Mitsubishi EHSC-VM6A, EHSC-YM9A, EHSC-VM2A, EHST20C-VM6HA, EHST20C-YM9HA Operation Manual

Cylinder Unit

eHSt20 series
eHPt20 series

Hydrobox

eHSC series
eHPx series

bedienUngSanleitUng

Lesen Sie sich zur sicheren und korrekten Verwendung diese Bedienungsanleitung bitte sorgfältig durch, be­vor Sie den Speicher und die Hydraulikeinheit.

FÜr nUtZer

oPeration ManUal

For safe and correct use, please read this operation manual thoroughly before operating the cylinder unit and
the hydrobox.

Mode d'eMPloi

Pour garantir une utilisation sûre et appropriée, lisez attentivement le présent mode d'emploi avant d'utiliser le
module hydraulique combiné et le module hydraulique.

Handleiding

Voor een veilig en juist gebruik moet u deze handleiding goed doorlezen alvorens de cilinder-unit en hydrobox
in gebruik te nemen.

ManUal de inStrUCCioneS

Para un uso correcto y seguro de la unidad cilindro y del Hydrobox, lea este manual de instrucciones antes de
su utilización.

ManUale di FUnZionaMento

Per un uso corretto e sicuro del dispositivo, leggere attentamente il presente manuale di funzionamento prima
di utilizzare dell'unità con bollitore e dell'hydrobox.

ManUal de FUnCionaMento

Para uma utilização segura e correcta, é favor ler cuidadosamente este manual de funcionamento antes de
trabalhar com o no cilindro e nos hídricos.

brUgSvejledning

Læs venligst denne brugsvejledning grundigt inden betjening af den i cylinderenheden og hydroboksen.

användarManUal

För säker och korrekt användning, var god läs denna användarmanual noggrant innan du använder i tanken
och hydroboxen.

english

deutsch

Français

nederlands

español

italiano

Português

d

ansk

Svenska

brUkSanviSning

Les denne bruksanvisningen nøye før du bruker i sylinderenheten og vanntanken i bruk, for å sikre trygg og
riktig bruk.

norsk

käyttöoPaS

Turvallisen ja asianmukaisen käytön varmistamiseksi lue tämä käyttöopas huolellisesti ennen varaajayksikkö
ja hydrobox käyttöä.

Suomi

käyttäjälle

For brUkeren

For USer

PoUr leS UtiliSateUrS

voor de gebrUiker

Para el USUario

Per l’Utente

Para o UtiliZador

til brUger

För användaren

1

Contents

1. Safety Precautions ...........................................2

Disposal of the Unit ......................................................... 2

2. introduction .......................................................3

Overview of the System .................................................. 3

How the Heat Pump Works ............................................. 3

Economical Best Practice ...............................................4

Overview of Controls ...................................................... 4

3. your Heating System ........................................5

System Conguration ..................................................... 5

Important Parts of the Units - Points to Note ..................5

Product Specication ......................................................6

4. Customising Settings for your Home .............7

Main Controller ............................................................... 7

General Operation ..........................................................8

Changing Initial Settings .................................................8

Schedule ......................................................................... 9

Holiday Mode ................................................................ 10

Heating Mode ............................................................... 10

Domestic Hot Water (DHW) / Legionella Prevention .....11

Service Menu ................................................................ 12

5. Service and Maintenance...............................13

Troubleshooting ............................................................ 13

Maintenance .................................................................13

abbreviations and glossary

Abbreviations/Word Description
Ambient temperature The outdoor temperature
Freeze stat. function Heating to prevent water pipes freezing
ASHP/HP Air source heat pump
COP Coefcient of performance the efciency of the heat pump
Cylinder unit Indoor unvented DHW tank and component plumbing parts
Hydrobox Indoor unit housing the component plumbing parts and a plate heat exchanger
DeltaT Difference in temperature between two variables
DHW mode Domestic hot water heating mode for showers, sinks, etc
Flow rate Speed at which water circulates around the primary circuit
Flow temperature Temperature at which water is delivered to the primary circuit
FTC3 Flow temperature controller, the circuit board in charge of controlling the system
Compensation curve mode Space heating incorporating outdoor temperature compensation
Heating mode Space heating through radiators or UFH
Legionella Bacteria potentially found in plumbing, showers and water tanks that may cause Legionnaires disease
LP mode Legionella prevention mode – a function on systems with tanks to prevent the growth of legionella bacterium
Packaged model Plate heat exchanger in the outdoor heat pump unit
Refrigerant A compound used within the heat cycle that goes through a phase change from gas to liquid
Split model Plate heat exchanger in the indoor unit
TRV Thermostatic radiator valve – a valve on the entrance or exit of the radiator panel controlling the heat output
UFH Under oor heating – a system of water carrying pipes under the oor, that warms the oor surface

2

Safety Precautions

1

disposal of the Unit

this symbol mark is for eU countries only.
this symbol mark is according to the directive 2002/96/eC
article 10 information for users and annex iv, and/or to the
directive 2006/66/eC article 20 information for end-users and
annex ii.

