Mitsubishi Electric EHPX Series Installation manual

Hydrobox
EHSC series
EHPX series
ERSC series
INSTALLATION MANUAL
FOR INSTALLER
For safe and correct use, read this manual and the outdoor unit installation manual thoroughly before installing
the hydrobox. English is the original language. The other language versions are translations of the original.
INSTALLATIONSHANDBUCH
FÜR INSTALLATEURE
Aus Sicherheitsgründen und zur richtigen Verwendung vor der Installation der Hydrobox die vorliegende Bedienungsanleitung und die Installationsanleitung der Außeneinheit gründlich durchlesen. Die Originalsprache ist Englisch. Die anderen Sprachversionen sind vom Original übersetzt.
MANUEL D’INSTALLATION
POUR L’INSTALLATEUR
INSTALLATIEHANDLEIDING
VOOR DE INSTALLATEUR
MANUAL DE INSTALACIÓN
PARA EL INSTALADOR
MANUALE DI INSTALLAZIONE
PER L’INSTALLATORE
MANUAL DE INSTALAÇÃO
PARA O INSTALADOR
INSTALLATIONSMANUAL
TIL INSTALLATØREN
INSTALLATIONSMANUAL
FÖR INSTALLATÖREN
Pour une utilisation correcte et sûre, lisez soigneusement ce manuel et le manuel d’installation de l’unité extérieure avant d’installer
l’ECODAN hydrobox. L’anglais est la langue originale. Les versions fournies dans d’autres langues sont des traductions de l’original.
Lees voor een veilig en juist gebruik deze handleiding en de installatiehandleiding van de buiten-unit aandachtig door voordat u met
de installatie van de hydrobox begint. Engels is de oorspronkelijke taal. De andere taalversies zijn vertalingen van het origineel.
Para un uso correcto y seguro, lea detalladamente este manual y el manual de instalación de la unidad exterior antes de instalar
la Hydrobox. El idioma original del documento es el inglés. Las versiones en los demás idiomas son traducciones del original.
Per un utilizzo sicuro e corretto, prima di installare l’Hydrobox leggere attentamente questo manuale e quello di installazione
dell’unità esterna. Il testo originale è redatto in lingua inglese. Le altre versioni linguistiche rappresentano traduzioni dell’originale.
Para uma utilização segura e correcta, leia este manual e o manual de instalação da unidade interior antes de instalar
o permutador de calor. O idioma original é o inglês. As versões em outros idiomas são traduções do idioma original.
Af hensyn til sikker og korrekt brug skal denne vejledning og vejledningen til udendørsenheden læses omhyggeligt, inden
hydroboxenheden installeres. Engelsk er det oprindelige sprog. De andre sprogversioner er oversættelser af originalen.
För säker och korrekt användning, läs denna manual och utomhusenhetens installationsmanual innan du
installerar hydroboxen. Engelska är originalspråket. De övriga språkversionerna är översättningar av originalet.
INSTALLERINGSHÅNDBOK
FOR MONTØREN
For å sikre en trygg og riktig bruk skal du lese denne håndboken og installeringshåndboken for utendørsenheten grundig
før du monterer hydroboksen. Engelsk er originalspråket. De andre språkversjonene er oversettelser av originalen.
ASENNUSOPAS
ASENTAJALLE
Lue turvallista ja asianmukaista käyttöä varten tämä opas ja ulkoyksikön asennusopas huolellisesti ennen
hydroboxin asentamista. Alkuperäiskieli on englanti. Muut kieliversiot ovat alkuperäisen käännöksiä.
English (GB)
Deutsch (D)
Français (F)
Nederlands (NL)
Español (E)
Italiano (I)
Português (P)
Dansk (DE)
Svenska (SW)
Norsk (NO)
Suomi (FI)
GB
Contents
1. Safety Notices................................................................... 2
2. Introduction....................................................................... 4
Overview of the System................................................ 4
How the Heat Pump Works........................................... 4
Overview of the Controls.............................................. 5
3. Technical Information....................................................... 6
Product specification.................................................... 6
Component Parts........................................................... 7
Technical Drawings......................................................11
Unit Compatibility........................................................ 13
Water circuit diagram.................................................. 13
Local system................................................................ 14
4. Installation...................................................................... 15
4.1 Location....................................................................... 15
Transportation and Handling...................................... 15
Suitable Location......................................................... 15
Service access diagrams............................................ 15
Room Thermostat........................................................ 15
Repositioning hydrobox............................................. 15
Mounting procedure.................................................... 16
4.2 Water Quality and System Preparation.................... 18
General......................................................................... 18
Anti-Freeze................................................................... 18
New Installation (primary water circuit)..................... 18
Existing Installation (primary water circuit).............. 18
Minimum amount of water required in the space heating circuit18
How to access Internal Components and Control and Electrical Box..... 18
4.3 Water Pipe Work......................................................... 19
Hot Water Pipework..................................................... 19
Hydraulic filter work (ONLY EHPT series)................. 19
Pipework Connections................................................ 19
Insulation of Pipework................................................ 19
Discharge Pipework.................................................... 19
Filling the System (Primary Circuit)........................... 19
Sizing Expansion Vessels........................................... 20
Water Circulation Pump Characteristics................... 20
Safety device connections.......................................... 21
Piping diagram of 2-zone temperature control......... 21
Accessories (included)
Back plate
Screw M5×8
1
4.4 Refrigerant Pipework (Split Model Systems only)... 22
Precautions.................................................................. 22
Connecting pipes (Figure 4.4.1)................................. 22
4.5 Electrical Connection................................................. 23
5. System Set UP................................................................. 28
5.1 Dip Switch Functions.................................................. 28
5.2 Connecting inputs/outputs........................................ 29
Signal inputs................................................................ 29
Thermistor inputs........................................................ 29
Outputs......................................................................... 30
5.3 Wiring for 2-zone temperature control . ................... 30
5.4 Installation procedure for DHW tank......................... 31
5.5 Remote Controller Options........................................ 33
1-zone temperature control........................................ 33
2-zone temperature control........................................ 34
Remote Installation of Main Controller...................... 35
5.6 Using SD memory card.............................................. 36
5.7 Main Controller............................................................ 37
Setting the Main Controller......................................... 40
Main Settings Menu..................................................... 40
Initial Settings ............................................................. 40
Domestic Hot Water (DHW)/Legionella Prevention.. 41
Heating/Cooling........................................................... 43
Holiday mode............................................................... 44
Schedule timer............................................................. 44
Service Menu................................................................ 46
6. Commissioning............................................................... 53
Pre-commissioning Checklist.................................... 53
7. Service and Maintenance............................................... 54
Basic Troubleshooting for Hydrobox........................ 54
Annual Maintenance.................................................... 58
Error Codes.................................................................. 59
Engineers Forms......................................................... 60
Annual Maintenance Log Book.................................. 60
8. Supplementary information........................................... 63
Refrigerant collecting (pumpdown) for split model systems only..... 63
Back-up operation of boiler........................................ 63
Multiple outdoor units control.................................... 63
SD memory card
2
1
Abbreviations and glossary
No. Abbreviations/Word
Description
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
Space heating incorporating outdoor ambient temperature compensation
Coefficient of Performance the efficiency of the heat pump
Space cooling through fan-coils or underfloor cooling (Refer to Item no. 20 in this list.)
Domestic hot water heating mode for showers, sinks, etc
Speed at which water circulates around the primary circuit
Temperature at which water is delivered to the primary circuit
Heating control routine to prevent water pipes freezing
Flow temperature controller, the circuit board in charge of controlling the system
Space heating through radiators or Underfloor heating (Refer to Item no. 21 in this list.)
Indoor unit housing the component plumbing parts (NO DHW tank)
Bacteria potentially found in plumbing, showers and water tanks that may cause Legionnaires disease
Legionella prevention mode – a function on systems with water tanks to prevent the growth of legionella bacterium
Plate heat exchanger in the outdoor heat pump unit
Pressure relief valve
A compound used within the heat pump cycle that goes through a phase change from gas to liquid
Temperature at which water is delivered from the primary circuit
Plate heat exchanger in the indoor unit
Thermostatic radiator valve – a valve on the entrance or exit of the radiator panel to control the heat output
A system of water carrying pipes under the floor, that cools the floor surface to cool the room/space.
A system of water carrying pipes under the floor, that warms the floor surface to heat the room/space.
Compensation curve mode
COP
Cooling mode
DHW mode
Flow rate
Flow temperature
Freeze stat. function
FTC4
Heating mode
Hydrobox
Legionella
LP mode
Packaged model
PRV
Refrigerant
Return temperature
Split model
TRV
Underfloor cooling
Underfloor heating
1. Safety Notices
1
Safety Notices
Please read the following safety precautions carefully.
WARNING:
Precautions that must be observed to prevent injuries or death.
CAUTION:
Precautions that must be observed to prevent damage to unit.
This installation manual along with the user manual should be left with the product after installation for future reference.
Mitsubishi Electric is not responsible for the failure of locally-supplied and field-supplied parts.
• Be sure to perform periodical maintenance.
• Be sure to follow your local regulations.
• Be sure to follow the instructions provided in this manual.
WARNING
Mechanical
The hydrobox and outdoor units must not be installed, disassembled, relocated, altered or repaired by the user. Ask an authorised installer or technician. If the unit is
installed improperly or modified after installation by the user water leakage, electric shock or fire may result.
The outdoor unit should be securely fixed to a hard level surface capable of bearing its weight.
The hydrobox should be positioned on a hard vertical surface capable of supporting its filled weight to prevent excessive sound or vibration.
Do not position furniture or electrical appliances below the outdoor unit or hydrobox.
The discharge pipework from the emergency/safety devices of the hydrobox should be installed according to local law.
Only use accessories and replacement parts authorised by Mitsubishi Electric ask a qualified technician to fit the parts.
Electrical
GB
All electrical work should be performed by a qualified technician according to local regulations and the instructions given in this manual.
The units must be powered by a dedicated power supply and the correct voltage and circuit breakers must be used.
Wiring should be in accordance with national wiring regulations. Connections must be made securely and without tension on the terminals.
Earth unit correctly.
General
Keep children and pets away from both the hydrobox and outdoor units.
Do not use the hot water produced by the heat pump directly for drinking or cooking. This could cause illness to the user.
Do not stand on the units.
Do not touch switches with wet hands.
Annual maintenance checks on both the hydrobox and the outdoor unit should be done by qualified person.
Do not place contains with liquids in on top of the hydrobox. If they leak or spill onto the hydrobox damage to the unit and/or fire could occur.
Do not place any heavy items on top of the hydrobox.
When installing or relocating, or servicing the hydrobox, use only the specified refrigerant (R410A) to charge the refrigerant lines. Do 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 specified 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.
In heating mode, to avoid the heat emitters being damaged by excessively hot water, set the target flow temperature to a minimum of 2ºC below the maximum allowable temperature of all the heat emitters. For Zone2, set the target flow temperature to a minimum of 5ºC below the maximum allowable flow temperature of all the
heat emitters in Zone2 circuit.
CAUTION
Use clean water that meets local quality standards on the primary circuit.
The outdoor unit should be installed in an area with sufficient airflow according to the diagrams in the outdoor unit installation manual.
The hydrobox should be located inside to minimise heat loss.
Water pipe-runs on the primary circuit between outdoor and indoor unit should be kept to a minimum to reduce heat loss.
Ensure condensate from outdoor unit is piped away from the base to avoid puddles of water.
Remove as much air as possible from water circuit.
Refrigerant leakage may cause suffocation. Provide ventilation in accordance with EN378-1.
Be sure to wrap insulation around the piping. Direct contact with the bare piping may result in burns or frostbite.
Never put batteries in your mouth for any reason to avoid accidental ingestion.
Battery ingestion may cause choking and/or poisoning.
Install the unit on a rigid structure to prevent excessive sound or vibration during operation.
If power to the hydrobox is to be turned off (or system switched off) for a long time, the water should be drained.
Preventative measures should be taken against water hammer, such as installing a Water Hammer Arrestor on the primary water circuit, as directed by the manufacturer.
In order to prevent condensation on emitters, adjust flow temperature appropriately and also set the lower limit of the flow temperature on site.
1
Safety Notices
WARNING (SPLIT MODELS ONLY)
Do not discharge refrigerant into the atmosphere if refrigerant leaks during installation, ventilate the room.
Use appropriate tools for high pressure refrigerant.
When pumping down refrigerant , stop the compressor before disconnecting the refrigerant pipes.
During installation securely fasten the refrigerant pipes before starting the compressor.
Check that refrigerant gas does not leak after the completion of installation.
Use R410A refrigerant only. Do not allow air to enter the lines. Failure to observe these instructions will cause mechanical failure, system failure or, in the worst case,
serious breach of product safety.
CAUTION (SPLIT MODELS ONLY)
<Using R410A refrigerant heat pumps>
Use C1220 copper phosphorus, for copper and copper alloy seamless pipes, to connect the refrigerant pipes. Make sure the insides of the pipes are clean and do not
contain any harmful contaminants such as sulfuric compounds, oxidants, debris, or dust. Use pipes with the specified thickness. (Refer to 4.4.) Note the following if reusing existing pipes that carried R22 refrigerant.
- Replace the existing flare nuts and flare the flared sections again.
- Do not use thin pipes. (Refer to 4.4.)
Store the pipes to be used during installation indoors and keep both ends of the pipes sealed until just before brazing. (Leave elbow joints, etc. in their packaging.) If
dust, debris, or moisture enters the refrigerant lines, oil deterioration or compressor breakdown may result.
Use ester oil, ether oil, alkylbenzene oil (small amount) as the refrigeration oil applied to the flared sections. If mineral oil is mixed in the refrigeration oil, oil deterioration
may result.
GB
Do not use refrigerant other than R410A refrigerant. If another refrigerant is used, the chlorine will cause the oil to deteriorate.
Use the following tools specifically designed for use with R410A refrigerant. The following tools are necessary to use R410A refrigerant. Contact your nearest dealer for
any questions.
Tools (for R410A)
Gauge manifold
Charge hose
Gas leak detector
Torque wrench
Flare tool
Size adjustment gauge
Vacuum pump adapter
Electronic refrigerant charging scale
Be sure to use the correct tools. If dust, debris, or moisture enters the refrigerant lines, refrigeration oil deterioration may result.
Do not use a charging cylinder, a cylindrical measuring container, when charging R410A refrigerant gas. If the refrigerant gas is transferred to a charging cylinder, the
composition of the refrigerant will change and system efficiency will be reduced.
2. Introduction
2
Introduction
The purpose of this installation manual is to instruct competent persons how to
safely and efficiently install and commission the hydrobox system. The target
readers of this manual are competent plumbers and/or refrigeration engineers
who have attended and passed the requisite Mitsubishi Electric product training
and have appropriate qualifications for installation of an unvented hot water hydrobox specific to their country.
Overview of the System
The Mitsubishi Electric Air to Water (ATW) for heat pump system with hydrobox
consists of the following components; outdoor heat pump unit and indoor hydrobox incorporating the main controller.
DHW tank
GB
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 efficiency of a heat pump is known as the Coefficient of Performance or COP
this is the ratio of heat delivered to power consumed. The heat pump operates
most efficiently when generating low flow temperatures.
2. Condenser
(Plate heat exchanger)
3. Expansion valve
1. Compressor
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.
4. Evaporator
(Outdoor unit air heat exchanger)
Low temperature renewable heat
energy taken from the environment
The first phase begins with the refrigerant being cold and low pressure.
1. The refrigerant within the circuit is compressed as it passes through the compressor. It becomes a hot highly pressurised gas. The temperature also rises
typically to 60°C.
2 kW
Heat energy output
Electrical energy
input
1 kW
3 kW
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 liquid passes through an expansion valve. The pressure drops but the refrigerant
remains a cold liquid.
4. The final 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 DHW tank (if present in system).
2
Introduction
Overview of the Controls
Built into the front of the indoor unit is the Flow Temperature Controller 4 (FTC4).
This device controls the function of both the outdoor heat pump unit and the
indoor unit. The advanced technology means that by using an FTC4 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 efficient when providing low flow temperature water. The FTC4’s sophisticated technology enables the room temperature to be kept at the desired level
whilst utilising the lowest possible flow temperature from the heat pump.
Ambient
temp
sensor
The controller uses temperature sensors around the heating system to monitor
the air and flow temperatures. This data is regularly updated and compared to
previous data by the controller to predict changes in room temperature and adjust
the heat pump output accordingly. By monitoring not only the outdoor ambient,
but the room and water circuit temperatures, the heating is more consistent and
sudden spikes in required heating are reduced. This results in a lower overall
flow temperature being required.
FTC4
Room temp sensor
20°C
Flow temp sensor
Return temp sensor
<How it works>
GB
Temperature data is regularly received by the FTC4 from temperature sensors
around the heating system. The most recent data is used with the previous temperature readings to predict the flow temperature required to keep the room temperature constant.
The room temperature sensor can either be wired or the Mitsubishi Electric wireless remote controller can be used as it incorporates a temperature sensor. For
more information on room temperature sensor options see section ‘Remote Controller Options’. (Page 33)
Booster heater
Water circuit
(Primary)
0.3 MPa (3 bar)
2kW + 4kW
26A
32A
• Joint pipe (15.88 → 12.7)
• Joint pipe (9.52 → 6.35)
• Thermistor
• High temperature thermistor
Power supply
(Phase, voltage,
frequency)
Breaker
(*when powered from
independent source)
Power supply
(Phase, voltage,
frequency)
Capacity
Current
Breaker
Cooling
Heating
Cooling
Heating
Cooling
<Table 3.1>
2kW + 4kW
26A
32A
10 - 30°C
25 - 60°C
3kW + 6kW
13A
16A
10A
2kW
9A
16A
~N, 230V, 50Hz
~/N, 230V, 50Hz
3~, 400V, 50Hz
—
See outdoor unit spec table.
0 - 35°C (≤ 80%RH)
—
—
28 mm compression (Primary circuit)
~N, 230V, 50Hz
PAC-SH50RJ-E
PAC-SH30RJ-E
PAC-TH011-E
PAC-TH011HT-E
3kW + 6kW
13A
16A
3~, 400V, 50Hz
15.88 mm
Gas
Heating
9.52 mm
Liquid
PAR-WT50R-E
PAR-WR51R-E
PAC-SE51TS-E
PAC-TH011TK-E
Booster heater
Control board
Outdoor temperature
Ambient *1
Room temperature
Flow temperature
Refrigerant
(R410A)
Water
Grundfos UPM2 25 70-180
90°C
Min flow 5.5 L/min
—
44 kg
39 kg
EHPX-VM2B
1 - 80°C
121°C
~N, 230V, 50Hz
-
0.1 MPa (1 bar)
NOT available
Thermal cut-out (for dry run prevention)
• Wireless Remote Controller
• Wireless Receiver
• Remote sensor
• Tank thermistor (THW5)
Optional extras
Electrical data
Guaranteed operating
range
Target temperature range
Connections
-
10 L
55 kg
EHSC-YM9EB
800×530×360 mm
49 kg
Manual reset thermostat
Flow switch
Pressure relief valve
Primary circuit circulating pump
Safety
device
Control thermistor
Unvented expansion vessel Nominal volume
(Primary circuit)
Charge pressure
Cooling mode
55 kg
49 kg
EHSC-VM6EB
GB
Plate heat exchanger
53 kg
53 kg
59 kg
Weight (full)
59 kg
EHSC-YM9B
EHSC-VM6B
Model name
Overall unit dimensions (Height×Width×Depth)
Weight (empty)
Product specification
10 L
3kW + 6kW
13A
16A
2kW
9A
16A
~N, 230V, 50Hz
See outdoor unit
spec table (min.
10 °C). *2
Not available
5 - 25°C
15.88 mm
9.52 mm
G1 (Male)
Available
60 kg
ERSC-VM2B
860×530×360 mm
54 kg
*2 Low ambient cooling is NOT allowed.
*1 The environment must be frost-free.
