sauter equitherm EQJW245 Reference guide

Brand: sauter

Model: equitherm EQJW245

Type: Reference guide

The sauter equitherm EQJW245 is an electronic heating controller that combines ease of use with cutting-edge microprocessor technology to regulate temperature and provide comfort in various heating applications. Its key features include:

Precise Temperature Control: The EQJW245 allows for precise temperature adjustment for different heating circuits and domestic water, ensuring optimal comfort levels in various zones of your property.

Multiple Operating Modes: Choose from automatic, manual, and reduced modes to suit your heating preferences. Automatic mode follows a programmed schedule, while manual mode gives you direct control over temperature settings. Reduced mode provides energy savings during periods of lower demand.

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Electronic heating controller en Quick reference

SAUTER equitherm

EQJW245

General1

Congratulations! You have chosen a Sauter controller – a quality

product from one of the leading manufacturers of control products

for the HVAC industry. Your heating controller combines simplicity of

operation with ultra-modern microprocessor technology. Follow these

operating instructions so that you can adapt the device to your needs.

Key1.1

Factory setting sek. Secondary side

BW Domestic water T

Outside temperature

CP Communication parameters T

Boiler temperature

HK Heating circuit T

Flow temperature

Imp Impulse T

Room temperature

KW Chilled water T

Return temperature

LP Charge pump T

Temperature of

domestic water

prim. Primary side

SP SERVice parameters UP Heating pump

Flashing value in display denotes:

special/unusual status•

value that can be changed•

Indicators and operating controls2

Front view of EQJW2452.1

°C

sec

equitherm

EQJW245

PROG

LOG

PROG

ESC

STOP

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24

B11423

1 Rotary switch

2 Display

3 Input knob

4 ESC key

LCD2.2

0 1 2 3 4 5 6 7 8.... ......21 22 23 24

Times for normal mode on the current day

Time, date, setpoints, actual values etc.

Automatic mode according to weekly and calendar

switching programme. Flashing: limited/unlimited

temperature change

Controller operating in normal mode

Controller operating in reduced mode

Controller operating in standby mode.

Flashing: frost protection is active

Sensor is faulty

Heating pump for HC1, HC2 is switched on

Control unit 1, 2 is opened (c) or closed (d)

Setpoint temperature.

Flashing: actual temperature is displayed

Flow temperature

Outside temperature

Room temperature

Return temperature

Charge temperature of domestic water

Domestic-water temperature 1

Domestic-water temperature 2

Display refers to HC1 (–) or HC2 (=)

Controller is in summer mode

Calendar switching programme is currently active

Domestic water.

Flashing: increased temperature

Charge pump is switched on

An error has occurred

Rotary switch for heating circuit 1 (top)2.3

Operating modes Inputs

Automatic mode as per

switching programme

Setpoint adjustment,

normal mode

Controller is continuously in

normal mode

Setpoint adjustment,

reduced mode

Controller is continuously in

reduced mode

Enter weekly and calendar

programme for heating

Controller is continuously in

standby mode

(Un)limited temperature

change

Access to manual mode for

heating

Access to SERVice,

commissioning and

communication level

Rotary switch for heating circuit 2 (middle)2.4

Operating modes Inputs

Automatic mode as per

switching programme

Setpoint adjustment, normal

mode

Controller is continuously in

normal mode

Setpoint adjustment,

reduced mode

Controller is continuously in

reduced mode

Enter weekly and calendar

programme for heating

Controller is continuously in

standby mode

(Un)limited temperature

change

Access to manual mode for

heating

Access to logbook

Normal mode corresponds to nominal mode as per EN12098-1

Standby mode means that the heating is switched off and the anti-

frost function is active.

Contents:

1. General

2. Indicators and operating controls

3. Putting into service (by a technician)

4. How to operate (user)

2/6 www.sauter-controls.com

Rotary switch for domestic water (bottom)2.5

Operating modes Inputs

Automatic mode for domestic

water as per switching progr.

Setpoint for increased

domestic-water temp.

Continuous charge at

increased temperature

Setpoint for normal

domestic-water temp.

Continuous charge at normal

temperature

Enter weekly programme

for domestic water

Charging of domestic water is

switched off

Enter weekly programme

for conﬁ gurable output

Access to manual mode for

domestic water, conﬁ gurable

output

Once-only charge of

domestic water

If both rotary switches are set to an input position (to the right), the

controller shows the symbol

Input knob2.6

Turn the input knob to scroll through the values or parameters

available for selection. A ﬂ ashing value can be changed by turning the

input knob.

