pressure monitoring

System pressure below minimum

0061 !Data storage!

Storing and changing adjustments not possible

0071 !RTC!

Time-controlled functions (e. g. night correction) not possible

0081 !Store max. temp. Maximum store temperature St. max has been exceeded

0091 Restarts

Restart counter

(non-adjustable)

Number of restarts since commissioning

Note The function control Flow and return interchanged according to the

VDI guidelines 2169 can only correctly detect and indicate the error 0031 !FL/RE interch.! if the collector sensor measures the temperature di-

rectly in the  uid at the collector outlet. If the collector sensor is not correctly placed, a false message may occur.

Î Place the collector sensor directly in the  uid at the collector outlet

or deactivate the Flow and return interchanged function control.

7.7 Home screen

In the Home screen menu, the menu which will appear if no button is pressed for a longer period of time can be selected.

8 Solar

In this menu, all adjustments for the solar part of the arrangement can be made. The Solar menu consists of the following submenus:

• Basic setting

• Optional functions

• Function control

• Holiday function

• Expert

8.1 Basic setting

In this menu, all Basic settings for the solar part of the arrangement can be adjusted. In this menu, the hydraulic system, which is the basis for the arrangement, can be

adjusted. The setting is divided into number of collector  elds and stores as well as hydraulic variant.

The number of collector  elds and stores as well as the hydraulic variant have nor-

mally already been adjusted in the commissioning menu.

Note

If the setting is changed later on, all adjustments for the solar part of the

arrangement will be set back to their factory settings. If the change causes the solar system to require a PWM / 0-10-V output

that has been allocated to an arrangement or heating function before, all

adjustments made in non-solar functions will be set back to their factory settings as well.

The system selected is visualised by the corresponding number of store and collector symbols. The exemplary  gure shows system 2.3.x with 2 collector  elds

and 3 stores.

Afterwards, the hydraulic variant can be selected. The variant is visualised on the display by means of pump and valve symbols. The exemplary  gure shows the display

indicated when system 2.3.2 has been selected.

In this case, each collector  eld has a 2-port valve, the stores are loaded by means of pump logic. For an overview of the systems and their variants see page 21.

The controller supports up to 3 collector  elds and up to 5 solar stores (with 2 or 3 collector  elds only up to 4 solar stores).

The following items in the Solar / Basic setting menu will adjust to the system selected.

Collector (1 / 2 / 3)

Solar / Basic setting / Collector (1 / 2 / 3)

Adjustment channel

Description

Adjustment range / selection

Factory setting

Colmin. Minimum collector limitation Yes, No Ye s

Colmin. Minimum collector temperature 10 … 90 °C 10 °C

Colem. Collector emergency temperature 80 … 200 °C 130 °C

In systems with 2 or 3 collector  elds, up to 3 seperate menu items (Collector 1 and Collector 2) are displayed instead of Collector.

For each collector  eld, a Collector minimum limitation and a Collector emergency

shutdown temperature can be adjusted.

Store (1 / 2 / 3 / 4 / 5)

Solar / Basic setting / Store (1 / 2 / 3 / 4 / 5)

Adjustment channel

Description

Adjustment range / selection

Factory setting

DTo n

Switch-on temperature difference

1.0 … 20.0 K 6.0 K

DToff

Switch-off temperature difference

0.5 … 19.5 K 4.0 K

DTset Set temperature difference 1.5 … 30.0 K 10.0 K

Stset Set store temperature 4 … 95 °C 45 °C

Stmax Maximum store temperature 4 … 95 °C 60 °C

Priority Store priority 1 … 5 system dependent

HysSt

Hysteresis maximum store temperature

0.1 … 10.0 K 2.0 K

Rise Rise value 1.0 … 20.0 K 2.0 K

tMin Minimum runtime 0 … 300 s 30 s

Min. speed Minimum speed 20 … 100 % 30 %

Store Blocked for solar loading

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

In systems with 2 or more stores, the corresponding number of separate menu

items (Store 1 to Store 5) is displayed instead of Store.

For each store, an individual DT control, a Set and a Maximum temperature, the

Priority (in multi-store systems), a Hysteresis, a Rise value, a Minimum runtime and

a Minimum pump speed can be adjusted.

In multi-store systems with differing Set store / Maximum store temperatures, all stores are  rst loaded up to their Set store temperatures, then up to their Max- imum store temperatures (according to their priority and the store sequence control). If one of the stores does not reach its set temperature, e. g. because the temperature difference is not suf ciently high, the subsequent store will be loaded past its set temperature up to its maximum temperature, if the switch-on condition is ful lled.

The store number refers to the corresponding store sensor, not to the priority of the store. In the Priority channel, the corresponding store number is suggested as factory setting, but may be changed at will.

The store numbers refer to the sensors as follows:

Store 1 = Sensor S2 Store 2 = Sensor S4 Store 3 = Sensor S5 Store 4 = Sensor S6 or S7 Store 5 = Sensor S7 Each loading process will be carried out for the duration of the Minimum runt-

ime at least, regardless of the switch-off condition.

Note

In order to prevent system damage, the controller is also equipped with an integrated store emergency shutdown, deactivating the complete solar

system if one of the stores reaches 95 °C [200 °F].

Loading logic

Solar / Basic setting / Load. logic

Adjustment channel

Description

Adjustment range / selection

Factory setting

Type Loading logic type Store seq./Succ. loading Store seq.

Load. break Loading break time 1 … 5 min 2 min

Circ. t. Circulation time 1 … 60 min 15 min

Break speed Break speed option Yes, No No

Speed Loading break time speed 20 … 100 % 30 %

Spreaded loading

Spreaded loading option Yes, No No

DT Spread temperature difference 20 … 90 K 40 K

Pump delay Pump delay Yes, No No

Delay Delay time 5 … 600 s 15 s

In systems with 2 or more stores, loading logic adjustments can be made in this

menu.

In systems with 1 store, only the menu item Pump delay will be available.

Store sequence control

If the priority store cannot be loaded, the subordinate store next in priority will be checked. If useful heat can be added, it will be loaded for the circulation time. After

the Circulation time has elapsed, the loading process will stop and the controller will monitor the increase in collector temperature during the Loading break

time. If it increases by 2 K, the break time timer will start again to allow the collector to gain more heat. If the collector temperature does not increase suf ciently,

the subordinate store will be loaded again for the Circulation time as before.

As soon as the switch-on condition of the priority store is ful lled, it will be loaded. If the switch-on condition of the priority store is not ful lled, loading of the subordinate store will be continued. If the priority store reaches its maximum temperature,

store sequence control will not be carried out.

Successive loading

Successive loading means that the priority store will be loaded up to its maximum temperature. If it is reached, the next store available for heating will be loaded. If the temperature of the priority store falls below the set store temperature, the next store will no longer be loaded, regardless of whether the switch-on conditions of the priority store or of the subordinate store are ful lled or not. If all store have been loaded to their set temperature, the same process will take place until the stores have reached their maximum temperature. Each loading process will be carried out for the Minimum runtime (Solar / Basic setting / Store) at least, regardless of the switch-off condition.

Spreaded loading option

In multi-store systems without 3-port valves, a spreaded loading function can be activated: As soon as the adjustable Spread temperature difference between the collector and the priority store is reached, the next store will be loaded in parallel unless it is blocked. If the temperature difference falls by 2 K below the DT value,

the pump will be switched off. The collector temperature has to be higher than the store temperature.

Relay

Solar / Basic setting / Relay

Adjustment channel Description

Adjustment range / selection

Factory setting

Relay Relay display system dependent system dependent PWM/0-10 V PWM/0-10 V option Yes, No No Output Signal output selection system dependent system dependent Signal Signal type PWM, 0-10 V PWM Pro le Characteristic curve Solar, Heating Solar Speed Speed control Yes, No system dependent Min. Minimum speed 20 … 100 % 20 % Max. Maximum speed 20 … 100 % 100 % Adapter Adapter option Yes, No No Inverted Inverted switching option Yes, No No

Adjustment channel Description

Adjustment range / selection

Factory setting

Blocking protection Blocking protection option Yes, No No Manual mode Operating mode Max, Auto, Min, Off Auto

This submenu indicates the components to which the ouputs of the system select-

ed have been allocated. All adjustments required for the outputs can be made in

this menu.

8.2 Optional functions

In this menu, additional functions can be selected and adjusted for the solar part of

the arrangement.

The kind and number of optional functions offered depends on the previous ad-

justments.

Note

For further information about adjusting optional functions, see page 14.

Bypass

Type valve

Type pump

Bypass sensor

Output

Bypass sensor

Output

Type valve (inverted)

Output

Bypass sensor

Exemplary schematics for the bypass variants

Solar / Opt. functions / Add new function / Bypass

Adjustment channel

Description

Adjustment range / selection

Factory setting

Collector Collector  eld system dependent system dependent

Output Bypass output system dependent system dependent

Type Variant (pump or valve logic) Pump, Valve Pump

Inverted Valve logic inversion Yes, No No

Sensor Bypass sensor system dependent system dependent

DTo n

Bypass switch-on temperature difference

1.0 … 20.0 K 6.0 K

DToff

Bypass switch-off temperature difference

0.5 … 19.5 K

4.0 K

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

The Bypass function can be used for avoiding an energy loss directly after the solar circuit has been switched on. The still cold heat transfer medium in the pipework is

diverted through a bypass past the store. Once the pipe is warm enough, the store

can be loaded.

Depending on whether the bypass is energised by a valve or by a second pump, a

corresponding adjustment can be made in the menu item Type. Depending on the

variant, different control logics are applied:

Type pump

In this version, a bypass pump is placed in front of the solar pump. The bypass pump is  rst activated when store loading is possible. If the temperature

difference between the Bypass sensor and the store sensor reaches the Bypass switch-on temperature difference, the bypass pump is switched off and the

solar pump is switched on instead.

Type valve

A bypass valve is placed into the solar circuit. The solar heat exchanger is  rst bypassed when store loading is possible. If the

temperature difference between the Bypass sensor and the store sensor reaches the Bypass switch-on temperature difference, the bypass relay operates the

valve and solar loading starts. When the Valve type is selected, the option Inverted will be additionally available.

When the Inverted option and the bypass circuit are activated, the relay switches

on. If the temperature difference between the Bypass sensor and the store sensor reaches the Bypass switch-on temperature difference, the relay switches off.

CS bypass

Solar / Opt. functions / Add new function / CS bypass

Adjustment channel

Description

Adjustment range / selection

Factory setting

Collector Collector  eld system dependent system dependent

Irrad. Switch-on irradiation 100 … 500 W/m² 200 W / m²

Delay Delay time 10 … 300 s 120 s

Stmax off Switch-on suppression Yes, No Yes

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

The CS bypass function is a further possibility to activate the solar circuit.

Note

To enable the use of the CS bypass function, a CS10 irradiation sensor has

to be connected.

When the CS bypass function is activated, the Irradiation value is the switch-on

condition for the collector circuit.

The output remains switched on if the irradiation value is exceeded for the Delay time. When solar loading begins or the irradiation value remains below the switchon value for the delay time, the relay is switched off.

If the Switch-on suppression option off is activated, collector circuit activation will be suppressed as long as all store temperatures are above their respective

maximum temperatures.

Note

If both the CS bypass and the bypass function are activated, the CS bypass will only affect the bypass. For this purpose, use S1 as the bypass sensor.

External heat exchanger

Solar / Opt. functions / Add new function / Ext. HX

Adjustment channel

Description

Adjustment range / selection

Factory setting

Output Output selection system dependent system dependent

Store Store selection system dependent all stores

Sensor HX

Reference sensor external heat exchanger

system dependent system dependent

Target temp. Target temperature option Yes, No No

Sensor

Target temperature reference sensor

system dependent system dependent

Targ. temp. Target temperature 15 … 95 °C 60 °C

DTo n Switch-on temperature difference 1.0 … 20.0 K 10.0 K

DToff Switch-off temperature difference 0.5 … 19.5 K 5.0 K

Overrun Overrun time 0 … 15 min 2 min

Save / Delete

function

Save or delete function - -

This function is used to link loading circuits that are separated by an external heat

exchanger.

The allocated Output will be energised if one of the selected stores is being loaded

and there is a temperature difference between the sensor of the corresponding

store and the Reference sensor external heat exchanger.

Any number of the solar stores can be selected.

The output will be switched off if this temperature difference falls below the adjust-

ed switch-off difference.

The Reference sensor external heat exchanger can be arbitrarily allocated.

Note

In systems in which stores are equipped with their own loading pumps, the

heat exchanger relay controls the primary circuit pump.

If the Target temperature option is activated, the pump speed control logic will change. The controller will remain at the minimum pump speed until the temperature at the allocated sensor exceeds the adjusted target temperature.

If the temperature at the Reference sensor target temperature exceeds the

target temperature by 5 K , the speed of the primary pump will be increased by 10 %. If the temperature again increases by 5 K, the speed of the secondary pump will be adapted, too. Each temperature increase by 5 K will lead to an alternating adaptation of the primary and secondary pump speeds. If the temperature falls, the speed will

be reduced correspondingly. The heat exchanger is protected by a non-adjustable antifreeze function. If the temperature at the heat exchanger sensor falls below the non-adjustable

Antifreeze temperature (10 °C), the controller will activate the secondary pump

at 100 % speed. The Antifreeze function will use heat from the store with the high-

est temperature. When all stores have reached 10 °C, the secondary pump will be

switched off. If the temperature at the reference sensor external heat exchanger

exceeds the antifreeze temperature by 2 K, the secondary pump will be switched

off. The heat exchanger antifreeze function works independently from solar loading.

Note

Because of the special hydraulics in systems with 2 or 3 collector  elds,

the Target temperature option will not work properly there.

Note

The heat exchanger is protected by a non-adjustable antifreeze function.

Still, using a bypass is recommended.