2kW + 4kW
26A
32A
3~, 400V, 50Hz
—
46 kg
41 kg
EHPX-YM9B
0.1 MPa (1 bar)
~N, 230V, 50Hz
—
—
—
46 kg
41 kg
EHPX-VM6B
3
Technical Information
3
Technical Information
Component Parts
<EHSC-*M*B> (Split model system)
Number
GB
1
2
Component
1
Control and electrical box
2
Main controller
3
Manometer
4
Expansion vessel
5
Expansion vessel charge valve
6
Automatic air vent
7
Booster heater
8
Drain cock
9
Water circulation pump
10
Pressure relief valve
11
Flow switch
12
Plate heat exchanger
13
Strainer valve
A
Inlet from space heating/Indirect DHW tank (primary return)
B
Outlet to space heating/Indirect DHW tank
(primary flow)
C
Refrigerant (Liquid)
D
Refrigerant (Gas)
E
Discharge from pressure relief valve (installer to
pipe connect to suitable drain point)
<Table 3.2>
3
<Figure 3.1>
4
6
5
7
12
8
9
11
13
10
E
A
B
C
<Figure 3.2>
D
3
Technical Information
<EHSC-*M*EB> (Split model system without expansion vessel)
Number
1
Control and electrical box
2
Main controller
3
Manometer
6
Automatic air vent
7
Booster heater
8
Drain cock
9
Water circulation pump
10
Pressure relief valve
11
Flow switch
12
Plate heat exchanger
13
Strainer valve
A
Inlet from space heating/Indirect DHW tank (primary return)
B
Outlet to space heating/Indirect DHW tank
(primary flow)
C
Refrigerant (Liquid)
D
Refrigerant (Gas)
E
Discharge from pressure relief valve (installer to
pipe connect to suitable drain point)
GB
2
Component
1
<Table 3.3>
3
<Figure 3.3>
6
12
7
8
9
11
13
10
E
A
B
C
D
<Figure 3.4>
*For installation of this model, make sure to install a primary-side expansion vessel in the field. (See Figure 4.3.1.)
3
Technical Information
<EHPX> (Packaged model system)
Number
GB
1
2
Component
1
Control and electrical box
2
Main controller
3
Manometer
4
Expansion vessel
5
Expansion vessel charge valve
6
Automatic air vent
7
Booster heater
8
Drain cock
9
Water circulation pump
10
Pressure relief valve
11
Flow switch
13
Strainer valve
A
Inlet from space heating/Indirect DHW tank (primary return)
B
Inlet from heat pump
C
Outlet to heat pump
D
Outlet to space heating/Indirect DHW tank (primary
flow)
E
Discharge from pressure relief valve (installer to
pipe connect to suitable drain point)
<Table 3.4>
3
<Figure 3.5>
3.8
4
6
5
7
8
9
11
10
13
E
A
B
C
D
<Figure 3.6>
3
Technical Information
<ERSC> (Split model system for heating and cooling)
Number
1
3
Control and electrical box
2
Main controller
3
Manometer
4
Expansion vessel
5
Expansion vessel charge valve
6
Automatic air vent
7
Booster heater
8
Drain cock
9
Water circulation pump
10
Pressure relief valve
11
Flow switch
12
Plate heat exchanger
13
Strainer valve
14
Drain pan
A
Inlet from space heating/Indirect DHW tank (primary return)
B
Outlet to space heating/Indirect DHW tank
(primary flow)
C
Refrigerant (Liquid)
D
Refrigerant (Gas)
E
Discharge from pressure relief valve (installer to
pipe connect to suitable drain point)
GB
2
Component
1
<Table 3.5>
<Figure 3.7>
4
6
5
7
12
8
9
11
13
10
14
E
A
B
C
D
<Figure 3.8>
10
3
Technical Information
Technical Drawings
<EHSC> (Split model system)
530
Automatic air vent
Earth leakage
circuit breaker
590
800
Terminal block
Pressure relief
valve
100.5
110.5
55.5
264.5
Main controller
(233)
<Front>
<Side>
<Rear>
F
Letter
E
Space heating/Indirect DHW
tank (primary) return connection
Space heating/Indirect DHW
tank (primary) flow connection
A
137
233
357
B
96
282
253
GB
189
348
A
48
86
124
163
227
C
461
28 mm/Compression
28 mm/Compression
Refrigerant (Liquid)
9.52 mm/Flare
D
Refrigerant (Gas)
15.88 mm/Flare
Discharge pipe (by installer) from
G1/2” female (valve port within hydrobox casing)
pressure relief valve
—
Electrical cable inlets
For inlets and , run low-voltage wires including
external input wires and thermistor wires. For inlets
and , run high-voltage wires including power cable,
indoor-outdoor cable, and external output wires.
*For a wireless receiver (option) cable, use inlet .
D
B
Connection size/type
C
E
326
381
Pipe description
F
<View from below>
<Table 3.7>
<EHPX> (Packaged model system)
530
Automatic air vent
Earth leakage
circuit breaker
577
800
Terminal block
Pressure relief
valve
110.5
55.5
264.5
Main controller
(233)
<Side>
<Front>
E
F
348
233
77
56
282
253
189
137
Letter
B
Flow connection from heat pump 28 mm/Compression
C
Return connection to heat pump
E
461
C
F
<View from below>
11
Connection size/type
A
D
163
227
Pipe description
Space heating/Indirect DHW
28 mm/Compression
tank (primary) return connection
D
48
86
89
124
157
B
357
A
<Rear>
28 mm/Compression
Space heating/Indirect DHW
28 mm/Compression
tank (primary) flow connection
Discharge pipe (by installer)
G1/2” female (valve port within hydrobox casing)
from pressure relief valve
—
Electrical cable inlets
For inlets and , run low-voltage wires including
external input wires and thermistor wires. For inlets
and , run high-voltage wires including power cable,
indoor-outdoor cable, and external output wires.
*For a wireless receiver (option) cable, use inlet .
<Table 3.8>
3
Technical Information
<ERSC> (Split model system)
Automatic air vent
530
Earth leakage
circuit breaker
860
Terminal block
637
Pressure relief
valve
100.5
110
324.5
Main controller
(233)
<Right side>
<Front>
<Rear>
E
F
348
Connection size/type
A
Space heating and cooling/
Indirect DHW tank (primary)
return connection
G1 nut
B
Space heating and cooling/
Indirect DHW tank (primary) flow G1 nut
connection
C
Refrigerant (Liquid)
9.52 mm/Flare
D
Refrigerant (Gas)
15.88 mm/Flare
E
Discharge pipe (by installer) from
G1/2” female (valve port within hydrobox casing)
pressure relief valve
124
84
233
Pipe description
48
133
B
223
308
365
461
<View from below>
D
G
C
Electrical cable inlets
F
G
Drain socket
GB
A
357
Letter
—
For inlets and , run low-voltage wires including external
input wires and thermistor wires. For inlets and , run
high-voltage wires including power cable, indoor-outdoor
cable, and external output wires.
*For a wireless receiver (option) cable, use inlet .
O.D. ø20
<Table 3.9>
12
3
Technical Information
Unit Compatibility
Hydrobox
Outdoor unit
EHSC-VM6B
EHSC-YM9B EHSC-VM6EB EHSC-YM9EB EHPX-VM2B
Split-type
PUHZ-RP35-140
PUHZ-HRP71-125
PUHZ-SW40-120
PUHZ-SHW80-140
PUHZ-FRP
<Table 3.10>
Water circuit diagram
<EHSC> (Split model system)
<ERSC> (Split model system for heating and cooling)
A
B
Cold
DHW water
Hydrobox
9
10
22
23
21
2
13
20
4
GB
5
3
15
1
12
6
16
14
8
11
17
Pa
18
25
7
Drain
24
Local
system *1
19
24
Flare connections
23
Water
supply
Drain
<EHPX> (Packaged model system)
B
Hydrobox
9
Cold
DHW water
10
22
23
21
13
20
4
5
3
12
26
6
16
14
8
11
25
18
Pa
7
24
Local
system *1
19
26
24
24
23
Water
supply
<Figure 3.10>
13
A.
B.
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
24.
25.
26.
Refrigerant pipe
Water pipe
Plate heat exchanger
Flexible hose
Booster heater 1,2
Drain cock (booster heater)
Pump valve
Water circulation pump 1
Manometer
Pressure relief valve
Automatic air vent
Expansion vessel (except EHSC-*M*EB)
Strainer valve
Flow switch
THW1
THW2
TH2
THW5 (optional part PAC-TH011TK-E)
Outdoor unit
Drain pipe (field supply)
3-way valve (field supply)
DHW indirect unvented tank (field supply)
Cold water inlet pipe (field supply)
DHW outlet connection (field supply)
Back flow prevention device (field supply)
Isolating valve (field supply)
Magnetic filter is recommended (field supply).
Strainer (field supply)
*1 Refer to page 14.
<Figure 3.9>
24
ERSC-VM2B
*1
*1 Not available for connection to PUHZ-FRP.
1
EHSC-YM9B
PUHZ-W50-85
PUHZ-HW112-140
Packaged-type
17
EHPX-VM6B
Drain
Note
• Be sure to follow your local regulations to perform system configuration of the DHW connections.
• DHW connections are not included in the hydrobox package. All required parts are to be
sourced locally.
• To enable draining of the hydrobox an isolating
valve should be positioned on both the inlet and
outlet pipework.
• Be sure to install a strainer, on the inlet pipe
work to the hydrobox.
• Suitable drain pipework should be attached to
all relief valves in accordance with your country's regulations.
• A backflow prevention device must be installed
on water supply pipework (IEC 61770).
• When using components made from different
metals or connecting pipes made of different
metals insulate the joints to prevent a corrosive
reaction taking place which will damage the
pipework.
3
Technical Information
Local system
1-zone temperature control
Zone1
Zone1
3
5
4
1
2
2-zone temperature control
1
6
Zone1
3
5
4
6
7
2
1
Zone2
8
10
GB
9
12
11
1-zone temperature control with boiler
2-zone temperature control with boiler
13
13
14
14
15
Zone1
15
Zone1
3
3
5
4
2
4
6
1
6
5
2
1
Zone2
7
8
9
10
11
12
1. Zone1 heat emitters (e.g. radiator, fan coil unit) (field supply)
2. Mixing tank (field supply)
3. Zone1 flow water temp. thermistor (THW6) (option)
4. Zone1 return water temp. thermistor (THW7) (option)
5. Zone1 water circulation pump (field supply)
6. Zone1 flow switch (field supply)
7. Motorized mixing valve (field supply)
8. Zone2 flow water temp. thermistor (THW8) (option)
9. Zone2 return water temp. thermistor (THW9) (option)
10. Zone2 water circulation pump (field supply)
11. Zone2 flow switch (field supply)
12. Zone2 heat emitters (e.g. underfloor heating) (field supply)
13. Boiler flow water temp. thermistor (THWB1) (option)
14. Boiler return water temp. thermistor (THWB2) (option)
15. Boiler
Note: Cooling mode cannot run under 2-zone temperature control but can run both in Zone1 and Zone2 under 1-zone temperature control.
14
4. Installation
4
Installation
<Preparation before the installation and service>
●
●
●
●
●
●
Prepare the proper tools.
Prepare the proper protection.
Allow parts to cool before attempting any maintenance.
Provide adequate ventilation.
After stopping the operation of the system, turn off the power-supply breaker and remove the power plug.
Discharge the capacitor before commencing work involving the electric parts.
<Precautions during service>
●
●
●
●
●
Do not perform work involving electric parts with wet hands.
Do not pour water or liquid into the electric parts.
Do not touch the refrigerant.
Do not touch the hot or cold surfaces in the refrigerant cycle.
When the repair or the inspection of the circuit needs to be done without turning off the power, exercise great caution not to touch any live parts.
4.1 Location
Transportation and Handling
Service access diagrams
Service access
Hook
Parameter
a
b
c
d
GB
Panel
support
Dimension (mm)
200
150
500
500
<Table 4.1.1>
Sufficient space MUST be left for the provision of discharge pipework as detailed
in National and Local building regulations.
a
<Figure 4.1.1>
<Figure 4.1.2>
Hydrobox is delivered on a wooden pallet base with cardboard protection.
Care should be taken when transporting the hydrobox so that the casing is not
damaged by impact. Do not remove the protective packaging until hydrobox has
reached its final location. This will help protect the structure and control panel.
b
b
d
c
Note:
• The hydrobox should ALWAYS be moved by a minimum of 2 people.
• Do NOT hold piping when moving the hydrobox.
Suitable Location
Before installation the hydrobox should be stored in a frost-free weatherproof
location. Units must not be stacked.
• The hydrobox should be installed indoors in a frost free weather proof location.
• The hydrobox should be positioned on a level wall capable of supporting it’s
filled weight.
• To find out the weight, refer to “3. Technical Information”.
• Care should be taken that minimum distances around and in front of the unit for
service access are observed <Figure 4.1.3>.
• Secure the hydrobox to prevent it being knocked over accidentally or during
earthquakes.
• The hook and panel supports should be used to fix the hydrobox to the wall.
<Fig. 4.1.2>
• Install the hydrobox where it is not exposed to water/excessive moisture.
<Figure 4.1.3>
Service access
The hydrobox must be located indoors and in a frost-free environment, for
example in a utility room.
Room Thermostat
If fitting a new room thermostat for this system;
• Position it out of direct sunlight and draughts
• Position it away from internal heat sources
• Position it in a room without a TRV on the radiator/heat emittor
• Position it on an internal wall
Note: Do not position the thermostat excessively close to the wall. The thermostat
may detect the temperature of the wall, which could affect appropriate
control of the room temperature.
• Position it approx. 1.5 m above floor level
Repositioning hydrobox
If you need to move the hydrobox to a new position FULLY DRAIN it before moving to avoid damage to the unit.
Note: Do NOT hold piping when moving the hydrobox.
15
4
Installation
Mounting procedure
1. Install the included back plate accessory.
* When installing the back plate, use field-supplied screws and compatible fixing plugs.
<Accessory>
<Front view>
Notch
Back plate
Back plate
Wall
Screw mounting holes
● Ensure that the notch is positioned at the TOP of the back plate.
The back plate is provided with screw mounting holes that are round or oval.
To prevent the unit from falling off the wall, choose the appropriate number
of holes or hole positions and horizontally secure the back plate to the
appropriate wall location.
<Figure 4.1.4>
<Side view>
Back plate (horizontal)
Wall
GB
Screwdriver
Screws
Plugs
<Figure 4.1.5>
530
Centre line
116 65
123
<Front view of unit>
Hook
(on the back
of casing)
● Figure 4.1.6 shows the relative positions between the unit and the wall secured
back plate.
Referring to the <Figure 4.1.3> Service access, install the back plate.
677 (EHSC, EHPX models)
737 (ERSC models)
Back plate
Unit
<Figure 4.1.6>
2. Insert the hook on the back of the hydrobox behind the notch of the back plate.
*The lifting up of the hydrobox is facilitated by first tilting the unit forward using the included packaging cushioning.
Note: Hold the main body of the hydrobox when carrying or mounting the hydrobox to a wall.
Holding and supporting the unit by the manometer, water pipe, or refrigerant pipe may result in breakdown of the components and impact on unit’s conditions of warranty.
Back plate
Hook
<Process 1>
<Process 2>
Removing the wooden
packaging base.
Unit
Tilting the unit.
Unit
Packaging cushion
<Figure 4.1.7>
Wooden packaging base
<Figure 4.1.8>
16
4
Installation
) Each of the right and left side panels has a
mark indication.
Lift up the unit so that the
marks are positioned above the top edge of the back plate as shown below.
<Side view of unit>
Unit
mark
Wall
Hook
Top edge of back plate
Back plate
(wall mounted)
Lift up the unit.
Lift up the unit so that the
marks are
positioned above the top edge of the back plate.
<Figure 4.1.9>
) The back plate and the unit share the same width.
When mounting the unit, the centre lines of the back plate and the unit can be aligned by keeping the right and left edges of the back plate within the width of the unit.
The hook on the unit can then be attached to the notch on the back plate. (When mounting, the casing’s lower panel support should be in contact with the wall surface.)
<Front view of unit>
To assist in fixing the unit’s hook on to the notch
on the back plate, first line up the centre lines.
GB
Hook
Centre line
Back plate
Unit
* Keep the edges of the back plate within
the width of the unit.
Side edges of the back plate
<Figure 4.1.10>
) Check and ensure that the
Unit
mark is positioned and properly engaged at the bent section level on the back plate as shown.
mark
Wall
Mount the unit.
Hook
Bent section of back plate
Back plate
<Figure 4.1.11>
3. Referring to "How to access Internal Components and Control and Electrical Box", fix the unit and the back plate using the included 2 screws (accessory items).
Control and electrical box
Control and
electrical
box
<Accessory>
Fix the unit using the 2 screws.
Unit
Screw M5×8
Unit
<Figure 4.1.12>
Caution) BEFORE performing field piping, be sure to fit and tighten these two screws.
Otherwise, the hook could be disengaged, and the unit could fall down.
17
<Figure 4.1.13>
4
Installation
4.2 Water Quality and System Preparation
General
inimum amount of water required in the space
M
heating/cooling circuit
• Water quality should be to European Directive 98/83 EC standards.
►pH value of 6.5-8.0 (Recommended: pH6.5 - 7.5)
►Calcium ≤ 100 mg/l
►Chlorine ≤ 100 mg/l
►Iron/Manganese ≤ 0.5 mg/l
Outdoor heat pump unit
Packaged model PUHZ-W50
PUHZ-W85
PUHZ-HW112
PUHZ-HW140
Split model
PUHZ-RP35
PUHZ-RP50
PUHZ-RP60
PUHZ-(H)RP71
PUHZ-(H)RP100
PUHZ-(H)RP125
PUHZ-RP140
PUHZ-SW40
PUHZ-SW50
PUHZ-SW75
PUHZ-SW100
PUHZ-SW120
PUHZ-SHW80
PUHZ-SHW112
PUHZ-SHW140
• In known hard water areas, to prevent/minimise scaling, it is beneficial to restrict
the routine stored water temperature (DHW max. temp.) to 55°C.
Anti-Freeze
Anti-freeze solutions MUST use propylene glycol with a toxicity rating of Class 1 as
listed in Clinical Toxicology of Commercial Products, 5th Edition.
Note: Ethylene glycol is toxic and must NOT be used in the primary water
circuit in case of any cross-contamination of the potable circuit.
New Installation (primary water circuit)
• Before connecting outdoor unit, thoroughly cleanse pipework of building debris,
solder etc using a suitable chemical cleansing agent.
• Flush the system to remove chemical cleanser.
• For all packaged model systems add a combined inhibitor and anti-freeze
solution to prevent damage to the pipework and system components.
• For split model systems the responsible installer should decide if anti-freeze
solution is necessary for each site’s conditions. Corrosion inhibitor however
should always be used.
<Table 4.2.1>
Existing Installation (primary water circuit)
GB
• Before connecting outdoor unit the existing heating circuit MUST be chemically
cleansed to remove existing debris from the heating circuit.
• Flush the system to remove chemical cleanser.
• For all packaged model systems add a combined inhibitor and anti-freeze
solution to prevent damage to the pipework and system components.
• For split model systems the responsible installer should decide if anti-freeze
solution is necessary for each site’s conditions. Corrosion inhibitor however
should always be used.
Minimum water quantity [L]
40
60
80
100
32
40
50
60
80
100
120
32
40
60
80
120
60
80
100
4.2.1
When using chemical cleansers and inhibitors always follow manufacturer’s
instructions and ensure the product is appropriate for the materials used in
the water circuit
ow to access Internal Components and Control
H
and Electrical Box
<A>
<A> Opening the front panel
1. Remove the two lower screws.
2. Slide front panel upwards slightly and open carefully.
3. Disconnect the relay connector connecting main controller cable and the control
board cable.
<C>
Screw
Screws
<B> Opening the control and electrical box cover
1. Remove the 4 screws.
2. Slide the control and electrical box cover upwards slightly and remove facing
panel.
<C> Accessing the back of the control and electrical box
The control and electrical box has a holding screw on the right and is hinged on
the left hand side.
1. Remove the holding screw on the control and electrical box.
2. The control and electrical box can then be swung forward on the left hand
hinges.
<B>
Hinges
Open
Screws
<Figure 4.2.1>
Note:
1. Before accessing back of control and electrical box release cables from the
tie straps attached to the cross-support.
2. After servicing, re-secure all cables using straps provided. Reconnect
main controller cable to its relay connector. Replace front panel and resecure screws at base.
18
4
Installation
4.3 Water Pipe Work
Note: Prevent the field piping from straining the piping on the hydrobox by
fixing it to a wall or applying other methods.
Hot Water Pipework
The function of the following safety components of the hydrobox should be checked
on installation for any abnormalities;
• Pressure relief valve
• Expansion vessel pre-charge (gas charge pressure)
The instruction on the following pages regarding safe discharge of hot water from
Safety devices should be followed carefully.
• The pipework will become very hot, so should be insulated to prevent burns.
• When connecting pipework, ensure that no foreign objects such as debris or the
like do not enter the pipe.