Your Mitsubishi Electric heating system products have been man­ufactured with high quality materials and components which can
be

recycled and/or reused. The symbol in Figure 1.1 means that
electrical and electronic equipment, batteries and accumulators
at the end of their life, should be disposed of separately from your
household waste.
I

f a chemical symbol is printed beneath the symbol (Figure 1.1),
this chemical symbol means that the battery or accumulator con­tains a heavy metal at a certain concentration. This is indicated as
follows;
Hg: mercury (0.0005%), Cd: (cadmium (0.002%), Pb: lead (0.004%)

In the European Union there are separate collection systems for used electrical
and electronic products, batteries and accumulators.
Please dispose of this equipment, batteries and accumulators correctly at your lo­cal community waste collection/recycling centre.

Contact your local Mitsubishi Electric dealer for country-specic details on

disposal.

Please, help us to conserve the environment we live in.

Warning

The unit should NOT be installed or serviced by the user. If installed incorrectly water leakage, electric shock and re may result.

never block discharges from emergency valves.
do not operate the unit without emergency valves and thermostatic cut outs being operational. if in doubt contact your installer.
do not stand on or lean on unit.
do not place objects on top or below the unit and observe service space requirements when placing objects next to the unit.
do not touch the unit or controller with wet hands as electric shock may result.
do not remove the panels of the unit or try to force objects inside the unit’s casing.
do not touch protruding pipework as it may be very hot and cause burns to the body.
Should the unit start vibrating or making abnormal noises stop operation, isolate from the power supply and contact the installer.
Should the unit start to produce any burning smells stop operation, isolate from the power supply and contact the installer.
Should water be visibly being discharged through the tundish stop operation, isolate from the power supply and contact the installer.

The Mitsubishi Electric cylinder and hydroboxes are NOT intended for use by children or inrm persons without supervision.

Care should be taken to prevent children and pets having easy access to the units.
i

n the case of a refrigeration leak, stop the operation of the unit, thoroughly ventilate the room and contact the installer.

If power supply cable is damaged, it must be replaced by the manufacturer, its service agent or similarly qualied persons in order to avoid a hazard.
Do not place containers with liquids in on top of the unit. If they leak or spill the unit may be damaged and re could occur.
When installing or relocating, or servicing the cylinder unit and the hydrobox, use only the specied refrigerant (R410A) to charge the refrigerant lines.

d

o not mix it with any other refrigerant and do not allow air to remain in the lines. if air is mixed with the refrigerant, then it can be the cause of abnormal

high pressure in the refrigerant line, and may result in an explosion and other hazards.
The use of any refrigerant other than that specied for the system will cause mechanical failure or system malfunction or unit breakdown. In the worst

case, this could lead to a serious impediment to securing product safety.

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CaUtion

do not use sharp objects to press the buttons of the main controller as this will cause damage to the buttons.
if power to unit is to be turned off for a long time, the water should be drained.

Do not place a container etc. lled with water on the top panel.

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► Before operating this unit it is important to read the safety precautions.
► The following safety points are provided to prevent injury to yourself and damage to the unit please adhere to them.

Used in this manual

Warning:
Precautions listed under this title should be observed to prevent
injury or death to the user.

CaUtion:
Precautions listed under this title should be observed to prevent
damage to the unit.

<Figure 1.1>

Follow the instructions provided in this manual and local regulations when using this unit.•

3. Expansion valve

2. Condenser

1. Compressor

4. Evaporator

(Plate heat exchanger)

(Outdoor unit air heat exchanger)

2 kW

Low temperature renewable heat
energy taken from the environment

3 kW

1 kW

Useful energy outputElectrical power input

3

introduction

2

The purpose of this user manual is to inform users how their air source heat

pump heating system works, how to run the system at its most efcient and how

to change settings on the main controller.

This appliance is not intended for use by persons (including children) with

reduced physical, sensory or mental capabilities, or lack of experience and
knowledge, unless they have been given supervision or instruction con­cerning the use of the appliance by a person responsible for their safety.
Children should be supervised to ensure they do not play with the appli­ance.
t

his user manual should be kept with the unit or in an accessible place for

future reference.

overview of the System

The Mitsubishi Electric Air to Water (ATW) heat pump system consists of the fol­lowing components; outdoor heat pump unit and indoor cylinder unit or hydrobox
incorporating main controller.