Tube collector function

Solar / Opt. functions / Add new function / Tube collector

Adjustment channel

Description

Adjustment range / selection

Factory setting

Start Start time frame 00:00 … 23:00 08:00

Stop Stop time frame 00:30 … 23:30 19:00

Run Pump runtime 5 … 600 s 30 s

Break Standstill interval 1 … 60 min 30 min

Collector Collector  eld system dependent system dependent

Stmax off

Maximum store temperature off

Yes, No Ye s

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

This function is used for improving the switch-on behaviour in systems with non-ideal sensor positions (e. g. with some tube collectors).

This function operates within an adjusted time frame. It activates the collector circuit pump for an adjustable Runtime between adjustable Standstill intervals in order

to compensate for the delayed temperature measurement.

If the runtime is set to more than 10 s, the pump will run at 100 % for the  rst 10 s of the runtime. For the remaining runtime, the pump will be run at the adjusted

minimum speed.

If the collector sensor is defective or the collector is blocked, this function is sup-

pressed or switched off. If the Maximum store temperature off option is activated and the temperature

of the store to be loaded exceeds the maximum store temperature, the tube col-

lector function will be suppressed.

2- and 3-collector systems

In systems with 2 or 3 collector  elds, the tube collector function will be available for each individual collector  eld.

The tube collector function will remain inactive for a collector  eld which is used

for solar loading.

Target temperature

Solar / Opt. functions / Add new function / Target temp.

Adjustment channel

Description

Adjustment range / selection

Factory setting

Targ. temp. Target temperature 20 … 110 °C 65 °C

Sensor Reference sensor system dependent system dependent

Rise Rise value 1.0 … 20.0 K 2.0 K

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

If the Target temperature function is activated, the pump speed control logic will change. The controller will remain at the minimum pump speed until the temperature at the allocated Sensor exceeds the adjusted Target temperature. Only then will the standard pump speed control start to operate. If the temperature at the

allocated sensor changes by 1/10 of the adjusted rise value, the pump speed will be

adjusted correspondingly. If the External heat exchanger function with the Target temperature option

(see page 51) is additionally activated, the target temperature control will pause

while the external heat exchanger is being loaded. While the external heat exchang-

er is loaded, its own pump speed control will come into effect.

Antifreeze

Solar / Opt. functions / Add new function / Antifreeze

Adjustment channel

Description

Adjustment range / selection

Factory setting

Antifr. on Antifreeze switch-on temperature -40 … +15 °C +4 °C

Antifr. off Antifreeze switch-off temperature -39 … +16 °C +6 °C

Collector Collector  eld system dependent system dependent

Store

(1 … 5)

Store succession order system dependent system dependent

Funct. Activation / Deactivation

Activated, Deactivated, Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

The Antifreeze function activates the loading circuit between the collector and

the store when the collector temperature falls below the adjusted Antifreeze

switch-on temperature. This will protect the  uid against freezing or coagulating.

If the Antifreeze switch-off temperature is exceeded, the solar pump will be

switched off again.

Heat will be extracted from the stores according to the adjusted order. When all

stores have reached their minimum temperature of 5 °C, the function becomes

inactive.

If the function is activated, the pump will run at its maximum relative speed.

Note

Since this function uses the limited heat quantity of the store, the antifreeze

function should be used in regions with few days of temperatures around the freezing point.

Note

In systems with 2 or 3 collector  elds, 2 or 3 separate menus will be

displayed.

Backup heating suppression

Solar / Opt. functions / Add new function / BH suppress.

Adjustment channel

Description

Adjustment range / selection

Factory setting

Output Reference output system dependent system dependent

Store Store selection system dependent system dependent

Stset Set store temperature Yes, No No

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

The Backup heating suppression blocks the conventional backup heating of a store that is currently in solar loading.

This function is activated if a previously selected Store is being loaded by solar heat. Solar loading means that store loading is only carried out for energy supply and not

for cooling purposes etc. If the Set temperature option is activated, the backup heating will only be sup-

pressed when the store temperature exceeds the Set store temperature.

Parallel relay

Solar / Opt. functions / Add new function / Parallel relay

Adjustment channel

Description

Adjustment range / selection

Factory setting

Output Parallel output system dependent system dependent

Store Store selection system dependent system dependent

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

With this function, e. g. a valve can be controlled in parallel to a solar pump via a

separate output. Switch-on condition for the solar parallel relay function is that one or more of the

selected stores is being loaded. If one of the selected stores is being loaded, the

parallel output will be energised. The parallel relay function operates regardless whether the store is subjected to

regular solar loading or to a loading caused by a solar optional function (such as the collector cooling).

Note

If a relay is in the manual mode, the selected parallel output will not be

energised.

Cooling mode

Solar / Opt. functions / Add new function / Cooling mode

Adjustment channel

Description

Adjustment range / selection

Factory setting

Type Cooling logic variant Col. cool., Syst. cool., Off Off

Tcolmax.

Collector maximum temperature

70 … 190 °C 100 °C

Store (1 … 5) Store succession order system dependent system dependent

St. cooling Store cooling option Yes, No No

DTo n

Switch-on temperature difference

1.0 … 30.0 K 20.0 K

DToff

Switch-off temperature difference

0.5 … 29.5 K 15.0 K

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

In the Cooling mode menu, different cooling functions are available. They can be used for keeping the solar system operational for a longer time during strong solar irradiation.

For this purpose, the adjusted maximum store temperatures can be exceeded. The store order for this overloading can be adjusted. Additionally, each individual store

can be excluded from this function.

2 variants are available for the cooling mode: System cooling and Collector cooling.

Type system cooling

If the system cooling variant has been selected and the Switch-on temperature

difference is exceeded, store loading will be continued even if the correspond-

ing maximum temperature is exceeded, but only up to the emergency shutdown

temperature. Store loading will continue until all stores have reached the emer-

gency shutdown temperature or until the Switch-off temperature difference

is reached.

Type collector cooling

If the collector cooling variant has been selected, store loading will be continued or

reactivated when the Collector maximum temperature is exceeded.

Store loading will continue until all stores have reached the Emergency shut-

down temperature or until the collector temperature falls below the Collector

maximum temperature by at least 5 K.

In systems with 2 or 3 collector  elds, separate adjustments can be made for each

collector  eld.

The control logic considers collector cooling operation as solar loading. The adjust-

ed values for Delay, Minimum runtime etc. remain valid.

Additionally to each of the 2 variants, the Store cooling option can be activated.

Store cooling option

When the store cooling option is activated, the controller aims to cool down the

store during the night in order to prepare it for solar loading on the following day.

When the store cooling option is activated, the solar pump will be switched on if

the Maximum store temperature is exceeded and the collector temperature falls

below the store temperature. The solar pump will remain active until the store

temperature falls below the adjusted Maximum store temperature.

The store order for the cooling is the same as in the overheating through system

or collector cooling.

Drainback option

Solar / Opt. functions / Add new function / Drainback

Adjustment channel

Description

Adjustment range / selection

Factory setting

Filling time Drainback  ling time 1 … 30 min 5 min

Stab. time Stabilisation time 1.0 … 15.0 min 2.0 min

Initialis. Initialisation time 1 … 100 s 60 s

Booster Booster option Yes, No No

Output Output selection booster pump system dependent system dependent

Drain impulse

Drain impulse option Yes, No No

Delay Delay time 1 … 30 min 3 min

Duration Drain impulse loading duration 1 … 60 s 10 s

Funct. Activation / Deactivation

Activated, Deactivated, Switch

Deactivated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

S4/TR

R1 R2

Booster pump

Exemplary drainback system layout (R2 = booster pump)

In a drainback system the heat transfer  uid will  ow into a holding tank if solar loading does not take place. The drainback option initiates the  lling process if solar loading is about to start. If the drainback option is activated, the following adjust-

ment can be made.

Note

A drainback system requires additional components such as a holding

tank. The drainback option should only be activated if all components

required are properly installed.

The  lling time can be adjusted using the parameter Filling time. During this peri- od, the pump runs at 100 % speed.

The parameter Stabilisation time is used for adjusting the period during which

the switch-off condition will be ignored after the  lling time has ended.

The parameter Initialisation time is used for adjusting the period during which

the switch-on condition must be permanently ful lled, before the  lling process

starts. The Booster option is used for switching on a second pump when  lling the solar

system. The corresponding output is switched on at 100 % speed for the duration

of the  lling time. After the system has been emptied and the delay time elapsed, the Drain impulse

option will switch on the solar pump for an adjustable Duration. Thus, a hydro- static head will form in the  ow pipe. When it falls back into the holding tank, water

pockets remaining in the collector will be sucked down into the holding tank.

Note

If the drainback option is used in multi store systems, the Break speed option has to be activated in the Solar / Basic setting / Loading logic menu!

Twin pump

Solar / Opt. functions / Add new function / Twin pump

Adjustment channel

Description

Adjustment range / selection

Factory setting

Output Output selection system dependent system dependent

Ref. relay Reference relay selection system dependent -

Runtime Pump runtime 1 … 48 h 6 h

Flow rate mon. Flow rate monitoring option Yes, No No

Sen.  ow rate Flow rate sensor selection

IMP1 … IMP3, Ga1, Ga2, Gd1, Gd2, FR1 (FlowRotor)

Delay Delay time 1 … 10 min 5 min

Funct. Activation / Deactivation

Activated, Deactivated, Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

Reference relay

Output

Exemplary  gure of twin pumps in the solar  ow with upstream  owmeter

The Twin pump function controls the equal distribution of pump runtime in sys-

tems with 2 equally usable pumps.

If the allocated Output has exceeded its adjusted Runtime and the next switch-

on process is about to start, the Reference relay will be switched on instead. All

characteristics are adopted.

If the reference relay has in turn exceeded its runtime as well, the  rst output will

be switched on again in the next switch-on process.

Additionally, the Flow rate monitoring option can be activated in order to acti-

vate the twin pump in the case of a  ow rate error.

If the  ow rate monitoring function is activated, an error message will appear when

no  ow rate is detected at the allocated Flow rate sensor after the Delay time

has elapsed. The active output is considered as defective and will be blocked until

the error message has been acknowledged. The second output will be activated

instead. The twin pump function will pause until the error message has been ac-

knowledged.

When the error message is acknowledged, the controller runs a test during which it

will energise the corresponding output and again monitor the  ow rate.

Heat dump

Solar / Opt. functions / Add new function / Heat dump

Adjustment channel

Description

Adjustment range / selection

Factory setting

Output

Output selection

system dependent system dependent

Type

Variant (pump or valve logic)

Valve, Pump Valve

DTvalve

Valve logic temperature

difference

0.0 … 10.0 K 3.0 K

Collector Collector selection system dependent 1

Tcol.

Collector overtemperature

40 … 190 °C 110 °C

Funct.

Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

Type pump Type valve

Output

The Heat dump function can be used to direct excess heat generated by strong

solar irradiation to an external heat exchanger (e. g. fan coil) in order to keep the

collector temperature within the operating range.

Whether the heat dump is activated via an additional pump or a valve can be ad-

justed in the Type menu.

Type pump

The allocated output will be energised with 100 %, if the collector temperature

reaches the adjusted switch-on temperature.

If the collector temperature falls by 5 K below the adjusted Collector overtemperature, the output will be switched off. In the Pump variant, the heat dump

function works independently from solar loading.

Type valve

If the collector temperature reaches the value [Tcol. - DTValve], the allocated output will be switched-on in order to open the valve. If the collector temperature reaches the Collector overtemperature, the solar pump will be activated. If the collector temperature falls by 5 K below the adjusted Collector overtempera- ture, the solar pump will be switched off again. If the collector temperature falls by 10 K below the switch-on temperature, the valve will be put into its initial position.

If one of the store temperatures exceeds its store maximum temperature by more

than 10 K while the heat dump function is active, the function will be deactivated and an error message will appear. If the temperature falls below this value by

the Hysteresis maximum store temperature (Solar / Basic setting / Store), the heat dump function will be released again.

Note

The Switch-on collector temperature must be adjusted at least by 10 K

lower than the Emergency switch-off temperature.

Flow rate monitoring

Solar / Opt. functions / Add new function / Flow rate mon.

Adjustment channel

Description

Adjustment range / selection

Factory setting

Sensor Flow rate sensor selection system dependent -

Ref. relay Reference relay selection system dependent -

Store Store selection system dependent 1

Time Delay time 1 … 300 s 30 s

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

The Flow rate monitoring function can be used to detect malfunctions that

impede the  ow rate and to switch off the corresponding output. This will prevent system damage, e. g. through a dry run of the pump.

If the  ow rate monitoring function is activated, an error message will appear when no  ow rate is detected at the allocated  ow rate sensor after the delay time has elapsed.

• If a Reference relay has been selected, the  ow rate monitoring function will

become active when the allocated relay switches on. In the case of an error, the

complete solar system will be shut down.

• If both a Store and a Reference relay have been selected, the  ow rate mon-

itoring function will become active when the allocated relay switches on. In the case of an error, the allocated store will be blocked until the error message has

been acknowledged. The next store free for loading will be loaded instead.

The error message will appear both in the Status / Messages menu and in the

Status / Solar / Flow rate monitoring menu. It can be acknowledged in the Sta- tus / Solar / Flow rate monitoring menu. When the error message is acknowl-

edged, the controller runs a test during which it will energise the relay and again monitor the  ow rate.

Pressure monitoring

Note

The Pressure monitoring function will only work when an RPD / RPS type

Grundfos Direct Sensor™ is connected.

Solar / Opt. functions / Add new function / Pressure monit.

