EAST COAST tr 0301, Temperature differential controller Operating Instructions And Installation Manual

SOLARTHERMIE - SOLAR THERMAL - SOLAR TÉRMICO - SOLAIRE THERMIQUE

Operating instructions

Temperature differential controller

3 inputs, 1 output

709.752 | Z02 | 07.50 | Subject to change due to technical improvements!

EN

These operating instructions are part of the product.

Read these operating instructions carefully before use,
keep them over the entire lifetime of the product,
and pass them on to any future owner or user of this product.

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Contents

1 About this manual ....................... 3

1.1 Applicability .....................................

3

1.2 Users .................................................

3

1.3 Description of symbols ....................

4

2 Safety ............................................ 5

2.1 Proper usage ....................................

5

2.2 Improper usage ................................

5

2.3 Dangers during installation and

commissioning .................................

6

2.4 Detecting faults ................................

7

2.5 Exclusion of liability ..........................

7

3 Description ................................... 9

3.1 Controller in the solar circuit ...........

9

3.2 Casing overview .............................

11

4 Installation ..................................12

4.1 Opening/closing the casing ...........

12

4.2 Mounting .......................................

13

4.3 Electrical connection .....................

14

5 Display overview ........................

18

6 Commissioning

.......................... 19

7 Description of controller

functions ..................................... 20

7.1 Automatic storage tank charging ..

20

7.2 Maximum storage tank

temperature ...................................

21

7.3 Maximum collector temperature ...

21

7.4 Tube collector function ..................

21

7.5 Holiday function ............................

22

7.6 Anti-freeze function .......................

23

8 Operation .................................... 24

8.1 Reading temperature values ..........

24

8.2 Setting the controller .....................

24

9 Maintenance ............................... 29

9.1 Fault causes ....................................

29

9.2 Testing the temperature sensors ....

33

10 Dismantling and disposal ..........

35

11 Legal guarantee ........................

36

12 Technical data .............................

37

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1 About this manual

1.1 Applicability

This manual describes the installation, commissioning,
operation, maintenance and dismantling of the tem­perature differential controller for solar thermal energy
systems. When installing the remaining components,
e.g. solar collectors, pump assemblies, storage units,
pumps and switching valves, be sure to observe the
appropriate installation instructions provided by each
manufacturer.

1.2 Users

Installation, commissioning, maintenance and dis­mantling of the controller may only be performed by
trained professional personnel. Before commissioning,
the controller must be professionally assembled and
installed by professional personnel in accordance with
the applicable regional and transregional regulations
as well as the safety instructions and general instruc­tions within these installation and operating instruc­tions. The professional personnel must be familiar with
these operating instructions.

The controller is maintenance-free.
Use the controller only after first thoroughly reading

and understanding this instruction manual and the
safety instructions. Adhere to all safety instructions. In
the event of any ambiguities regarding the operation

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and alteration of parameters or functions, consult pro­fessional personnel.

1.3 Description of symbols

1.3.1 The structure of the warning notices

SIGNAL WORD

Type, source and consequences of the danger!

Measures for avoiding danger.

1.3.2 Danger levels in warning notices

Danger level Likelihoodof

occurrence

Consequences
resulting from non­compliance

DANGER

Imminent threat
of danger

Death, serious bodily
injury

WARNING

Possible threat of
danger

Death, serious bodily
injury

CAUTION

Possible threat of
danger

Minor bodily injury

CAUTION Possible threat of

danger

Property damage

1.3.3 Notes

NOTE

Note on easier and safer working habits.

Measures for easier and safer working habits.

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1.3.4 Other symbols and markings

Symbol Meaning

✓

Precondition for action



Call to action



Result of action

•

List

Emphasis on is

-

sue at hand

Emphasis on issue at hand

2 Safety

2.1 Proper usage

The temperature differential controller (called control­ler in the following) may only be used for controlling
solar thermal systems within the permissible ambient
conditions (see chapter 12).

2.2 Improper usage

The controller must not be operated in the following
environments:

outdoors
in damp rooms
in rooms where highly flammable gas mixtures can

occur
in rooms in which the operation of electrical and

electronic components may cause dangers to arise

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2.3 Dangers during installation and commis­sioning

The following dangers exist during installation / com­missioning of the controller and during operation (in
case of installation errors):

Risk of death by electrocution
Risk of fire due to short-circuit
Damage to any of the constructional fire safety

measures present in the building due to incorrectly
installed cables

Damage to the controller and connected devices
due to improper ambient conditions, inappropriate
power supply and connecting prohibited devices or
faulty devices and incorrect assembly or installation

Therefore, all safety regulations apply when working
on the mains supply. Only electricians may perform
work that requires opening the controller (such as
electrical connection work).