How the Heat Pump Works

Space heating and dHW

Heat pumps take electric energy and low grade heat energy from the outdoor air
to heat refrigerant which in turn heats water for domestic use and space heating.

The efciency of a heat pump is known as the Coefcient of Performance or COP

this is the ratio of heat delivered to power consumed.

The operation of a heat pump is similar to a refrigerator in reverse. This process
is known as the vapour-compression cycle and the following is a more detailed
explanation.

The rst phase begins with the refrigerant being cold and low pressure.

1

. The refrigerant within the circuit is compressed as it passes through the com-

pressor. It becomes a hot highly pressurised gas. The temperature also rises
typically to 60°C.

2.

The hot refrigerant gas is then condensed as it passes across one side of a

plate heat exchanger. Heat from the refrigerant gas is transferred to the cooler
side (water side) of the heat exchanger. As the temperature of the refrigerant
decreases its state changes from a gas to a liquid.

3.

Now as a cold liquid it still has a high pressure. To reduce the pressure the liq-

uid passes through an expansion valve. The pressure drops but the refrigerant
remains a cold liquid.

4.

The nal stage of the cycle is when the refrigerant passes into the evaporator

and evaporates. It is at this point when some of the free heat energy in the out­side air is absorbed by the refrigerant.

It is only the refrigerant that passes through this cycle; the water is heated as it
travels through the plate heat exchanger. The heat energy from the refrigerant
passes through the plate heat exchanger to the cooler water which increases in
temperature. This heated water enters the primary circuit and is circulated and
used to serve the space heating system and indirectly heat the contents of the
DHW cylinder (if present).

Schematic of package cylinder system

4

introduction

2

economical best Practice

Air source heat pumps can provide both hot water (providing a suitable cylinder is
used) and space heating all year. The system is different to a conventional fossil

fuel heating and hot water system. The efciency of a heat pump is shown by its
coefcient of performance as explained in the introduction. The following points
should be noted to achieve the most efcient and economical operation of your

heating system.

i

mportant points about heat pump systems

Domestic hot water and legionella functions are only available on cylinder units
or hydroboxes plumbed to an appropriate storage cylinder.
In normal operation simultaneous DHW and space heating is unadvisable.
However during periods of extremely low ambient temperature, the immersion
heater (if present) can be used for DHW whilst the heat pump continues to pro­vide space heating. Please be aware that the immersion heater, used alone, is

not an efcient method to heat the whole DHW tank. Therefore it should only

be used as a back up in normal operation.
The hot water produced by the heat pump is typically at a lower temperature
than a fossil fuel boiler.

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mplications

If the heat pump is being used for DHW the time at which tank heat up oc­c

urs should be scheduled using the SCHEDULE function (see page 10).
Ideally this should be during the night time when little space heating is re­quired and economy electricity tariffs can be taken advantage of.
In most situations space heating is best performed using the room tempera­ture mode. This enables the heat pump to analyse current room tempera­ture and react to changes in a controlled manner utilising the specialised
Mitsubishi Electric controls.
Using the SCHEDULE and HOLIDAY functions prevent unnecessary Space
or DHW heating when the property is known to be unoccupied for instance
during the working day.

Due to lower ow temperatures, heat pump heating systems should be used
with large surface area radiators or under-oor heating. This will provide a
steady heat to the room whilst improving efciency and so lowering running

costs of the system as the heat pump does not have to produce water at

very high ow temperatures.

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overview of Controls

Built into the cylinder unit and hydrobox is the Flow Temperature Controller3
(FTC3). This device controls the function of both the outdoor heat pump unit and
the indoor cylinder or hydrobox. The advanced technology means that by us­ing an FTC3 controlled heat pump you can not only make savings compared to
traditional fossil fuel type heating systems but also compared to many other heat
pumps on the market.

As explained in the earlier section, ‘How the Heat Pump Works,’ heat pumps are

most efcient when providing low ow temperature water. The FTC3 advanced

technology enables the room temperature to be kept at the desired level whilst

utilising the lowest possible ow temperature from the heat pump.

In room temp (Auto adaptation) mode the controller uses temperature sensors

around the heating system to monitor space and ow temperatures. This data

is regularly updated and compared to previous data by the controller to predict

changes in room temperature and adjust the temperature of water owing to the

space heating circuit accordingly. By monitoring not only the outdoor ambient, but
the room and heating circuit water temperatures, the heating is more consistent
and sudden spikes in required heat output are reduced. This results in a lower

overall ow temperature being required.