Adjustment channel

Description

Adjustment range / selection

Factory setting

Sensor Pressure sensor selection S6 -

Low pressure Low pressure monitoring option Yes, No No

On Switch-on threshold 0.0 … 9.7 bar 0.7 bar

Off Switch-off threshold 0.1 … 9.8 bar 1.0 bar

Shutdown Shutdown option Yes, No No

Overpressure Overpressure monitoring option Yes, No No

On Switch-on threshold 0.3 … 10.0 bar 5.5 bar

Off Switch-off threshold 0.2 … 9.9 bar 5.0 bar

Shutdown Shutdown option Yes, No No

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

The Pressure monitoring function can be used for detecting overpressure or

low pressure conditions inside the system, and if necessary to shut down the affect-

ed system components in order to avoid system damage.

Low pressure monitoring If the system pressure falls below the adjustable switch-on value On, an error

message will appear. If the Shutdown option has been activated for the low pressure monitoring func-

tion, the solar system will be shut down as well in the case of a fault condition. When the pressure reaches or exceeds the adjustable Switch-off value Off, the

system is switched on again.

Note For the Low pressure monitoring function, Off always is at least 0.1 bar higher than On. The corresponding adjustment ranges will automatically adapt to that.

Overpressure monitoring If the system pressure exceeds the adjustable switch-on value On, an error message

will appear. If the Shutdown option has been activated for the overpressure monitoring func-

tion, the solar system will be shut down as well in the case of a fault condition. When the pressure reaches or falls below the adjustable Switch-off value Off, the

system is switched on again.

Note

For the Overpressure monitoring function, On always is at least 0.1 bar higher than Off. The corresponding adjustment ranges will automatically adapt to that.

8.3 Function control

Note

Only if the installer code is entered (see page 92), will the function control menu be available.

Solar / Function control

Adjustment channel

Description

Adjustment range / selection

Factory setting

DT too high DT monitoring option Yes, No No

Night circulation

Night circulation monitoring option

Yes, No No

FL/RL interch.

FL / RE interchange monitoring option

Yes, No No

Stmax

Maximum store temperature monitoring option

Yes, No Ye s

Store Store selection system dependent system dependent

DT monitoring option

This function is used for monitoring the temperature difference. The message DT too high will be shown if solar loading has been carried out for a period of 20 min

with a differential higher than 50 K. Normal operation is not cancelled or inhibited,

but the system should be checked for the cause of the warning.

Possible causes are:

• pump power too weak

• hydraulic blockage of a system component

• circulation problems in the collector

• air inside the system

• defective valve / defective pump

Night circulation

This function can be used for detecting thermal circulation inside the solar circuit that leads to an unwanted cooling of the store. A warning message will appear when one of the following conditions has been detected for at least 1 min during the

period between 11 p.m. and 5 a.m.:

• collector temperature exceeds 40 °C

• the temperature difference exceeds DTo n

The delay time of 1 min ensures that the message is not triggered by short-term fault conditions.

Possible causes are:

• defective non-return valves

• defective valve

• wrongly adjusted time

Flow and return interchanged

This function is used for detecting an interchange of the  ow and return pipe or a badly placed collector sensor. For this purpose, the collector temperature is mon-

itored for plausibility during the switch-on phases of the solar pump. The message

FL / RE interchanged will appear, when the plausibility criteria have not been met

5 times in a row.

Note The function control Flow and return interchanged according to the

VDI guidelines 2169 can only correctly detect and indicate the error 0031 !FL/RE interchanged! if the collector sensor measures the temperature

directly in the  uid at the collector outlet. If the collector sensor is not correctly placed, a false message may occur.

Î Place the collector sensor directly in the  uid at the collector outlet

or deactivate the Flow and return interchanged function control.

Maximum store temperature

This function is used for detecting and indicating if the adjusted maximum store temperature has been exceeded. The controller compares the current store temperature

to the adjusted maximum store temperature, thus monitoring the store loading circuits.

The maximum store temperature is considered exceeded when the temperature measured at the store sensor exceeds the adjusted maximum store temperature by

at least 5 K. The monitoring becomes active again as soon as the store temperature

falls below the adjusted maximum store temperature. In the Store channel, the store or stores to be monitored can be selected. A possible cause for an unwanted exceedance of the maximum store temperature

is a defective valve.

8.4 Holiday function

Solar / Holiday function

Adjustment channel

Description

Adjustment range / selection

Factory setting

Cooling Cooling logic variant Col. cool., Syst. cool., Off Off

TColmax.

Collector maximum temperature

70 … 190 °C 100 °C

Store (1 … 5) Store succession order system dependent system dependent

St. cooling Store cooling option Yes, No Ye s

DTo n

Switch-on temperature difference

1.0 … 30.0 K 20.0 K

DToff

Switch-off temperature difference

0.5 … 29.5 K 15.0 K

Stmax (1 … 5) Store cooling temperature 4 … 95 °C 40 °C

Heat dump Store heat dump Yes, No No

Output Output selection system dependent -

Sensor Sensor selection system dependent -

TStoreOn Switch-on temperature 5 … 95 °C 65 °C

TStoreOff Switch-off temperature 4 … 94 °C 45 °C

The holiday function is used for operating the system when no water consumption

is expected, e. g. during a holiday absence. This function cools down the system in

order to reduce the thermal load.

Only if the holiday function has been activated with the parameter Days of absence

will the adjustments described in the following become active.

4 cooling functions are available: system cooling, collector cooling, store cooling and

store heat dump.

Type system cooling

If the system cooling variant has been selected and the switch-on temperature dif-

ference is exceeded, store loading will continue even if the corresponding maximum

temperature is exceeded, but only up to the emergency shutdown temperature.

Store loading continues until all stores have reached the emergency shutdown tem-

perature or until the switch-off temperature difference is reached.

Type collector cooling

If the collector cooling variant has been selected, store loading will continue when

the collector maximum temperature is exceeded.

Store loading continues until all stores have reached the emergency shutdown tem-

perature or until the collector temperature falls below the collector maximum

temperature by at least 5 K.

The control logic regards collector cooling operation as solar loading. The adjusted

values for delay, minimum runtime, etc. remain valid. Additionally to each of the two variants, the Store cooling option can be acti-

vated.

Store cooling option

When the Store cooling option is activated, the controller aims to cool down the

store during the night in order to prepare it for solar loading on the following day.

When the store cooling option is activated, the solar pump will be switched on if

the Maximum store temperature is exceeded and the collector temperature falls

below the store temperature. The solar pump will remain active until the store tem-

perature falls below the adjusted Maximum store temperature. The store order for

the cooling is the same as in the overheating through system- or collector cooling.

Store heat dump option

The store heat dump option can be used to direct excess heat generated by strong

solar irradiation from the store to an external heat exchanger (e. g. fan coil) or radiator in order to prevent the collectors from overheating. The store heat dump function is independent of the solar system and can be activated with the parameter

Heat dump. The function uses the adjustable switch-on and switch-off temperature differences TStoreOn and TStoreOff.

If the temperature measured at the sensor selected reaches the switch-on temper-

ature, the output selected will be energised until the temperature difference falls below the switch-off value. The parameter Days of absence can be used for entering

the number of days for a holiday absence.

If the parameter is set to a value higher than 0, the function becomes active using the adjustments that have previously been made in the Holiday menu. The days will be counted backwards at 00:00. If the value is set to 0, the function is deactivated.

Note

The parameter Days of absence can be accessed via button ➆ or the Status / Heating circuits menu.

8.5 Solar expert menu

Solar / Expert

Adjustment channel

Description

Adjustment range / selection

Factory setting

Flow sensor Flow sensor option Yes, No No

Sensor Flow sensor selection system dependent -

Return sensor Return sensor option Yes, No No

Sensor Return sensor selection system dependent -

The Expert menu is only available when the installer user code has been entered.

In the expert menu, a  ow and a return sensor can be selected and allocated. The activated sensors are then used to detect the switch-off condition.

Example of  ow and return sensor positions

Flow sensor

Return sensor

Note:

Because of the special hydraulics in systems with 2 or 3 collectors,

this function will not work properly there.

9 Arrangement

In this menu, all adjustments for the non-solar part of the arrangement can be made. Up to 16 optional functions can be selected and adjusted.

9.1 Optional functions

In this menu, optional functions can be selected and adjusted for the arrangement. The kind and number of optional functions offered depends on the previous ad-

justments.

Note

For further information about adjusting optional functions, see page 14.

Parallel relay

Arrangement / Opt. functions / Add new function / Parallel relay

Adjustment channel

Description

Adjustment range / selection

Factory setting

Output Output selection system dependent system dependent

Ref. relay Reference relay selection system dependent -

Overrun Overrun option Yes, No No

Duration Overrun time 1 … 30 min 1 min

Delay Delay option Yes, No No

Duration Delay time 1 … 30 min 1 min

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

The Parallel relay function can be used for operating an allocated Output along-

side a selected Reference relay. With this function, e. g. a valve can be controlled

in parallel to the pump via a separate output.

If the Overrun option is activated, the Output remains switched on for the adjust-

ed Overrun time after the Reference relay has been switched off.

If the Delay option is activated, the Output will be energised after the adjusted

Duration has elapsed. If the Reference relay is switched off again during the

delay time, the Parallel output will not be switched on at all.

Note

If a relay is in the manual mode, the selected output will not be energised.

Mixer

Arrangement / Opt. functions / Add new function / Mixer

Adjustment channel

Description

Adjustment range / selection

Factory setting

Mixer closed Output selection mixer closed system dependent system dependent

Mixer open Output selection mixer open system dependent system dependent

Sensor Sensor selection system dependent system dependent

TMixer Mixer target temperature 0 … 130 °C 60 °C

Interval Mixer interval 1 … 20 s 4 s

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

The Mixer function can be used to adjust the actual  ow temperature to the

desired Mixer target temperature. The mixer is opened or closed in pulses

depending on this deviation. The pulses are determined by the adjustable Interval.

The pause is determined by the difference between the actual value and the set

value.

Zone loading

Arrangement / Opt. functions / Add new function / Zone loading

Adjustment channel

Description

Adjustment range / selection

Factory setting

Output Output selection system dependent system dependent

Sensor top Top sensor selection system dependent system dependent

Sensor base Base sensor selection system dependent system dependent

To n Switch-on temperature 0 … 94 °C 45 °C

Toff Switch-off temperature 1 … 95 °C 60 °C

Timer Timer option Yes, No No

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

The Zone loading function can be used for loading a store zone between 2 sen-

sors. For monitoring the switch-on and switch-off conditions, 2 sensors are used.

The switch-on and switch-off temperatures are used as reference parameters. If the measured temperatures at both allocated sensors fall below the adjusted

Switch-on temperature, the output will be energised. The output will be switched off again if the temperature at both sensors has exceeded the Switch-off temperature.

If one of the two sensors is defective, zone loading is suppressed or switched off.

Note For information on timer adjustment see page 12.

Error relay

Arrangement / Opt. functions / Add new function / Error relay

Adjustment channel

Description

Adjustment range / selection

Factory setting

Output Output selection system dependent system dependent

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

The Error relay function can be used for operating an output in the case of an

error. Thus, e. g. a signalling device can be connected in order to signal errors. If the error relay function is activated, the allocated output will operate when a

fault occurs. If the Flow rate monitoring and/or Pressure monitoring function is

additionally activated, the allocated Output will also operate in the case of a  ow

rate or pressure error.

Heat exchange

Arrangement / Opt. functions / Add new function / Heat exchange

Adjustment channel

Description

Adjustment range / selection

Factory setting

Output Output selection system dependent system dependent

Sen. source Heat source sensor selection system dependent system dependent

Sen. sink Heat sink sensor selection system dependent system dependent

DTo n

Switch-on temperature difference

1.0 … 30.0 K 6.0 K

DToff

Switch-off temperature difference

0.5 … 29.5 K 4.0 K

DTset Set temperature difference 1.5 … 40.0 K 10.0 K

TMax

Maximum temperature of the store to be loaded

10 … 95 °C 60 °C

TMin

Minimum temperature of the store to be loaded

10 … 95 °C 10 °C

Timer Timer option Yes, No No

Funct. Activation / Deactivation

Activated, Deactivated, Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

Sensor Source

Sensor Sink

Output

The Heat exchange function can be used for transferring heat from a heat source

to a heat sink.

The allocated Output is energised when all switch-on conditions are ful lled:

• the temperature difference between the allocated sensors has exceeded the switch-on temperature difference

• the temperature difference between the allocated sensors has not fallen below the switch-off temperature difference

• the temperature at the heat source sensor has exceeded the minimum temperature

• the temperature at the heat sink sensor is below the maximum temperature

• one of the adjusted time frames is active (if the Timer option is selected)

When the Set temperature difference is exceeded, pump speed control starts.

For every deviation by the adjusted Rise value, the pump speed will be adjusted by

1 %. When the Timer option is activated, a timer is indicated in which time frames for

the function can be adjusted.

Note For information on timer adjustment see page 12.

Solid fuel boiler

Arrangement / Opt. functions / Add new function / Solid fuel boiler

Adjustment channel

Description

Adjustment range / selection

Factory setting

Output Output selection system dependent system dependent

Sen. boiler

Solid fuel boiler sensor selection

system dependent system dependent

Sen. store Store sensor selection system dependent system dependent

DTo n

Switch-on temperature difference

2.0 … 30.0 K 6.0 K

DToff

Switch-off temperature difference

1.0 … 29.0 K 4.0 K

DTset Set temperature difference 3.0 … 40.0 K 10.0 K

TStoremax Maximum temperature 10 … 95 °C 60 °C

TMin boiler Minimum temperature 10 … 95 °C 60 °C

Target temp. Target temperature option Yes, No No

Targ. temp. Target temperature 30 … 85 °C 65 °C

Sensor Reference sensor system dependent system dependent

Mixer Mixer option Yes, No No

Mixer closed Output selection mixer closed system dependent system dependent

Mixer open Output selection mixer open system dependent system dependent

DTopen

Temperature difference mixer open

0.5 … 30.0 K 5.0 K

DTclosed

Temperature difference mixer closed

0.0 … 29.5 K 2.0 K

Interval Mixer interval 1 … 20 s 4 s

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Adjustment channel

Description

Adjustment range / selection

Factory setting

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

optional

Boiler sensor

Store sensor

Output

The Solid fuel boiler function can be used for transferring heat from a solid fuel boiler to a store. The allocated Output is energised when all switch-on conditions are ful lled:

• the temperature difference between the allocated sensors has exceeded the switch-on temperature difference

• the temperature difference between the allocated sensors has not fallen below the switch-off temperature difference

• the temperature at the solid fuel boiler sensor has exceeded the minimum temperature

• the temperature at the store sensor is below the maximum temperature

• one of the adjusted time frames is active (if the Timer option is selected)

When the Set temperature difference is exceeded, pump speed control starts.