When laying cables, ensure that no damage occurs
to any of the constructional fire safety measures
present in the building.

Make sure that the permissible ambient condi­tions at the installation site are not exceeded (see
chapter 12).

Be sure to comply with the specified protection
degree.

Factory labels and markings may not be altered,
removed or rendered unreadable.

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Before connecting the device, make sure that the
power supply matches the specifications on the
type plate.

Make sure that all devices which are connected to
the controller conform to the technical data of the
controller.

Secure the device against unintentional start-up.
All work on an open controller must be performed

with the mains supply disconnected.
Protect the controller against overloading and

short-circuiting.

2.4 Detecting faults

Check the display regularly.
In case of faults, isolate the cause (see chapter 9).
As soon as it becomes evident that safe operation

is no longer possible (e.g. visible damage), remove
the device from the mains supply immediately.

Have professional personnel remedy the fault.

2.5 Exclusion of liability

The manufacturer cannot monitor the compliance
with this manual or the conditions and methods dur­ing the installation, operation, usage and maintenance
of the controller. Improper installation of the system
may result in damage to property and, as a result, to
bodily injury.

Therefore, we assume no responsibility and liability

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for loss, damage or costs which result from or are
in any way related to incorrect installation, incorrect
execution of installation work, improper operation and
incorrect usage and maintenance.

Similarly, we assume no responsibility for patent right
or other right infringements of third parties caused by
usage of this controller.

The manufacturer reserves the right to make changes
to the product, technical data or installation and oper­ating instructions without prior notice.

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3 Description

3.1 Controller in the solar circuit

3.1.1 The purpose of the controller

The controller controls the solar thermal system

3.1.2 The structure of the solar circuit

Temperature differential controller

Storage tank

Pump

Temperature sensor 1
(collector sensor)

Temperature sensor 2
(lower area of storage tank)

Collector

 

  

T1

T2







Solar circuit

T3

Temperature sensor 3
(upper area of storage
tank)

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3.1.3 The function of the solar circuit

The controller constantly compares the temperatures
between the collector (T1) and the lower area of the
storage tank (T2). Once the sun heats the collector and
there is a temperature difference of 8 K between the
collector and the storage tank, the pump is switched
on.

The pump extracts the heat transfer fluid from the
lower cooler area of the storage tank and pumps it to
the collector. The heat transfer fluid in the collector is
heated by the sun and flows back to the storage tank.

The heat transfer fluid heats the domestic water via a
heat exchanger located in the storage tank.

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3.2 Casing overview

 Automatic

 On

 Off

Operating buttons
Arrow up
SET button
Arrow down

Display

graphic display, animated, for controller operation
and system settings

Operating switch

The following modes of
operation can be selected:-
On
for commissioning
and testing for function-
Automatic
for automatic operation

- Off
to switch-off the pumps

Connections

Pump, mains grid, temperature
sensor

Latches

Operating
buttons

Upper casing

Screw

Lower casing

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4 Installation

4.1 Opening/closing the casing

DANGER

Risk of death by electrocution!

Remove the controller from the power supply before
opening the casing.

Make sure that the power supply cannot be unin­tentionally switched on.

Do not damage the casing.
Only switch the power supply back on after the cas-

ing has been closed.

The upper casing is connected to the lower casing by
two latches, and fastened with a screw.

4.1.1 Opening the casing

Loosen the screw and remove the upper casing in
an upwards direction.

4.1.2 Closing the casing

Place the upper casing over the lower casing at an
angle. Insert the latches into the recesses of the
lower casing.

Pivot the upper casing down and feed the operat­ing buttons through the matching holes.

Fasten the casing tightly with the screw.

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105

1

137,2

3

2

116

134

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4.2 Mounting

WARNING

Risk of electrical shock and fire if mounted in a
damp environment!

Only assemble the controller in an area where the
degree of protection is sufficient.

4.2.1 Mounting the controller

CAUTION

Risk of injury and damage to the casing when drill­ing!

Do not use the casing as a drilling template.
Choose a suitable installation site.

Drill the upper fastening hole.
Screw in the screw.
Remove the upper casing.
Hang the casing in recess .
Mark the position of the lower fastening holes ,.
Remove the casing again.
Drill the lower fastening holes.
Hang the casing in recess .
Screw the casing firmly using the lower fastening

holes  and .
Mount the upper casing.