Press the input knob (‚OK‘) to go to the next menu level or to call up a

value and change it.

Press the input knob to conﬁ rm and accept a ﬂ ashing value.

ESC key2.7

Press ‚ESC‘ to return to the next menu level upwards or, if there is no

higher level, to the ﬁ rst parameter or value in the menu.

Press the ‚ESC‘ key to cancel the change; any value that has not been

conﬁ rmed will be restored to the old setting.

Putting into service (by a technician)3

Enter time3.1

1. Set the rotary switch for heating circuit to

automatic mode

: the time is shown.

2. Press input knob; time ﬂ ashes

3. Turn input knob to set time

4. Press input knob again to conﬁ rm new time

Enter date3.2

1. Set rotary switch for heating to automatic

mode

; time is shown

2. Turn input knob until date is displayed (day/

month and year will alternate)

3. Press input knob; year number ﬂ ashes

4. Turn input knob to change year

5. Press input knob to conﬁ rm year and view

day/month

6. Turn input knob to set date

7. Press input knob to conﬁ rm new date

The middle and bottom rotary switches should be set at one of the

positions for an operating mode.

Manual mode3.3

First, enable manual mode in SERVice mode (cf. 3.6) by setting SP 05

to 1. There is no control in manual mode. The outputs are switched on

or off. The valve opening is permanently set.

Access to manual mode (3.3.1

)

Set the relevant rotary switch, or all of them, to stellen

The top rotary switch is for the

valve position on the primary side

or for HC1 and UP1;

The middle and bottom rotary

switches are for further outputs.

Set valve position3.3.2

1. Press the input knob; i.e. select the

'control unit opening' menu item

2. Turn the input knob; value for control unit

opening in per cent

3. Press the input knob to conﬁ rm the value.

N.B.: Preset valve position for second

control unit is effected via

POS 2

Set output signal for pumps3.3.3

1. Turn the input knob until the preferred

output is shown

( = heating pump.

= charge pump.

= conf. output).

2. Press the input knob; select the menu item.

3. Turn the input knob; set the output signal

(e.g. 0 = pump off, 1 = pump on).

Set output signal for pumps (continued)

Press the input knob; the setting is

accepted.

Exit manual mode3.3.4

To exit manual mode, simply turn the rotary switch to another position.

Check measured values in manual mode3.3.5

...

Turn the input knob until the word 'INFO'

appears.

2. Press the input knob; select the 'INFO'

menu item.

3. Turn the input knob; each value is shown.

4. Press the 'ESC' key; exit the 'INFO' menu

item.

Commissioning and SERVice mode (3.4 )

Access to commissioning mode

Set rotary switch to

2. Turn input knob until ‚In‘ appears

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3. Press the input knob

4. Turn the input knob, show code

5. Press the input knob; the ﬁ rst SERVice

parameter appears

The commissioning level provides access to the main

SERVice parameters. These are shown in italics in the

following list (cf. 3.6).

View/change service parameters3.4.1

°C

Turn the input knob; select SERVice

parameter

2. Press the input knob; the value of the

parameter appears

3. Turn the input knob; the value of the

parameter changes

4. Press the input knob to conﬁ rm the new

value

Press the ESC key to cancel the operation. The value is not accepted

unless it was already conﬁ rmed beforehand. The parameters in the

communication level can be viewed/amended in the same manner.

Access to SERVice mode3.4.2

In the SERVice position, it is possible to choose between

commissioning, SERVice and communication levels. After pressing

the input knob at the relevant display, proceed as described for the

commissioning mode.

Set rotary switch to

2. Press the input knob

For further steps, see Section 3.4.1 and 3.4.2

Floor drying3.5

SERVice parameter SP60 (for second heating circuit: SP260, cf. 3.6)

is used to activate a ﬂ oor drying process (functional heating or screed

curing). After the ﬂ oor drying has been completed, the controller

operates regularly according to the switch position and the switching

commands. SERVice parameter SP60 (or SP260) then shows ‚9‘.

Extract from list of SERVice parameters3.6

For a detailed description, see document 7010042.