For every deviation by 1 / 10 of the adjusted rise value, the pump speed will be

adjusted by 1 %. If the Target temperature option is activated, the pump speed control logic will

change. The controller will remain at the minimum pump speed until the temperature at the allocated sensor exceeds the adjusted target temperature.

The Mixer option can be used to keep the boiler temperature above TMin boiler. The pulses are determined by the adjustable Interval.

Circulation

Arrangement / Opt. functions / Add new function / Circulation

Adjustment channel

Description

Adjustment range / selection

Factory setting

Output Output selection system dependent system dependent

Type Variant

Demand, Thermal, Timer, Therm.+Timer,

Dem.+Timer

Thermal

Sensor Circulation sensor selection system dependent system dependent To n Switch-on temperature 10 … 59 °C 40 °C Toff Switch-off temperature 11 … 60 °C 45 °C Timer Timer option Yes, No No Sensor FS08 sensor input selection system dependent system dependent Delay Demand switch-on delay 0 … 3 s 0 s Runtime Circulation pump runtime 01:00 … 15:00 min 03:00 min Break time Circulation pump break time 10 … 60 min 30 min

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

Circulation sensor

Output

The Circulation function can be used for controlling a circulation pump.

For the control logic, 5 variants are available:

• Thermal

• Timer

• Thermal + Timer

• Demand

• Demand + Timer

If one of the variants is selected, the corresponding adjustment channels will appear.

Thermal

The temperature at the allocated Sensor is monitored. The allocated output switches on when the temperature falls below the adjusted Switch-on temperature. If the

temperature exceeds the Switch-off temperature, the output switches off.

Timer

The output switches on during the adjusted time frames, outside of them it switch-

es off.

Thermal + Timer

The output operates when the switch-on conditions of both above-mentioned variants are ful lled.

Demand

The allocated  ow switch is monitored for circuit continuity. If circuit continuity is detected at the  ow switch, the output will switch on for the adjusted Runtime. After the runtime has ended, the output switches off. During the adjusted Break time, the output remains switched off even if continuity is detected at the  ow switch.

Demand + Timer

The output operates when the switch-on conditions of both above-mentioned variants are ful lled. When the Timer, Therm. + Timer or Demand + Timer variant is activated, a timer is indicated in which time frames for the function can

be adjusted.

Note

If the  ow switch is connected to the input S1 … S12, continuity must be detected for at least 5 s for the controller to react, 1s if the  ow switch is

connected to an impulse input.

Note For information on timer adjustment see page 12.

Return preheating

Arrangement / Opt. functions / Add new function / Ret. preheat.

Adjustment channel

Description

Adjustment range / selection

Factory setting

Output Output selection system dependent system dependent

Sen. return Return sensor selection system dependent system dependent

Sen. source Heat source sensor selection system dependent system dependent

DTo n

Switch-on temperature difference

2.0 … 30.0 K 6.0 K

DToff

Switch-off temperature difference

1.0 … 29.0 K 4.0 K

Summer off Summer switch-off option Yes, No No

Sensor Outdoor sensor selection system dependent system dependent

Toff Switch-off temperature 10 … 60 °C 20 °C

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

Sensor Source

Return sensor

Output

The Return preheating function can be used for transferring heat from a heat source to the heating circuit return.

The allocated output is energised when all switch-on conditions are ful lled:

• the temperature difference between the allocated sensors has exceeded the switch-on temperature difference

• the temperature difference between the allocated sensors has not fallen below the switch-off temperature difference

• if Summer off is activated, the temperature at the outdoor temperature sensor

falls below the adjusted outdoor temperature value

With the Summer switch-off option, the return preheating can be suppressed out-

side the heating period.

Function block

Arrangement / Opt. functions / Add new function / Function block

Adjustment channel

Description

Adjustment range / selection

Factory setting

Output Output selection system dependent system dependent

Thermostat a Thermostat a option Yes, No No

Th-a on

Switch-on temperature thermostat a

-40 … +250 °C +40 °C

Th-a off

Switch-off temperature thermostat a

-40 … +250 °C +45 °C

Sensor Sensor thermostat a system dependent system dependent

Thermostat b

Thermostat b option Yes, No No

Th-b on

Switch-on temperature thermostat b

-40 … +250 °C +40 °C

Th-b off

Switch-off temperature thermostat b

-40 … +250 °C +45 °C

Sensor Sensor thermostat b system dependent system dependent

DT function Differential function Yes, No No

DTo n Switch-on temperature difference 1.0 … 50.0 K 5.0 K

DToff Switch-off temperature difference 0.5 … 49.5 K 3.0 K

DTset Set temperature difference 3 … 100 K 10 K

Sen. source Heat source sensor system dependent system dependent

Sen. sink Heat sink sensor system dependent system dependent

Timer Timer option Yes, No No

Ref. output Reference output option Yes, No No

Mode Reference output mode

OR, AND, NOR,

NAND

Output Reference output 1 all outputs -

Adjustment channel

Description

Adjustment range / selection

Factory setting

Output Reference output 2 all outputs -

Output Reference output 3 all outputs -

Output Reference output 4 all outputs -

Output Reference output 5 all outputs -

Funct. Activation / Deactivation

Activated, Deactivated, Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

In addition to the pre-de ned optional functions, function blocks consisting of thermostat functions, timer, differential and reference output functions are available. With the help of these function blocks, further components and functions respectively can be controlled.

To each function block, sensors and outputs available can be allocated. Sensors

already in use can be allocated again without impeding their control functions.

Within a function block the functions are interconnected (AND gate). This means that the switching conditions of all the activated functions have to be ful lled for switching the allocated output. As soon as one condition is not ful lled, the output

will switch off.

Thermostat function

The switching condition for the thermostat function is considered ful lled when the adjusted switch-on temperature (Th(x) on) is reached.

The switching condition for the thermostat function is considered unful lled when the adjusted switch-off temperature (Th(x)off) is reached.

Allocate the reference sensor in the Sensor channel.

Adjust the maximum temperature limitation with Th(x)off > Th(x)on and the minimum temperature limitation with Th(x)on> Th(x)off. The temperatures cannot be set to an identical value.

DT function

The switching condition for the DT function is considered fullled when the adjust- ed switch-on temperature (DTon) is reached.

The switching condition for the DT function is considered unfullled when the adjusted switch-off temperature (DToff) is reached.

The DT function is equipped with a speed control function. A set temperature dif-

ference and a minimum speed can be adjusted. The non-adjustable rise value is 2 K.

Reference output

Up to 5 Reference outputs can be selected. Whether the reference outputs are to be switched in series (AND), in parallel (OR), in series + inverted (NAND) or in parallel + inverted (NOR) can be adjusted in the Mode channel.

OR mode

If at least one of the reference outputs is switched on, the switching condition for the reference output function is considered fullled.

If none of the reference outputs is switched on, the switching condition for the reference output function is considered unfullled.

NOR mode

If none of the reference outputs is switched on, the switching condition for the reference output function is considered fullled.

If at least one of the reference outputs is switched on, the switching condition for the reference output function is considered unfullled.

AND mode

If all reference outputs are switched on, the switching condition for the reference output function is considered fullled.

If at least one of the reference outputs is switched off, the switching condition for the reference output function is considered unfullled.

NAND mode

If at least one of the reference outputs is switched off, the switching condition for the reference output function is considered fullled.

If all reference outputs are switched on, the switching condition for the reference output function is considered unfullled.

Note

If more than one function block has been activated, outputs of numerically

higher function blocks may not be used as reference outputs.

Note For information on timer adjustment see page 12.

Function

Thermostat a

Tha- S3* Thb-S4* Timer R3*

DT-S3>S4*

Thermostat b

DT function

Timer

Reference output

1. in parallel (OR) 2. in series (AND)

Reference output

Reference output 1

Reference

output 1

Reference output 2

Reference

output 2

Reference output 3

Reference output 4

Reference

output 4

Reference output 5

Reference

output 5

* exemplary selection, sensors and outputs can be freely selected

Output

Irradiation switch

Arrangement / Opt. functions / Add new function / Irrad. switch

Adjustment channel

Description

Adjustment range / selection

Factory setting

Output Output selection system dependent system dependent

Irrad. Switch-on irradiation 50 … 1000 W/m² 200 W / m²

Duration Switch-on duration 0 … 30 min 2 min

Inverted Inverted switching option Yes, No No

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

The Irradiation switch function can be used for operating an output depending

on the measured irradiation value. The allocated output will be switched on if the adjusted irradiation value remains

exceeded for the adjusted duration. If the irradiation falls below the adjusted irradi-

ation value for the adjusted duration, the output will be switched off.

If the Inverted option is activated, the output will operate vice versa.

Return mixing function

Arrangement / Opt. functions / Add new function / Ret. mixing

Adjustment channel

Description

Adjustment range / selection

Factory setting

Mixer open Output selection mixer open system dependent system dependent

Mixer closed Output selection mixer closed system dependent system dependent

Sen. store Store sensor allocation system dependent system dependent

Sen. HC ret. HC return sensor allocation system dependent system dependent

Sen. boiler ret. Boiler return sensor allocation system dependent system dependent

DTo n Switch-on temperature difference 1.0 … 25.0 K 5.0 K

DToff Switch-off temperature difference 0.5 … 24.0 K 3.0 K

DTset Set temperature difference -20 … +25 K +7 K

Tmax

Maximum boiler return temperature

10 … 80 °C 60 °C

Interval Mixer interval 1 … 20 s 2 s

HC intern.

Detection controller heating circuit

active

Yes, No No

HC intern. Heating circuit allocation HC1 … HC7 -

Runtime Mixer runtime

10 … 600 s 105 s

Time Time of automatic adjustment 00:00 … 23:45 00:00

Funct. Activation / Deactivation

Activated, Deactivated, Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

The Return mixing function can be used for solar heating backup. Solar heat from the store is mixed into the heating circuit return by means of a

mixing valve in order to add heat to the heating circuit. The controller compares the

temperature in the centre of the store to the heating circuit return temperature. If the store temperature exceeds the heating circuit return temperature by the

Switch-on temperature difference, the mixer will be used to add solar heat

from the store to the heating circuit return. The mixer will be opened or closed

in pulses depending on this deviation. The pulses are determined by the adjustable Interval. The pause is determined by the difference between the actual value and the set value.

Thus, the heating circuit return temperature increases by the DTset value. The ad-

justable Maximum boiler return temperature limits the mixing temperature. If the store temperature falls below the heating circuit return temperature by the

Switch-off temperature difference, the mixer will close.

If the mixing temperature exceeds TMax by more than 5 K, a message will appear in the status menu.

The Runtime de nes the time needed for the mixer to switch from its initial posi- tion to the end position. The Time de nes the point in time when the mixer is set

to its initial or ending position respectively.

HC internal option

If the HC internal option is activated, the return mixing function will only become active when a selectable heating circuit connected to the same controller is active, too. For this purpose, the heating circuit selected has to be controlled by the con-

troller or by a module connected.

10 Heating

In this menu, all adjustments for the heating part of the arrangement or for the heating circuits respectively can be made. Shared relays for demands, loading pumps or valves can be activated, heating circuits can be con gured and optional functions can be selected and adjusted. In this menu, the screed drying function can be activated and adjusted.

10.1 Shared relays

In this menu, adjustments for heat generators which are shared by several heating

circuits and their optional functions can be made. Shared relays will be available for selection under Virtual in the heating circuits

and in the relay allocation channels of the corresponding optional functions of the

Heating menu. This way, several heating circuits and optional functions (heating) can

demand the same heat source.

Note

Activate and adjust the shared relays  rst. They will then be available in the

heating circuits and optional functions.

Heating / Shared rel.

Adjustment channel

Description

Adjustment range / selection

Factory setting

Dem. 1 (2) Demand 1 (2)

Activated, Deactivated

Deactivated

Relay Relay option Yes, No No Relay Relay submenu - -

Relay Relay selection system dependent

system

dependent Boiler pr. min Option for boiler protection min Yes, No No Tmin Minimum boiler temperature 10 … 90 °C 55 °C Boiler pr. max Option for boiler protection max Yes, No No Tmax Maximum boiler temperature 20 … 95 °C 90 °C Sen. boiler Boiler sensor selection system dependent S4 0-10 V 0-10 V option Yes, No No 0-10 V 0-10 V submenu - Output Output selection -, A, B, C, D - TSet 1 Lower boiler temperature 10 … 85 °C 10 °C Volt 1 Lower voltage 1.0 … 10.0 V 1.0 V TSet 2 Upper boiler temperature 15 … 90 °C 80 °C Volt 2 Upper voltage 1.0 … 10.0 V 8.0 V Tmin

Minimum value set boiler temperature

10 … 89 °C 10 °C

Tmax

Maximum value set boiler temperature

11 … 90 °C 80 °C

DTFlow

Increase for the set  ow temperature

0 … 20 K 5 K

Sen.  ow Flow sensor option Yes, No No

Sensor Flow sensor selection system dependent S4 Interval Monitoring period 10 … 600 s 30 s Hysteresis Correction hysteresis 0.5 … 20.0 K 1.0 K Correction Correction of the voltage signal 0.0 … 1.0 V 0.1 V Min. runtime Minimum runtime option Yes, No No tMin. Minimum runtime 0 … 120 min 10 min Manual mode Operating mode for shared relays Max, Auto, Off, Min Auto back

In this menu, up to 2 heating demands can be activated and adjusted.