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4.3 Electrical connection

WARNING

Risk of death by electrocution!

Remove the controller from the power supply before
opening the casing.

Observe all guidelines and regulations of the local
electricity supplier.

NOTE

The device is to be connected to the grid by means
of a plug with grounding contact, or in the case of a
fixed electrical installation via a disconnection device
for complete disconnection in accordance with the
installation guidelines

4.3.1 Preparing the cable feed

Depending on the type of installation, the cables may
enter the device through the rear of the casing or the
lower side of the casing.

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SET

7

SET

6

Diagram 2: Cable feed from below

Diagram 1: Cable feed from the rear

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Feeding the cable through the rear of the cas­ing (diagram 1):

WARNING

Risk of electrical shock and fire due to cables com­ing loose!

Install an external strain relief for the cables.

Remove the plastic flaps  from the rear side of
the casing using an appropriate tool.

Feeding the cable through the lower side of
the casing (diagram 2):

WARNING

Risk of electrical shock and fire due to cables com­ing loose!

Fasten the flexible cabling to the casing using the
strain-relief clamps provided.

Cut the left and right plastic flaps  using an appro-
priate tool and break them out of the casing.

4.3.2 Connecting the cables

If a protective conductor is provided or required
for the pump, connect it to the controller termi­nals. When connecting the protective conductor,
observe the following points:

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Make sure that the grounding contact is also
connected to the controller's mains supply side.

Each terminal may only be connected to a single
connecting wire (max 2.5 mm2).

The terminals are suitable for connection with­out sleeves; stranded wires are to be twisted (1
twist per 20 mm).

Only use the original temperature sensors (Pt1000)
that are approved for use with the controller.

Observe the following points:

The polarity of the sensor contacts is not impor­tant.

Do not lay sensor cables close to 230 volt or 400
volt cables (minimum separation: 100 mm.

If inductive effects are expected, e.g. from heavy
current cables, overhead train cables, trans­former substations, radio and television devices,
amateur radio stations, microwave devices,
etc. then the sensor cables must be adequately
shielded.

Sensor cables may be extended to a maximum
length of 100 m.

When using extension cables, select the following
cable cross sections:

0.75 mm

2

up to 50 m long

1.5 mm2 up to 100 m long

Connect the cables in accordance with the terminal
plan.

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4.3.3 Terminal plan

L NN R1 T1 T2 T3

Protective

conductor

Temperature sensor 1

(collector)

Temperature sensor 2

(lower area of storage tank)

PE L1 NPE R1 N

Grid 230 V~

(optional 115 V~)

Pump 230 V~

(optional 115 V~)

Temperature sensor 3 – optional

(upper area of storage tank)

4.3.4 Actuating the connecting terminals

NOTE

The connecting terminal may only be actuated with
an appropriate tool. An unsuitable tool or too much
mechanical pressure can damage or even destroy the
connecting terminal.

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5 Display overview

1

Temperature sensor symbols

2

Display for temperature values

and fault symbols, e.g. short
circuit, interruption (see page

30) or SYS = system error (see
page 39)

3

Holiday function (see pages

22/23)

4

Anti-freeze function (see page

23)

5

Setting the temperature unit °C /

°F 6 tube collector function

7

Setting the maximum storage

tank temperature

8

Solar circuit symbols

9

Displays message "Maximum

storage tank temperature has
been reached"

10

Warning display if faults occur,

e.g. short circuit, interruption
(see page 30) or SYS = system
error (see page 31)

11

Displays message for evapora-

tion of the collector fluid

12

Displays message for "Sufficient

heat supply"

888

°

E

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

1

2

8

3

4

7 6 5

12

11

10

9

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6 Commissioning

6.1 Testing the pump

CAUTION

Damage to pump caused by dry operation!

Make sure that the solar circuit is filled with heat
transfer fluid.

The controller casing is closed
All connections are properly made.
The solar energy system is filled.
Connect the mains supply.

To switch on the pump, set the operating switch to
the upper position (on).

The display is backlit in red
onappears in the display. After approx. 3 sec-

onds on flashes in alternation with the display.

To switch off the pump, set the operating switch to
the lower position (oFF).

The display is backlit in red
oFFappears in the display. After approx. 3

seconds oFF flashes in alternation with the
display.



✓

✓

✓

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







°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

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CAUTION

The incorrect operating mode may cause the sys­tem to shut down or impair proper functioning!