No. Explanation

SP01 X.xx Software version (read only)

SP02 - Show device status (0 = OK, >0 = error has occurred)

SP03 Logbook (read only)

SP04 0

Software reset

0 = no reset; 1 = default SE + CP; 2 = default switching

commands; 3 = default SE + CP + switching commands

SP05 0

Manual mode

0 = not enabled; 1 = enabled

SP06 1

Control model

1 = one regulating valve, primary, re-adjusted HC sec.

2 = one regulating valve, secondary, re-adjusted HC +DW

sec.

3 = two regulating valves, primary, for HC/HC +DW

4 = two re-adjusted circuits (2 x HC)

5 = two re-adjusted circuits (1 x HC, 1 x DW) sec.

6 = two re-adjusted circuits (1 x HC, 1 x DW with HC)

7 = direct control of DW and HC, plus one re-adjusted HC

8 = two regulating valves (1 primary for HC, 1 for direct DW

charge w/o mixing control)

For details, see ‹Application› sheet.

No. Explanation

SP07 0

Effect of binary input (terminal 21, 22) on HC1

0 = No inﬂ uence on HC1

1 = HC in standby mode if contacts are closed

2 = HC in reduced mode if contacts are closed

3 = HC in nominal mode if contacts are closed

4 = pulse input for metering

5 = seepage limitation

6 = input for alarm

SP08 0

Measure room temperature for HC1

0 = no room temperature measurement; 1 = connect room

sensor; 2 = connect EGS52/15 or EGT333 with room

sensor; 3 = connect EGS52/15 or EGT333 without room

sensor; 4 = second ﬂ ow sensor for domestic water

SP09 0

Transmit room temperature for HC1

0=not active; 1=active if T

> T

; 2= active if T

< T

; 3=

active if T

<> T

SP10 20 Sampling time (in minutes) for T

when transmitted

SP11 0 Adjust room temperature T

SP12 0

Adjust outside temperature T

SP13 0

RMeasure return temperature T

RF1

0 = not active; 1 = max. limitation of T

; 2 = maintain T

SP14 0 Adjust return temperature T

RF1

SP15 40 P-band for PI-controller, control unit 1

SP16 240 Integral action time for PI-controller, control unit 1

SP17 120 Valve running time for ﬁ rst control unit

SP18 5 Minimum limitation T

for HC1 in °C

SP19 75

Maximum limitation T

for HC1 in °C

SP20 90 Upper limit of max. limitation for T

for HC1,2 in °C

SP21 90 Lower limit of max. limitation for T

for HC1,2 in °C

SP22 0

, at which the ﬂ oating part of the limiting function of T

begins for HC1,2

SP23 1.0 Slope of limiting function for T

for HC1,2

SP24 90 Limit value for T

for charge of drinking water in °C

SP25 5

Level of intervention for control of control unit 1 when limit

value for T

RF1

is breached

SP26 no

Limit lmp/min for max. through ﬂ ow/output of heating and

SP27 no Limit lmp/min for max. through ﬂ ow/output of heating only

SP28 no Limit lmp/min for max. through ﬂ ow/output of DW only

SP29 0

Level of intervention for T

in K/min when limit is breached

for through ﬂ ow/output

SP30 no Limit lmp/min for min. through ﬂ ow/output

SP31 1

Functions for domestic water:

0 = no treatment of domestic water

1 = treatment of domestic water, 1 sensor

2 = treatment of domestic water, 2 sensors

3 = treatment of domestic water with through ﬂ ow control

SP32 60 Max. setpoint for DW in °C

SP33 5 MOD 1,2: switching difference DW in K

SP34 70 Max. setpoint for increased DW temperature

SP35 10 Setpoint boost for DW in K

SP36 -30

limit value for charging domestic water in °C

< limit value → parallel mode

> limit value → domestic water with priority

SP37 4 Integral action time for charge pump for DW in min

SP38 1.4 Slope of heating characteristic HC1

SP39 0.0 Portion of external heat in K

SP40 10

Setpoint boost when request for re-adjusted circuit or via

device bus in K

SP41 15 Heating limit in °C

SP42 21

Measurement of outside temperature for heating limit

0 = unattenuated; <>0 = time constant for attenuation in

hours

SP43 -16 Design temperature in °C

SP44 2

After-run factor for heating pump

(× valve›s running time)

SP45 1

Frost-protection function

0= not enabled; 1 = enabled

SP46 0

Conﬁ gurable output

0 = no function; 1 = pilot-timer function; 2 = second charge

pump; 3 = RPM change-over for pump, HC1; 4 = RPM

change-over for pump, HC2; 5 = collective-alarm notice;