System Configuration

Packaged model system Split model system

Model name EHPT20X- EHST20C-

Cylinder unit

Model name EHPX- EHSC-

Hydrobox

5

Your Heating System

3

Important Parts of the Units - Points to Note

Plate heat exchanger

Interconnecting
water pipes

Outdoor heat pump unit

Indoor cylinder unit

Plate heat exchanger

Interconnecting
refrigerant pipes

Outdoor heat pump unit

Indoor cylinder unit

Plate heat exchanger

Interconnecting
refrigerant pipes

Outdoor heat pump unit

Indoor hydrobox

< Cylinder unit >

< Hydrobox >

Cold water inlet connection

Space heating
return connection

DHW outlet connection

Space heating flow

connection

Automatic air vent

Main controller

Temperature and
pressure relief valve
*EHPT20X-VM2HA

ONLY

Main controller

Manometer
(Pressure gauge)

Heat pump
connection

Pressure relief valve

Solar (ancillary
heat source)
connection

View of base

Front elevation

Plan view

Plate heat exchanger

Interconnecting
water pipes

Outdoor heat pump unit

Indoor hydrobox

EHPX (Package model system)

Heat pump
connection

Discharge pipe
from pressure
relief valve

EHSC (Split model system)

Main controller

Manometer
(Pressure gauge)

Heat pump
connection

View of base

Space heating/
Indirect DHW
cylinder (primary)
return
connection

Space heating/
Indirect DHW
cylinder
(primary)

flow

connection

Discharge pipe
from pressure
relief valve

Manometer
(Pressure gauge)

Space heating/
Indirect DHW
cylinder (primary)
return
connection

Space heating/
Indirect DHW cylinder

(primary)

flow connection

6

your Heating System

3

Hydrobox Cylinder unit

Model name

e

HSC-

vM6a

eHSC-

yM9a

eHPx-

vM2a

eHSt20C-

vM6Ha

eHSt20C-

yM9Ha

eHSt20C-

vM6a

eHSt20C-

yM9a

eHSt20C-

vM6Sa

eHPt20x-

vM2Ha

eHPt20x-

vM6Ha

eHPt20x-

yM9Ha

eHPt20x-

vM6a

eHPt20x-

yM9a

Modes Heating

ONLY

Heating

ONLY

Heating

ONLY

Heating

ONLY

Heating

ONLY

Heating

ONLY

Heating

ONLY

Heating

ONLY

Heating

ONLY

Heating

ONLY

Heating

ONLY

Heating

ONLY

Heating

ONLY

Nominal domestic hot water volume — — — 200L

Overall unit dimensions 800 × 530 × 360 mm 1

600 × 595 × 680 mm (Height x Width x Depth)

Weight (empty) 54 kg 54 kg 39 kg 1

31 kg 131 kg 130 kg 130 kg 131 kg 119 kg 119 kg 119 kg 118 kg 118 kg

Weight (full) 60 kg 60 kg 44 kg 346 kg 346 kg 345 kg 345 kg 346 kg 332 kg 332 kg 332 kg 33

1 kg 331 kg

Plate heat exchanger

Operating ambient condition – Temperature (relative humidity)

0 (*1) - 35°C ( 80 %) 0 (*1) - 35°C ( 80 %)

Tank performance *2

Time to raise DHW tank temp 15-65°C

Not applicable

23 min

Time to reheat 70% of DHW tank to 65°C

20.5 min

Electrical data Control board Power supply

(Phase, voltage, frequency)

~/N, 230 V, 50 Hz ~/N, 230 V, 50 Hz

Booster heater

Power supply

(Phase, voltage, frequency)

~/N, 230 V,

50 Hz

3~, 400 V,

50 Hz

~/N, 230 V,

50 Hz

~/N, 230 V,

50 Hz

3~, 400 V,

50 Hz

~/N, 230 V,

50 Hz

3~, 400 V,

50 Hz

~/N, 230 V,

50 Hz

~/N, 230 V,

50 Hz

~/N, 230 V,

50 Hz

3~, 400 V,

50 Hz

~/N, 230 V,

50 Hz

3~, 400 V,

50 Hz

Capacity

2 kW+4 kW 3 kW+6 kW

2 kW

2 kW+4 kW 3 kW+6 kW 2 kW+4 kW 3 kW+6 kW 2 kW+4 kW 2 kW 2 kW+4 kW 3 kW+6 kW 2 kW+4 kW 3 kW+6 kW

Current 26 A 13 A 9 A 26 A 13 A 26 A 13 A 26 A 9 A 26 A 13 A 26 A 13 A

Immersion heater

*3

Power supply

(Phase, voltage, frequency)

Not applicable

~/N, 230 V, 50 Hz — ~/N, 230 V, 50 Hz —

Capacity 3 kW — 3 kW —

Current 1

3 A — 13 A —

Solar (ancillary) connection

Product Specication

*1 The environment must be frost-free.