Activated demands will be available for selection in the output allocation channels of the backup heating in heating circuits and heating optional functions. This way, several heating circuits and optional functions can demand the same heat source.

Every demand can be carried out by means of a relay and/or a 0-10 V output. If both the relay and the 0-10 V option are activated, the demand will use both outputs in

parallel.

Relay option

If the Relay option is activated, the submenu Relay will appear, in which a relay can be allocated to the demand.

The options Boiler protection min and Boiler protection max can be activat-

ed for the demand via a relay, allowing temperature-dependent control of the boiler demand. For this purpose, a Boiler sensor has to be selected.

The Boiler protection min option is used for protecting an older type boiler

against cooling. If the temperature falls below the adjusted minimum temperature,

the allocated relay will be energised until the minimum temperature is exceeded

by 5 K.

The Boiler protection max option is used for protecting an older type boiler

against overheating. If the adjusted Maximum temperature is exceeded, the allocated relay will be switched off until the temperature falls by 5 K below the maximum

temperature.

Example:

The potential-free relay 14 can be allocated to the shared relay Demand 1. R14

will then become available for potential-free boiler demand in the heating circuits

and e. g. the DHW heating function.

0-10 V option

If the 0-10 V option is activated, the submenu 0-10 V will appear, in which a 0-10 V output can be allocated to the demand.

With this option, the controller can demand modulating heat generators equipped with a 0-10 V interface.

The characteristic curve of the 0-10 V signal as a function of the set boiler temperature is de ned by means of 2 set points according to the speci cations of the boiler

manufacturer. At a temperature of TSet 1, the voltage signal of the heat generator is Volt 1. At a temperature of TSet 2, the voltage signal of the heat generator is

Volt 2. The controller automatically calculates the characteristic curve resulting from these values.

Volt 2

Volt 1

0102030405060708090 100

Set boiler temperature in °C

Voltage signal in V

By means of the adjustment channels TMax and TMin the maximum and minimum

values for the set boiler temperature can be de ned.

When the Flow sensor option is activated, the controller will monitor whether the heat generator actually reaches the desired set temperature and will, if necessary, adjust the voltage signal accordingly. In order to do so, the controller will check the temperature at the boiler  ow sensor when the Interval has elapsed. If the temperature measured deviates from the boiler set temperature by more than

the Hysteresis value, the voltage signal will be adapted by the Correction value. This process will be repeated until the temperature measured is identical to the set boiler temperature. When the Minimum runtime option is activated, a Minimum runtime can be adjusted for the demand.

Note

If the 0-10 V demand is used for DHW heating, the voltage signal will always

be identical to Tmax.

10.2 Heating circuits

The controller has 2 mixed weather-compensated heating circuits and is able to control up to 5 external mixed heating circuits by means of extension modules.

If one or more extension modules are connected, they have to be registered with the controller. Only registered modules will be available in the heating circuit se-

lection. If new HC… is selected for the  rst time, the  rst heating circuit is allocated to

the controller. In the heating circuit menu, relays for the heating circuit pump and the heating

circuit mixer can be selected.

3 free relays are required for a mixed heating circuit.

If the measured  ow temperature deviates from the Set  ow temperature, the mixer will be activated in order to adjust the  ow temperature correspondingly.

The mixer runtime can be adjusted with the parameter Interval.

Heating system submenu

In the Heating system submenu, a Mode for the heating circuit control can be selected and adjusted. 5 modes are available:

• Constant

• Characteristic curve

• Linear

• Room in uence

• Room

The Constant mode aims to keep the set  ow temperature at a constant value which can be adjusted by means of the parameter TFlowset.

Set  ow temperature = set temperature + remote control + day correction or night correction

If the Curve mode is selected, the controller will calculate a set  ow temperature by means of the outdoor temperature and the Heating curve selected. In both cases, the dial setting of the remote control and the controller Day correction or Night correction will be added.

Set  ow temperature = heating curve temperature + remote control + day correc-

tion or night correction.

The Remote control allows manual adjustment of the heating curve (± 15 K). Furthermore, the heating circuit can be switched off or a rapid heat-up can be carried out by

means of the remote control. Heating circuit switched off means that the heating circuit pump is switched off and

the mixer closed. The  ow temperature is boosted to maximum for rapid heat-up

when the remote control is set to rapid heat-up.

The calculated set  ow temperature is limited by the adjusted values of the param-

eters Set ﬂ ow temperature and Minimum ﬂ ow temperature. Maximum  ow temperature ≥ set  ow temperature ≥ minimum  ow temperature

If the outdoor temperature sensor is defective, an error message will be indicated. For the duration of this condition, the maximum  ow temperature -5 K is assumed as the set  ow temperature in the Curve and Linear mode.

In the Linear mode the  ow temperature curve will be calculated depending on the outdoor temperature by 2 points. At a temperature of TOutdoor 1 the set  ow temperature is TFlow 1. At a temperature of TOutdoor 2 the set  ow temperature is TFlow 2. The controller automatically calculates the characteristic

curve resulting from these values.

By means of the adjustment channels TFlowmax and TFlowmin the maximum

and minimum values for the set  ow temperature can be de ned.

In the Room inﬂ uence mode, the weather-compensated set  ow temperature will be expanded by a demand-based room control. The parameter Room factor

can be used for determining the intensity of the room in uence. The controller will calculate the set  ow temperature using the heating system

Curve plus the room in uence: Set  ow temperature = set temperature + remote control + day correction or

night correction + room in uence. In order to calculate the deviation of the room temperature from the adjusted set

value, at least one sensor-type room thermostat is required. The adjustments can be made in the Room thermostats submenu, Room therm. (1 ... 5).

1,0

Flow temperature in °C

Outdoor temperature in °C

Heating curves

In the Room mode, the controller will calculate the set  ow temperature by means

of the room temperature, the outdoor temperature will not be taken into account.

The parameters Day / Night correction and Timer will not be indicated.

The start value of the set  ow temperature can be in uenced by the parameter

TStart.

In order to calculate the deviation of the room temperature from the adjusted set value, a room thermostat is required. The adjustments can be made using the

parameter RTH(1 … 5). For this purpose, select Sensor in the Type adjustment channel.

The adjustments of all activated room thermostats will be taken into account. The controller will calculate the average value of the deviations measured and correct the set  ow temperature correspondingly.

Room thermostat option

With the Room thermostat option, up to 5 room thermostats can be integrated into the control logic.

To each room thermostat, a sensor input can be allocated. The temperature at the

allocated sensor is monitored. If the measured temperature exceeds the adjusted

Set room temperature at all activated room thermostats and if the parameter HC off is activated, the heating circuit will switch off.

Common room thermostats with potential-free outputs can be used alternatively. In this case, Switch must be selected in the Type channel. The corresponding input

must beforehand be set to Switch in the Inputs / Modules menu. Only inputs set to switch will be displayed in the channel Sen. RTH as possible inputs for a switch type room thermostat.

When the Timer option is activated, a timer is indicated in which time frames for

the function can be adjusted. During these time frames, the adjusted room temper-

ature decreases by the Correction value.

Note

For information on timer adjustment see page 12.

To each room thermostat, an additional relay can be allocated. The relay will switch on when the temperature falls below the adjusted room temperature. This way, the room in question can be excluded from the heating circuit via a valve as long as the

desired room temperature is reached.

With the parameter RTH, the room thermostat can be temporarily deactivated or

re-activated respectively. All adjustments remain stored.

Correction timer

With the Timer, the day / night operation can be adjusted. During day phases, the set  ow temperature is increased by the adjusted day correction value, during

night phases it is decreased by the night correction value (night setback).

The parameter Mode is used for selecting between the following correction modes:

Day / Night: A reduced set  ow temperature (night correction) is used during

Night operation.

Day / Off: The heating circuit and the optionally activated backup heating are

switched off during night operation. The Timer HC parameter can be used for adjusting the time frames for day

operation.

Summer operation

For summer operation, 2 different modes are available:

Day: If the outdoor temperature exceeds the Summer temperature day, the heating circuit will switch off.

Day / Night: The parameters Daytime on and Daytime off can be used for adjusting a time frame for the summer operation. If the outdoor temperature exceeds the Summer temperature day within the adjusted time frame, the heating cir- cuit will switch off.

Outside the adjusted time frame the Summer temperature night is valid.

Remote access With the parameter Remote access different types of remote access to the con-

troller can be activated.

Note

In the sensor selection menu, only outputs which have previously been

selected as the input for remote access in the Inputs / Modules menu

will be available.

The following types of remote access are possible:

Remote control: A device which allows manual adjustment of the heating curve, thus in uencing the set  ow temperature.

Î In order to use a remote control, set the Mode to Fern.

Room control unit: A device incorporating a remote control as well as an addi- tional operating mode switch.

Î In order to use a room control unit, set the Mode to BAS.

The operating mode switch of the room control unit is used for adjusting the oper-

ating mode of the controller. If a room control unit is used, the operating mode can

be adjusted by means of the room control unit only. The controller menu will only allow the activation of the operating mode Holiday.

App: An app can be used for remote access.

Î In order to use an app, set the Mode to App.

If you use an app, the operating mode can be adjusted in the controller menu as

well as in the app.

Backup heating

For the Backup heating of the heating circuit, 3 modes are available: In the Thermostat mode, the set  ow temperature will be compared to a store reference sensor. In the Zone mode, the set  ow temperature will be compared to 2 store reference

sensors. The switching conditions have to be ful lled at both reference sensors.

In the On / Off mode, the backup heating will be activated when the heating circuit pump is switched on for heating.

In the Demand submenu, the modes Standard and Demand are available. If

Standard is selected, the output can be adjusted.

If Demand is selected, a demand has to be activated and adjusted in the Heat- ing / Shared relays menu  rst. If Adjustment values is selected, the Heat- ing / Shared relays / Demand menu will open.

In the correction mode Day / Off (see page 78) the heating circuit and the backup heating will be completely switched off during the night operation. The Starting

optimisation option can be used for activating the backup heating before the day operation in order to heat the store to a suf ciently high temperature. The Stop- ping optimisation option can be used for deactivating the backup heating before

the start of the night operation.

If SFB off is activated, backup heating will be suppressed when a selected solid fuel

boiler is active.

If Solar off is activated, backup heating will be suppressed when a selected Store is being loaded.

If the Set temperature option is activated, the backup heating will only be sup- pressed when the store temperature exceeds the Set store temperature.

At  rst, backup heating is activated and can be temporarily deactivated.

DHW priority If the parameter DHW priority is activated, the heating circuit will be switched off

and the backup heating be suppressed as long as DHW heating takes place which

has previously been activated in the Heating / Optional functions menu.

Chimney sweeper function

The chimney sweeper function can be used for enabling a quick access to measurement conditions without menu operation for the chimney sweeper.

The chimney sweeper function is activated in all heating circuits by default. The chimney sweeper mode can be activated by pressing button ➅ for 5 s

In the chimney sweeper mode, the heating circuit mixer opens, the heating circuit pump and the backup heating contact are activated. While the chimney sweeper mode is active, the directional pad is  ashing red. Additionally, Chimney sweeper

and a countdown of 30 min are indicated on the display.

When the countdown has elapsed, the chimney sweeper mode is automatically deactivated. If, during the countdown, button ➅ is again pressed for more than 5 s,

the chimney sweeper mode will stop.

Antifreeze function

The antifreeze function of the heating circuit can be used to temporarily activate an inactive heating circuit during sudden temperature drop in order to protect it

against frost damage. The temperature at the sensor selected will be monitored. If the temperature falls

below the adjusted antifreeze temperature, the heating circuit will be activated until the antifreeze temperature is exceeded by 2 K, but at least for 30 min.

Special operation For the Special operation option, 2 variants are available:

• Cooling

• Heat dump

The Cooling variant is used for cooling via the heating circuit. 3 modes are available:

• Outdoor

• External switch

• Both

In the Outdoor mode, cooling will be activated if the outdoor temperature cooling is exceeded.

In the External switch mode, cooling will be activated by means of an external switch.

In the both mode, both switching conditions are valid for cooling. In the Cooling system submenu, the cooling logic can be adjusted. For the cooling

logic, 2 modes are available:

• Linear

• Constant In the Linear mode, the set  ow temperature will be calculated as in the heating

system mode Linear. The Constant mode aims to keep the set  ow temperature at a constant value

which can be adjusted by means of the parameter TFlow. If the Timer option is activated, a time frame can be adjusted in which the cooling

will be active.

If the Dew point switch option is activated, an output can be allocated to the dew point switch. If the dew point switch detects condensation, cooling will be interrupted.

The Heat dump variant is used for diverting excess heat to the heating circuit in order to keep the system temperatures within the operating range. For this purpose, the temperature measured at the allocated sensor Sensor will be monitored. If the temperature at the allocated sensor exceeds the Switch-on temperature, the Set ﬂ ow temperature will be controlled to reach the adjusted value. If the temperature at the allocated sensor falls below the adjusted Switch-off temper-

ature, the heat dump function will switch off.

Energy saving operation

The Energy saving operation is used for optimising the energy consumption of the heating circuit pump. For this purpose an additional sensor in the heating circuit return is required. The controller monitors the temperature difference between the

 ow and the return of the heating circuit. If the temperature difference falls below

the Switch-off difference, the controller will deactivate the heating circuit pump for the adjusted Break time. After the break time has elapsed, the pump will be

activated for the Runtime. If the temperature difference is higher than the switch- off difference, the pump will remain active. If the temperature difference is below the switch-off difference, the break time will start again.