After testing the pump, always set the operating
switch to automatic operation.

To set the controller to automatic operation, move
the operating switch to the middle position (Auto).

"Aut" is shown on the display for approx. 3
seconds.

7 Description of controller functions

7.1 Automatic storage tank charging

The controller constantly compares the temperatures
between the collector (T1) and the lower area of the
storage tank (T2). As soon as the temperature in the
collector (T1) is 8 K (constant fixed value) higher than
the temperature in the storage tank (T2), the following
display appears:

The sun symbol is displayed

If no safety limits prohibit the pump from operat­ing, the pump is switched on. The following display
appears:

The pump symbol rotates

If the temperature difference falls below 4 K (constant
fixed value), the pump is switched off. The sun symbol
is no longer shown on the display.

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

•

•

40

°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

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7.2 Maximum storage tank temperature

If the lower area of the storage tank (T2) reaches
the set maximum storage tank temperature
(factory setting 60 °C), charging is stopped. A tem­perature of 3 K below the maximum storage tank
temperature must first be reached before charging
can be resumed. The following displays appear:The
pump symbol does not move

The sun symbol is displayed
The max indication flashes in the storage tank

symbol

7.3 Maximum collector temperature

During periods of high solar irradiance, the tempera­ture (T1) of the heat transfer fluid can exceed 130°C.
The heat transfer fluid evaporates. In this case, the
pump is stopped for protection purposes until the
temperature drops below 127°C.

The following displays appear:

The pump symbol does not move
The sun symbol is displayed
The vapour symbol flashes

7.4 Tube collector function

For reasons of construction the collector temperature
(T1) can only be imprecisely recorded with vacuum
tube collectors (in many cases there are no immersion
sensors; the sensor is outside the collector pipe). In

•

•

•

•

•

•

°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

60

°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

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these cases, the solar circuit must be briefly activated
at regular intervals to transmit the actual heat from
the collector pipe to the sensor (T1). If the tube col­lector function is activated, the controller automati­cally switches the pump on every 30 minutes for 30
seconds.

The following display appears:

The lower temperature sensor, T1, is shown.

7.5 Holiday function

The holiday function is used to cool down a completely
heated storage tank again via the collector. The stor­age tank can heat up too much, e.g. if no hot water
is extracted from the storage tank over an extended
period of time (holiday) of intense solar irradiance.
A completely heated storage tank subjects the solar
energy system to a higher thermal load and the solar
fluid can evaporate.

If the holiday function is activated, the storage tank
is cooled as follows: If the temperature in the storage
tank rises to 10 K below the set storage tank maximum
temperature, the controller attempts to discharge
the lower section of the storage tank to 35°C (e.g. at
night). To do so, the pump is automatically switched
on once the collector is 8 K colder than the storage
tank. Once the temperature difference between the
collector and the storage tank is only 4 K, the pump is
switched off again.

•

°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

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The following display appears:

The holiday symbol is displayed

7.6 Anti-freeze function

If the anti-freeze function is activated, the controller
switches the pump on as soon as the collector tem­perature T1 falls below +5 °C. The heat transfer fluid
is then pumped through the collector in an attempt
to prevented the system from freezing. If the collector
reaches a temperature of +7 °C, the pump is switched
off again.

CAUTION

The solar energy system can freeze despite the acti­vated anti-freeze function!

During a power outage, the anti-freeze function does
not operate.

During long-term periods of frost (due to restricted
water tank heat storage).

If collectors are mounted in locations exposed to wind.

It is recommended to generally use heat transfer fluid
with anti-freeze for solar energy systems.

Standard anti-freeze heat transfer fluids for solar
energy systems also contain an additional corrosion
inhibitor.

The following display appears:

The anti-freeze symbol is displayed

•

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•

°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

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8 Operation

CAUTION

The incorrect operating mode may cause the sys­tem to shut down or impair proper functioning!

Make sure that the operating switch is set to automatic
operation.

8.1 Reading temperature values

NOTE

The temperature in the above storage tank is only dis­played if the temperature sensor T3 (not included in
delivery) is also connected.

Use the buttons  and  to select temperature
sensor (T1, T2, T3).

The selected temperature sensor and the current
temperature reading appear in the display.

8.2 Setting the controller

8.2.1 Menu operation

To open the Settings menu, press the

SET

button

for approx. 2 seconds.

The current storage tank maximum temperature is
displayed.

Symbol for the T2 temperature sensor and max
flash.