Hydraulic Filter Work (ONLY EHPX series)
Install a hydraulic filter or strainer (field supply) at the water intake (“Pipe B” in
Fig.3.5, also see associated schematic Fig.3.10)
Pipework Connections
Connections to the hydrobox should be made using the 28 mm compression as
appropriate. (except for ERSC series)
Do not over-tighten compression fittings as this will lead to deformation of the olive
ring and potential leaks.
Note: To weld the pipes in the field, cool the pipes on the hydrobox using wet
towel etc.
ERSC series have G1 (male) thread connections.
Insulation of Pipework
• All exposed water pipework should be insulated to prevent unnecessary heat loss
and condensation. To prevent condensate entering the hydrobox, the pipework
and connections at the top of the hydrobox should be carefully insulated.
• Cold and hot water pipework should not be run close together where possible, to
avoid unwanted heat transfer.
• Pipework between outdoor heat pump unit and hydrobox should be insulated
with suitable pipe insulation material with a thermal conductivity of ≤ 0.04 W/
m.K.
GB
Drain Pipework (ONLY ERSC series)
The drain pipe should be installed to drain condensing water in Cooling mode.
• Securely install the drain pipe to prevent leakage from the connection.
• Securely insulate the drain pipe to prevent water dripping from the field supplied
drain pipe.
• Install the drain pipe at a down slope of 1/100 or more.
• Do not place the drain pipe in drain channel where sulfuric gas exists.
• After installation, check that the drain pipe drains water properly from the outlet of
the pipe.
<Installation>
1. Apply polyvinyl chloride type adhesive over the shaded surfaces inside of the
drain pipe and on the exterior of the drain socket as shown.
2. Insert the drain socket deeply into the drain pipe <Figure 4.3.1>.
Note: Securely support the field supplied drain pipe using pipe support to
avoid the drain pipe falling from the drain socket.
Drain socket
Apply polyvinyl chloride
type adhesive
Field supplied
drain pipe
(VP-20)
<Checking Drainage>
• Check that the drain pipe drains water properly from the outlet of the pipe.
• Check for no leakage from the connection.
Note: Always check drainage at installation regardless of season.
• Remove the front panel and pour water of 1 liter into the drain pan <Figure
4.3.2>.
Note: Pour water slowly into the drain pan so that water does not overflow
from the drain pan.
<Figure 4.3.1>
Do not pour water into these openings.
<Figure 4.3.2>
Filling the System (Primary Circuit)
Filling
1. Check all connections including factory fitted ones are tight.
2. Insulate pipework between hydrobox and outdoor unit.
3. Thoroughly clean and flush, system of all debris. (see section 4.2 for
instruction.)
4. Fill hydrobox with potable water. Fill primary heating circuit with water and
suitable anti-freeze and inhibitor as necessary. Always use a filling loop with
double check valve when filling the primary circuit to avoid back flow
contamination of water supply.
19
• Anti-freeze should always be used for packaged model systems (see
section 4.2 for instruction). It is the responsibility of the installer to decide
if anti-freeze solution should be used in split model systems depending
on each site’s conditions. Corrosion inhibitor should be used in both split
model and packaged model systems.
• When connecting metal pipes of different materials insulate the joints to
prevent a corrosive reaction taking place which will damage the pipework.
5.Check for leakages. If leakage is found, retighten the screws onto the
connections.
6. Pressurise system to 1 bar.
7. Release all trapped air using air vents during and following heating period.
8. Top up with water as necessary. (If pressure is below 1 bar)
4
Installation
Sizing Expansion Vessels
V=
ε×G
P¹ + 0.098
1 − P + 0.098
²
Where;
V : Necessary expansion vessel volume [L]
ε : Water expansion coefficient
G : Total volume of water in the system [L]
P¹ : Expansion vessel setting pressure [MPa]
P² : Max pressure during operation [MPa]
Expansion vessel sizing
25
Expansion vessel volume [L]
Expansion vessel volume must fit the local system water volume.
To size an expansion vessel both for the heating and cooling circuits the following
formula and graph can be used.
When the necessary expansion vessel volume exceeds the volume of an built-in
expansion vessel, install an additional expansion vessel so that the sum of the
volumes of the expansion vessels exceeds the necessary expansion vessel
volume.
* For installation of an EHSC-*M*EB model, provide and install an expansion
vessel in the field as the model does not come fitted with an expansion vessel.
20
15
10
5
0
0
50
100
150
200
250
300
350
400
System water volume [L]
<Figure 4.3.3>
Graph to the right is for the following values
ε : at 70 °C = 0.0229
P¹ : 0.1 MPa
P² : 0.3 MPa
*A 30% safety margin has been added.
<Second pump >
If a second pump is required for the installation please read the following carefully.
If a second pump is used in the system it can be positioned in 2 ways.
The position of the pump influences which terminal of the FTC4 the signal cable
should be wired to. If the additional pump(s) have current greater than 1A please
use appropriate relay. Pump signal cable can either be wired to TBO.1 1-2 or
CNP1 but not both.
Option 1 (Space heating only)
If the second pump is being used for the heating circuit only then the signal cable
should be wired to TBO.1 terminals 3 and 4 (OUT2). In this position the pump can
be run at a different speed to the hydrobox’s in-built pump.
Option 2 (Primary circuit DHW and space heating)
If the second pump is being used in the primary circuit between the hydrobox and
the outdoor unit (Package system ONLY) then the signal cable should be wired to
TBO.1 terminals 1 and 2 (OUT1). In this position the pump speed must match
the speed of the hydrobox’s in-built pump.
Note: Refer to 5.2 Connecting inputs/outputs.
Outdoor heat pump unit
Packaged
PUHZ-W50
PUHZ-W85
PUHZ-HW112
PUHZ-HW140
Split
PUHZ-RP35
PUHZ-RP50
PUHZ-RP60
PUHZ-(H)RP71
PUHZ-(H)RP100
PUHZ-(H)RP125
PUHZ-RP140
PUHZ-SW40
PUHZ-SW50
PUHZ-SW75
PUHZ-SW100
PUHZ-SW120
PUHZ-SHW80
PUHZ-SHW112
PUHZ-SHW140
GB
Water Circulation Pump Characteristics
Pump speed can be selected by main controller setting (see <Figure 4.3.4 4.3.7>).
Adjust the pump speed setting so that the flow rate in the primary circuit is appropriate for the outdoor unit installed (see Table 4.3.1). It may be necessary to add
an additional pump to the system depending on the length and lift of the primary
circuit.
Water flow rate range [L/min]
7.1 - 14.3
10.0 - 25.8
14.4 - 27.7
17.9 - 27.7
7.1 - 11.8
7.1 - 17.2
8.6 - 20.1
10.2 - 22.9
14.4 - 27.7
17.9 - 27.7
20.1 - 27.7
7.1 - 11.8
7.1 - 17.2
10.2 - 22.9
14.4 - 27.7
20.1 - 27.7
10.2 - 22.9
14.4 - 27.7
17.9 - 27.7
<Table 4.3.1>
* If the water flow rate is less than 7.1 L/min, the flow switch will be activated.
If the water flow rate exceeds 27.7 L/min, the flow speed will be greater than 1.5 m/s,
which could erode the pipes.
20
4
Installation
Water Circulation Pump Characteristics
EHSC, ERSC series
External static pressure [kPa]
80.0
Speed 5 (Default)
70.0
Speed 4
60.0
Speed 3
50.0
Speed 1
Speed 2
40.0
30.0
20.0
10.0
0.0
0.0
5.0
10.0
15.0
20.0
25.0
30.0
35.0
40.0
Flow rate [L/min]
<Figure 4.3.4>
EHPX series * (with PUHZ-W50)
EHPX series * (with PUHZ-W85)
Speed 4
60.0
Speed 3
Speed 2
50.0
Speed 1
40.0
30.0
20.0
10.0
0.0
5.0
10.0
15.0
20.0
25.0
Flow rate [L/min]
30.0
35.0
40.0
Speed 5 (Default)
70.0
External static pressure [kPa]
Speed 5 (Default)
70.0
0.0
EHPX series * (with PUHZ-HW112/140)
80.0
80.0
External static pressure [kPa]
External static pressure [kPa]
GB
80.0
Speed 4
60.0
Speed 3
Speed 2
50.0
Speed 1
40.0
30.0
20.0
10.0
0.0
0.0
5.0
10.0
<Figure 4.3.5>
15.0
20.0
25.0
Flow rate [L/min]
30.0
35.0
40.0
Speed 5 (Default)
70.0
Speed 4
60.0
Speed 3
Speed 2
50.0
Speed 1
40.0
30.0
20.0
10.0
0.0
0.0
5.0
10.0
15.0
20.0
25.0
30.0
35.0
40.0
Flow rate [L/min]
<Figure 4.3.6>
<Figure 4.3.7>
* For installation of EHPX series, set its pump speed with a pressure drop between the hydrobox and the outdoor unit factored into the external static pressure.
Safety Device Connections
The hydrobox contains a pressure relief valve. (see <Figure 4.3.8>) The connection size is G1/2” female. The installer MUST connect appropriate discharge
pipework from this valve in accordance with local and national regulations.
Failure to do so will result in discharge from the pressure relief valve directly into
the hydrobox and cause serious damage to the product.
All pipework used should be capable of withstanding discharge of hot water.
Relief valves should NOT be used for any other purpose, and their discharges
should terminate in a safe and appropriate manner in accordance with local regulation requirements.
Factory-fitted pressure relief valve
(G1/2” female connection)
Note: Beware that the manometer and the pressure relief valve are NOT
strained on its capillary side and on its inlet side respectively.
If a pressure relief valve is added, it is essential that no check valve
or isolation valve is fitted between the hydrobox connection and the
added pressure relief valve (safety matter).
Discharge to drain
(pipe MUST be fitted by installer).
<Figure 4.3.8>
Piping diagram for 2-zone temperature control
The following component parts are required for piping for 2-zone control operation.
Arrange the following component parts.
• Mixing tank (field supply)
• Motorized mixing valve (field supply)
• Water circulation pump (× 2) (field supply)
• Flow switch (× 2) (field supply)
• Thermistor (× 4) *2 sets of (PAC-TH011-E) thersmistors are required.
Wire the component parts to the water circuit referring to <Figure 4.3.9.>.
For more details on wiring, refer to “5.3 Wiring for 2-zone temperature controls”.
Note: Do not install the thermistors on the mixing tank. This could affect
correct monitoring of flow and return temperatures through each
zone.
Install the Zone2 flow temp. thermistor (THW8) near the mixing valve.
THW6
Water circulation pump 2
(Zone1)
THW7
Flow switch 2 (Zone1)
Motorized
Water circulation pump 3
mixing valve (Zone2)
THW8
Mixing tank
THW9
Flow switch 3 (Zone2)
Thermistor (THW6): Zone1 flow temp.
Thermistor (THW7): Zone1 return temp.
Thermistor (THW8): Zone2 flow temp.
Thermistor (THW9): Zone2 return temp.
<Figure 4.3.9>
21
Heat emitters (Zone1)
Heat emitters (Zone2)
4
Installation
0.5
A
.8
ø9.52
Flare cutting dimensions
Flare nut tightening torque
Apply refrigerating machine oil over the entire flare seat surface.
Use correct flare nuts matching the pipe size of the outdoor unit.
Precautions
For devices that use R410A refrigerant
• Use ester oil, ether oil or alkylbenzene oil (small amount) as the refrigeration
oil applied to the flared sections.
• Use C1220 copper phosphorus for copper and copper alloy seamless pipes, to
connect the refrigerant pipes. Use refrigerant pipes with the thicknesses specified in the table below. Make sure the insides of the pipes are clean and do
not contain any harmful contaminants such as sulfuric compounds, oxidants,
debris, or dust.
Warning:
When installing or moving the heat pump system, use only the specified
refrigerant (R410A) to charge the refrigerant lines. Do not mix it with any
other refrigerant and do not allow air to remain in the lines. Air enclosed
in the lines can cause pressure peaks resulting in a rupture and other hazards.
35 - 50
ø6.35 thickness 0.8 mm
ø12.7 thickness 0.8 mm
<Figure 4.4.1>
Copper pipe O.D.
(mm)
ø 6.35
ø9.52
ø12.7
ø15.88
60 - 140
ø9.52 thickness 0.8 mm
ø15.88 thickness 1.0 mm
Flare dimensions
øA dimensions (mm)
8.7 - 9.1
12.8 - 13.2
16.2 - 16.6
19.3 - 19.7
GB
Capacity
Liquid pipe
Gas pipe
R0
.4~
Gas side pipe size (mm) Liquid side Pipe size (mm)
ø15.88
45 2
R0
Installation of refrigerant pipework MUST only be done by a technician with relevant qualifications. Installation requirements may differ depending on the outdoor
unit selected. Please also refer to outdoor unit installation manual when connecting refrigerant pipework.
90
4.4 Refrigerant Pipework (Split Model Systems only)
B
• Do not use pipes thinner than those specified above.
Connecting pipes (Figure 4.4.1)
• When commercially available copper pipes are used, wrap liquid and gas
pipes with commercially available insulation materials (heat-resistant to 100 °C
or more, thickness of 12 mm or more).
• Apply thin layer of refrigerant oil to pipe and joint seating surface before tightening flare nut.
• Use two wrenches to tighten piping connections.
• Use refrigerant piping insulation to insulate indoor unit connections.
Copper pipe O.D.
(mm)
ø6.35
ø6.35
ø9.52
ø12.7
ø12.7
ø15.88
ø15.88
Flare nut O.D.
(mm)
17
22
22
26
29
29
36
Tightening torque
(N·m)
14 - 18
34 - 42
34 - 42
49 - 61
68 - 82
68 - 82
100 - 120
Die
Copper pipe
<Figure 4.4.2>
Copper pipe O.D.
(mm)
ø6.35 (1/4")
ø9.52 (3/8")
ø12.7 (1/2")
ø15.88 (5/8")
B (mm)
Flare tool for R410A
Clutch type
1.0 - 1.5
1.0 - 1.5
1.0 - 1.5
1.0 - 1.5
A
B
<Hydrobox side>
<Extension pipe side>
<Figure 4.4.3>
Match the outer diameter of the refrigerant pipe between the outdoor unit and hydrobox with that of the refrigerant pipe on the outdoor unit.
If they do not match, connect the following adapter to the refrigerant pipe on the
hydrobox.
Model name
PAC-SH50RJ-E
PAC-SH30RJ-E
Connected pipes
diameter (mm)
ø15.88 → ø12.7
ø9.52 → ø6.35
Diameter A
(mm)
ø15.88 (5/8 F)
ø9.52 (3/8 F)
Diameter B
(mm)
ø12.7 (1/2 F)
ø6.35 (1/4 F)
22
4
Installation
4.5 Electrical Connection
All electrical work should be carried out by a suitably qualified technician. Failure
to comply with this could lead to electrocution, fire, and death. It will also invali4.5.1
date product
4.2.1 warranty.
4.5.4 All wiring should be according to national wiring regulations.
Breaker abbreviation
ECB1
TB1
Meaning
Earth leakage circuit breaker for booster heater
Terminal block 1
ECB1
ECB1
D
D
TB1
E
E
The hydrobox can be powered in two ways.
1. Power cable is run from the outdoor unit to the hydrobox.
2. Hydrobox has independent power source.
Connections should be made to the terminals indicated in the figures to the left
below depending on the phase.
Booster heater and immersion heater should be connected independently from
one another to dedicated power supplies.
Locally supplied wiring should be inserted through the inlets situated on the
base of the hydrobox. (Refer to <Table 3.7-3.9>.
Wiring should be fed down the right hand side of the control and electrical
box and clamped in place using clips provided.
The wires should be inserted individually through the cable inlets as below.
Output wires
Signal input wires
Wireless receiver (option) wire
(PAR-WR51R-E)
to Power line and indoor-outdoor wire
Connect the outdoor unit – hydrobox connecting cable to TB1.
Connect the power cable for the booster heater to ECB1.
C
C
GB
B
B
• Make sure that ECB1 is ON.
A
A
<1 phase>
<3 phase>
<Figure 4.5.1>
Hydrobox NOTICE
1. When the hydrobox leaves the factory, the main controller cable (Fig. 4.5.2) on
the main unit is not connected to the controller’s relay connector (Fig. 4.5.3) on
the front panel.
After completing installation and wiring in the field, connect the main controller
cable to the relay connector, then turn on the power.
Relay
connector
Main unit
<Figure 4.5.2>
2. Before setting up the system, insert the included SD memory card.
(For more details, refer to section 5.6.)
Main unit
<Figure 4.5.4>
23
Front panel (back view)
<Figure 4.5.3>
4
Installation
Option 1: Hydrobox powered via outdoor unit
<1 phase>
Hydrobox
TB1
L
Outdoor unit
Power
supply
~/N
230V
50Hz
Earth
leakage
circuit
breaker
*1
Wiring
circuit
breaker or
Isolating
switch
N
L
S1
S1
N
S2
S2
S3
S3
ECB1
Power
supply
~/N
230V
50Hz
Wiring
circuit
breaker or
Isolating
switch
L
N
To control
board
For
booster
heater
(Primary circuit)
*1 If the installed earth leakage circuit breaker does not have an over-current protection function, install a breaker with that function along the same
power line.
*2 Affix label A that is included with the manuals near each wiring diagram for hydrobox and outdoor units.
<Figure 4.5.5>
Electrical connections 1 phase
Description
Wiring
Wiring No.
× size (mm²)
Circuit
rating
Power supply
Capacity
~/N 230 V 50 Hz
2 kW
6 kW
Breaker
16 A *1
32 A *1
Hydrobox - Outdoor unit
*2
3 × 1.5 (polar)
Hydrobox - Outdoor unit earth
*2
1 × Min. 1.5
Hydrobox - Outdoor unit S1 - S2
*3
230V AC
Hydrobox - Outdoor unit S2 - S3
*3
24V DC
Wiring
2.5 mm²
6.0 mm²
GB
Booster heater (Primary circuit)
*1. A breaker with at least 3.0 mm contact separation in each pole shall be provided. Use earth leakage breaker (NV).
The breaker shall be provided to ensure disconnection of all active phase conductors of the supply.
*2. Max. 45 m
If 2.5 mm² used, Max. 50 m
If 2.5 mm² used and S3 separated, Max. 80 m
*3. The values given in the table above are not always measured against the ground value.
Notes:
1. Wiring size must comply with the applicable local and national codes.
2. Indoor unit/outdoor unit connecting cords shall not be lighter than polychloroprene sheathed flexible cord. (Design 60245 IEC 57)
Indoor unit power supply cords shall not be lighter than polychloroprene sheathed flexible cord. (Design 60227 IEC 53)
3. Install an earth longer than other cables.
4. Please keep enough output capacity of power supply for each heater. The lack of the power supply capacity might cause chattering.
24
4
Installation
<3 phase>
Hydrobox
TB1
L1
Outdoor unit
Power
supply
3N~
400V
50Hz
Earth
leakage
circuit
breaker
*1
Wiring
circuit
breaker or
Isolating
switch
L2
L1
S1
S1
L2
S2
S2
L3
S3
S3
To control
board
N
ECB1
Power
supply
3~
400V
50Hz
Wiring
circuit
breaker or
Isolating
switch
L1
L2
For
booster
heater
(Primary circuit)
L3
*1 If the installed earth leakage circuit breaker does not have an over-current protection function, install a breaker with that function along the same
power line.
*2 Affix label A that is included with the manuals near each wiring diagram for hydrobox and outdoor units.
GB
<Figure 4.5.6>
Electrical connections 3 phase
Description
Circuit
rating
Wiring
Wiring No.
× size (mm²)
Booster heater (Primary circuit)
Power supply
Capacity
3~ 400V 50Hz
9 kW
Breaker
16 A *1
Hydrobox - Outdoor unit
*2
3 × 1.5 (polar)
Hydrobox - Outdoor unit earth
*2
1 × Min. 1.5
Hydrobox - Outdoor unit S1 - S2
*3
230V AC
Hydrobox - Outdoor unit S2 - S3
*3
24V DC
Wiring
2.5 mm²
*1. A breaker with at least 3.0 mm contact separation in each pole shall be provided. Use earth leakage breaker (NV).
The breaker shall be provided to ensure disconnection of all active phase conductors of the supply.
*2. Max. 45 m
If 2.5 mm² used, Max. 50 m
If 2.5 mm² used and S3 separated, Max. 80 m
*3. The values given in the table above are not always measured against the ground value.