Heating / Heating circuits / New HC... / Internal or Module 1 … 5

Adjustment channel

Description

Adjustment range / selection

Factory setting

Heat. sys. Heating system submenu - -

Mode Heating system operating mode

Linear, Constant, Curve, Room , Room in .

Characteristic

curve

Curve Heating curve 0.3 … 3.0 1.0

Room factor Room in uence factor 1 … 10 5 TFlowset Set  ow temperature 10 … 90 °C 45 °C TOutdoor 1 Lower outdoor temperature -20 … +20 °C +20 °C TFlow 1 Lower set  ow temperature 20 … 90 °C 20 °C TOutdoor 2 Upper outdoor temperature -20 … +20 °C -20 °C TFlow 2 Upper set  ow temperature 20 … 90 °C 70 °C TStart Start temperature 20 … 60 °C 40 °C TFlowmin Minimum  ow temperature 20 … 89 °C 20 °C TFlowmax Maximum  ow temperature 21 … 90 °C 50 °C Interval Mixer interval 1 … 20 s 4 s

HC pump

Heating circuit pump output selection

system dependent system dependent

Adjustment channel

Description

Adjustment range / selection

Factory setting

Mixer open Output selection mixer open system dependent system dependent Mixer closed Output selection mixer closed system dependent system dependent Sen. ow Flow sensor selection system dependent system dependent Sen. outd. Outdoor sensor selection system dependent system dependent Day corr. Correction for day operation -5 … +45 K 0 K Night corr. Correction for night operation -20 … +30 K -5 K Timer Timer option Yes, No No Timer Timer submenu - Mode Correction mode Day / Night, Day / Off Day / Night Summer oper.

Summer operation option Yes, No No

Summer oper.

Summer operation submenu - Mode Summer operating mode Day / Night, Day Day TDay off Summer temperature day 0 … 40 °C 20 °C TNight off Summer temperature night 0 … 40 °C 14 °C Daytime on Day time frame on 00:00 … 23:45 00:00 Daytime off Day time frame off 00:00 … 23:45 00:00 Remote

access

Remote access option Yes, No No

Remote access

Remote access submenu - -

Mode Remote access mode BAS, Fern, App BAS

Sen. BAS

Allocation operating mode

switch input

all inputs type = BAS -

Sen. RC Allocation remote control input all inputs type = Fern Room therm. Room thermostats submenu - Room therm.

1 … 5

Room thermostat option (1 … 5) Yes, No No

Type Room thermostat type selection Sensor, Switch Sensor Sensor RTH RTH input allocation system dependent system dependent TAmbSet Set room temperature 10 … 30 °C 18 °C Hysteresis RTH hysteresis 0.5 … 20.0 K 0.5 K Timer RTH timer Yes, No No Correction Correction value 1 … 20 K 5 K Relay RTH relay selection system dependent system dependent

Adjustment channel

Description

Adjustment range / selection

Factory setting

RTH Room thermostat Activated, Deactivated Activated HC off Heating circuit off option Yes, No Ye s Backup

heating

Backup heating option Yes, No No

Backup heating

Backup heating submenu - -

Mode Backup heating mode selection Therm., Zone, On/Off Therm. Output Output selection system dependent system dependent Sensor 1 Allocation reference sensor 1 system dependent system dependent

Sensor 2

Allocation reference sensor 2

(if mode = Zone)

system dependent system dependent

DTo n

Switch-on temperature differ

ence

-15.0 … 44.5 K 5.0 K

DToff

Switch-off temperature differ

ence

-14.5 … 45.0 K 15.0 K

Loading pump

Boiler loading pump option Yes, No No

Start. opt. Starting optimisation option Yes, No No Time Time starting optimisation 0 … 300 min 60 min Stopp. opt. Stopping optimisation option Yes, No No Time Time stopping optimisation 0 … 300 min 60 min Solar off Solar off option Yes, No No Store Allocation solar store all solar stores Stset Set temperature option Yes, No No SFB off Solid fuel boiler off option Yes, No No SFB Allocation solid fuel boiler all solid fuel boilers DHW

priority

DHW priority option Yes, No No

Chimney sweeper

Chimney sweeper option Yes, No Ye s

Antifreeze Antifreeze option Yes, No No Sensor Antifreeze sensor Flow, Outdoor Flow TAntifr Antifreeze temperature -20 … +10 °C +5 °C TFlowset Set ow temperature antifreeze 20 … 50 °C 20 °C Special oper. Special operation option Yes, No No

Adjustment channel

Description

Adjustment range / selection

Factory setting

Special oper. Special operation submenu - Type Special operation variant Cooling, Heat dump Output Output selection system dependent system dependent

Mode Cooling mode

Outdoor, Ext. switch,

Both

Sensor Switch input selection - -

Inverted Inverted switching option Yes, No No TDay off Outdoor temperature cooling 20 … 40 °C 20 °C Cooling

system

Cooling system submenu - -

Mode Mode Linear, Constant Constant TFlow Cooling  ow temperature 5 … 25 °C 20 °C TOutdoor 1 Lower outdoor temperature 15 … 45 °C 20 °C TFlow 1 Lower set  ow temperature 5 … 25 °C 20 °C TOutdoor 2 Upper outdoor temperature 15 … 45 °C 40 °C TFlow 2 Upper set  ow temperature 5 … 25 °C 10 °C TFlowmin Minimum  ow temperature 5 … 29 °C 10 °C TFlowmax Maximum  ow temperature 6 … 30 °C 25 °C Timer Timer option cooling Yes, No No tOn Switch-on time cooling 00:00 … 23:45 00:00 tOff Switch-off time cooling 00:00 … 23:45 00:00 Dew point

switch

Dew point switch (DPS) option Yes, No No

Sensor Allocation DPS input system dependent system dependent Output Output selection system dependent system dependent Sensor Allocation heat dump sensor system dependent system dependent

To n

Switch-on temperature heat dump

25 … 95 °C 85 °C

Toff

Switch-off temperature heat dump

20 … 90 °C 50 °C

TFlowset Set  ow temperature heat dump 5 … 90 °C 50 °C

Energy saving Energy saving operation option Yes, No No

Energy saving

Energy saving operation

submenu

- -

Sen. return HC return sensor allocation system dependent system dependent

Adjustment channel

Description

Adjustment range / selection

Factory setting

DToff

Switch-off temperature differ-

ence energy saving operation

1 … 49 K 4 K

Break

Break time energy saving

operation

0 … 60 min 15 min

Runtime Runtime energy saving operation 0 … 60 min 2 min

Funct.

De/activation of the heating

circuit

Activated, Deactivated, Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

10.3 Optional functions

In this menu, optional functions can be selected and adjusted for the heating part

of the arrangement.

The kind and number of optional functions offered depends on the previous ad-

justments.

Note

For further information about adjusting optional functions, see page 14.

In the Demand submenu, the modes Standard and Demand are available. If Standard is selected, the output can be adjusted. If Demand is selected, a demand has to be activated and adjusted in the Heating/ Shared rel.  rst. If Adjustment values is selected, the Heating/ Shared rel. / Demand will open.

Note

For information on the output selection see page 16.

Thermal disinfection

This function helps to contain the spread of Legionella in DHW stores by system-

atically activating the backup heating.

One Sensor and one output or Demand respectively can be selected for this function.

For thermal disinfection, the temperature at the allocated sensor has to be monitored. Protection is ensured when, during the Monitoring period, the Disinfec-

tion temperature is continuously exceeded for the entire Disinfection period. The monitoring period starts as soon as the temperature at the allocated sensor

falls below the disinfection temperature. If the monitoring period ends, the Demand will activate the backup heating. The Disinfection period starts when the

temperature at the allocated Sensor exceeds the disinfection temperature. Thermal disinfection can only be completed when the Disinfection temperature

is exceeded for the duration of the Disinfection period without any interruption.

Starting time delay

If the Starting delay option is activated, a starting time for the thermal disinfection with starting delay can be adjusted. The activation of the backup heating is then

delayed until that starting time after the monitoring period has ended.

If the monitoring period ends, for example, at 12:00 o'clock, and the starting time has been set to 18:00, the reference relay will be energised with a delay of 6 hours at 18:00 instead of 12:00 o'clock.

Heating / Opt. functions / Add new function / Th. Disinfection

Adjustment channel

Description

Adjustment range / selection

Factory setting

Demand Demand relay selection system dependent system dependent

Circulating pump

Circulating pump option Yes, No No

Output

Circulating pump output selection

system dependent system dependent

Sensor Disinfection sensor selection system dependent system dependent

Interval Monitoring period 0 … 30, 1 … 23 (dd:hh) 1d 0h

Temperature Disinfection temperature 45 … 90 °C 60 °C

Duration Disinfection period 0.5 … 24.0 h 1.0 h

Start. time Starting delay option Yes, No No

Start. time Starting time 00:00 … 23:30 20:00

Hyst. off Switch-off hysteresis 2 … 20 K 5 K

Hyst. on Switch-on hysteresis 1 … 19 K 2 K

TD holid. off

Thermal disinfection off when

holiday function is active

Yes, No No

Funct. Activation / Deactivation

Activated, Deactivated, Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

DHW heating

The DHW heating is used for demanding a backup heating for heating the DHW store. If the Loading pump option is activated, another adjustment channel will appear,

in which an output can be allocated to the loading pump. The allocated output will switch on and off with the demand relay.

If the Overrun time option is activated, another adjustment channel will appear,

in which the overrun time can be adjusted. If the overrun time option is activated,

the loading pump relay will remain switched on for the adjusted duration after the demand relay has been switched off.

For the DHW heating, 2 modes are available:

Thermal mode

The allocated demand relay will be switched on when the temperature at the allocated Sensor 1 falls below the adjusted switch-on temperature. If the temperature

at the allocated sensor 1 exceeds the adjusted switch-off temperature, the relay

will be switched off.

Zone mode

If the zone mode has been selected, another sensor can be allocated in the channel Sensor 2. The switch-on, or the switch-off conditions respectively, then have to be ful lled at both sensors in order for the output to be switched on or off.

When the Timer option is activated, a timer is indicated in which time frames for the function can be adjusted.

If SFB off is activated, DHW heating will be suppressed when a selected solid fuel

boiler is active.

If Solar off is activated, DHW heating will be suppressed when a selected store is being loaded.

If the Set temperature option is activated, the DHW heating will only be sup- pressed when the store temperature exceeds the Set store temperature.

Note

For information on timer adjustment see page 12.

Heating / Opt. functions / Add new function / DHW heating

Adjustment channel

Description

Adjustment range / selection

Factory setting

Demand Output selection demand system dependent -

Loading pump

Loading pump option Yes, No No

Output

Output selection loading pump

system dependent -

Overrun

time

Overrun option Yes, No No

Duration Overrun time 1 … 10 min 1 min

Mode Operating mode Zone, Therm. Therm.

Sensor 1

Allocation reference sensor 1

system dependent system dependent

Sensor 2

Allocation reference sensor 2

(if mode = Zone)

system dependent system dependent

To n Switch-on temperature 0 … 94 °C 40 °C

Toff Switch-off temperature 1 … 95 °C 45 °C

Timer Timer option Yes, No No

Timer Timer - -

DHW holid. off

DHW heating off when

holiday function is active

Yes, No No

Solar off Solar off option Yes, No No

Store Allocation solar store all solar stores -

Stset Set temperature option Yes, No No

SFB off Solid fuel boiler off option Yes, No No

SFB Allocation solid fuel boiler all solid fuel boilers -

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

DHW preheating

The DHW preheating function uses heat from a buffer store to heat the cold water inlet of the DHW store.

The controller monitors the  ow rate at the selected Flow rate sensor. If a  ow rate is detected, the pump will switch on with the Starting speed.

If the temperature at the Temperature sensor selected exceeds the adjusted DHW maximum temperature, the speed will be decreased by the Increment

value. The interval to the next measurement and adaptation can be adjusted by

means of the parameter Delay.

If the DHW maximum temperature is not reached after the delay time has elapsed, the speed will be increased by the increment value. The speed will not be increased or decreased respectively within the Hysteresis.

If the

T function is activated, the pump will switch on only if DTo n is exceeded,

and switch off if the temperature difference falls below DToff.

If the Valve option is activated, the output selected will be activated when the

pump is activated.

Heating / Opt. functions / Add new function / DHW preheat.

Adjustment channel

Description

Adjustment range / selection

Factory setting

Pump Output selection pump system dependent -

Valve Valve option Yes, No No

Valve Output selection valve system dependent -

Temp. sensor Temperature sensor system dependent -

Sen.  ow rate Flow rate sensor

IMP1 … IMP3, Ga1, Ga2, Gd1, Gd2, FR1 (FlowRotor)

Tmax. DHW DHW maximum temperature 20 … 90 °C 60 °C

Starting speed Starting speed DHW preheating 20 … 100 % 50 %

Adjustment channel

Description

Adjustment range / selection

Factory

setting Increment Increment speed adaptation 1 … 100 % 10 %

Hysteresis Hysteresis speed adaptation 0.5 … 10.0 K 5.0 K

Delay Delay time 1 … 10 s 5 s

T function

Activation DT function Yes, No No

To n Switch-on temperature difference 1.0 … 50.0 K 5.0 K

Toff Switch-off temperature difference 0.5 … 49.5 K 3.0 K

Sen. source Heat source sensor selection system dependent -

Sen. sink Heat sink sensor selection system dependent -

Funct. Activation / Deactivation

Activated, Deactivated,

Switch

Activated

Sensor Switch input selection - -

Save / Delete

function

Save or delete function - -

optional

10.4 Screed drying

This function is used for time- and temperature-controlled screed drying in selectable heating circuits.

The heating circuits can be selected in the Heating / Screed drying menu. At the end of this menu, the function can triggered by using Start.

The controller will automatically change to the screed drying status menu. The current Phase will be indicated on the display and the Remaining time will be

indicated as a countdown (dd:hh). During this process, the directional pad is  ashing

green.