*2 Tested under BS7206 conditions.

*3 Do not t immersion heaters without thermal cutout.

F1 F2 F3 F4

7

Customising Settings for your Home

4

To change the settings of your heating system please use the main controller lo­cated on the front panel of the cylinder unit or hydrobox. The following is a guide
to viewing the main settings. Should you require more information please contact
your installer or local Mitsubishi dealer.

Main Controller

<Main controller parts>

letter name Function

A Screen Screen in which all information is displayed
B Menu Access to system settings for initial set up and

modications.

C Back Return to previous menu.
D Conrm Used to select or save. (Enter key)
E Power/Holiday If system is switched off pressing once will turn sys-

tem on. Pressing again when system is switched on
will enable Holiday Mode. Holding the button down
for 3 secs will turn the system off. (*1)

F

1-4 Function keys Used to scroll through menu and adjust settings.

Function is determined by the menu screen visible
on screen A.

*1
When the system is switched off or the power supply is disconnected, the

cylinder protection functions (e.g. freeze stat. function) will NOT operate.

Please beware that without these safety functions in operation the cylinder
may be damaged.

<Main screen icons>

icon description

1 Legionella

prevention

When this icon is displayed ‘Legionella prevention
mode’ is active.

2 Heat pump When this icon is displayed the ‘Heat pump’ is in

use.

3 Electric heater When this icon is displayed the ‘Electric heaters’ are

in use.

4 Target

temperature

Target ow temperature

Target room temperature
Compensation curve

5 OPTION Pressing the function button below this icon will dis-

play the option screen.
6 + Increase desired temperature.
7 - Decrease desired temperature.
8 Information Pressing the function button below this icon displays

the information screen.
9 Space heating

mode

Heating mode

10 DHW mode Normal or ECO mode

11 Holiday mode

When this icon is displayed ‘Holiday mode’ activated.

12 Timer

Prohibited

Stand-by

Stop

Operating

b C d

e

a

8 7 6 5

12 11 1 3

2

10

9

4

8

Customising Settings for your Home

4

general operation

In general operation the screen displayed on the main controller will be as in the

gure on the right.

This screen shows the target temperature, space heating mode, DHW mode (if
cylinder is present in system), any additional heat sources being used, holiday
mode, and the date and time.

You should use the function buttons to access more information. When this
screen

is displayed pressing F1 will display the current status whilst pressing F4

will transfer the user to the option menu screen.

<

viewing system settings>

To access the main settings menu press button B ‘MENU’
The following menus will be displayed;

DHW (Cylinder unit or hydrobox plus 3rd party cylinder)
Heating
Schedule
Holiday
Initial setting
Service (Password protected)

Changing initial Settings

1. From main settings menu use F2 and F3 buttons to highlight ‘Initial Settings’
icon and select by pressing CONFIRM.

2.

Use F1 and F2 buttons to scroll through the menu list. When the required title

is highlighted then press CONFIRM to edit.

3.

Use the relevant function buttons to edit each initial setting then press CON-

FIRM to save the setting.

Initial settings that can be edited are

Date/Time
Language
Temp. unit
Room temp. display setting
Contact number
Time display
Selected thermistor

To return to the main settings menu press the BACK button.

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<

option screen>

This screen shows the main operating modes of the system.
Use the function buttons to switch between Operating (►), Prohibited ( )

and

Timer (

) for DHW and space heating or edit/activate the holiday setting.

The option screen allows quick setting of the following;

•

Forced DHW (if tank present) — to activate press F1

• DHW operating mode (if tank present) — to change mode press F2

• Space heating operating mode — to change mode press F3

• Holiday mode — to access Holiday screen press F4

Icon Description

Hot water (DHW)

Heating

Schedule timer

Holiday mode

Initial setting

Service

Home screen

Option screen

Main settings menu screen

9

Customising Settings for your Home

4

Schedule

The Schedule mode allows daily and weekly space heating and DHW patterns
to be entered. When setting up the system your installer should discuss with you
your heating and DHW requirements so that the optimum schedule can be cre­ated.

Activation or deactivation of the schedule is done in the option screen. (See
option section)

1.

From the main settings menu use F2 and F3 to highlight the schedule icon

then press CONFIRM.

2. The schedule sub menu will be displayed. The icons show the following
modes;

• Heating

• DHW

3. Use F2 and F3 buttons to move between mode icons press CONFIRM to be
shown the PREVIEW screen for each mode.

The PREVIEW screen allows you to view the current settings. Days of the week
are displayed across the top of the screen. Where the day appears underlined,
the settings are the same for all those days underlined.
Hours of the day and night are represented as a bar across the main part of the
screen. Where the bar is solid black, heating/DHW (whichever is selected) is al­lowed.