Notes:
25
1. Wiring size must comply with the applicable local and national codes.
2. Indoor unit/outdoor unit connecting cords shall not be lighter than polychloroprene sheathed flexible cord. (Design 60245 IEC 57)
Indoor unit power supply cords shall not be lighter than polychloroprene sheathed flexible cord. (Design 60227 IEC 53)
3. Install an earth longer than other cables.
4. Please keep enough output capacity of power supply for each heater. The lack of the power supply capacity might cause
chattering.
4
Installation
Black
CN01
S1
YELLOW
Initial settings
(Power supplied
by outdoor unit)
• Change connector connections in hydrobox control and electrical box
(see Figure 4.5.7).
• Turn the outdoor unit DIP switch SW8-3 to ON.
• Turn on the outdoor unit BEFORE the hydrobox.
YELLOW
N
BLACK
L
If the hydrobox and outdoor units have separate power supplies, the following
requirements MUST be carried out:
BLACK
Option2: Hydrobox powered by independent source
S2
CN01
Hydrobox
control board
S3
N
S2
Black
CN01
BLACK
YELLOW
S1
BLACK
Modified settings
(Separate power
supply to
the hydrobox)
YELLOW
L
CN01
Hydrobox
control board
S3
<Figure 4.5.7>
<1 phase>
Hydrobox
TB1
Earth
leakage
circuit
breaker
*1
Wiring
circuit
breaker or
Isolating
switch
L
GB
Power
supply
~/N
230V
50Hz
N
Outdoor unit
Power
supply
~/N
230V
50Hz
Earth
leakage
circuit
breaker
*1
Wiring
circuit
breaker or
Isolating
switch
L
S1
S1
N
S2
S2
S3
S3
ECB1
Wiring
circuit
breaker or
Isolating
switch
Power
supply
~/N
230V
50Hz
L
N
To control
board
For
booster
heater
(Primary circuit)
*1 If the installed earth leakage circuit breaker does not have an over-current protection function, install a breaker with that function along the same
power line.
*2 Affix label B that is included with the manuals near each wiring diagram for hydrobox and outdoor units.
<Figure 4.5.8>
Electrical connections 1 phase
Description
Booster heater (Primary circuit)
Power supply
Wiring
Wiring No.
× size (mm²)
Hydrobox power supply
Hydrobox input capacity
Main switch (Breaker)
Hydrobox power supply
Hydrobox power supply earth
Hydrobox - Outdoor unit
Hydrobox - Outdoor unit earth
Hydrobox L - N
Hydrobox - Outdoor unit S1 - S2
Hydrobox - Outdoor unit S2 - S3
Circuit
rating
Capacity
~/N 230 V 50 Hz
2 kW
6 kW
Breaker
16 A *1
32 A *1
Wiring
2.5 mm²
6.0 mm²
~/N 230 V 50 Hz
*1
*2
*3
*3
*3
16 A
2 × Min. 1.5
1 × Min. 1.5
2 × Min. 0.3
—
230V AC
—
24V DC
*1. A breaker with at least 3.0 mm contact separation in each pole shall be provided. Use earth leakage breaker (NV).
The breaker shall be provided to ensure disconnection of all active phase conductors of the supply.
*2. Max. 120 m
*3. The values given in the table above are not always measured against the ground value.
Notes:
1. Wiring size must comply with the applicable local and national codes.
2. Indoor unit/outdoor unit connecting cords shall not be lighter than polychloroprene sheathed flexible cord. (Design 60245 IEC 57)
Indoor unit power supply cords shall not be lighter than polychloroprene sheathed flexible cord. (Design 60227 IEC 53)
3. Install an earth longer than other cables.
4. Please keep enough output capacity of power supply for each heater. The lack of the power supply capacity might cause
chattering.
26
4
Installation
<3 phase>
Hydrobox
TB1
Power
supply
~/N
230V
50Hz
Wiring
circuit
breaker or
Isolating
switch
Earth
leakage
circuit
breaker
*1
L
N
Outdoor unit
Power
supply
3N~
400V
50Hz
Earth
leakage
circuit
breaker
*1
Wiring
circuit
breaker or
Isolating
switch
L1
S1
S1
L2
S2
S2
L3
S3
S3
To control
board
N
ECB1
Power
supply
3~
400V
50Hz
Wiring
circuit
breaker or
Isolating
switch
L1
L2
For
booster
heater
(Primary circuit)
L3
GB
*1 If the installed earth leakage circuit breaker does not have an over-current protection function, install a breaker with that function along the same power line.
*2 Affix label B that is included with the manuals near each wiring diagram for hydrobox and outdoor units.
<Figure 4.5.9>
Electrical connections 3 phase
Description
Booster heater (Primary circuit)
Power supply
Wiring
Wiring No.
× size (mm²)
Hydrobox power supply
Hydrobox input capacity
Main switch (Breaker)
Hydrobox power supply
Hydrobox power supply earth
Hydrobox - Outdoor unit
Hydrobox - Outdoor unit earth
Hydrobox L - N
Hydrobox - Outdoor unit S1 - S2
Hydrobox - Outdoor unit S2 - S3
Circuit
rating
Capacity
3~ 400V 50Hz
9 kW
Breaker
16 A *1
Wiring
2.5 mm²
~/N 230 V 50 Hz
*1
*2
*3
*3
*3
16 A
2 × Min. 1.5
1 × Min. 1.5
2 × Min. 0.3
—
230V AC
—
24V DC
*1. A breaker with at least 3.0 mm contact separation in each pole shall be provided. Use earth leakage breaker (NV).
The breaker shall be provided to ensure disconnection of all active phase conductors of the supply.
*2. Max. 120 m
*3. The values given in the table above are not always measured against the ground value.
Notes:
27
1. Wiring size must comply with the applicable local and national codes.
2. Indoor unit/outdoor unit connecting cords shall not be lighter than polychloroprene sheathed flexible cord. (Design 60245 IEC 57)
Indoor unit power supply cords shall not be lighter than polychloroprene sheathed flexible cord. (Design 60227 IEC 53)
3. Install an earth longer than other cables.
4. Please keep enough output capacity of power supply for each heater. The lack of the power supply capacity might cause
chattering.
5. System Set UP
5
System Set Up
5.1 Dip Switch Functions
Located on the FTC4 printed circuit board are 4 sets of small white switches
known as Dip switches. The Dip switch number is printed on the circuit board
next to the relevant switches. The word ON is printed on the circuit board and on
the Dip switch block itself. To move the switch you will need to use a pin or the
corner of a thin metal ruler or similar.
SW4
Dip switch settings are listed below in Table 5.1.1.
Make sure to turn off both indoor unit and outdoor unit power supplies before
changing the switch settings.
SW1
SW2
SW3
<Figure 5.1.1>
Dip switch
Function
SW1 SW1-1 Boiler
WITHOUT Boiler
WITH Boiler
SW1-2 Heat pump maximum outlet water temperature
55ºC
60ºC
ON *1
SW1-3 DHW tank
WITHOUT DHW tank
WITH DHW tank
OFF
SW1-4 Immersion heater
WITHOUT Immersion heater
WITH Immersion heater
OFF
SW1-5 Booster heater
WITHOUT Booster heater
WITH Booster heater
ON
SW1-6 Booster heater function
For heating only
For heating and DHW
ON
SW1-7 Outdoor unit type
Split type
Packaged type
OFF: E*SC-*M*B
ON : EHPX-*M*B
OFF
SW1-8 Wireless remote controller
WITHOUT Wireless remote controller WITH Wireless remote controller
OFF
SW2-1 Room thermostat1 input (IN1) logic change
Zone1 operation stop at thermostat Zone1 operation stop at thermostat
short
open
OFF
SW2-2 Flow switch1 input (IN2) logic change
Failure detection at short
ON
Failure detection at open
SW2-3 Booster heater capacity restriction
Inactive
Active
SW2-4 Cooling mode function
Inactive
Active
SW2-5
Automatic switch to backup heat source operation
Inactive
(When outdoor unit stops by error)
OFF: E
xcept
EHPX-VM2B
ERSC-VM2B
ON: EHPX-VM2B
ERSC-VM2B
OFF: E
xcept
ERSC-VM2B
ON : ERSC-VM2B
Active *2
OFF
SW2-6 Mixing tank
WITHOUT Mixing tank
WITH Mixing tank
OFF
SW2-7 2-zone temperature control
Inactive
Active
OFF
-
OFF
SW2-8
SW3
Default settings:
Indoor unit model
ON
—
—
SW3-1 Room thermostat 2 input (IN6) logic change
Zone2 operation stop at thermostat Zone2 operation stop at thermostat
short
open
OFF
SW3-2 Flow switch 2 input (IN3) logic change
Failure detection at short
Failure detection at open
OFF
SW3-3 Flow switch 3 input (IN7) logic change
Failure detection at short
Failure detection at open
OFF
SW3-4 Cooling operation in Zone2
Not in use
In use
OFF
SW3-5 Heating mode function *3
Inactive
Active
OFF
SW3-6
—
—
—
OFF
SW3-7
—
—
—
OFF
SW3-8
—
—
—
OFF
SW4 SW4-1 Multiple outdoor units control
SW4-2 Position of multiple outdoor units control *4
Inactive
Active
Slave
Master
GB
SW2
OFF
OFF
OFF
SW4-3
—
—
—
OFF
SW4-4
—
—
—
OFF
SW4-5 Emergency mode (Heater only operation)
Normal
"Emergency mode (Heater only operation)
OFF *5
(To be activated only when powered ON)"
SW4-6 Emergency mode (Boiler operation)
Normal
"Emergency mode (Boiler operation)
OFF *5
(To be activated only when powered ON)"
<Table 5.1.1>
Note:
1. When the hydrobox is connected with a PUHZ-RP outdoor unit of which maximum outlet water temperature is 55ºC, Dip SW1-2 must be changed to
OFF.
2. OUT11 will be available. For safety reasons, this function is not available for certain errors. (In that case, system operation must be stopped and
only the water circulation pump keeps running.)
3 This switch functions only when the hydrobox is connected with a PUHZ-FRP outdoor unit. When another type of outdoor unit is connected, the
heating mode function is active regardless of the fact that this switch is ON or OFF.
4. SW4-2 is available only when SW4-1 is ON.
5. If emergency mode is no longer required, return the switch to OFF position.
28
5
System Set Up
5.2 Connecting inputs/outputs
CNP1(WHT)
1
2
1
3
3
4
5
6
7
TBO.1
8
1
10
5
CNV1
(WHT)
9
11
CN01
(BLK)
5
CN3C
(BLU)
1
When the wires are wired to adjacent terminals use ring terminals and insulate the wires.
1
3
12
13
14
FT C 4
1
2
3
4
5
6
7
8
TBO.2
LED3
9
CN105
(RED)
10
11
12
13
1
5
14
1
CNRF
(WHT)
5
1
CNBH
(WHT)
7
3
3
CNBC
(GRY)
1
CN2F CN20
(YLW) (RED)
1
1
GB
3
2
3
1
LED2
2
CN108
1
CN21 CNW12 CNW5
(YLW) (RED)
(WHT)
1
1
LED4 LED5
CN22
(BLU)
1
CNBHT
(BLK)
3
CNPWM
(WHT)
1
CNIH
(ORN)
1
CNW3
(WHT)
SW4
1
2
3
LED1 1
2
2
1
4
3
6
5
8
7
10 12 14
9
11 13
2
1
4
3
TBI.1
6
5
6
SW2
4
8
7
10 12 14
9
1
SW3
SW1
8
1
8
11 13
TBI.2
1
8
<Figure 5.2.1>
Signal inputs
Name
IN1
IN2
IN3
IN4
IN5
IN6
IN7
Terminal block
TBI.1 1-2
TBI.1 3-4
TBI.1 5-6
TBI.1 7-8
TBI.1 9-10
TBI.1 11-12
TBI.1 13-14
Connector
—
CN2F
—
—
—
—
—
Item
Room thermostat 1 input
Flow switch 1 input
Flow switch 2 input (Zone1)
Demand control input
Outdoor thermostat input (*1)
Room thermostat 2 input
Flow switch 3 input (Zone2)
OFF (Open)
ON (Short)
Refer to SW2-1 in <5.1 Dip Switch Functions>.
Refer to SW2-2 in <5.1 Dip Switch Functions>.
Refer to SW3-2 in <5.1 Dip Switch Functions>.
Normal
Heat source OFF/ Boiler operation *2
Standard operation
Heater operation/ Boiler operation *2
Refer to SW3-1 in <5.1 Dip Switch Functions>.
Refer to SW3-3 in <5.1 Dip Switch Functions>.
*1. If using outdoor thermostat for controlling operation of heaters, the lifetime of the heaters and related parts may be reduced.
*2. To turn on the boiler operation, use the main controller to select “Boiler” in “External input setting“ screen in the service menu.
Wiring specification and field supply parts
Item
Name
Model and specifications
Signal input Signal input Use sheathed vinyl coated cord or cable.
function
wire
Max. 10 m
Wire type: CV, CVS or equivalent
Wire size: Stranded wire 0.5 mm² to 1.25 mm²
Solid wire: ø0.65 mm to ø1.2 mm
Switch
Non-voltage “a” contact signals
Remote switch: minimum applicable load 12V DC, 1mA
Thermistor inputs
Name
TH1
TH2
THW1
THW2
THW5
THW6
THW7
THW8
THW9
THWB1
THWB2
Terminal block
—
—
—
—
—
TBI.2 7-8
TBI.2 9-10
TBI.2 1-2
TBI.2 11-12
TBI.2 3-4
TBI.2 5-6
Connector
CN20
CN21
CNW12 1-2
CNW12 3-4
CNW5
—
—
—
—
—
—
Item
Thermistor (Room temp.) (Option)*1
Thermistor (Ref. liquid temp.)
Thermistor (Flow water temp.)
Thermistor (Return water temp.)
Thermistor (DHW tank water temp.) (Option)*1
Thermistor (Zone1 flow water temp.) (Option)*1
Thermistor (Zone1 return water temp.) (Option)*1
Thermistor (Zone2 flow water temp.) (Option)*1
Thermistor (Zone2 return water temp.) (Option)*1
Thermistor (Boiler flow water temp.) (Option)*1
Thermistor (Boiler return water temp.) (Option)*1
Optional part model
PAC-SE41TS-E
—
—
—
PAC-TH011TK-E
PAC-TH011-E
PAC-TH011-E
PAC-TH011HT-E
Do not splice the wiring to extend or shorten it, or this could affect correct monitoring of each temperature.
If the wiring is too long, bundle it with a strap to adjust the length.
*1. The maximum length of the thermistor wiring is 5 m.
When the wires are wired to adjacent terminals, use ring terminals and insulate the wires.
29
5
System Set Up
Outputs
Name
OUT1
OUT2
OUT3
OUT4
Terminal block
TBO.1 3-4
TBO.1 5-6
TBO.1 7-8
TBO.1 9-11
TBO.1 12-13
OUT5
TBO.1 13-14
OUT6
—
OUT7
—
OUT8 TBO.2 11-12
OUT9 TBO.2 9-10
OUT11 TBO.2 1-2
OUT12 TBO.2 3-4
OUT13 TBO.2 7-8
Connector
CNP1
—
—
CNV1
Item
Water circulation pump 1 output (Space heating & DHW)
Water circulation pump 2 output (Space heating for Zone1)
Water circulation pump 3 output (Space heating for Zone2)
3-way valve (2-way valve 1) output
Booster heater 1 output
Booster heater 2 output
Booster heater 2+ output
Immersion heater output
Error output
Defrost output
2-way valve 2 output
OFF
OFF
OFF
OFF
Heating
Stop
Stop
OFF
OFF
OFF
OFF
Normal
Normal
DHW
ON
ON
ON
ON
DHW
Close
Open
ON
ON
ON
ON
Error
Defrost
Heating
—
Mixing valve output
CNBH 1-3
CNBH 5-7
—
CNIH
—
—
—
OUT10 TBO.1 1-2
—
Boiler output
OFF
ON
Signal/Max current
230V AC 1.0 A Max
230V AC 1.0 A Max
230V AC 1.0 A Max
230V AC 0.1 A Max
Max. total current
3.0 A (a)
230V AC 0.1 A Max
230V AC 0.5 A Max (Relay)
230V AC 0.5 A Max (Relay)
3.0 A (b)
230V AC 0.5 A Max (Relay)
230V AC 0.5 A Max (Relay)
230V AC 0.5 A Max
230V AC 0.5 A Max
230V AC 0.1 A Max
non-voltage contact
• 220 - 240V AC (30V DC)
—
0.5A or less
• 10 mA 5V DC or more
Do not connect to the terminals that are indicated as “—” in the “Terminal block” field.
N L N L N L N
N
L
1 2 3 4 5 6 7 8 9 10 11 12 13 14
OUT10 OUT1 OUT2 OUT3
OUT4
N L N L
TBO.2
Close Open
OUT5
1 2 3 4 5 6 7 8 9 10 11 12 13 14
OUT11 OUT12
Wiring specification and field supply parts
Item
Name
External Outputs
output
wire
function
N L N L N L
Model and specifications
Use sheathed vinyl coated cord or cable.
Max. 30 m
Wire type: CV, CVS or equivalent
Wire size: Stranded wire 0.5 mm² to 1.25 mm²
Solid wire: ø0.65 mm to ø1.2 mm
GB
TBO.1
L
OUT13 OUT9 OUT8
Note:
1. When the hydrobox is powered via outdoor unit, the maximum grand total current of (a)+(b) is 3.0 A.
2. Do not connect multiple water circulation pumps directly to each output (OUT1,
OUT2, and OUT3). In such a case, connect them via (a) relay(s).
3. Do not connect water circulation pumps to both TBO.1 3-4 and CNP1 at the
same time.
4. Connect an appropriate surge absorber to OUT10 (TBO.1 1-2) depending on the
load at site.
5.3 Wiring for 2-zone temperature control
1. Water circulation pump 2 (Zone1 water circulation pump) / Water circulation pump 3 (Zone2 water circulation pump)
Electrically wire water circulation pumps 2 and 3 to the appropriate output terminals. (Refer to “Outputs” in 5.2.)
2.Flow switch 2 (Zone1 flow switch) / Flow switch 3 (Zone2 flow switch)
Connect flow switches 2 and 3 to the appropriate terminals. (Refer to “Signal inputs” in 5.2.)
Set dip switches 3-2 and 3-3 according to the functions of individual flow switches 2 and 3. (Refer to “Dip switch functions” in 5.1.)
3. Thermistor
Connect the thermistor to monitor the Zone1 flow temp. to the THW6 (TBI. 2-7 and 2-8) terminals.
Connect the thermistor to monitor the Zone1 return temp. to the THW7 (TBI. 2-9 and 2-10) terminals.
Connect the thermistor to monitor the Zone2 flow temp. to the THW8 (TBI. 2-1 and 2-2) terminals.
Connect the thermistor to monitor the Zone2 return temp. to the THW9 (TBI. 2-11 and 2-12) terminals.
The maximum length of the thermistor wiring is 5 m. Do not splice the wiring to extend or shorten it, or this could affect correct monitoring of each hot water temperature
through zones.
If the wiring is too long, bundle it with a strap to adjust the length.
4. Motorized mixing valve
Connect three wires coming from the motorized mixing valve to the appropriate terminals referring to “Outputs” in 5.2.
Note: Connect the signal line to open Port A (hot water inlet port) to TBO. 1-14 (Open), the signal line to open Port B (cold water inlet port) to TBO. 1-12 (Close) ,
and the neutral terminal wire to TBO. 1-13 (N).
N
L
to Zone2 heat emitter
from mixing tank
A
FTC4
B
to mixing tank
TBO.1 12 13 14
Motorized mixing valve
from Zone2 heat emitter
Close N Open
30
5
System Set Up
5.4 Installation procedure for DHW tank
GB
Note:
•Be aware that the respective DHW operations are greatly effected by the
selections of the components such as tank, immersion heater, or the
like.
• Follow your local regulations to perform system configuration.
1. To enable switching of the water circulation circuit between the DHW mode
and the heating mode, install a 3-way valve (field supply). The 3-way valve and
the DHW tank should be positioned as shown in the system diagram on the
page 13, Figure 3.9 or 3.10 as applicable.
The use of two 2-way valves can perform the same function as a 3-way valve.
2.Install the optional thermistor THW5 (optional part PAC-TH011TK-E) on the
DHW tank.
It is recommended to position the thermistor at the mid point of the DHW tank
capacity. Insulate thermistor from ambient air. Especially for double (insulated)
tank, thermistor should be attached to the inner side (to detect the water temperature).
3. Connect the thermistor lead to the CNW5 connector on the FTC4.
If the thermistor lead is too long bundle it with a strap to adjust the length.