6 = circulation pump; 7 = heat requirement

SP47 0

Anti-jamming facility for pumps

0 = not enabled; 1 = enabled

SP48 25.10 Summertime/wintertime change-over

SP49 25.03

Wintertime/summertime change-over P55 = P56 denotes

no change-over

SP50 0

Optimisation for HC1

0 = not enabled; 1 = enabled

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No. Explanation

SP60 0

Floor drying for HC1: 0 = not active; 7d = function heating,

25°C screed curing; 8 = malfunction; 9 = successfully

concluded

SP200 1

Function of HC2

0 = second HC not active; 1 = second HC active

SP201 0

Effect of binary input (terminals 21, 22) on HC2

0 = No inﬂ uence on HC2

1 = HC in stand-by mode if contacts are closed

2 = HC in reduced mode if contacts are closed

3 = HC in rated operating mode if contacts are closed

4 = seepage limitation

SP202 0

Measurement of room temperature for HC2

0 = no measurement of room temperature

1 = room sensor Ni1000

2 = EGS 52/15 or EGT 333 with room sensor

3 = EGS 52/15 or EGT 333 without room sensor

SP203 0 Transmission of room temperature for HC2: see SP09

SP204 30 Sampling time for T

when T

is transmitted (in min)

SP205 0 Correction of room temperature of HC2

SP206 0

Measure return temperature T

RF2

0 = not active; 1 = max. limitation of T

; 2 = maintain T

SP207 0 Adjust return temperature T

RF2

SP208 40 P-band for PI-controller, control unit 2

SP209 240 Integral action time for PI-controller, control unit 2

SP210 180 Valve running time for second control unit

SP211 5 Minimum limitation T

for HC2 (in °C)

SP212 75 Maximum limitation T

for HC2 (in °C)

SP213 5

Level of intervention for control of control unit 1 when limit

value for T

RF2

is breached

SP214 0

Level of intervention for T

in K/min when limit is breached

for through ﬂ ow/output

SP215 1.2 Slope of heating curve for HC2

SP216 0 Portion of external heat for HC2

SP217 2

Follow-up factor for heating pump 2 (x running time of

valve)

SP218 0

Optimisation for HC2

0 = not enabled; 1 = enabled

SP260 0 Floor drying for HC2 (see also SP60)

Heating characteristic3.7

2,0

1,8

1,6

1,4

1,2

1,0

0,8

0,6

0,4

2,5

3,0 3,5 4,0

-20 -15 -10 -5 0 5 10 15

[°C]

100

[

]

[°C]

Aussentemperatur

Vorlauftemperatur

Recommended slopes for heating characteristic:

1,4 for hot-water radiator heating systems

( )

1,0 for low-temperature heating systems

0,6 for ﬂ oor heating systems

Extract from list of communication parameters3.8

For a detailed description, see document 7010042.

No. Explanation

CP01 Serial number for EQJW 245 (read only)

CP02 2

Type of communication

0 = no communication; 1 = device bus; 2 = MOD bus via

RS485; 3 = MOD bus via modem; 4 = SMS via modem; 5 =

MOD bus and SMS via modem

CP03 19200 Baud rate 9600/19200

CP04 –

Device bus: address for EQJW 245

Note: one controller in the grouping must always be given

the address ‚1‘

CP05 – MOD bus via RS485: address for EQJW 245

CP06 –

MOD bus via modem: telephone number of the control

station

CP07 – SMS via modem: telephone number of the provider

No. Explanation

CP08 – SMS via modem: telephone number of the mobile phone

CP09 0

Device bus: time synchronisation

0 = not active; 1 = active

CP10 0

Device bus: send outside temperature

0 = not active; 1 = active

CP11 0

Device bus: receive outside temperature

0 = not active; 1 = active

CP12 0

Device bus: send heat requirement (TF)

0 = not active; 1 = active

CP13 0

Device bus: receive heat temperature (TF)