<Setting the schedule>

1

. In the PREVIEW menu screen press F4 button.

2. First select the days of the week you wish to schedule.

3. Press F2/F3 buttons to move between days and F1 to check or uncheck the
box.

4.

When you have selected the days press CONFIRM.

5. The time bar edit screen will be displayed.

6. Use buttons F2/F3 to move to the point at which you do not want the selected
mode to be active press CONFIRM to start.

7.

Use F3 button to set the required time of inactivity the press CONFIRM.

8. You can add up to 4 periods of inactivity within a 24 hour interval.

9. Press F4 to save settings.

When scheduling heating, button F1 changes the scheduled variable between
time and temperature. This enables a lower temperature to be set for a number of
hours e.g. a lower temperature may be required at night when the occupants are
sleeping.

n

otes:

• the schedule for space heating and dHW are set in the same way. How-

ever for

dHW only time can be used as scheduling variable.

• a small rubbish bin character is also displayed choosing this icon will de

-

lete the last unsaved action.

•

it is necessary to use the Save function F4 button to save settings Con-

F

irM does not act as S

ave for this menu.

10

Customising Settings for your Home

4

Holiday Mode

Holiday mode can be used to keep the system running at lower ow temperatures

and thus reduced power usage whilst the property is unoccupied. Holiday mode

can run either ow temp, room temp, heating, compensation curve heating and
DHW all at reduced ow temperatures to save energy if the occupier is absent.

Holiday mode can be activated in 2 ways. Both methods will result in the holiday
mode activation screen being shown.

o

ption 1.

From the main menu screen press button E should be pressed. Be careful not to
hold down button E for too long as this will turn off the controller and system.

o

ption 2.

From the main menu screen press button F4 the current settings screen will be
displayed. Press button F4 again to access the holiday mode activation screen.

Once the holiday mode activation screen is displayed you can activate/deactivate
and select the duration that you would like holiday mode to run for.

Press button F

1 to activate or deactivate holiday mode
Use buttons F2, F3 and F4 to input the date which you would like holiday
mode to activate or deactivate holiday mode for space heating.

<

editing holiday mode>

Should you require the Holiday mode settings e.g. the ow temp, room temp to

be altered you should contact your installer.

Heating Mode

The heating menu deal with space heating using normally either a radiator or

under-oor heating system depending on the installation.

There are 3 heating modes

Room temp (Auto adaptation) (

)

Flow temp (

)

Compensation curve (

)

<Room temp (Auto adaptation) mode>

This mode is explained in detail in ‘Overview of Controls’ Section.

<Flow temp mode>

The temperature of the water owing to the heating circuit is set by the installer to

best suit the space heating system design, and user’s desired requirements.

<

explanation of compensation curve mode>

During late spring and summer usually the demand for space heating is reduced.

To prevent the heat pump from producing excessive ow temperatures for the
primary circuit the compensation curve mode can be used to maximise efciency

and reduce running costs.

The compensation curve is used to restrict the ow temperature of the primary

space heating circuit dependent on the outdoor temperature. The FTC3 uses
information from both an outdoor temperature sensor and a temperature sensor
on the primary circuit supply to ensure the heat pump is not producing excessive

ow temperatures if the weather conditions do not require it.

Your installer will set the parameters of the graph depending on local conditions
and type of space heating used in your home. It should not be necessary for you
to alter these settings. If however you nd that over a reasonable operating pe­riod the space heating is not heating or is overheating your home, please contact
your installer so they can check your system for any problems and update these
settings if necessary.

•

•

•

•

•

Tank temp.

DHW mode DHW mode

Time

DHW max.
temp.

DHW max.
temp.drop

Stop

Start

Restart

Tank temp.

DHW max.
operation time

DHW mode
restriction

DHW mode

Time

DHW max.

temp.

DHW max.
temp. drop

Stop

Stop

Start

Restart

11

Customising Settings for your Home

4

Domestic Hot Water (DHW) / Legionella Prevention

The hot water and legionella prevention menus control the operation of domestic
hot water tank heat ups. They are not available if your system uses the hydrobox
with no cylinder.
W

hen DHW screen is displayed pressing button F1 changes between Normal
and Eco DHW modes. Pressing button F3 activates/deactivates Legionella Pre­vention mode.