4. The output terminals for the 3-way valve is TBO.1 9-11 (OUT4).
The TBO.1 9-11 terminals on the FTC4 are shown in the wiring diagram on
Page 29.
Choose the terminals that the 3-way valve is connected to between TBO.1
9-10, or TBO.1 9-11, according to the rated voltage.
When the rated current of the 3-way valve exceeds 0.1A, be sure to use
a relay with maximum voltage and current ratings of 230V AC / 0.1A when
connecting to the FTC4. Do not directly connect the 3-way valve cable to the
FTC4. Connect the relay cable to the TBO.1 9-10 terminals.
3-way valve must be of SPST type. SPDT type can NOT be used.
For systems using 2-way valves instead of a 3-way valve please read the following;
• Power supply: 230V AC
• Current: 0.1A Max (If over 0.1A you must use a relay)
• Type: Normally closed
Installation Electrical connection Output signal
position
terminal block
Heating
DHW
2-way valve1 DHW
TBO.1 9-10
2-way valve2 Heating
TBO.2 7-8
ON
(open)
OFF
(closed)
Note: Should the 2-way valve become blocked the water circulation will stop.
A by-pass valve or circuit should be installed between pump and 2-way
valve for safety.
The TBO.2 7-8 terminals on the FTC4 are shown in the wiring diagram.
The 2-way valve (field supply) should be installed according to the instructions supplied with it. Follow 2-way valve’s manufacturer’s instructions as to
whether to connect an earth cable or not.
• For the 2-way valve, choose the one that slowly opens and shuts off to
prevent water hammer sound.
• Choose the 2-way valve equipped with manual override, which is necessary for topping up or draining of water.
5. Turn the DIP SW1-3 on the FTC4 to ON.
6. When using an immersion heater (field supply), connect a contact relay cable
for the immersion heater to TBO.2 9-10 (OUT9), and turn the Dip SW1-4 to
ON. Do NOT directly connect the power cable to the FTC4.
Note:
• When an immersion heater is installed, select appropriate breaker capacity
and a cable with appropriate diameter on the basis of heater output.
• When wiring an immersion heater in the field, always install an earth leakage
breaker to prevent accidental electric shock.
Specification of 2-way valve (field supply)
TBO.1 9-11
TBO.2 7-8
TBO.2 9-10
Connector CNW5
Dip-SW1
WARNING: When connecting DHW tank
(1) Attach the optional thermistor THW5 (PAC-TH011TK-E).
(2) Always use earth leakage breaker when connecting immersion heater.
(3) When installing an immersion heater, be sure that the immersion heater has a built-in direct cut-off thermostat.
(4) Connect a pressure relief valve on the sanitary water side.
(5) It is essential that no check valve or isolating valve is fitted between the hydrobox and the pressure relief valve.
31
OFF
(closed)
ON
(open)
System
OFF
OFF
(closed)
OFF
(closed)
5
System Set Up
Recommended DHW system
Where system involves a DHW tank:
DHW tank
Present
Immersion
heater
Absent
Booster
heater
Present
BH function
For space
heating/
cooling and
DHW
System diagram
THW5
Thermistor
THW1: Flow water temp.
THW2: Return water temp.
THW5: Tank water temp.
(optional part
PAC-TH011TK-E)
DHW tank
Hydrobox
THW1
Heat emitter
Booster heater
THW2
Present
Present
Present
For space
heating/
cooling and
DHW
3-way valve (*)
THW5
DHW tank
Immersion heater
Hydrobox
THW1: Flow water temp.
THW2: Return water temp.
THW5: Tank water temp.
(optional part
PAC-TH011TK-E)
THW1
Heat emitter
Booster heater
GB
THW2
3-way valve (*)
*The use of two 2-way valves can perform same function as a 3-way valve.
32
5
System Set Up
5.5 Remote Controller Options
The hydrobox comes factory fitted with a main controller. This incorporates a thermistor for
temperature monitoring and a graphical user interface to enable set-up, view current status
and input scheduling functions. The main controller is also used for servicing purposes.
This facility is accessed via password protected service menus.
To provide the best efficiency Mitsubishi Electric recommends using automatic adaptation
function based on room temperature. To use this function a room thermistor needs to be
present in a main living area. This can be done in a number of ways the most convenient
are detailed below.
Refer to heating section of this manual for instructions on how to set compensation
curve, flow temp or room temp (Auto adaptation).
For instructions on how to set the thermistor input for the FTC4 please refer to Initial
settings section.
Factory supplied standard
FTC4
Outdoor unit
The factory setting for space heating mode is set to Room temp. (auto adaptation). If
there is no room sensor present in the system, this setting must be changed to either
Compensation curve mode or Flow temp mode.
Hydrobox
Note: Auto-adaptation is not available in Cooling mode.
1-zone temperature control
Control option A
Wireless receiver
(option)
GB
This option features the main controller and the Mitsubishi Electric wireless remote
controller. The wireless remote controller is used to monitor room temperature and can
be used to make changes to the space heating settings, boost DHW (*1) and switch to
holiday mode without having to directly use the main controller.
20.0°C
FTC4
If more than one wireless remote controller is used, the most recently requested
temperature setting will commonly be applied to all rooms by the central control system
regardless of which wireless remote controller was used. No hierarchy exists across
these remote controllers.
Wire the wireless receiver to FTC4 referring to the wireless remote controller
instruction manual. Turn DIP SW1-8 to ON. Before operation configure the wireless
remote controller to transmit and receive data referring to the wireless remote
controller installation manual.)
Wireless remote controller
(option)
20.0°C
Max. 8
20.0°C
Outdoor unit
Main controller
Hydrobox
20.0°C
Room
Control option B
This option features the main controller and the Mitsubishi Electric thermistor wired to
FTC4. The thermistor is used to monitor room temperature but can not make any
changes in control operation. Any changes to DHW (*1) must be made using the main
controller mounted on the hydrobox.
FTC4
Room temperature
thermistor (option)
Wire the thermistor to the TH1 connector on FTC4.
The number of room temperature thermistors that can be connected to FTC4 is always
one.
Outdoor unit
Main controller
Hydrobox
Room
Control option C
This option features the main controller being removed from the hydrobox and situated
in a different room. A thermistor built in the main controller can be used for monitoring
the room temperature for Auto Adaptation function whilst keeping all its features of the
main controller available.
FTC4
Main controller
(remote position)
The main controller and FTC4 are connected by a 2-core, 0.3 mm², non-polar cable
(field supply) with a maximum length of 500 m.
To use the sensor in the main controller the main controller should come off from the
hydrobox. Otherwise it will detect the temperature of the hydrobox instead of room temperature. This will affect the output of the space heating.
Outdoor unit
Hydrobox
Room
Control option D (Flow temp. or compensation curve only)
This option features the main controller and a locally supplied thermostat wired to FTC4.
The thermostat is used to set the maximum temperature for heating room. Any changes
to DHW (*1) must be made using main controller mounted on the hydrobox.
FTC4
20.0°C
The thermostat is wired to IN1 in TBI.1 on FTC4. The number of thermostats that can be
connected to FTC4 is always one.
Room temperature
thermostat
(field supply)
The wireless remote controller can be also used as a thermostat.
Outdoor unit
Main controller
Hydrobox
*1 If applicable
33
Room
5
System Set Up
2-zone temperature control
Control option A
This option features the main controller, the Mitsubishi Electric wireless remote
controller and a locally supplied thermostat.
The wireless remote controller is used to monitor the Zone1 room temperature and the
thermostat is used to monitor the Zone2 room temperature.
The thermostat can be also allocated to Zone1 and the wireless remote controller to
Zone2.
Wireless receiver
(option)
Wireless remote controller
(option)
20.0°C
FTC4
The wireless remote controller can be also used to make changes to the space heating
settings, boost DHW (*1) and switch to holiday mode without having to use the main
controller.
If more than one wireless remote controller is used, the last temperature setting
adjustment/demand will be applied to ALL rooms in same zone.
Wire the wireless receiver to FTC4 referring to the wireless remote controller instruction manual. Turn DIP SW1-8 to ON. Before operation configure the wireless remote
controller to transmit and receive data referring to the wireless remote controller
installation manual.)
The thermostat is used to set the maximum temperature for heating Zone2 room.
The thermostat is wired to IN6 on FTC4. (If the thermostat is allocated to Zone1, it is
wired to IN1 on TBI.1.) (Refer to 5.2.)
Max. 8
20.0°C
Zone1
Outdoor unit
Main controller
Hydrobox
Zone1: Room temp. control (Auto adaptation)
Zone2: Compensation curve or flow temp. control
20.0°C
Room temperature
thermostat
(field supply)
Zone2
Control option B
The thermostat can be also allocated to Zone1 and the thermistor to Zone2.
The thermistor can not make any changes in control operation. Any changes to DHW
(*1) must be made using the main controller mounted on the hydrobox.
Wire the thermistor to the TH1 connector on FTC4.
The number of room temperature thermistors that can be connected to FTC4 is always
one.
The thermostat is used to set the maximum temperature for heating Zone2 room.
The thermostat is wired to IN6 on FTC4. (If the thermostat is allocated to Zone1, wire it
to IN1 on TBI.1.) (Refer to 5.2.)
FTC4
Room temperature
thermistor (option)
GB
This option features the main controller, the Mitsubishi Electric thermistor and a locally
supplied thermostat that are wired to FTC4.
The thermistor is used to monitor the Zone1 room temperature and the thermostat is
used to control the Zone2 room temperature.
Zone1
Outdoor unit
Main controller
Hydrobox
Zone1: Room temp. control (Auto adaptation)
Zone2: Compensation curve or flow temp. control
20.0°C
Room temperature
thermostat
(field supply)
Zone2
Control option C
This option features the main controller (with in-built thermistor) that is removed from
the hydrobox to monitor the Zone1 room temperature and a locally supplied thermostat
to monitor the Zone2 room temperature.
The thermostat can be also allocated to Zone1 and the thermistor to Zone2.
A thermistor built into the main controller can be used for monitoring the room temperature for Auto Adaptation function whilst keeping all its features of the main controller
available.
The main controller and FTC4 are connected by a 2-core, 0.3 mm², non-polar cable (field
supply) with a maximum length of 500 m.
To use the sensor in the main controller the main controller should be detached from
the hydrobox. Otherwise it will detect the temperature of the hydrobox instead of room
temperature. This will affect the output of the space heating.
The thermostat is used to set the maximum temperature for heating Zone2 room.
The thermostat is wired to IN6 on FTC4. (If the thermostat is allocated to Zone1, wire it
to IN1 on TBI.1.) (Refer to 5.2.)
FTC4
Main controller
(remote position)
Zone1
Outdoor unit
Hydrobox
Zone1: Room temp. control (Auto adaptation)
Zone2: Compensation curve or flow temp. control
20.0°C
Room temperature
thermostat
(field supply)
Zone2
Control option D
This option features the locally supplied thermostats wired to FTC4. The thermostats
are individually allocated to Zone1 and Zone2. The thermostats are used to set each
maximum temperature for heating Zone1 and Zone2 rooms. Any changes to DHW (*1)
must be made using the main controller mounted on the hydrobox.
FTC4
Room temperature
thermostat
(field supply)
Zone1
The thermostat for Zone1 is wired to IN1 in TBI.1 on FTC4.
The thermostat for Zone2 is wired to IN6 in TBI.1 on FTC4.
20.0°C
Outdoor unit
Main controller
Hydrobox
Zone1, Zone2: Compensation curve or flow temp. control
Room temperature
thermostat
(field supply)
Zone2
*1 If applicable
*2 For the options above, the sensor types can be exchanged between Zone1 and Zone2. (e.g. Wireless remote controller in Zone1 and Room temp thermostat in Zone2 can
be changed to Room temp thermostat and wireless remote controller, respectively).
The wireless remote controller can be also used as a thermostat.
34
5
System Set Up
Remote Installation of Main Controller
The following instructions are related to a system controlled as in Control option C.
Metal back plate
<Removing the main controller from the hydrobox>
1. Open front panel of hydrobox. (See section 4.2.)
2. Remove the four screws from the metal back plate of main controller using a
screwdriver. (Figure 5.5.1)
3. Untwist wire clip and lift off the metal back plate.
4. Gently pull apart the clips holding the main controller in place. Be careful not
to use too much force as this may break the holding clips.
Wire clip
Holding clips
5. Lift out the main controller from the front panel of the hydrobox.
Main controller
<Figure 5.5.1>
Removing main controller
6.Separate the back and front plates using a flat head screwdriver as shown in
Figure 5.5.2.
GB
Terminal block for controller -FTC4
connection cable
Front plate
Back plate
<Figure 5.5.2>
Opening the main controller
7.Fix the 2 core cable from the FTC4 into the terminal. Ensure the wires make
good contact and are securely screwed into the terminal block. (Figure 5.5.3)
8.The inner core wires should not be visible from the outside of the back plate.
(Figure 5.5.3)
9.The sheathed cable should be pressed into the sunken channel so it is flush
with the back plate.
10.Once the connection cable is in place screw the back plate to the wall using
screws (field supply) suitable for use on the chosen wall. (Figure 5.5.4)
10 mm
6 mm
<Figure 5.5.3>
Securing the connection cable
11.Finally replace the front plate.
Note:
Wiring for main controller cable shall be (5cm or more) apart from power
source wiring so that it is not influenced by electrical noise from power
source wiring. (Do NOT insert main controller cable and power source wiring in the same conduit.)
<Figure 5.5.4>
Securing the back plate to the wall
35
5
System Set Up
5.6 Using SD memory card
The hydrobox is equipped with an SD memory card interface in FTC4.
Using an SD memory card can simplify main controller settings and can store
operating logs. *1
(a) For insertion, push on the SD memory card until it clicks into place.
(b) For ejection, push on the SD memory card until it clicks.
Note: To avoid cutting fingers, do not touch sharp edges of the SD memory card connector (CN108) on the FTC4 control board.
(a)
(b)
Logos
GB
<Handling precautions>
(1) Use an SD memory card that complies with the SD standards. Check that the
SD memory card has a logo on it of those shown to the right.
(2) SD memory cards to the SD standards include SD, SDHC, miniSD, micro SD,
and microSDHC memory cards. The capacities are available up to 32 GB.
Choose that with a maximum allowable temperature of 55ºC.
(3) When the SD memory card is a miniSD, miniSDHC, microSD, or micro SDHC
memory card, use an SD memory card converter adapter.
(4) Before writing to the SD memory card, release the write-protect switch.
2 GB
(5) Before inserting or ejecting an SD memory card, make sure to power off the
system. If an SD memory card is inserted or ejected with the system powered
on, the stored data could be corrupted or the SD memory card be damaged.
*An SD memory card is live for a whilst after the system is powered off. Before
insertion or ejection wait until the LED lamps on the FTC4 control board are
all off.
(6) The read and write operations have been verified using the following SD
memory cards, however, these operations are not always guaranteed as the
specifications of these SD memory cards could change.
Manufacturer
Model
Tested in
Verbatim
#44015 0912-61
Mar. 2012
SanDisk
SDSDB-002G-B35
Oct. 2011
Panasonic
RP-SDP04GE1K
Oct. 2011
Arvato
2GB PS8032 TSB 24nm MLC Jun. 2012
Before using a new SD memory card (including the card that comes with the
unit), always check that the SD memory card can be safely read and written
to by the FTC4 controller.
<How to check read and write operations>
a) Check for correct wiring of power supply to the system. For more details,
refer to section 4.5.
(Do not power on the system at this point.)
b) Insert an SD memory card.
c) Power on the system.
d) The LED4 lamp lights if the read and write operations are successfully
completed. If the LED4 lamp continues blinking or does not light, the SD
memory card cannot be read or written to by the FTC4 controller.
(7) Make sure to follow the instruction and the requirement of the SD memory
card’s manufacturer.
(8) Format the SD memory card if determined unreadable in step (6). This could
make it readable.
Download an SD card formatter from the following site.
SD Association homepage: https://www.sdcard.org/home/
(9) FTC4 supports FAT file system but not NTFS file system.
(10) Mitsubishi Electric is not liable for any damages, in whole or in part, including
failure of writing to an SD memory card, and corruption and loss of the saved
data, or the like. Back up saved data as necessary.
(11)Do not touch any electronic parts on the FTC4 control board when inserting
or ejecting an SD memory card, or else the control board could fail.
Capacities
2 GB to 32 GB *2
SD speed classes
All
• The SD Logo is a trademark of SD-3C, LLC.
The miniSD logo is a trademark of SD-3C, LLC.
The microSD logo is a trademark of SD-3C, LLC.
*1 To edit main controller settings or to check operating data, an Ecodan service
tool (for use with PC) is required.
*2 A 2-GB SD memory card stores up to 30 days of operation logs.
36
5
System Set Up
5.7 Main Controller
<Main controller parts>
A
F1
F3
F2
C
Name
Function
A
B
Screen
Menu
C
D
E
Back
Confirm
Power/Holiday
F1-4
Function keys
Screen in which all information is displayed
Access to system settings for initial set up and
modifications.
Return to previous menu.
Used to select or save. (Enter key)
If system is switched off pressing once will turn
system 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)
Used to scroll through menu and adjust settings.
Function is determined by the menu screen visible
on screen A.
F4
*1
When the system is switched off or the power supply is disconnected, the
hydrobox protection functions (e.g. freeze stat. function) will NOT operate.
Please beware that without these safety functions enabled the hydrobox
may potentially become exposed to damage.
E
B
Letter
D
<Main screen icons>
1
GB
12
15
14 11
1
2
2
3
Icon
Description
Legionella
prevention
Heat pump
When this icon is displayed ‘Legionella prevention
mode’ is active.
‘Heat pump’ is running.
Defrosting.
Emergency heating.
3
Electric heater
4
Target
temperature
10
9
When this icon is displayed the ‘Electric heaters’
(booster or immersion heater) are in use.
Target flow temperature
Target room temperature
9
Space heating
(cooling) mode
Compensation curve
Pressing the function button below this icon will display the quick view menu.
Increase desired temperature.
Decrease desired temperature.
Pressing the function button below this icon switches between Zone1 and Zone2.
Pressing the function button below this icon displays
the information screen.
Heating mode
Zone1 or Zone2
10
11
12
DHW mode
Holiday mode
Normal or ECO mode
When this icon is displayed ‘Holiday mode’ activated.
13
5
OPTION
4
6
7
8
+
Z1
Z2
Information
8
Cooling mode
7
6
5
Timer
Prohibited
Stand-by
Stop
Operating
13
Current
temperature
Current room temperature
Current water temperature of DHW tank
14
The Menu button is locked or the switching of the
operation modes between DHW and Heating operations are disabled in the Option screen.
15
SD memory card is inserted. Normal operation.
SD memory card is inserted. Abnormal operation.
37
5
System Set Up
<Main Controller Menu Tree>
Initial
Main screen
Unrestricted access
Installer only
Shaded items relate
to DHW functions.
These are only available if the system
includes a DHW tank.
F1
Information
Option
F4
F1
F2
F3
F4
Main menu
Forced DHW
DHW
Heating/Cooling
Holiday
ON/OFF
ON/Prohibited/Timer
ON/Prohibited/Timer
Active/Non active
Set time
DHW
Normal/Eco
Edit
DHW max. temp.
DHW max. temp. drop
DHW max. operation time
DHW mode restriction
Legionella
Active/Non active
Edit
F1 (Zone1)
F2 (Zone2)
F3 (PREVIEW)
F4 (EDIT)
Compensation curve preview
Compensation curve edit
Zone1
Heating room temp./Heating flow temp./
Heating compensation curve/Cooling
flow temp.
Zone2
Room temp./Flow temp. /
Compensation curve
Zone1
F2, F3
F4
Zone2
F2, F3
F4
Schedule timer menu
Heating
Holiday mode
Cooling
DHW
DHW 2 *1
F1
F2
F3 (EDIT)
Continued to next page.
Curve parameters
Adjustment
Schedule timer preview
Day select
Time select
Zone2
Schedule timer preview
Day select
Time select
Period
Schedule timer preview
Schedule timer preview
Schedule timer preview
Day select
Day select
Day select
Time select
Time setting
Time setting
Zone2
Initial settings
Curve parameters
Adjustment
Zone1
DHW active /non active
Heating/Cooling active/non active
Holiday menu
Zone1
Date/Time
Language
°C/°F
Temp. display
Contact number
Time display
Room sensor setting
GB
Heating/cooling mode
Hot water temp.
Frequency
Start time
Max. operation time
Duration of max. temp.