0 = not active; 1 = active

CP14 0

Device bus: send return temperature TRF1

0 = not active; 1 = active

CP15 0

Device bus: receive return temperature TRF1

0 = not active; 1 = active

CP16 0

Device bus: send error

0 = not active; 1 = active

CP17 0

Device bus: receive error

0 = not active; 1 = active

CP18 0

Device bus: EDB 100 digital room operating unit

0 = EDB 100 not connected

1 = EDB 100 connected

CP19 – Device bus: address of EDB 100 room operating unit

CP20 0

SMS or MOD bus via modem: automatic conﬁ guration of

modem; 0 = not active; 1 = active

CP21 5 SMS or MOD bus via modem: dialling pause in minutes

CP22 5 SMS or MOD bus via modem: time-out in minutes

CP23 5 SMS or MOD bus via modem: number of dialling attempts

CP24 0

SMS or MOD bus via modem: send message even if error

has been rectiﬁ ed; 0 = not active; 1 = active

CP25 0

SMS via modem: select language for error message

0 = German; 1 = French; 2 = English; 3 = Italian; 4 =

Spanish

CP26 0

MOD bus via modem: block dialling to control station in the

event of a fault; 0 = not active, 1 = active

CP27 0

MOD bus via RS485 or MOD bus via modem: commands

from the control station expire after the control station has

been inactive for 30 minutes; 0 = not active; 1 = active

CP201 0

Device bus: send return temperature TRF2

0 = not active; 1 = active

CP202 0

Device bus: receive return temperature TRF2

0 = not active; 1 = active

CP203 0

Device bus: EDB 100 digital room operating unit

0 = EDB 100 not connected

1 = EDB 100 connected

CP204 - Device bus: address for EDB 100 digital room operating unit

Technical data3.9

Dimensions (W x H x D) 146 x 98 x 81 mm

Weight with base approx. 0.4 kg

Supply 230 V

Tolerance +/- 15%; 50...60 Hz

Power consumption max. 1 VA

Outputs 8 relays

Switch rating:

3 x relays•

5 x relays (control unit, conﬁ gurable output)•

4(2) A

1(0.5) A

Inputs 1 binary, 8 analogue

Time switch, battery back-up (typical) 48h

Parameters non-volatile

Communication:

Interface•

Protocol•

RS485; similar to RS232

MOD bus, device bus, TAP

Permitted ambient temperature 0...+50°C

Permitted storage temperature -25°C...+65°C

Permitted ambient humidity 5...95%rh (non-condensing)

Conforms to EN12098 and CE

Type of protection IP40 (EN60529)

Protection class II (EN60730)

EMC radiation EN61000-6-1, 2

EMC immunity EN61000-6-3, 4

SP38, SP208: slope

Outside temperature

Flow temperature

5/6www.sauter-controls.com

Operation (user)4

Enter time4.1

See 3.1

Enter date4.2

See 3.2

Select operating mode4.3

Move the rotary switch to one of the positions for the operating mode;

see B3, B4, B5

Change room temperature setpoint for nominal 4.4

mode( )

1. Set upper rotary switch (for 2nd HC, use

middle knob) to

2. Press the input knob; room setpoint ﬂ ashes

3. Turn the input knob; change room setpoint

4. Press the input knob; conﬁ rm new value

Change room temperature setpoint for reduced 4.5

mode( )

Set rotary switch to ; room setpoint is

shown

For further steps, see 4.4.

Weekly switching programme(4.6 )

The weekly switching programme repeats itself every week. It consists

of a maximum of 48 switching commands. The switching commands are

captive.

Call up the weekly switching programme (heating)4.6.1

1. Set upper or middle rotary switch to

2. Press the input knob; weekly programme

is selected.

3. Turn the input knob; select day of week (1 =

Monday, 2 = Tuesday , ..., 1 - 7 daily)

4. Press the input knob; ﬁ rst switching

command is shown

View switching command4.6.2

07:00

Turn the input knob; each switching

command is shown. An empty switching

command is shown as ‚_ _ _ _‘

Enter switching command4.6.3

1. Turn the input knob until the next empty

switching command appears.

2. Press input knob; new switching command

is shown.

3. Turn input knob; time for the switching

command is changed

4. Press the input knob; time for the switching

command is conﬁ rmed

5. Turn input knob; select operating mode for

the switching command

6. Press input knob; operating mode is

conﬁ rmed

Change/delete switching command4.6.4

Show the switching command as described in the section entitled

‚View switching commands‘, e.g.:

1. Press input knob; the switching command

is called up

2. Turn the input knob; select whether to

delete (Clr) or change (SEt) the switching

command

3. Press input knob; the selection is

conﬁ rmed. If the switching command was

deleted, the next switching command will

be shown.

4. To make a change, proceed as described

in the section entitled 'Enter switching

command'.