Menu subtitle Function range Unit

default value

DHW max. temp Desired temperature of stored hot water 40–60 °C 50
DHW max. temperature
drop

Difference in temperature between DHW max. temp and the temperature at which DHW
mode starts

5–30 °C 1

0

DHW max. operation time

Max time allowed for stored water heating DHW mode 30–120 min 60

DHW mode restriction The time period after DHW mode when space heating has priority over DHW mode tem-

porarily preventing further stored water heating
(Only when DHW max. operation time has passed.)

30–

120 min 30

i

f you wish to make changes contact installer.

<explanation of dHW operation>

When the tank temperature drops from “DHW max. temp” by more than the
“DHW max. temperature drop” (set by installer), DHW mode operates and the

ow from the primary heating circuit is diverted to heat the water in the storage

tank.
When the temperature of the stored water reaches the ‘DHW max. temp’ set
by the installer or if the ‘Max operation time’ set by the installer is exceeded
DHW mode ceases to operate.
Whilst DHW mode is in operation hot water is not directed to the space heating
circuit.
Directly after DHW mode operation ‘DHW mode restriction’ will operate. The
duration of this feature is set by the installer and during its operation DHW
mode can not be reactivated allowing time for primary hot water ow to be di­rected to the space heating circuit if necessary.
After the ‘DHW mode restriction’ operation the DHW mode can operate again
and tank heating will continue if needed.

<

eco mode>

DHW mode can run in either ‘Normal’ or ‘Eco’ mode. Normal mode will heat the
DHW tank quickly using the full power of the heat pump. Eco mode takes a little
longer to heat the tank but the energy used is reduced as the heat pump opera­tion is restricted using signals from the FTC3 based on measured tank tempera­ture.
Note:
The actual energy saved in Eco mode will vary according to outdoor temperature.

<Forced

dHW>

The forced DHW function is used to force the system to operate in DHW mode. In
normal operation the water in the DHW tank will be heated either to the set tem-

perature or for the maximum DHW mode time, whichever occurs rst. However

should there be a high demand for hot water the ‘Forced DHW’ function can be
used to prevent the system switching to space heating and continue to provide
DHW tank heating
Forced

DHW mode is activated by pressing button F1 when option screen is dis-

played.

•

•

•

•

•

Legionella prevention mode (LP mode)

During legionella prevention mode the temperature of the stored water is increased
above 60°C to inhibit legionella bacterium growth. It is strongly recommended that
this is done at regular intervals. Please check local regulations for the recommended
frequency of heat up cycles.
Note: If failures occur on the cylinder unit the LP mode may not function normally.

Menu subtitle Function range Unit default value

Hot water temp. Desired temp of stored hot water 60–70 °C 65
Frequency Time between LP mode tank heat ups 1

–30 day 15
Start time Time when LP mode will begin 0:00–23:00 - 03:00
Max. operation time Maximum time allowed for LP mode tank heat 1

–5 hour 3
Duration of max. temp. The time period after LP mode max. water temp has been reached 1

–120 min 30

if you wish to make changes contact installer.

Tank temp.

Time

Stop

Stop

Start

Restart

Restart temp.

Stop temp.

( LP mode : Legionella Prevention Mode )

LP mode

LP mode

Mode
finish

Duration of Max. temp.

Legionella
hot water temp.

Space
Heating

12

Customising Settings for your Home

4

<explanation of legionella Prevention mode operation>

• At the time entered by the installer ‘Start time’ useful heat from the system is
diverted to heat the water in the storage tank.

•

When the temperature of the stored water exceeds the ‘Hot Water temp.’ set

by the installer (above 65°C) water is no longer diverted to the tank.

•

Whilst legionella prevention mode is in operation hot water is not directed to

the space heating circuit.

•

Directly after LP mode operation ‘Duration of max. temp’ will operate. The du-

ration of this feature is set by the installer and during its operation stored water
temperature will be monitored.

•

If stored water temperature should drop to LP restart temp, LP mode will re-

start and water ow from the plate heat exchanger will be directed to the tank

to boost the temperature. Once the set time for duration of max. temp has

passed LP mode will nish and not recur for the set interval (set by installer).

•

It is the responsibility of the installer to ensure the settings for legionella pre-

vention are compliant with local and national guidelines.

i

mportant

Please note that LP mode uses electric heaters (if present) to supplement the en-

ergy input of the heat pump. Heating water for long periods of time is not efcient

and will increase running costs. The installer should give careful consideration
to the necessity of legionella prevention treatment whilst not wasting energy by
heating the stored water for excessive time periods. End-users should seek ad­vice from their installers if they wish to change the LP mode settings.

Service Menu

The service menu is password protected to prevent accidental changes being

made to the operation settings, by unauthorised/unqualied persons.