Time setting
Temp. setting
Time setting
Temp. setting
Time setting
Time setting
Time setting
Heating room temp.
Heating flow temp.
Cooling flow temp.
Heating room temp.
Heating flow temp.
yyyy/mm/dd/hh:mm
ENG/FR/GER/SW/SP/IT/DA/NL/FIN/NOR/PT
°C/°F
OFF/Room/Tank/Room&Tank
hh:mm/hh:mm AM/AM hh:mm
Room RC zone select
Room RC1-8
Sensor setting
TH1/Main controller/
Zone1
Room RC1-8/ “Time/Zone”
Select
Time setting
Time/Zone
Sensor setting
Zone2
Sensor setting
TH1/Main controller/
Room RC1-8/ “Time/Zone”
Select
Time setting
Time/Zone
Sensor setting
*1 When a PUHZ-FRP outdoor unit is connected.
38
5
System Set Up
<Main Controller Menu Tree>
Initial
Unrestricted access
Installer only
Shaded items relate
to DHW functions.
These are only available if the system
includes a DHW tank.
Main screen
Main menu
Service
(Password protected)
Manual operation
Function settings
Thermistor adjustment
Auxiliary settings
Economy setting for pump
Electric heater (Heating)
Electric heater (DHW)
Mixing valve control
ON/OFF
Delay
ON/OFF
Delay
ON/OFF
Delay
Running
Interval
Heat source setting
Pump speed
Standard (Heat pump & electric heater)/Heater (Electric heater only)/Boiler/Hybrid (Heat pump
& heater/Boiler)
Operation settings
Freeze stat function
Simultaneous operation
Cold weather function
GB
Room temp. control (Heating)
Flow t.
Outdoor ambient temp.
ON/OFF
Outdoor ambient temp.
ON/OFF
Outdoor ambient temp.
Temp. control interval
Flow temp. range
H/P thermo diff. adjust
Boiler settings
*2
Hybrid settings
Intelligent settings
Min. temp.
Max. temp.
ON/OFF
Lower limit
Upper limit
Outdoor ambient temp.
Priority
Ambient/Cost /CO2
Energy price
Schedule
CO2 emission
Heat source
Floor dry up function
(For more details,
refer to Page 50.)
ON/OFF
Target temp.
Flow temp. (Increase)
Flow temp. (Decrease)
External input settings
Demand control
OFF (Heat source)/Boiler
Running information
Thermistor reading
Summary of settings
Error history
Password protection
Manual reset
Outdoor thermostat
Heater/Boiler
Main controller
FTC
SD Main RC
Main RC SD
Yes/No
Yes/No
Select download data
Select upload data
SD card
*2 For more details, refer to the installation manual of PAC-TH011HT-E.
Continued from the previous page.
39
Electricity
Boiler
Electricity
Boiler
Heat pump capacity
Boiler efficiency
Booster heater 1
capacity
Booster heater 2
capacity
Start & Finish
Max. temp.
Max. temp. period
Temp. increase step
Increase interval
Temp. decrease step
Decrease interval
5
System Set Up
Setting the Main Controller
After the power has been connected to the outdoor unit and hydrobox (See chapter 4.5) the initial system settings can be entered via the main controller.
1. Check all breakers and other safety devices are correctly installed and turn on
power to the system.
2. When the main controller switched on for the first time, the screen automatically goes to Initial settings menu, Language setting screen and Date/Time
setting screen in order.
3. Main controller will automatically start up. Wait approximately 6 mins whilst the
control menus load.
4. When the controller is ready a blank screen with a line running across the top
will be displayed.
5. Press button E (Power) (refer to page 34) to turn on the system. Before turning
on the system, perform initial settings as instructed below.
Main Settings Menu
The main settings menu can be accessed by pressing the MENU button. To reduce the risk of untrained end users altering the settings accidentally there are
two access levels to the main settings; and the service section menu is password
protected.
User Level – Short press
If the MENU button is pressed once for a short time the main settings will be
displayed but without the edit function. This will enable the user to view current
settings but not change the parameters.
GB
Installer Level – Long press
If the MENU button is pressed down for 3 secs the main settings will be displayed
with all functionality available.
Icon
Description
The following items can be viewed and/or edited (dependent on access level).
• Domestic Hot water (DHW)
• Heating/Cooling
• Schedule timer
• Holiday mode
• Initial settings
• Service (Password protected)
Hot water (DHW)
Use the F2 and F3 buttons to move between the icons. The highlighted icon will
appear as a larger version in the centre of the screen. Press CONFIRM to select
and edit the highlighted mode.
Holiday mode
Heating/Cooling
Schedule timer
Initial settings
Service
Initial Settings
From the Initial settings menu the installer can set the following.
• Date/Time
• Language
• ºC/ºF
• Temp. display
• Contact number
• Time display
• Room sensor settings
1. Use buttons F1 and F2 to move scroll through the menu list. When the title is
highlighted press CONFIRM to edit.
2. Use function buttons appropriate to edit each setting then press CONFIRM to
save the setting.
<Room sensor settings>
For room sensor settings it is important to choose the correct room sensor depending on the heating mode the system will operate in.
1. From the Initial settings menu select Room sensor settings.
40
5
System Set Up
2.When 2-zone temperature control is active or wireless remote controllers are
available, from Room RC zone select screen, select zone no. to assign to
each remote controller.
3.From Sensor setting screen, select a room sensor to be used for monitoring
the room temperature from Zone1 and Zone2 separately.
Control option
(pages 33 and 34)
A
B
C
D
Corresponding initial settings room sensor
Zone2
Zone1
Room RC1-8 (one each
*
for Zone1 and Zone2)
TH1
*
Main controller
*
*
*
GB
*Not specified ( if a field-supplied room thermostat is used)
Room RC1-8 (one each for Zone1 and Zone2) (if a wireless remote controller
is used as a room thermostat)
4.From Sensor setting screen, select Time/Zone to make it possible to use different room sensors according to the time schedule set in the Select Time/Zone
menu. The room sensors can be switched up to 4 times within 24 hours .
Time/Zone schedule setting screen
Domestic Hot Water (DHW)/Legionella Prevention
The domestic hot water and legionella prevention menus control the operation of
DHW tank heat ups.
<DHW mode settings>
1. Highlight the hot water icon and press CONFIRM.
2. Use button F1 to switch between Normal and ECO heating modes.
3. To edit the mode press F2 to display the HOT WATER (DHW) SETTING menu.
4. Use F2 and F3 keys to scroll through the menu selecting each component in
turn by pressing CONFIRM. See the table below for description of each setting.
5. Enter the desired number using the function keys and press CONFIRM.
Menu subtitle
Function
Range
Unit
Default value
40 - 60
5 - 30
°C
°C
50
10
30 - 120
min
60
The time period after DHW mode when space heating has priority over DHW mode temporarily pre- 30 - 120
venting further stored water heating
(Only when DHW max. operation time has passed.)
min
30
DHW max. temp
Desired temperature of stored hot water
DHW max. temperature Difference in temperature between DHW max. temp and the temperature at which DHW mode restarts
drop
DHW max. operation time Max time allowed for stored water heating DHW mode
DHW mode restriction
41
5
System Set Up
Explanation of DHW operation
• When the DHW tank temperature drops from “DHW max. temp” by more than
the “DHW max. temperature drop” (set by installer), DHW mode operates and
the flow from the primary heating/cooling circuit is diverted to heat the water in
the DHW tank.
• When the temperature of the stored water reaches the ‘DHW max. temp.’ set by
the installer or if the ‘DHW max. operation time’ set by the installer is exceeded
DHW mode ceases to operate.
• Whilst DHW mode is in operation primary hot water is not directed to the space
heating/cooling circuit.
• Directly after DHW max. operation time ‘DHW mode restriction’ will routinely
operate. The duration of this feature is set by the installer and during its operation DHW mode can not (normally) be reactivated, allowing time for the system
to deliver primary hot water to the space heating/cooling if required. However,
if at this time there is no current demand for space heating/cooling, the system
will automatically resume DHW mode. This will continue until it receives a demand for space heating/cooling.
• After the ‘DHW mode restriction’ operation the DHW mode can operate again
and DHW tank heating will continue according to system demand.
<Eco mode>
DHW mode can run in either ‘Normal’ or ‘Eco’ mode. Normal mode will heat the
water in the DHW tank more quickly using the full power of the heat pump. Eco
mode takes a little longer to heat the water in the DHW tank but the energy used
is reduced. This is because heat pump operation is restricted using signals from
the FTC4 based on measured DHW tank temperature.
DHW tank temp.
Stop
DHW max.
temp.
Restart
DHW max.
temp. drop
Start
Time
DHW mode
DHW mode
DHW tank temp.
Stop
DHW max.
temp.
Restart
Stop
DHW max.
temp. drop
Start
Note: The actual energy saved in Eco mode will vary according to outdoor
ambient temperature.
DHW max.
operation time
Time
DHW mode DHW mode
restriction
GB
Return to the DHW/legionella prevention menu.
Legionella Prevention Mode settings (LP mode)
1. Use button F3 to choose legionella mode active YES/NO.
2. Use button F4 to edit the legionella function.
3. Use F1 and F2 keys to scroll through the menu selecting each subtitle in turn
by pressing CONFIRM. See the table below for description of each setting.
4. Enter the desired number using the function keys and press CONFIRM.
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 ups.
Note: When failures occur on the hydrobox, the LP mode may not function
normally.
Menu subtitle
Function
Range
Unit
Default value
Hot water temp.
Frequency
Start time
Max. operation time
Duration of max. temp.
Desired temp of stored hot water
Time between LP mode DHW tank heat ups
Time when LP mode will begin
Maximum time allowed for LP mode DHW tank heat
The time period after LP mode max. water temp has been reached
60–70
1–30
0:00–23:00
1–5
1–120
°C
day
65
15
03:00
3
30
Explanation of Legionella Prevention Mode operation
• At the time entered by the installer ‘Start time’ flow of useful heat from the system is diverted to heat the water in the DHW tank.
• When the temperature of the stored water exceeds the ‘Hot Water temp.’ set by
the installer (above 65°C) primary circuit water is no longer diverted to heat the
DHW tank.
• Whilst LP mode is in operation hot water is not directed to the space heating
/cooling circuit.
• Directly after LP mode operation ‘Duration of max. temp’ will operate. The duration 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 restart
and primary water flow from the heat source(s) will be directed to the DHW
tank to boost the temperature. Once the set time for Duration of Max. temp has
passed LP mode will not recur for the set interval (set by installer).
• It is the responsibility of the installer to ensure the settings for legionella prevention are compliant with local and national guidelines.
DHW tank temp.
hour
min
Stop
Stop
Restart
Stop temp.
Legionella
hot water temp.
Restart temp.
Start
LP mode
Space
heating/
cooling
LP mode
Mode
finish
Time
Duration of Max. temp.
(LP mode: Legionella Prevention mode)
Please note that LP mode uses the assistance of electric heaters (if present)
to supplement the energy input of the heat pump. Heating water for long
periods of time is not efficient 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. The end user should understand the importance of this feature.
ALWAYS COMPLY WITH LOCAL AND NATIONAL GUIDANCE FOR YOUR
COUNTRY REGARDING LEGIONELLA PREVENTION.
42
5
System Set Up
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 temperature or for the maximum DHW time, whichever occurs first. However should
there be a high demand for hot water ‘Forced DHW’ function can be used to prevent the system from routinely switching to space heating/cooling and continue to
provide DHW tank heating.
Forced DHW operation is activated by pressing button F1 and Back button in the
‘Option Screen’. After DHW operation finishes, the system will automatically return to normal operation. To cancel forced DHW operation hold down button F1 in
the ‘Option Screen’.
Heating/Cooling
The heating and cooling menus deal with space heating and cooling typically using either a radiator or underfloor system depending on the installation.
From the main settings menu
1. Use F2 and F3 buttons to highlight heating/cooling icon then press CONFIRM.
2. The heating and cooling menu will be displayed.
3. To select the sub-menus press the function button below the icon required.
E.g. for mode change of Zone1 press F1
Heating/Cooling
1. Under this sub-menu the mode of heating or cooling is selected.
2. Choose between
GB
• Heating flow temperature ( )
• Heating room temperature (
)
• Heating compensation curve (
)
• Cooling flow temperature (
)
Heating room temperature cannot be selected both in Zone1 and Zone2.
When Cooling flow temp. is selected in Zone1, Cooling flow temp is automatically selected in Zone2. Zone1 and Zone2 are controlled at the same
set temperature. If using an underfloor system in Cooling mode, do not set
the flow temperature too low to avoid formation of condensation.
3. To choose between the different modes for heating and cooling, highlight the
mode preferred and press select.
If compensation curve mode was selected as the heating mode please read the
following instructions.
Explanation of compensation curve
During late spring and summer usually the demand for space heating is reduced.
To prevent the heat pump from producing excessive flow temperatures for the
primary circuit the compensation curve mode can be used to maximise efficiency
and reduce running costs.
The compensation curve is used to restrict the flow temperature of the primary
space heating circuit dependent on the outdoor ambient temperature. The FTC4
uses information from both an outdoor ambient temperature sensor and a temperature sensor on the primary circuit supply to ensure the heat pump is not producing excessive flow temperatures if the weather conditions do not require it.
<Compensation curve setting>
*This setting cannot be performed in cooling mode.
1. From the heating menu select edit using the F3 function button.
2. The compensation curve setting screen will be displayed.
3. In 2-zone heating operation, press F1 to switch between Zone1 and Zone2.
4. Press F2 to alter the Hi parameter (when flow temp is maximum and outdoor ambient temp is minimum).
5. Press F3 to alter the Lo parameter (when flow temp is minimum and outdoor ambient temp is maximum).
6. Press F4 to add an extra point (adjust).
Pressing F2-4 will cause the relevant edit screen to be displayed. Editing Lo and
Hi parameters is done in the same way; please see the following for more detailed explanation of parameter editing.
In the parameter (Lo/Hi) edit screen the flow temperature and outdoor ambient
temperature for the compensation curve graph can be set and altered for the 2
extremes of Hi and Lo.
1. Press F1 and F2 to change the flow temperature (y-axis of compensation
curve).
2. Pressing F1 will raise the desired flow temperature for the set outdoor ambient temperature.
3. Pressing F2 will lower the desired flow temperature for the set outdoor ambient temperature.
4. Press F3 and F4 to change the outdoor ambient temperature (x-axis of
compensation curve).
5. Pressing F3 will lower the outdoor ambient temperature for the set flow temperature.
6. Pressing F4 will raise the outdoor ambient temperature for the set flow temperature.
43
5
System Set Up
Holiday mode
Holiday mode can be activated in 2 ways. Both methods will result in the Holiday
Mode activation screen being shown.
Option 1.
From the main menu screen 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.
Option 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 F1 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 for space heating/cooling.
GB
<Editing holiday mode>
To change the Holiday mode settings e.g. the flow temp, you must access the
holiday mode menu from the main settings menu.
. From main menu screen press button B.
2. Use buttons F2 and F3 to scroll through menu until Holiday Mode is highlighted.
3. Press CONFIRM button.
4. The holiday mode status screen is displayed.
5. To change the flow temperature or room temperatures on heating mode press
button F3.
6. A list of variables will be displayed. Choose the one you wish to modify using
buttons F1/F2 then press CONFIRM.
7. Adjust the temperature using buttons F3 and F2 and press CONFIRM button
to save changes.
Holiday Mode activation screen
Holiday Mode status screen
Schedule timer
The schedule timer mode allows daily and weekly space heating/cooling and
DHW patterns to be entered.
1. From the main settings menu use F2 and F3 to highlight the schedule timer
icon then press CONFIRM.
2. The schedule timer sub menu will be displayed. The icons show the following
modes;
• Heating
• Cooling
• Hot Water (DHW)
3. Use F2 and F3 buttons to move between mode icons then press CONFIRM to
be shown the preview screen for each mode.
Mode select screen
The preview screen allows you to view the current settings. In 2-zone heating
operation, press F1 to switch between Zone1 and Zone2. Days of the week are
displayed across the top of the screen. Where 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, space heating/DHW (whichever is selected)
is allowed.
When a PUHZ-FRP outdoor unit is connected, DHW schedule timer setting can
be set for two periods into which a year is divided. In this menu screen, the duration of Period 2 can be entered. The rest of the set duration comes set as Period 1.
1. From the main settings menu use F2 and F3 to highlight the schedule timer
icon then press CONFIRM.
2. The schedule timer sub menu will be displayed. The icons show the following
modes;
• Heating
• Hot Water (DHW)
• Hot Water (DHW) 2
3. Use F2 and F3 buttons to move between mode icons to select the Hot Water
(DHW) 2 icon.
4. Use F1 to F4 buttons to select start and end months that apply to Period 2.
5. Press CONFIRM to be shown the preview screen for each mode.
Mode select screen when PUHZ-FRP connected
Period setting screen when PUHZ-FRP connected
44
5
System Set Up
<Setting the schedule timer>
1. In the preview menu screen press F4 button.
Preview screen
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.
GB
Day of week select screen
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 then press CONFIRM.
8. You can add up to 4 periods of inactivity within a 24 hour interval.
Time of period setting screen 1
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.
Note:
• The schedule timer for space heating/cooling and DHW are set in the
same way. However for Cooling and DHW only time can be used as scheduling variable.
• A small rubbish bin character is also displayed choosing this icon will
delete the last unsaved action.
• It is necessary to use the SAVE function F4 button to save settings. CONFIRM does not act as SAVE for this menu.
45
Time of period setting screen 2
5
System Set Up
Service Menu
The service menu provides functions for use by installer or service engineer. It is
not intended the home owner alters settings within this menu. It is for this
reason password protection is required to prevent unauthorised access to the
service settings.
rom the main setting menu use F2 and F3 to highlight the service icon then
. F
press CONFIRM.
2. You will be prompted to enter a password. THE FACTORY DEFAULT
PASSWORD IS “0000”.
3. Press CONFIRM.
(It takes approx. 30 secs to load the service menu.)
Screen 1 of service menu
Screen 2 of service menu
GB
The service menu is navigated using the F1 and F2 buttons to scroll through the
functions. The menu is split across two screens and is comprised of the following
functions;
. Manual operation
2. Function settings
3. Thermistor adjustment
4. Auxiliary settings
5. Heat source setting
6. Operation settings
7. External input settings
8. Running information
9. Thermistor reading
10. Summary of settings
. Error history
2. Password protection
3. Manual reset
4. SD card
In this Installation Manual, instructions will be given only for the following
functions;
. Manual operation
2. Auxiliary settings
3. Heat source setting
4. Operation settings
5. External input settings
6. Password protection
7. Manual reset
8. SD card
Information on the other functions can be found by consulting the service manual.
Note: Many functions can not be set whilst the indoor unit is running. The
installer should turn off the unit before trying to set these functions.
If the installer attempts to change the settings whilst the unit is
running the main controller will display a reminder message
prompting the installer to stop operation before continuing. By
selecting “Yes” the unit will cease operation.
System off prompt screen
46
5
System Set Up
Manual operation
During the filling of the system the water circulation pump and 3-way valve can
be manually overridden using manual operation mode.
When manual operation is selected a small timer icon appears in the screen. The
function selected will only remain in manual operation for a maximum of 2 hours.
This is to prevent accidental permanent override of the FTC4.
rom the service menu use F1 and F2 buttons to scroll through list until
. F
Manual Operation is highlighted.
2. Press CONFIRM.
3. Manual operation menu screen is displayed.
4. To activate manual operation press the function button under the desired part.
Being selected Being running
Error indication
Manual operation menu screen
►Example
Pressing F3 button will switch manual operation mode ON for the main 3-way
valve. When filling of the DHW tank is complete the installer should access this
menu again and press F3 to deactivate manual operation of the part. Alternatively
after 2 hours manual operation mode will no longer be active and FTC4 will
resume control of the part.
NOTE: Manual operation and heat source setting can not be selected if the
system is running. A screen will be displayed asking the installer to
stop the system before these modes can be activated.
The system automatically stops 2 hours after last operation.
GB
System off prompt screen
Auxiliary settings
This function is used to set the parameters for any auxiliary parts used in the
system.
From the service menu use F1 and F2 buttons to highlight Auxiliary settings then
press CONFIRM.
Auxiliary settings menu screen
<Economy settings for pump>
. From the Auxiliary settings menu highlight Economy Settings for water
circulation pump.
2. Press CONFIRM.
3. The economy settings for water circulation pump screen is displayed.
4. Use button F1 to switch the water circulation pump ON/OFF.
5. Use buttons F3 and F4 to adjust the time the water circulation pump will run.
(3 - 60 mins)
Economy settings for pump screen
<Electric heater (Heating)>
. From the Auxiliary settings menu highlight Electric heater (heating).