At the end of the menu, Cancel will be indicated instead of start. If Cancel is selected, screed drying will be cancelled immediately. For this reason, a security enquiry will appear. If you wish to cancel the screed drying function, con rm the

security enquiry.

At the beginning of the screed drying function, the heating circuits selected are put

into operation for the adjusted Rise time with the Start temperature as the set

 ow temperature. Afterwards, the set  ow temperature increases in steps by the adjustable Rise value for the duration of the adjustable Rise time until the Holding temperature is reached. After the Holding time has elapsed, the set  ow tempera-

ture is reduced in steps until the start temperature is reached again.

If the set  ow temperature is not reached within 24 hours or after the rise time respectively, or if it is constantly exceeded, the screed drying function will be can-

celled. The heating circuit switches off and an error message is displayed. The directional

pad  ashes red.

Error 1:  ow sensor defective

Error 2: the  ow temperature is higher than the maximum  ow temperature + 5 K

for over 5 min

Error 3: the  ow temperature is higher than the holding temperature + rise value for

over 30 min

Error 4: the  ow temperature is higher than the set  ow temperature + rise value

for over 2 h

Error 5: the  ow temperature is lower than the set  ow temperature - rise value for

over a rise time period

During screed drying of the heating circuits selected, the other heating circuits run

corresponding to their operating modes.

Button ➆ can be used any time for changing to the status or main menu of the controller in order to carry out adjustments.

When the screed drying function has been successfully completed, the correspond-

ing heating circuits will change to their operating modes selected.

Screed drying will automatically be deactivated. The chimney sweeper function will be activated in all heating circuits.

Note Make sure the heating circuits are supplied with heat from a heat source

(backup heating).

Note

If an SD card has been inserted into the slot, a screed protocol will be

generated.

Heating / Screed drying

Adjustment channel

Description

Adjustment range / selection

Factory setting

HC Heating circuit selection HC 1 … 7 system dependent

TStart Start temperature 10 … 30 °C 20 °C

TMax Holding temperature 20 … 60 °C 30 °C

Rise Rise value 1 … 10 K 2 K

Rise time Rise duration 1 … 24 h 24 h

tBacking Tmax holding time 1 … 20 d 5 d

Start Activation / Deactivation Yes, No No

11 HQM

In the HQM menu, up to 7 internal heat quantity measurements can be activated and adjusted.

By selecting the menu item new HQM..., a new heat quantity measurement can

be activated.

A menu will open in which all adjustments required for the heat quantity measurement can be made.

If the Flow rate sensor option is activated, an impulse input or, if available, a

Grundfos Direct Sensor™ or a FlowRotor can be selected. The FlowRotor and the Grundfos Direct Sensors™ will only be available if they have been previously

registered in the Inputs / Modules menu. The impulse rate must be adjusted in that menu as well.

If the Flow rate sensor option is deactivated, the controller will calculate the heat

quantity by means of a  xed  ow rate value.This is called heat quantity balancing. For this purpose, the  ow rate must be read from the  owmeter at 100 % pump

speed and adjusted in the adjustment channel Flow rate. In addition to that, a Relay must be allocated. Heat quantity balancing is in effect whenever the allocated

relay is active. In the adjustment channel Fluid type the heat transfer  uid must be selected.

If either propylene glycol or ethylene glycol is selected, the adjustment channel Concentration is indicated in which the antifreeze ratio of the heat transfer  uid

can be adjusted.

If a calorimeter is being con gured for the  rst time or after the overall quantity has been reset, the parameter Carryover will appear. A former value which is to be added to the overall quantity, can be entered.

When the Alternative unit is activated, the controller will convert the heat quan- tity into the quantity of fossil fuels (coal, oil or gas) saved, or the CO

emission saved

respectively. The alternative Unit can be selected. A Conversion factor must be adjusted for the calculation. The conversion factor depends on the arrangement in use and has to be determined individually.

Heat quantity measurements already saved will appear in the HQM menu above the

menu item new HQM… in numerical order.

If a heat quantity measurement already saved is selected, the above mentioned submenu with all adjustment values will re-open.

At the end of each HQM submenu, the menu items Function and Save function are available. In order to save a heat quantity measurement, select Save function and con rm

the security enquiry by selecting Ye s . In heat quantity measurements already saved, the menu item Delete function will appear instead.

In order to delete a heat quantity measurement already saved, select Delete function and con rm the security enquiry by selecting Yes. The heat quantity measure-

ment deleted will disappear from the list and become available for selection in the

new HQM… menu again.

With the menu item Function, a heat quantity measurement already saved can be

temporarily deactivated or re-activated respectively. In this case, all adjustments will

remain stored. By selecting Switch, the heat quantity measurement can be activated or deactivat-

ed respectively by means of an external switch. If Switch is selected, the channel

Sensor will appear. In this channel, the sensor input to which the switch is to be

connected can be allocated to the function.

HQM / new HQM...

Adjustment channel

Description

Adjustment range / selection

Factory setting

Sen.  ow Flow sensor selection system dependent system dependent Sen. ret. Return sensor selection system dependent system dependent

Sen.  ow rate

Flow rate sensor option

Yes, No No

Sen.  ow rate Flow rate sensor selection

IMP1 … IMP3, Ga1, Ga2, Gd1, Gd2, FR1

Fl.rate

Flow rate (only if Sen.  ow rate = No)

1.0 … 500.0 l/min 3.0 l/min

Relay Relay selection system dependent -

Fluid type Heat transfer  uid

Tyfocor LS, Propyl., Ethyl.,

Water

Concentr.

Glycol concentration in the heat transfer  uid (only if  uid type = Propyl. or Ethyl)

20 … 70 % 40 %

Alternative

unit

Alternative unit option Yes, No No

Carryover

Carryover value (for the  rst-time con guration or after a HQM reset only)

Unit Alternative display unit Coal, Gas, Oil, CO

Factor Conversion factor 0.0000001 … 100.0000000 0.5000000 Funct. Activation / Deactivation Activated, Deactivated Activated

12 Basic settings

In the Basic settings menu, all basic parameters for the controller can be adjusted. Normally, these settings have been made during commissioning. They can be subse-

quently changed in this menu.

Basic settings

Adjustment channel

Description

Adjustment range / selection

Factory setting

Language Selection of the menu language Deutsch, English, Français,

Italiano, Español

Deutsch

Auto DST Daylight savings time selection Yes, No Ye s

Date Adjustment of the current date 01.01.2001 … 31.12.2099 01.01.2012

Time Adjustment of the current time 00:00 … 23:59 -

Temp. unit Temperature unit °C, °F °C

Flow unit Volume unit Gallons, Liter Liter

Press. unit Pressure unit psi, bar bar

Energy unit Energy unit Wh, BTU Wh

Blocking protection

Blocking protection submenu - -

Start. time Blocking protection starting time 00:00 … 23:59 12:00

Runtime Blocking protection runtime 1 … 30 s 10 s

Reset back to factory setting Yes, No No

Scheme Scheme selection 0000 … 9999 0000

13 SD card

The controller is equipped with an SD card slot for SD memory cards.

With an SD card, the following functions can be carried out:

• Logging measurement and balance values. After the transfer to a computer, the

values can be opened and visualised, e. g. in a spreadsheet.

• Store adjustments and parameterisations on the SD card and, if necessary, re-

trieve them from there.

• Running  rmware updates on the controller.

Firmware updates

The current software can be downloaded from www.resol.com/ rmware. When an SD card with a  rmware update is inserted, the enquiry Update? is indicated

on the display.

Î To run the update, select Yes and con rm by pressing button ➄.

The update is run automatically. The indication Please wait and a progress bar

appear on the display. When the update has been completed, the controller will

automatically reboot and run a short initialisation phase.

Note

Only remove the card when the initialisation phase has been completed and the main menu is indicated on the controller display!

Î To skip the update, select No.

The controller starts normal operation.

Note

The controller will only recognise a  rmware update  le if it is stored in a

folder named RESOL on the  rst level of the SD card.

ÎCreate a folder named RESOL on the SD card and extract the down-

loaded ZIP  le into this folder.

Starting the logging

Î Insert the SD card into the slot. Î Adjust the desired logging type and interval.

Logging will start immediately.

Completing the logging process

Î Select the menu item Remove card... Î After Remove card is displayed, remove the card from the slot.

When Linear is adjusted in the logging type adjustment channel, data logging will stop if the capacity limit is reached. The message Card full will be displayed.

If Cyclic is adjusted, the oldest data logged onto the SD card will be overwritten as soon as the capacity limit is reached.

Note

Because of the increasing size of the data packets, the remaining logging time does not decrease linearly. The data packet size can increase, e. g. with the increasing operating hours value.

Storing controller adjustments

Î To store the controller adjustments on an SD card, select the menu item Save

adjustments.

While the adjustments are being stored,  rst Please wait, then Done! will be indicated on the display. The controller adjustments are stored as a .SET  le on the

SD card.

Loading controller adjustments

Î To load controller adjustments from an SD card, select the menu item Load

adjustments.

The  le selection window will appear.

Î Select the desired .SET  le.

While the adjustments are being loaded,  rst Please wait, then Done! will be indicated on the display.

Formatting the MicroSD card

Î Select the menu item Format card.

The content of the card will be deleted and the card will be formatted with the

FAT  le system.

Note To safely remove the SD card, always select the menu item Remove card... before removing the card.

SD card

Adjustment channel

Description

Adjustment range / selection

Factory setting

Remove card... Safely remove card - -

Save adjustments Save adjustments - -

Load adjustments Load adjustments - -

Logging interval Logging interval 00:01 … 20:00 (mm:ss) 01:00

Logging type Logging type Cyclic, Linear Linear

Format card Format card - -

14 Manual mode

In the Manual mode menu, the operating mode of all outputs in the controller and in modules connected can be adjusted.

All outputs are displayed in numerical order,  rst those of the controller, then those of the individual modules connected. Modules are listed in numerical order.

In the All outputs... menu, all outputs can be switched off (Off) or set to automat- ic mode (Auto) at once:

Off = Output is switched off (manual mode)

Auto = Output is in automatic mode

The operating mode can be selected for each individual output, too. The following options are available:

Off = Output is switched off (manual mode) On = Output is active at 100 % speed (manual mode)

Auto = Output is in automatic mode

Note

After service and maintenance work, the relay mode must be set back to

Auto. Normal operation is not possible in manual mode.

Manual mode

Adjustment channel

Description

Adjustment range / selection

Factory

setting Relay 1 … X Operating mode relay On, Auto, Off Auto

Output A … D Operating mode signal output On, Auto, Off Auto

Demand 1 (2) Operating mode demand Max, Auto, Min, Off Auto

All outputs… Selection operating mode of all relays Auto, Off Off

15 User code

In the User code menu, a user code can be entered. Each number of the 4-digit code must be individually adjusted and con rmed. After the last digit has been con rmed, the menu automatically jumps to the superior menu level.

To access the menu areas of the installer level, the installer user code must be entered:

Installer: 0262 For safety reasons, the user code should generally be set to the customer code

before the controller is handed to the customer! Customer: 0000

16 Inputs / Modules

In the Inputs / Modules menu, external modules can be registered and sensor offsets be adjusted.

16.1 Modules

In this menu, up to 5 external modules can be registered. All modules connected and acknowledged by the controller are available.

Î To register a module, select the corresponding menu item by pressing button

➄.

The checkbox indicates the selection. If a module is registered, all its sensor inputs and relay outputs will be available in the corresponding controller menus.

Inputs / Modules / Modules

Adjustment channel

Description

Adjustment range / selection

Factory setting

Module 1 … 5 Registering external modules - -

16.2 Inputs

In this submenu, the type of the sensor connected can be adjusted for each individual input. The following types can be selected:

• S1 … S12: Switch, Fern (remote control), BAS (operating mode

switch), Pt1000, Pt500, KTY, None

• S13 / IMP1 … S15 / IMP3: Impulse, Switch, Fern (remote control), BAS (operating

mode switch), Pt1000, Pt500, KTY, None

• CS10: A … K

• Ga1, Ga2: RPS, VFS, None

• Gd1, Gd2: RPD, VFD, None

• FR1: DN20, DN25, DN32, None

ATTENTION!

System damage!

Selecting the wrong sensor type will lead to unwanted control

behaviour. In the worst case, system damage can occur!

Î Make sure that the right sensor type is selected!

If KTY, Pt500 or Pt1000 is selected, the channel Offset will appear, in which an individual offset can be adjusted for each sensor.

Î In order to select a sensor for the offset adjustment, select the corresponding

menu item by pressing button ➄.

Î To adjust the sensor offset, select the desired value by pressing buttons ❷ or

❹, then con rm by pressing button ➄.

Note

If a sensor is used as the temperature sensor of a function, the sensor

types Switch, Fern, BAS, Impulse and none will not be available for the corresponding input.

ATTENTION!

Damage to the device!

Sensor inputs which have been set to the sensor type switch can

only be used for connecting potential-free switches.

Î Make sure no voltage is applied!

If Switch is selected, the Inverted option will appear and can be used for inverting the behaviour of the switch.

CS sensor offset

If a CS10 irradiation sensor is to be connected, an offset has to be carried out

before the connection is made.

To carry out the offset, proceed as follows:

Î Adjust the CS type in the Type channel. Î Select the Offset channel. Î Con rm the Reset enquiry with Ye s . Î Select back to return to the Inputs menu, then connect the CS sensor.

Note

When Grundfos Direct Sensors

are used, connect the sensor ground

common terminal block to PE (see page 7).