13

Service and Maintenance

5

troubleshooting

The following table is to be used as a guide to possible problems. It is not exhaustive and all problems should be investigated by the installer or another competent person.
Users should not attempt to repair the system themselves.
At no time should the system be operating with the safety devices by-passed or plugged.

Fault symptom Possible cause Solution

Cold water at taps
(systems with cylinder)

Scheduled control off period Check schedule settings and alter if necessary.
All hot water from tank used Ensure DHW mode is operating and wait for tank to re-heat.
Heat pump or electric heaters not working Contact installer.

Water discharges from one of the
relief valves

The system has overheated/overpressurised Switch off power to the heat pump and any immersion heaters then con-

tact installer.

Small amounts of water drip from
one of the relief valves.

Dirt may be preventing a tight seal in the valve Twist the valve cap in the direction indicted until a click is heard. This will

release a small amount of water ushing dirt from the valve. Be very care­ful the water released will be hot. Should the valve continue to drip contact
installer as the rubber seal may be damaged and need replacing.

Noisy pipework Air trapped in the system Try bleeding radiators (if present) If the symptoms persist contact installer.

Loose pipework Contact installer.

Heating system does not get up
to set temperature.

Prohibit, schedule or holiday mode selected Check settings and change as appropriate.
Incorrectly sized radiators Contact installer.

The room in which the temperature sensor is located is at
a different temperature to the rest of the house.

Reposition the temperature sensor to a more suitable room.

Battery problem *wireless control only Check the battery power and replace if at.

An error code appears in the
main controller display.

The indoor or outdoor unit is reporting an abnormal condi­tion

Make a note of the error code number and contact installer.

Pump runs without reason for
short time.

Pump jam prevention mechanism to inhibit the build up of
scale.

Normal operation no action necessary.

Mechanical noise heard coming
from cylinder unit

Heaters switching on/off Normal operation no action required.
3-way valve changing position between DHW and heating

mode.

Normal operation no action necessary.

After DHW operation room tem­perature rises a little.

At the end of the DHW mode operation the 3-way valve
diverts hot water away from the cylinder into space heat­ing circuit. This is done to prevent the cylinder unit compo­nents from overheating. The amount of hot water directed
into the space heating circuit is dependent on the type of
system and the pipe run between the plate heat exchanger
and the cylinder unit.

Normal operation no action necessary.

Schedule function inhibits the
system from operating but the
outdoor unit operates.

Freeze stat. function is active. Normal operation no action necessary.

Heating mode has been on
standby for a long time (does not
start operation smoothly.)

Duration is set to excessively short time at “Economy set­ting for pump”.

Contact installer.

Heating emitter is hot in the DHW
mode. (The room temperature
rises.)

The 3-way valve may have foreign objects in it, or hot wa-

ter may ow to the heating side due to malfunctions.

Contact installer.

<Power failure>

All setting will be saved for

1 week with no power, after 1 week Date/Time ONLY will be saved.

Parts which require regular inspection

Parts Check every Possible failures

Immersion heater 2 years

Earth leakage causing
circuit breaker to activate
(Heater is always OFF)

Pump 20,000 hrs (3 years) Pump failure

Parts which must not be reused when servicing

* O-ring
* Gasket

no

te: always replace the gasket for pump with a new one at each regular

maintenance (every 20,000 hours of use or every 3 years).

Maintenance

Maintenance to the cylinder and hydrobox should be carried out annually by a competent person only. Users should not try to service or replace parts of the cylinder or hyd­robox themselves. Failure to observe this instruction could result in injury to the user, damage to the unit and the product warranty becoming invalid.

In addition to annual servicing it is necessary to replace or inspect some parts after a certain period of system operation. Please see tables below for detailed instructions.

Replacement and inspection of parts should always be done by a competent person with relevant training and qualications.

Parts which require regular replacement

Parts replace every Possible failures

Pressure relief valve (PRV)
Air vent (Auto/Manual)
Drain cock (Primary circuit)
Flexible hose
Manometer
Inlet control group (ICG)*

6 years

Water leakage due to
copper corrosion

(Dezincication)

*

OPTIONAL PARTS for UK

HEAD OFFICE: TOKYO BLDG., 2-7-3, MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN
Authorized representative in EU: MITSUBISHI ELECTRIC EUROPE B.V.
HARMAN HOUSE, 1 GEORGE STREET, UXBRIDGE, MIDDLESEX UB8 1QQ, U.K.
This product is made by Mitsubishi Air Conditioning System Europe Ltd.: NETTLEHILL Rd, HOUSTOUN IND ESTATE,

LIVINGSTON, EH54 5EQ, UK

BH79D189H02 Printed in UNITED KINGDOM

Installers: Please be sure to put your contact address/telephone number on

this manual before handing it to the customer.