2. Press CONFIRM.
3. The Electric heater (heating) screen is displayed.
4. Press F1 button to switch the function ON/OFF.
5. Use F3 and F4 buttons to adjust the time period of heat pump only operation
before the booster heater will assist in space heating. (5 -180mins)
Electric heater (Heating) screen
<Electric heater (DHW)>
. From the Auxiliary settings menu highlight Electric heater (DHW).
2. Press CONFIRM.
3. The Electric heater (DHW) screen is displayed.
4. Press F1 button to switch the function ON/OFF.
5. Use F3 and F4 buttons to adjust the time period of heat pump only operation
before the booster heater and the immersion heater (if present) will assist in
DHW heating. (15 -30mins)
Electric heater (DHW) screen
47
5
System Set Up
<Mixing valve control>
1. From the Auxiliary settings menu highlight Mixing valve control.
2. Press CONFIRM.
3. The Mixing valve control screen is displayed.
4. Use F1 and F2 buttons to set Running time between 30 to 240 seconds. The
Running time equals to a period from full open of the valve (at a hot water
mixing ratio of 100%) to full close (at a cold water mixing ratio of 100%).
Note: Set the Running time according to the specifications of the actuator
of each mixing valve.
1.
2.
3.
4.
From the Auxiliary settings menu highlight Mixing valve control.
Press CONFIRM.
The Mixing valve control screen is displayed.
Press F3 and F4 buttons to set the interval between 2-zone temperature
controls of the mixing valve between 1 to 30 mins.
Mixing valve setting screen
Note: It is recommended to set the interval to 2 minutes that is a default
value. With the interval set longer, it could take longer to warm up a
room.
GB
<Pump speed>
1. From the Auxiliary settings menu highlight water circulation pump speed.
2. Press CONFIRM.
3. Press F3 and F4 buttons to select a refrigerant address of which you wish to
configure or check the settings.
4. Press CONFIRM.
5. The Pump speed screen is displayed.
6. Use F2 and F3 buttons to set the pump speed of the water circulation pump
between 1 to 5.
Pump speed setting screen
Heat source setting
The default heat source setting is heat pump and all electric heaters present in
the system to be operational. This is referred to as Standard operation on the
menu.
rom the service menu use F1 and F2 buttons to scroll through list until Heat
1. F
Source Setting is highlighted.
2. Press CONFIRM.
3. Heat source setting menu screen is displayed.
4. Press F3 button until preferred heat source is displayed.
5. Press CONFIRM.
Heat source setting screen
6. If you wish to return to the service menu without saving the setting press return
button. You will be asked if you are sure you wish to cancel the changes.
Choose Yes or No as appropriate.
Cancel last action screen
48
5
System Set Up
Operation settings
. T
o access the Operation settings menu use F1 and F2 buttons to scroll
through the service menu until Operation settings is highlighted.
2. Press CONFIRM.
3. Operation settings menu is displayed.
Operation settings menu screen
<Freeze stat function>
. From the Auxiliary settings menu highlight Freeze Stat Function.
2. Press CONFIRM.
3. The freeze stat function screen will be displayed.
4. Use buttons F3 and F4 to adjust the minimum outdoor ambient temperature
which freeze stat function will begin to operate, (3 - 20 °C) or choose .
If asterisk ( ) is chosen freeze stat function is deactivated. (i.e. primary water
freeze risk)
Note: When the system is turned off, freeze stat function is not enabled.
GB
Freeze stat function screen
<Simultaneous Operation>
For periods of very low outside temperature this mode can be used.
Simultaneous operation allows both DHW and space heating to run together by
using the heat pump and/or booster heater to provide space heating whilst only
the immersion heater provides heating for DHW. This operation is only available
if BOTH a DHW tank AND immersion heater are present on the system.
rom the Operation settings menu use F1 and F2 buttons to scroll through the
. F
list until Simultaneous operation is highlighted.
2. Press CONFIRM.
3. Simultaneous operation screen is displayed.
4. To switch simultaneous operation ON/OFF press F1.
5. To alter the temperature at which simultaneous operation starts use F3 and F4.
Note: • Range of outdoor ambient temperature is −15°C to 10°C (default −15°C).
• System shall automatically return to routine operation. This will happen
when the outdoor ambient temp rises above the selected temp for this
specific mode of operation.
Simultaneous operation screen
<Cold weather function>
For extremely low outdoor ambient temperature conditions when the heat pump’s
capacity is restricted the heating or DHW is provided only by the electric booster
heater (and immersion if present). This function is intended for use during
extreme cold periods only. Extensive use of direct electrical heaters ONLY will
result in higher electric usage and may reduce working life of heaters and related
parts.
rom the Operation settings menu use F1 and F2 buttons to scroll through the
. F
list until Cold weather function is highlighted.
2. Press CONFIRM.
3. Cold weather function screen is displayed.
4. To switch Cold weather function ON/OFF press F1.
5. To alter the temperature at which heater switching function starts use F3 and
F4.
Note: • Range of outdoor ambient temperature is −15°C to −10°C (default −15°C).
• System shall automatically return to routine operation. This will happen
when the outdoor ambient temp rises above the selected temp for this
specific mode of operation.
49
Cold weather function screen
5
System Set Up
<Room Temp Control (Heating)>
This function allows operational setting of flow temperature range from the Ecodan and
also the time interval at which the FTC4 collects and processes data for the auto adaptation mode.
rom the Operation settings menu use F1 and F2 buttons to scroll through the list
1. F
until Room temp. control (HEATING) is highlighted.
2. Press CONFIRM.
3. Use F1 and F2 keys to scroll through the menu selecting each subtitle in turn by
pressing CONFIRM. See the table below for description of each setting.
4. Enter the desired number using the function keys and press CONFIRM.
Room temp. control (HEATING) screen
Menu subtitle
Temp. control interval
Flow temperature range
Minimum temp.
Maximum temp.
Heat pump thermo diff.adjust
On/Off
Lower limit
Range
10 - 60
Unit
mins.
Default
10
25 - 45
ºC
30
35 - 60
ºC
50
On/Off
—
On
−9 - −1
ºC
−5
+3 - +5
ºC
+5
GB
Upper limit
Function
Selectable according to the heat emitter type and the materials of floor (i.e. radiators, floor heating-thick, -thin concrete,
wood, etc.)
To minimize the loss by frequent ON and OFF in mild outdoor ambient temp. seasons.
To set max. possible flow temp according to the type of heat
emitters.
To minimize the loss by frequent ON and OFF in mild outdoor ambient temp. seasons.
Prohibits heat pump operation until the flow temperature
drops below the target flow temperature minus lower limit
value.
Allows heat pump operation until the flow temperature rises
above the target flow temperature plus upper limit value.
*1 The minimum flow temperature that prohibits heat pump operation is 20ºC.
*2 The maximum flow temperature that allows heat pump operation equals to the maximum temperature set in the flow temp. range menu.
<Floor dry up function>
The Floor dry up function automatically changes the target hot water temperature
in stages to gradually dry concrete when this particular type of underfloor heating
system is installed.
1. Turn off the system using the main controller.
2. From the Operation settings in the service menu, use F1 and F2 buttons to
scroll through the list until Floor dry up function is highlighted.
3. Press CONFIRM to display the FLOOR DRY UP screen.
4. To change settings, press F4. For details on settings, refer to the table below.
5. To start the Floor dry up operation, press F1 button to check a box below
“Active” and press CONFIRM
*1. Upon completion of the operation the system stops all the operations except
the Freeze stat. operation.
*2. For Floor dry up function, the target flow temp. of Zone1 is the same as that of
Zone2.
Note:
• This function is not available when a PUHZ-FRP outdoor unit is connected.
• Disconnect wiring to signal inputs of room thermostat, demand control,
and outdoor thermostat, or the target flow temp. may not be maintained.
Target flow temp.
(°C)
(h)
(g) 45
(d)
(e)
40
35
30
(f)
(c)
(b)
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
Days
Functions
Symbol
Floor dry up function
a
Flow temp. increase step
Increase interval
Flow temp. decrease step
Flow temp.
(decrease)
Decrease interval
Start & Finish
Target temperature Max. target temp.
Max. temp. period
b
c
d
e
f
g
h
Flow temp.
(increase)
Description
Set the function to ON and power on the system using the main controller,
and the dry up heating operation will start.
Sets the increase step of the target flow temp.
Sets the period for which the same target flow temp is maintained.
Sets the decrease step of the target flow temp.
Sets the period for which the same target flow temp is maintained.
Sets the target flow temp. at the start and the finish of the operation.
Sets the maximum target flow temp.
Sets the period for which the maximum target flow temp. is maintained.
Option/Range Unit
Default
On/Off
-
Off
+1 - +10
1-7
−1 - −10
1-7
25 - 60
25 - 60
1 - 20
ºC
day
ºC
day
ºC
ºC
day
+5
2
−5
2
30
45
5
50
5
System Set Up
External input settings
From the service menu use F1 and F2 buttons to highlight External input settings
then press CONFIRM.
<Demand control (IN4)>
. From the External input settings menu highlight Demand control (IN4).
2. Press CONFIRM.
3. The Demand control screen is displayed.
External input settings menu screen
4. Press F3 button to select Heat source OFF or Boiler.
5. Press CONFIRM.
Note: The selection of “OFF”, whilst a signal is being sent to IN4, forcefully
stops all the heat source operations and the selection of “Boiler” stops
operations of heat pump and electric heater and performs boiler operation.
GB
Demand control screen
<Outdoor thermostat (IN5)>
. From the External input settings menu highlight Outdoor thermostat (IN5).
2. Press CONFIRM.
3. The Outdoor thermostat screen is displayed.
4. Press F3 button to select Heater or Boiler.
5. Press CONFIRM.
Note: The selection of “Heater”, whilst a signal is being sent to IN5, performs
electric-heater-only operation and the selection of “Boiler” performs
boiler operation.
Outdoor thermostat setting screen
Password protection
Password protection is available to prevent unauthorised access to the service
menu by untrained persons.
rom the service menu use F1 and F2 buttons to scroll through list until Pass. F
word protection is highlighted.
2. Press CONFIRM.
3. When password input screen is displayed use buttons F1 and F2 to move left
and right between the four digits, F3 to lower the selected digit by 1, and F4 to
increase the selected digit by 1.
4. When you have input your password press CONFIRM.
Password input screen
5. The password verify screen is displayed.
6. To verify your new password press button F3.
7. Your password is now set and the completion screen is displayed.
Password verify screen
<Resetting the password>
If you forget the password you entered, or have to service a unit somebody else
installed, you can reset the password to the factory default of 0000.
rom the main settings menu scroll down the functions until Service Menu is
. F
highlighted.
2. Press CONFIRM.
3. You will be prompted to enter a password.
4. Hold down buttons F3 and F4 together for 3 secs
5. You will be asked if you wish to continue and reset the password to default setting.
6. To reset press button F3.
7. The password is now reset to 0000.
51
Completion screen
5
System Set Up
Manual reset
Should you wish to restore the factory settings at any time you should use the
manual reset function. Please note this will reset ALL functions to the factory default settings.
rom the service menu use F1 and F2 buttons to scroll through list until Manual
1. F
Reset is highlighted.
2. Press CONFIRM.
3. The Manual reset screen is displayed.
4. Choose either Manual Reset for FTC4 or Main Controller.
5. Press F3 button to confirm manual reset of chosen device.
GB
SD card
The use of an SD memory card simplifies the main controller settings in the field.
*Ecodan service tool (for use with PC tool) is necessary for the setting.
<SD Main RC>
1. From the SD card setting use F1 and F2 buttons to scroll through list until
“SD
Main RC” is highlighted.
2. Press CONFIRM.
3. Use F1, F2 and F3 buttons to select a menu to write to the main controller.
4. Press CONFIRM to start downloading.
5. Wait for a few minutes until “Complete!” appears.
<Main RC
SD>
1. From the SD card setting use F1 and F2 buttons to scroll through list until “Main
RC SD” is highlighted.
2. Press CONFIRM.
3. Use F1, F2 and F3 buttons to select a menu to write to the SD memory card.
4. Press CONFIRM to start uploading.
5. Wait for a few minutes until “Complete!” appears.
52
6. Commissioning
6
Commissioning
Pre-commissioning Checklist
Before commissioning the hydrobox system complete the following table to ensure the necessary checks are carried out.
No
1
System commissioning checklist
Notes
Installation location
Air flow around the unit
Maintenance access
Water Quality and System Preparation
Pipework
Water quantity in the primary circuit
Total pipe length
Outdoor to indoor
Height difference
Outdoor to indoor
System chemically cleansed and
flushed
Insulation type and thickness
Correct cables used
Electrical maintenance access
Connection of mains power source Outdoor unit electric cable
2
3
4
5
6
7
8
9
10
Electrical wiring
Outdoor unit
Hydrobox
Outdoor unit
Indoor unit electric cable
GB
11
12
13
14
15
Connection of control cable
Anti-freeze
Refer to product guidelines. (Also se section 4.2 Note.)
Check pre-charge in the expansion vessel(s)
Pressurise primary heating circuit to 1 bar
Release air from system
Good/Poor
Good/Poor
Good/Poor
Yes/No
Good/Poor
Type
Size
Type
Size
%
Yes/No
Yes/No
Yes/No
Outdoor unit (PACKAGE type) operation checklist
16
17
18
19
20
Outdoor unit details
Power source (V)
Model No.
L-N
L1 - L2
Compressor
Excessive vibration/noise
Fan
Unit mounted on anti-vibration pads (Tico Pads)
Provision made for condensate removal
1ø
3ø
For installation in hard water areas, see advice in section 4.2 General.
Notes/Comments:
53
Serial No.
L2 - L3
Yes/No
Yes/No
L3 - L1
Yes/No
Yes/No
L
m
m
7. Service and Maintenance
7
Service and Maintenance
The indoor hydrobox must be serviced once a year by a qualified individual.
Servicing and maintenance of the outdoor unit should only be done by a Mitsubishi Electric trained technician with relevant qualifications and experience. Any
electrical work should be done by a tradesperson with the appropriate electrical
qualifications. Any maintenance or ‘DIY’ fixes done by a non-accredited person
could invalidate the Warranty and/or result in damage to the hydrobox and injury
to the person.
Basic Troubleshooting for Hydrobox
No.
Fault symptom
1
Main controller display
is blank.
Possible cause
1. There is no power supply to main
controller.
2. Power is supplied to main controller,
however, the display on the main
controller does not appear.
“Please Wait” remains
displayed on the main
controller.
3
The main screen
appears with a press
of the “ON” button, but
disappears in a second.
4
LED2 on FTC4 is off.
(See <Figure 5.2.1>.)
1. "Please Wait" is displayed for up to 6
minutes.
2. Communication failure between the main 2, 3. Main controller start up checks/procedure.
controller and FTC4.
(i) I f “0%” or “50-99%” is displayed below "Please Wait" there is a
communication error between the main controller and the FTC4 control
3. Communication failure between FTC4
board.
and outdoor unit.
• Check wiring connections on the main controller.
• Replace the main controller or the FTC4 control board.
(ii) If “1-49%” is displayed there is a communication error between the outdoor
unit's and FTC4's control boards.
• Check the wiring connections on the outdoor unit control board and the FTC4
control board.
(Ensure S1 and S2 are not cross-wired and S3 is securely wired with no
damage. (See section 4.5.)
• Replace the outdoor unit's and/or the FTC4's control boards.
The main controller operations do not work
Normal operation.
for a whilst after the settings are changed in
The indoor unit is applying updated settings made in the service menu. Normal
the service menu. This is because the system operation will start shortly.
takes time to apply the changes.
GB
2
Explanation - Solution
1. Check LED2 on FTC4. (See <Figure 5.2.1>.)
(i) When LED2 is lit.
Check for damage or contact failure of the main controller wiring.
(ii) When LED2 is blinking.
Refer to No. 5 below.
(iii) When LED2 is not lit.
Refer to No. 4 below.
2. Check the following:
• Disconnection between the main controller cable and the FTC4 control board
• Failure of the main controller if “Please Wait” is not displayed.
• Refer to No. 2 below if “Please Wait” is displayed.
1. Normal operation.
When LED1 on FTC4 is also off. (See <Figure
5.2.1>.)
<FTC4 powered via outdoor unit.>
1. The outdoor unit is not supplied at the 1. Check the voltage across the terminals L and N or L3 and N on the outdoor
rated voltage.
power board. (See section 4.5.)
• When the voltage is not 220 to 240V AC, check wiring of the outdoor unit and
of the breaker.
• When the voltage is at 220 to 240V AC, go to “2.” below.
2. Defective outdoor controller circuit board. 2. Check the voltage across the outdoor unit terminals S1 and S2. (See section
4.5.)
• When the voltage is not 220 to 240V AC, check the fuse on the outdoor
control board and check for faulty wiring.
• When the voltage is 220 to 240V AC, go to “3.” below.
3. FTC4 is not supplied with 220 to 240V
3. Check the voltage across the indoor unit terminals S1 and S2. (See section 4.5.)
AC.
• When the voltage is not 220 to 240V AC, check FTC4-outdoor unit wiring for
faults.
• When the voltage is 220 to 240V AC, go to “4.” below.
4. FTC4 failure.
4. Check the FTC4 control board.
• Check the fuse on FTC4 control board.
• Check for faulty wiring.
• If no problem found with the wiring, the FTC4 control board is faulty.
5. Faulty connector wiring.
5. Check the connector wiring.
• When the connectors are wired incorrectly, re-wire the connectors referring to
below. (See section 4.5.)
BLACK
BLACK
S1
YELLOW
YELLOW
S2
CN01
N
L
FTC4 powered
via outdoor unit
Black
CN01
Hydrobox
control board
S3
54
7
No.
4.
Service and Maintenance
Fault symptom
Possible cause
LED2 on FTC4 is off. <FTC4 powered on independent source>
(See Figure <5.2.1>) 1. FTC4 is not supplied with 220 to 240V AC.
2. There are problems in the method of
connecting the connectors.
Explanation - Solution
1. Check the voltage across the L and N terminals on the indoor power supply
terminal block. (See section 4.5.)
• When the voltage is not 220 to 240V AC, check for faulty wiring to power
supply.
• When the voltage is 220 to 240V AC, go to 2. below.
2. Check for faulty wiring between the connectors.
• When the connectors are wired incorrectly re-wire them correctly referring to
below. (See section 4.5 and a wiring diagram on the control and electrical box
cover.)
S1
S2
CN01
FTC4 powered
from independent
source
BLACK YELLOW
YELLOW BLACK
L
N
Black
CN01
Hydrobox
control board
S3
• If no problem found with the wiring, go to 3. below.
GB
3. FTC4 failure.
5
LED2 on FTC4 is
blinking.
(See Figure <5.2.1>)
When LED1 on FTC4 is lit.
Incorrect setting of refrigerant address for
outdoor unit.
(None of the refrigerant address is set to "0".)
When LED1 is also blinking on FTC4 .
Faulty wiring between FTC4 and outdoor
unit
When LED1 on FTC4 is lit.
1. Faulty wiring in main controller
Multiple indoor units have been wired to a
single outdoor unit.
2. Short-circuited wiring in main controller
3. Main controller failure
6
LED4 on FTC4 is off.
(See figure <5.2.1>)
LED4 on FTC4 is
blinking.
(See Figure <5.2.1>)
7
No water at hot tap.
8
Cold water at tap.
Check for faulty wiring between FTC4 and outdoor unit.
1. Check for faulty wiring in main controller.
The number of indoor units that can be wired to a single outdoor unit is one. Additional indoor units must be wired individually to a single outdoor unit.
2.,3. Remove main controller wires and check LED2 on FTC4. (See Figure 5.2.1.)
• If LED2 is blinking check for short circuits in the main controller wiring .
• If LED2 is lit, wire the main controller again and:
- if LED2 is blinking, the main controller is faulty;
- if LED2 is lit, faulty wiring of the main controller has been corrected.
1. SD memory card is NOT inserted into the
memory card slot with correct orientation.
2. Not an SD standards compliant memory card.
1. Full of data.
2. Write-protected.
3. NOT formatted.
4. Formatted in NTFS file system.
1. Correctly insert SD memory card in place until a click is heard.
1.
2.
1.
2.
1.
2.
1.
2.
Cold main off
Strainer (field supply) blocked.
Hot water run out.
Prohibit, schedule timer or holiday mode selected.