Inputs / Modules / Inputs

Adjustment channel

Description

Adjustment range / selection

Factory setting

S1 … S12 Sensor input selection - -

Type Sensor type selection

Switch, Fern, BAS, KTY, Pt500, Pt1000, None

Pt1000

Offset Sensor offset -15.0 … +15.0 K 0.0 K

IMP1 … IMP3 Impulse input selection - -

Type Sensor type selection

Impulse, Switch, Fern, BAS, KTY, Pt500, Pt1000, None

Impulse

Inverted

Switch inversion (only when Type = Switch)

Yes, No No

Vol./Imp. Impulse rate 0.1 … 100.0 1.0

CS10 CS10 input - -

Type CS type A … K E

Offset Delete offset Yes, No No

Ga1, 2

Analogue Grundfos Direct

Sensor

1, 2

- -

Type Grundfos-Direct-Sensor

type RPS, VFS, None None

Max.

Maximum pressure

(if Type = RPS)

0.0 … 16.0 bar 6 bar

Min. Minimum  ow rate (if Type = VFS) 1 … 399 l/min 2 l/min

Max.

Maximum  ow rate (if Type = VFS)

2 … 400 l/min 40 l/min

Gd1, 2

Digital Grundfos Direct Sensor

1, 2

- -

Type Grundfos-Direct-Sensor

type RPD, VFD, None None

if Type = VFD:

Measuring range selection

10 - 200 l/min, 5 - 100 l/min, 2 - 40 l/min, 2 - 40 l/min (fast), 1 - 20 l/min, 1 - 12 l/min*

1 - 12 l/min

* For the Inputs Gd1 and Gd2, the following sensor combinations are possible:

- 1 x RPD, 1 x VFD

- 2 x VFD, but with different measuring ranges only

Directional pad ashes red.

Sensor fault. The message !Sensor fault instead of a temperature is shown on the sensor display channel.

The display is permanently off.

Press button ➄. Display illuminated?

yes

Controller has been in standby, everything o.k.

Check the supply line and reconnect it.

The fuse of the controller could be

blown. The fuse holder (which holds the spare fuse) becomes accessible when the cover is removed.The fuse

can then be replaced.

Check the power supply of the controller. Is it disconnected?

no yes

°C °F Ω

Pt500ΩPt1000

KTY

°C °F Ω

Pt500ΩPt1000

KTY

-10 14 481 961 1499 55 131 607 1213 2502

-5 23 490 980 1565 60 140 616 1232 2592 0 32 500 1000 1633 65 149 626 1252 2684 5 41 510 1019 1702 70 158 636 1271 2778

10 50 520 1039 1774 75 167 645 1290 2874 15 59 529 1058 1847 80 176 655 1309 2971 20 68 539 1078 1922 85 185 664 1328 3071 25 77 549 1097 2000 90 194 634 1347 3172 30 86 559 1117 2079 95 203 683 1366 3275

35 95 568 1136 2159 100 212 693 1385 3380 40 104 578 1155 2242 105 221 702 1404 3484 45 113 588 1175 2327 110 230 712 1423 3590 50 122 597 1194 2413 115 239 721 1442 3695

Short circuit or line break. Disconnected temperature sensors can be checked with an ohmmeter. Please check

if the resistance values correspond with the table.

If a malfunction occurs, a message will appear on the display of the controller.

WARNING!

Electric shock!

Upon opening the housing, live parts are exposed!

Î Always disconnect the device from power supply be-

fore opening the housing!

The controller is protected by a fuse. The fuse holder (which also holds the spare fuse) becomes accessible when the cover is removed. To replace the fuse, pull the

fuse holder from the base.

Note

For answers to frequently asked questions (FAQ) see www.resol.com.

17 Troubleshooting

Fuse

Pump is overheated, but no heat transfer from the collector to the store, ow and return have the same temperature; perhaps also bubbling in the lines.

Air or gas bubbles in the system?

no yes

Is the collector circuit blocked at the dirt trap?

yes

Clean dirt trap

Pump starts for a short moment, switches off, switches on again, etc.

Temperature difference at the controller too small?

no yes

Wrong position of collector sensors?

yes

Change DTon and DToff correspondingly.

Mount the collector sensor at solar

ow (warmest collector output); use immersion sleeve of the respective

collector.

o.k.

Pump starts up very late.

The temperature difference between store and collector increases enormously

during operation; the collector circuit cannot dissipate the heat.

Collector circuit pump defective?

yes

Heat exchanger calcied?

yes

Check / replace it

Decalcify it

Heat exchanger blocked?

yes

Clean it

Heat exchanger too small?

yes

Change DTon and DToff correspondingly.

Switch-on temperature difference

DTon too large?

no yes

Vent the system; increase the system

pressure to a static primary pressure

of at least plus 0.5 bar; if necessary continue to increase pressure; switch

the pump on and off for a short time.

Plausibility control of the option tube collector function

Replace with

correctly sized one.

Non-ideal position of the collector

sensor (e. g. atscrew sensor instead

of sensor in immersion sleeves).

yes

Activate tube collector function if

necessary.

o.k.

Does the DHW circulation run for

a very long time?

no yes

Use the circulation pump with timer and switch-off thermostat (ener-

gy-efcient circulation). Circulation pump and blocking valve should be switched off for 1 night; less

store losses?

yes no

Check whether the pumps of the

after-heating circuit run at night;

check whether the non-return valve

is defective; problem solved?

Check the non-return valve in warm

water circulation - o.k.

yes no

The gravitation circulation in the

circulation line is too strong; insert a stronger valve in the non-return valve or an electrical 2-port valve behind the circulation pump; the 2-port valve

is open when the pump is activated,

otherwise it is closed; connect pump and 2-port valve electrically in parallel; activate the circulation again. Deactivate pump speed control!

Clean or replace it.

Further pumps which are connected

to the solar store must also be

checked.

Is the pump current enabled by the controller?

Display illuminated? If not, press button ➄. Display illumi-

nated again?

Does the pump start up in manual

operation?

The solar circuit pump does not work, although the collector is considerably warmer than the store.

yes no

yes

There is no current; check fuses / re-

place them and check power supply.

The adjusted temperature differ-

ence for starting the pump is too

high; choose a value which makes

more sense.

yesno

Stores cool down at night.

Collector circuit pump runs during

the night?

no yes

Check controller

Check the non-return valves in the ow and the return pipe for functional efciency.

Sufcient store insulation?

yes no

Increase insulation.

Insulation close enough to the store?

yes no

Replace insulation or increase it.

Are the store connections insulated?

yes no

Insulate the connections.

Warm water outow upwards?

no yes

Change connection and let the

water ow sidewards or through

a siphon (downwards); less store

losses now?

no yes

o.k.

Collector temperature at night is high-

er than the outdoor temperature.

no yes

Controller might be defective -

replace it.

Is the pump stuck?

Turn the pump shaft using a screw-

driver; now passable?

Pump is defective - replace it.

yes

18 Accessories

DL3 Datalogger

For visualisation via VBus.net, incl. SD card, mains adapter,

network and VBus

cable.

DL2 Datalogger

For visualisation via VBus.net, incl. SD card and network cable, mains adapter and VBus

cable pre-connected.

EM Extension Module

Sensor and relay Extension module with 5 outputs and 6 inputs

TS10 Dew point switch

For condensation detection in a heating circuit used for cooling purposes.

VFS / RPS & VFD / RPD Grundfos Direct Sensors™

Analogue / digital sensors in different versions

V40 Flowmeter

The V40 is a measuring instrument for detecting the  ow

of water or water/glycol mixtures.

AM1 Alarm module

Alarm module for signalling system failures

SD3 / SDFK Smart Display / GA3 Large Display

The SD3 Smart Display is used for visualising data issued by the controller: collector temperature, store tempera-

ture and energy yield of the solar thermal system.

The SDFK Smart Display indicates the solid fuel boiler

temperature and the bottom/top store temperatures as well as the pump status.

The GA3 is a completely mounted large display module for visualisation of collector- and store temperatures as

well as the heat quantity yield of the solar system.

SP10 Overvoltage protection device

Overvoltage protection device, suitable for mounting out-

doors.

VBus® / USB & VBus® / LAN interface adapters

With the RESOL VBus

/ USB interface adapter, the

controller can be connected to the USB port of a PC via

the VBus®.

The VBus

/ LAN interface adapter is designed for the

direct connection of the controller to a PC or router.

It enables easy access to the controller via the local

network of the owner.

Sensors

The product range includes high-precision platinum tem-

perature sensors,  atscrew sensors, outdoor temperature sensors, indoor temperature sensors, cylindrical clip-on sensors, also as complete sensors with immersion sleeve.

0-10 V boiler control .......................................................................................................... 72

Antifreeze function ............................................................................................................. 80

Antifreeze, solar optional function .................................................................................. 53

App 79

Backup heating, heating circuit ......................................................................................... 79

Backup heating suppression .............................................................................................. 54

Boiler control ....................................................................................................................... 72

Bypass, solar optional function ......................................................................................... 50

Chimney sweeper function ............................................................................................... 80

Circulation ............................................................................................................................ 67

Collector cooling, Cooling mode ...................................................................................... 55

Collector emergency temperature ................................................................................. 47

Commissioning menu ......................................................................................................... 19

Condensation detection .................................................................................................... 81

Controller adjustments, loading of .................................................................................. 91

Controller adjustments, storing of .................................................................................. 91

Cooling mode ...................................................................................................................... 55

Cooling via the heating circuit ......................................................................................... 81

Correction modes .............................................................................................................. 79

Countdown .......................................................................................................................... 80

CS bypass .............................................................................................................................. 51

Data logging .......................................................................................................................... 90

Day correction ..................................................................................................................... 75

Day/Night operation .......................................................................................................... 78

Day operation ...................................................................................................................... 79

Dew point switch ................................................................................................................ 81

DHW heating ....................................................................................................................... 85

DHW preheating ................................................................................................................ 86

DHW priority, heating circuit .......................................................................................... 80

Drainback option ................................................................................................................ 55

Electrical connection ............................................................................................................ 7

Energy saving operation, heating circuit ......................................................................... 81

Error messages ......................................................................................................................45

Error messages, acknowledgement of .............................................................................. 45

Error relay............................................................................................................................. 64

Flow rate monitoring ......................................................................................................... 59

Formatting the MicroSD card .......................................................................................... 91

Function block ..................................................................................................................... 69

Fuse, replacing of ................................................................................................................. 94

Heat dump ............................................................................................................................ 58

Heat dump, heating circuit ................................................................................................ 81

Heating circuit mixer .......................................................................................................... 74

Heating circuit pump .......................................................................................................... 74

Heating curve ....................................................................................................................... 75

Heat quantity measurement ............................................................................................. 88

Interval................................................................................................................................... 75

Irradiation switch ................................................................................................................ 70

Manual mode ........................................................................................................................ 91

Maximum ow temperature ............................................................................................. 75

Maximum store temperature ........................................................................................... 47

Minimum collector limitation ........................................................................................... 47

Minimum ow temperature .............................................................................................. 75

Mixer, optional arrangement function ............................................................................ 63

Mixer runtime ...................................................................................................................... 75

Modulating heating control ............................................................................................... 74

Modules, registration of ..................................................................................................... 92

Mounting ................................................................................................................................. 5

19 Index

Night correction ................................................................................................................. 75

Night operation ................................................................................................................... 78

Offset ..................................................................................................................................... 93

Operating mode, outputs .................................................................................................. 91

Operating mode switch ..................................................................................................... 79

Output selection ................................................................................................................. 16

Parallel relay, solar optional function .............................................................................. 54

Priority logic ......................................................................................................................... 47

Registering external modules ........................................................................................... 92

Remote access, heating circuit ......................................................................................... 78

Remote control ............................................................................................................ 75, 79

Return mixing function ...................................................................................................... 71

Return preheating ............................................................................................................... 68

Room control, heating circuit ........................................................................................... 77

Room control unit .............................................................................................................. 79

Room inuence, heating circuit ........................................................................................ 76

Room thermostat ............................................................................................................... 77

Screed drying ................................................................................................................ 83, 87

Sensor offset ........................................................................................................................ 93

Set ow temperature ......................................................................................................... 75

Set store temperature ....................................................................................................... 47

Shared relays ........................................................................................................................ 72

Solid fuel boiler .................................................................................................................... 66

Special operation, heating circuit ..................................................................................... 80

Spreaded loading ................................................................................................................. 49

Starting time ......................................................................................................................... 79

Start temperature ............................................................................................................... 87

Store cooling, Cooling mode .............................................................................................. 55

Store sequence control ..................................................................................................... 48

Successive loading ............................................................................................................... 49

System cooling, Cooling mode ......................................................................................... 61

Target temperature, solar optional function ................................................................. 53

Technical data ......................................................................................................................... 4

Thermal disinfection ........................................................................................................... 84

Thermostat function ............................................................................................................ 69

Timer ..................................................................................................................................... 12

Tube collector function...................................................................................................... 52

Twin pump ............................................................................................................................ 57

User code ............................................................................................................................. 92

VBus ........................................................................................................................................... 8

Virtual .................................................................................................................................... 72

Zone loading ........................................................................................................................ 64

Distributed by:

RESOL – Elektronische Regelungen GmbH

Heiskampstraße 10 45527 Hattingen / Germany

Tel.: +49 (0) 23 24 / 96 48 - 0 Fax: +49 (0) 23 24 / 96 48 - 755

www.resol.com info@resol.com

Important note

The texts and drawings in this manual are correct to the best of our knowledge. As faults can never be excluded, please note:

Your own calculations and plans, under consideration of the current standards and directions should only be basis for your projects. We do not offer a guarantee for the completeness of the drawings and texts of this manual - they only represent some examples. They can only be used at your own risk. No liability is assumed for incorrect, incomplete or false information and / or the resulting damages.

Note

The design and the specications can be changed without notice.

The illustrations may differ from the original product.

Imprint

This mounting- and operation manual including all parts is copyrighted. Another use outside the copyright requires the approval of RESOL – Elektronische Regelun- gen GmbH. This especially applies for copies, translations, micro lms and the stor- age into electronic systems.

Resol DeltaSol MX User Manual

Specifications and Main Features

Frequently Asked Questions

User Manual