To switch to the next setting, press the  or 
button.

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

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



48

°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

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To exit the Settings menu, press the  button again
until the menu is no longer displayed.

8.2.2 Setting the storage tank maximum tem­perature

CAUTION

Risk of scalding by excessive domestic water tem­perature!

Set the storage tank max. temperature no higher
than 60°C.

Install a thermostatic mixer in the hot water pipe
and set to max. 60°C.

The menu is open
Press the

SET

button for approx. 2 seconds until the

storage tank maximum temperature flashes.
Change the storage tank maximum temperature

using the  or  buttons.
To save the value, press the

SET

button.

8.2.3 Selecting the temperature unit

The menu is open
Press the



button again until °C / °F flashes.

Press the

SET

button for approx. 2 seconds until the

desired temperature unit – °C or °F – flashes.

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✓

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

✓


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60

°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

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8.2.4 Activating the tube collector function

NOTE

Incorrectly setting the controller can compromise the
efficiency of the solar energy system. Therefore, only
activate the tube collector function if the construction
of the collector does not allow its temperature to be
recorded immediately and/or accurately (in some cases
there are no immersion sensors; the sensor is outside
the collector pipe).

The menu is open
Press the  button again until the symbol for T1

flashes.
Press the

SET

button for approx. 2 seconds until
the symbol for T1 switches from the upper to the
lower position.

8.2.5 Activating/deactivating the holiday func­tion

NOTE

Incorrectly setting the controller can compromise the
efficiency of the solar energy system.

Only activate the holiday function if you intend to be
absent for an extended period.

Deactivate it again upon your return.

✓

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

0Co

°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

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The menu is open
Press the



button until the holiday symbol

flashes.
Press the

SET

button for approx. 2 seconds until the

small tick on the holiday symbol appears/goes out.

8.2.6 Activating/deactivating the anti-freeze
function

CAUTION

The solar energy system can freeze despite the acti­vated anti-freeze function!

During a power outage, the anti-freeze function does not
operate.

During long-term periods of frost, the system can
freeze despite the anti-freeze function.

If frost is expected for a long period of time, only
operate the system with anti-freeze.

NOTE

Incorrectly setting the controller can compromise the
efficiency of the solar energy system.

Only activate the anti-freeze function for solar
energy systems that are not filled with anti-freeze.

✓









0Co

°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

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The menu is open
Press the  button until the anti-freeze symbol

flashes.
Press the

SET

button for approx. 2 seconds until the
small tick on the anti-freeze symbol appears/goes
out.

✓





0Co

°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

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9 Maintenance

The controller was conceived for years of continuous
trouble-free operation. Nevertheless, faults may occur.
Maintenance may only be performed by professional
personnel.

In most cases, however, the fault does not lie with the
controller, but rather with the peripheral components.
The following description covers the most common
problems encountered with the controller.

Only send in the controller, with a precise fault
description, if none of the following faults are
present.

9.1 Fault causes

WARNING

Risk of death by electrocution!

Remove the controller from the power supply before
opening the casing.

Controller does not appear to function at all.

Secondary symptoms Possible cause / remedy

The controller dis­play is blank.

No power supply present

Have professional person­nel check the fuse and the
supply cable.







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The pump, which is connected to the controller,
is not running, although its switch-on conditions
have been fulfilled.

Secondary symp­toms

Possible cause / remedy

The pump symbol
rotates in the dis­play.

The pump connecting cable
is not connected, interrupted
or the fuse in the controller is
burned out.

If necessary, have professional
personnel replace the fuse.

(Replacement fuse is located in
the casing).



The pump sym­bol does not
rotate

The display is
backlit in red

OFF flashes

•

•

•

Operating switch is set to man­ual

Set the operating switch to
automatic operation.



The pump sym­bol does not
rotate

The display is
backlit in yellow

Evaporation
symbol or max
are flashing

•

•

•

No fault.
The system has stopped because

maximum collector temperature
or maximum storage tank tem­perature have been reached.

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Short-circuit symbol and warning display appear.

Secondary symptoms Possible cause / remedy

The pump symbol
does not rotate

Display background
alternately flashes
red and yellow

•

•

Temperature sensor or its sup­ply cable short-circuited

Have professional per­sonnel check the supply
cables of the tempera­ture sensors and that
they are correctly con­nected to the controller.



NOTE

In case of a T3 short-circuit the pump does not stop.