5. And so on.

Return to automatic mode4.6.5

Set rotary switch to ‹Automatic mode as

per switching programme›

Notes on the weekly switching programme:

1. A switching command can be valid daily (1-7) or on a speciﬁ ed •

day (Mon, Tue, etc.).

2. If there is a switching command on a particular day of the week •

(Mon, Tue, etc.), the daily switching command (1-7) is not valid on

that day.

Calendar switching programme4.7

Up to 20 switching commands with date and mode can be entered.

They apply for both heating circuits. The calendar switching

programme is called up in the same way as the weekly switching

programme for the ﬁ rst heating circuit. If is shown in the ﬁ rst

operation on the display, turn the input knob until appears in order

to access the yearly switching programme. Then press the input knob

to conﬁ rm. Each command is processed in the same way as those for

the weekly switching programme.

Temporary temperature change (4.8 )

Set the rotary switch to

2. Turn the input knob; set the duration of

the temperature change (h = hours, d =

days, t = time to next switching command;

minimum of 2 h)

3. Press the input knob; duration is conﬁ rmed

4. Turn the input knob; select operating mode

(

or )

5. Press the input knob; conﬁ rm operating

mode

N.B.: To cancel , use the ESC key or set the rotary switch to

another position.

06:40

- - - -

06:40

Im Surinam 55

CH-4016 Basel

Tel. +41 61 - 695 55 55

Fax +41 61 - 695 55 10

www.sauter-controls.com

info@sauter-controls.com

Printed in Switzerland

Subject to changes

6/6 P100001472 A

Change setpoint for normal domestic water 4.9

temperature ( )

1 x

Move lower rotary switch to ; the setpoint

appears.

2. Press the input knob; the setpoint ﬂ ashes.

3. Turn the input knob; change setpoint

4. Press the input knob; conﬁ rm new value

Change setpoint for increased domestic hot 4.10

water temperature ( )

Move rotary switch to ; the setpoint

appears.

For further steps, see 4.9.

Weekly switching programme for domestic 4.11

water

The weekly switching programme repeats itself every week. It consists

of a maximum of 48 switching commands. The switching commands

are captive. There are three possible operating statuses for domestic

water heating, with the following symbols:

STOP

no domestic water heating

START

normal temperature for domestic water

START

increased temperature for domestic water

Notes on the weekly switching programme:

A switching command can be valid daily (1-7) or on a particular day •

(Mon, Tue, etc.).

If there is a switching command on a particular day of the week •

(Mon, Tue, etc.), the daily switching command (1-7) is not valid on

that day.

If you want domestic water heating to operate always in normal •

mode, there must be at least one switching command that invokes

the normal domestic water temperature.

START daily 0:00 hours

Call up weekly switching programme 4.11.1

(domestic water )

Set lower rotary knob to

2. Turn input knob; select day of week

(1=Monday, 2=Tuesday, ...,1 - 7 daily)

3. Press the input knob; the ﬁ rst switching

command is shown.

View switching commands 4.11.2

Turn the input knob; each switching

command is shown.

An empty switching command is shown as

‹_ _ _ _›

Enter switching commands4.11.3

1. Turn the input knob until the next empty

switching command appears.

2. Press the input knob; new switching

command is shown.

Turn the input knob; time for the switching

command is changed.

4. Press the input knob; time for the switching

command is conﬁ rmed.

5. Turn the input knob; select mode for the

switching command.

6. Press the input knob; operating mode is

conﬁ rmed.

Change/delete switching command4.11.4

View the switching command as described in the section entitled

‚View switching commands‘, e.g.

1. Press input knob; the switching command

is called up

2. Turn the input knob; select whether to

delete (Clr) or change (SEt) the switching

command

3. Press input knob; the selection is

conﬁ rmed. If the switching command was

deleted, the next switching command will

be shown.

4. To make a change, proceed as described

in the section entitled 'Enter switching

command'.

5. And so on.

Return to automatic mode4.11.5

Set rotary switch to ‹Automatic mode as

per switching programme›

Switching programme for pilot clock4.12

Set lower rotary switch to

For further steps, see D11.

One-off water tank charge4.13

1 x

Set bottom rotary switch to

2. Press the input knob to start charging the

tank

sauter equitherm EQJW245 Reference guide

sauter equitherm EQJW245 Reference guide

sauter equitherm EQJW245 Reference guide

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