Interruption symbol and warning signal appear

Secondary symptoms Possible cause / remedy

The pump symbol
does not rotate

Display back­ground alternately
flashes red and
yellow

•

•

Temperature sensor T1 or T2
or its supply cable is inter­rupted

Have professional person­nel check the supply
cables of the temperature
sensors and that they are
correctly connected to the
controller.



NOTE

°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

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If T3 is interrupted no message appears

SYS flashes in the controller display

Possible cause / remedy

SYS means there is a system error. This means that
despite the pump running, a temperature difference
exceeding 80 K between the collector and the stor­age tank was recorded.

The following causes are possible:

The pump is faulty or not correctly connected
The isolating valve in the solar circuit is still closed
Air is in the solar circuit

•

•

•
Since a standard circulation pump cannot eliminate

air bubbles inside the piping system, the heat transfer
medium circuit comes to a standstill.

Have professional personnel check the solar
energy system to prevent damage.

Once the fault has been remedied, press any but­ton to acknowledge the fault message.





°

C

max

max

T1

D

T1

T1

T3

T2





°C

°F

!

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9.2 Testing the temperature sensors

9.2.1 Safety

Only professional personnel may test the temperature
sensors.

9.2.2 Testing the resistance values

DANGER

Risk of death by electrocution!

Remove the controller from the power supply before
opening the casing.

The temperature is recorded by resistance sensors.
These are PT1000 temperature sensors. Depending on
the temperature, the resistance value also changes. A
potentially defective sensor can be checked using an
ohmmeter.

Measuring resistance values

Disconnect the relevant temperature sensor from
the controller.

Measure the resistance value. The typical resistance
values, depending on the temperature, are listed in
the following table. Please note that small devia­tions are permissible.







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Temperature sensor resistance values

Temperature [°C] -30 -20 -10 0 10 20
Resistance [Ω] 882 922 961 1000 1039 1078

Temperature [°C] 30 40 50 60 70 80
Resistance [Ω] 1117 1155 1194 1232 1271 1309

Temperature [°C] 90 100 110 120 130 140
Resistance [Ω] 1347 1385 1423 1461 1498 1536

Temperature [°C] 150 160 170 180
Resistance [Ω] 1573 1611 1648 1685

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10 Dismantling and disposal

DANGER

Risk of death by electrocution!

Remove the controller from the power supply before
dismantling it.

To dismantle the controller, follow the assembly
instructions in the reverse order.

Dispose of the controller in accordance with the
regional regulations.







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11 Legal guarantee

In accordance with German statutory regulations,
there is a 2-year legal guarantee on this product for
the customer.

The seller will remove all manufacturing and material
faults that occur in the product during the guaran­tee period and affect the correct functioning of the
product. Natural wear and tear does not constitute a
malfunction. No legal guarantee can be offered if the
fault can be attributed to third parties, unprofessional
installation or commissioning, incorrect or negligent
handling, improper transport, excessive loading, use of
improper equipment, faulty construction work, unsuit­able construction location or improper operation or
use. Legal guarantee claims shall only be accepted if
notification of the fault is provided immediately after
it is discovered. Guarantee claims are to be directed to
the seller.

The seller must be informed before guarantee
claims are processed. For processing a guarantee
claim an exact fault description and the invoice /
delivery note must be provided.

The seller can choose to fulfil the legal guarantee either
by repair or replacement. If the product can neither be
repaired nor replaced, or if this does not occur within a
suitable period in spite of the specification of an exten­sion period in writing by the customer, the reduction in
value caused by the fault shall be replaced, or, if this is

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not sufficient taking the interests of the end customer
into consideration, the contract is cancelled.

Any further claims against the seller based on this
guarantee obligation, in particular claims for damages
due to lost profit, loss-of-use or indirect damages are
excluded, unless liability is obligatory by law.

12 Technical data

Temperature differential controller

Operational voltage 230 V~ (± 15 %), 50 Hz

[optional 115 V (± 15%), 60 Hz]
Controller's own consumption ≤ 1 W
Inputs 3

temperature recording (Pt1000)
Output 1

switched output, switching performance max. 800 W

[230 V~]
Display Animated LCD display, 2-colour background
Protection degree IP 20/DIN 40050
Permitted ambient temperature 0 to +45 °C
Mounting wall-mounted

Weight 250 g
Casing recyclable 3-piece plastic casing
Dimensions L x W x H [mm] 137 x 134 x 38
Temperature sensors 2 x Pt1000 1.5 m silicone cable (measuring range up to +180 °C)

709752