3. Heat pump not working.
4. Booster heater cut-out tripped.
5. The earth leakage circuit breaker for booster
heater breaker (ECB1) tripped.
6. The booster heater thermal cut-out has
tripped and cannot be reset using the manual
reset button.
7. Immersion heater cut-out tripped.
8. Immersion heater breaker (ECB2) tripped.
9. 3-way valve fault
55
3. Check the FTC4 control board.
• Check the fuse on FTC4 control board.
• Check for faulty wiring.
• If no problem found with the wiring, the FTC4 control board is faulty.
Recheck the refrigerant address setting on the outdoor unit.
Set the refrigerant address to “0”.
(Set refrigerant address using SW1(3 - 6) on outdoor controller circuit board.)
2.
1.
2.
3.
4.
Use an SD standards compliant memory card. (Refer to section 5.6.)
Move or delete data, or replace SD memory card with a new one.
Release the write-protect switch.
Refer to "5.6 Using SD memory card".
FTC4 is Not compatible with NTFS file system. Use an SD memory card formatted
in FAT file system.
Check and open stop cock.
Isolate water supply and clean strainer.
Ensure DHW mode is operating and wait for DHW tank to re-heat.
Check settings and change as appropriate.
3. Check heat pump – consult outdoor unit service manual.
4. Check booster heater thermostat and press reset button if safe.
Reset button is located on the side of booster heater, covered with white rubber
cap. See component parts diagram (section 3.) to find out its position.
5. Check the cause and reset if safe.
6. Check resistance across the thermal cut-out, if open then the connection is broken
and the booster heater will have to be replaced.
Contact your Mitsubishi Electric dealer.
7. Check immersion heater thermostat and press reset button, located on immersion
heater boss, if safe. If the heater has been operated with no water inside it may
have failed, so please replace it with a new one.
8. Check the cause and reset if safe.
9. Check plumbing/wiring to 3-way valve.
(i) Manually override 3-way valve using the main controller. (Refer to <Manual operation> in section 5.7.) If the valve does not still function, go to (ii) below.
(ii) Replace 3-way valve coil. If the valve does not still function, go to (iii) below.
(iii) Replace 3-way valve. (Refer to the service manual.)
7
Service and Maintenance
No.
Fault symptom
9
Water heating takes
longer.
Possible cause
1. Heat pump not working.
2. Booster heater cut-out tripped.
3. Booster heater breaker (ECB1) tripped.
4. The booster heater thermal cut-out has
tripped and cannot be reset using the manual
reset button.
5. Immersion heater cut-out has been triggered.
6. Immersion heater breaker (ECB2) tripped.
10
Temperature of DHW
tank water dropped.
When DHW operation is not running, the DHW
tank emits heat and the water temperature
decreases to a certain level. If water in the DHW
tank is reheated frequently because of a significant drop in water temperature, check for the
following.
Water leakage in the pipes that connect to
1.
the DHW tank
Insulation material coming loose or off.
2.
3.
3-way valve failure
3.
12
Water leakage
Take the following measures.
• Retighten the nuts holding the pipes onto the DHW tank.
• Replace seal materials.
• Replace the pipes.
Fix insulation.
Check plumbing/wiring to 3-way valve.
(i) Manually override 3-way valve using the main controller. (Refer to <Manual operation> in section 5.7.) If the valve does not still function, go to (ii) below.
(ii) Replace 3-way valve coil. If the valve does not still function, go to (iii) below.
(iii) Replace 3-way valve. (Refer to the service manual.)
Insulate/re-route pipework.
1. Poorly sealed connections of water circuit
components
1. Tighten connections as required.
2. Water circuit components reaching the end of
life
2. Refer to PARTS CATALOG in the service manual for expected part lifetimes and
replace them as necessary.
1. Prohibit, schedule timer or holiday mode selected.
1. Check settings and change as appropriate.
2. Check settings and change as appropriate.
2. Check the battery power and replace if flat.
3. The temperature sensor is located in a room
that has a different temperature relative to
that of the rest of the house.
4. Heat pump not working.
3. Relocate the temperature sensor to a more suitable room.
5. Booster heater cut-out tripped.
5. Check booster heater thermostat and press reset button if safe.
Reset button is located on the side of booster heater, covered with white rubber
cap. (See component parts diagram section 3. for position.)
6. Check the cause of the trip and reset if safe.
6. Booster heater breaker (ECB1) tripped.
4. Check heat pump – consult outdoor unit service manual.
7. The booster heater thermal cut-out tripped
and can not be reset using the manual reset
button.
8. Incorrectly sized heat emitter.
7. Check resistance across the thermal cut-out, if open then the connection is broken and
the booster heater will have to be replaced.
Contact your Mitsubishi Electric dealer.
8. Check the heat emitter surface area is adequate
Increase size if necessary.
9. 3-way valve failure
9. Check plumbing/wiring to 3-way valve.
10. Battery problem (*wireless control only)
10. Check the battery power and replace it flat.
11. If a mixing tank is installed, the flow rate be- 11. Increase the flow rate between the mixing tank and the hydrobox decrease that
tween the mixing tank and the hydrobox is
between the mixing tank and the local system.
less than that between the mixing tank and
the local system.
56
GB
Hot or warm water Heat of hot water pipe is transferred to cold water
from cold tap.
pipe.
Heating system does
not reach the set
temperature.
1.
2.
11
13
Explanation - Solution
1. Check heat pump – consult outdoor unit service manual.
2. Check booster heater thermostat and press reset button if safe.
Reset button is located on the side of booster heater, covered with white rubber
cap. See component parts diagram (section 3.) to find out its position.
3. Check the cause and reset if safe.
4. Check resistance across the thermal cut-out, if open then connection is broken
and the booster heater will have to be replaced.
Contact your Mitsubishi Electric dealer.
5. Check immersion heater thermostat and press reset button located on immersion
heater boss, if safe. If the heater kept running with no water inside, this may have
resulted in failure, so replace it with a new one.
6. Check the cause and reset if safe.
7
Service and Maintenance
No.
Fault symptom
14
In 2-zone temperature control, only
Zone2 does not
reach the set temperature.
15
16
GB
17
When a PUHZFRP outdoor unit is
connected, DHW or
Heating operation
cannot run.
When a PUHZ-FRP
outdoor unit is connected and is in heat
recovery operation,
the set temperature
is not reached.
After DHW operation
room temperature
rises slightly.
18
19
20
The room temperature rises during DHW
operation.
Water discharges
from pressure relief
valve.
(Primary circuit)
Water discharges
from pressure relief
valve (field supplied
item).
(Sanitary circuit)
Possible cause
1.
Explanation - Solution
1.
Normal action no action necessary.
2.
When Zone1 and Zone2 are both in heating
mode, the hot water temperature in Zone2
does not exceed that in Zone1.
Faulty wiring of motorized mixing valve
2.
Refer to "5.3 Wiring for 2-zone temperature control".
3.
Faulty installation of motorized mixing valve
3.
Check for correct installation. (Refer to the manual included with each motorized
mixing valve.)
4.
Incorrect setting of Running time
4.
Check for correct setting of Running time.
5.
Motorized mixing valve failure
5.
Inspect the mixing valve. (Refer to the manual included with each motorized mixing valve.)
The outdoor unit is set to have operation of the
indoor unit of air conditioner take precedence
over that of the hydrobox, and in the main controller settings "Electric heater (Heating)" or "Electric
heater (DHW)" is turned off.
When the outdoor unit is set to have cooling
operation of the indoor unit of air conditioner take
precedence over that of the hydrobox, the outdoor
unit controls the frequency of the compressor
according to the load of air conditioner. The DHW
and heating run according to that frequency.
At the end of the DHW mode operation the 3-way
valve diverts hot water away from the DHW circuit
into space heating circuit.
This is done to prevent the hydrobox components
from overheating.
The amount of hot water directed into the space
heating circuit varies according to the type of the
system and of the pipe run between the plate heat
exchanger and the hydrobox.
3-way valve failure
Turn ON Electric heater (Heating) or Electric heater (DHW) using the main controller.
1. If continual – pressure relief valve may be
damaged.
1. Turn the handle on the pressure relief valve to check for foreign objects in it. If the
problem is not still solved, replace the pressure relief valve with a new one.
2. If intermittent – expansion vessel charge may
have reduced/bladder perished.
2. Check pressure in expansion vessel.
Recharge to 1 bar if necessary.
If bladder perished replace expansion vessel with a new one.
1. Check function of pressure reducing valve and replace if necessary.
1. If continual – field supplied pressure reducing
valve not working.
Normal operation no action necessary.
If Air-to-Water system is given priority in operation, comp Hz can be regulated depending on the load of DHW or Heating. For more details, refer to the PUHZ-FRP
installation manual.
Normal operation no action necessary.
Check the 3-way valve.
2. If continual – pressure relief valve seat may
be damaged.
2. Turn the handle on the pressure relief valve to check for foreign objects inside. If
the problem is not still solved, replace the pressure relief valve.
3. If intermittent – expansion vessel charge may
have reduced/bladder perished.
3. Check gas-side pressure in expansion vessel.
Recharge to correct precharge pressure if necessary.
If bladder perished replace expansion vessel with a new one with appropriate precharge.
4. Check gas-side pressure in DHW tank. If pressure in DHW tank is similar to that in
incoming mains, cold water supply that merges with incoming mains water supply
could flow back to DHW tank. Investigate source of back-feed and rectify error in
pipework/fitting configuration. Adjust pressure in cold supply.
Use manual and automatic air vents to remove air from system.
Top up water if necessary to achieve 1 bar on primary circuit.
4. DHW tank may have subjected to backflow.
21
Noisy water circulation pump
Air in water circulation pump .
22
Noise during hot
water draw off
typically worse in the
morning.
1.
Loose airing cupboard pipework.
1. Install extra pipe fastening clips.
2.
Heaters switching on/off.
2. Normal operation no action necessary.
1.
Heaters switching on/off.
Normal operation no action necessary.
2.
3-way valve changing position between DHW and
heating mode.
23
24
25
Mechanical noise
heard coming from
the hydrobox.
Water circulation
pump runs for a
short time unexpectedly .
Milky/Cloudy water
(Sanitary circuit)
26 Heating mode has
been on standby for
a long time (does
not start operation
smoothly.)
57
Water circulation pump jam prevention mechanism
(routine) to inhibit the build-up of scale.
Normal operation no action necessary.
Oxygenated water
Water from any pressurised system will release oxygen bubbles when water is running. The bubbles will settle out.
The time of “Delay” set in “Economy settings
for pump” is too short. (Go to “Service menu”
→ “Auxiliary settings” → “Economy settings for
pump”).
Increase the time of “Delay” in “Economy settings for pump” .
7
No.
Service and Maintenance
Fault symptom
Possible cause
Explanation - Solution
27 The hydrobox that
was running in the
heating mode before
power failure is
running in the DHW
mode after power
recovery.
The hydrobox is designed to run in an operation
mode with a higher priority (i.e. DHW mode in this
case) at power recovery.
• Normal operation.
• After the DHW max. operation time has elapsed or the DHW max. temperature has
been reached, the DHW mode switches to the other mode (ex. Heating mode).
28 Cooling mode is NOT
available.
Dip SW2-4 is OFF.
Turn Dip SW2-4 to ON. (Refer to “5.1 Dip Switch Functions” in this manual.)
29 The cooling system
does not cool down to
the set temperature.
1.
When the water in the circulation circuit is unduly hot, Cooling mode starts with a delay for
the protection of the outdoor unit.
1.
Normal operation.
When the outdoor temperature is lower than
the preset temperature below which the
freeze stat. function is activated, Cooling
mode does not start running.
The setting time period of Heat-pump-only operation is short.
2.
To run Cooling mode overriding the freeze stat. function, adjust the preset temperature below which the freeze stat. function is activated. (Refer to “<Freeze stat
function>” on Page 49.
If the preset temperature below which the freeze
stat. function is activated is low, error L6 is more
likely to occur interruption operation before the
freeze stat. function is activated.
Adjust the preset temperature below which the freeze stat. function is activated. (Refer
to “<Freeze stat function>” on Page 49.
2.
30 The electric heaters
are activated shortly
after DHW or LP
mode starts running
after Cooling mode.
GB
31 During DHW or LP
mode following the
cooling mode, error
L6 (circulation water
freeze protection)
occurs and operation
stops frequently.
Adjust the setting time period of Heat-pump only operation. (Refer to “<Electric heater
(DHW)> on Page 47.
Annual Maintenance
It is essential that the hydrobox is serviced at least once a year by a qualified individual any spare parts required MUST be purchased from Mitsubishi Electric (safety matter).
Never bypass safety devices or operate the unit without them being fully operational.
<Draining the hydrobox>
WARNING: DRAINED WATER MAY BE VERY HOT
1. Before attempting to drain the hydrobox islolate from the electrical supply to prevent booster heater burning out.
2. Isolate hydrobox from primary water circuit and drain water from hydrobox. Use a suitable heat resistant hose to assist in these operations.
3. Drain any remaining water from booster heater using fitted drain cock and hose to safely drain the unit.
4. After the hydrobox is drained, water remains in the following component parts. Drain water completely by checking the inside of the parts.
• Strainer (Remove the strainer cover.)
• Pressure relief valve (Operate the valve.)
<Annual maintenance points>
Use the Annual Maintenance Log Book as a guide to carrying out the necessary checks on the hydrobox and outdoor unit.
58
7
Service and Maintenance
Error Codes
Code
Action
Flow rate may be reduced check for;
• Water leakage
• Strainer blockage
• Water circulation pump function (Error code may display during filling of
primary circuit, complete filling and reset error code.)
Check the immersion heater and it’s contactor.
L3
Circulation water temperature overheat protection
L4
DHW tank water temperature overheat protection
Indoor unit temperature thermistor (THW1, THW2, THW5, THW6, THW7, THW8,
Check resistance across the thermistor.
THW9) failure
Circulation water freeze protection
See Action for L3.
Heating operation error
Re-attach any thermistors that have become dislodged.
See Action for L3. If the flow switch itself does not work, replace it.
Low primary circuit flow rate detected by flow switch (flow switches 1, 2, 3)
Caution: The pump valves may be hot, please take care.
Check if the setting temperature of the Boiler for heating exceeds the restriction. (See the manual of the thermistors "PAC-TH011HT-E")
Flow rate of the heating circuit from the boiler may be reduced. Check for
Boiler circulation water temperature overheat protection
• water leakage,
• strainer blockage
• water circulation pump function.
Boiler temperature thermistor (THWB1, THWB2) failure
Check resistance across the thermistor.
Boiler operation error
See Action for L8. Check the status of the boiler.
Flow rate of the heating circuit from the boiler may be reduced. Check for
• water leakage
Boiler circulation water freeze protection
• strainer blockage
• water circulation pump function.
For boiler operation, check that Dip SW1-1 is set to ON (With Boiler) and
Dip SW2-6 is set to ON (With Mixing Tank).
Setting errors of Dip switches on FTC4 control board
For 2-zone temperature control, check Dip SW2-7 is set to ON (2-zone)
and Dip SW2-6 is set to ON (With Mixing Tank).
Communication failure between FTC4 and wireless receiver
Check connection cable for damage or lose connections.
Thermistor (Room temp.) (TH1) failure
Check resistance across the thermistor.
Thermistor (Ref. liquid temp.) (TH2) failure
Check resistance across the thermistor.
See Action for L3.
Anti-freeze protection of plate heat exchanger
Check for correct amount of refrigerant.
Check wireless remote controller’s battery is not flat.
Communication failure between wireless receiver and wireless remote controller
Check the pairing between wireless receiver to wireless remote controller.
Test the wireless communication. (See the manual of wireless system)
Communication failure between main controller and FTC4
Check connection cable for damage or loose connections.
Check that the outdoor unit has not been turned off.
Communication failure between FTC4 and outdoor unit
Check connection cable for damage or loose connections.
Refer to outdoor unit service manual.
Check both units are switched on. Check connection cable for damage or
Outdoor unit receives no signal from indoor unit.
loose connections. Refer to outdoor unit service manual.
Outdoor unit failure
Refer to outdoor unit service manual.
L5
L6
L8
L9
LC
LD
LE
LH
GB
Error
LL
J0
P1
P2
P6
J1 - J8
E0 - E5
E6 - EF
E9
U*, F*
Note: To cancel error codes please switch system off (Press button E, on Main Controller, for 3 secs).
59
7
Service and Maintenance
Engineers Forms (1/2)
Should settings be changed from default, please enter and record new setting in ‘Field Setting’ column. This will ease resetting in the future should the system use change
or the circuit board need to be replaced.
Commissioning/Field settings record sheet
Main controller screen
Parameters
Main
Option
Setting
DHW *3
Legionella prevention *3
Zone2 operation mode *1
Compensation Hi set point
curve
Lo set point
Adjust
Holiday
Initial settings
Service menu
Zone1 outdoor ambient temp
Zone1 flow temp
Zone2 outdoor ambient temp *1
Zone2 flow temp *1
Zone1 outdoor ambient temp
Zone1 flow temp
Zone2 outdoor ambient temp *1
Zone2 flow temp *1
Zone1 outdoor ambient temp
Zone1 flow temp
Zone2 outdoor ambient temp *1
Zone2 flow temp *1
DHW *3
Heating/Cooling *2
Zone1 heating room temp
Zone2 heating room temp *1
Zone1 heating flow temp
Zone2 heating flow temp *1
Cooling flow temp *2
Language
°C/°F
Temp. display
Time display
Room sensor settings for Zone1
Room sensor settings for Zone2 *1
Room RC zone select *1
Thermistor
THW1
adjustment
THW2
THW5
THW6
THW7
THW8
THW9
THWB1
THWB2
Auxiliary settings Economy settings
for pump
Electric heater
(Heating)
Electric heater
(DHW) *3
Mixing valve
control
Pump speed
10°C - 30°C
10°C - 30°C
25°C - 60°C
25°C - 60°C
5°C - 25°C
−9°C - + 9°C
−9°C - + 9°C
Active/Non active/Set time
On/Off
On/Off/Timer
On/Off/Timer
Active/Non active/Set time
Normal/Eco
40°C - 60°C
5°C - 30°C
30 - 120 mins
30 - 120 mins
Yes/No
60°C - 70°C
1 - 30 days
00.00 - 23.00
1 - 5 hours
1 - 120 mins
Heating room temp/Heating flow temp/Heating
compensation curve/Cooling flow temp
Heating room temp/Heating flow temp/Heating
compensation curve
−15°C - +35°C
25°C – 60°C
−15°C - +35°C
25°C - 60°C
−15°C - +35°C
25°C - 60°C
−15°C - +35°C
25°C - 60°C
−14°C - +34°C
25°C - 60°C
−14°C - +34°C
25°C - 60°C
Active/Non active
Active/Non active
10°C - 30°C
10°C - 30°C
25°C - 60°C
25°C - 60°C
5°C - 25°C
ENG/FR/GER/SW/SP/IT/DA/NL/FIN/NOR/PT
°C/°F
Room/DHW tank/Room&DHW tank /Off
hh:mm/hh:mm AM/AM hh:mm
TH1/Main RC/Room RC1-8/“Time/Zone”
TH1/Main RC/Room RC1-8/“Time/Zone”
Zone1/Zone2
−10°C - +10°C
−10°C - +10°C
−10°C - +10°C
−10°C - +10°C
−10°C - +10°C
−10°C - +10°C
−10°C - +10°C
−10°C - +10°C
−10°C - +10°C
On/Off
Time before pump switched off (3 - 60 mins) *4
Space heating: On (used)/Off (not used)
Electric heater delay timer (5 - 180 mins)
DHW: On (used)/Off (not used)
Electric heater delay timer (15 - 30 mins)
Running time (10 - 240 secs)
Interval (1 - 30 mins)
Pump speed (1 - 5)
Notes
GB
Heating/Cooling *2
Zone1 heating room temp
Zone2 heating room temp *1
Zone1 heating flow temp
Zone2 heating flow temp *1
Cooling flow temp *2
Zone1 heating compensation curve
Zone2 heating compensation curve *1
Holiday mode
Forced DHW operation
DHW
Heating
Holiday mode
Operation mode
DHW max. temp.
DHW temp. drop
DHW max. operation time
DHW mode restriction
Active
Hot water temp
Frequency
Start time
Max. operation time
Duration of maximum temp.
Zone1 operation mode
Default setting Field
setting
20°C
20°C
45°C
35°C
15°C
0°C
0°C
–
–
On
On
–
Normal
50°C
10°C
60 mins
30 mins
Yes
65°C
15 days
03.00
3 hours
30 min
Room temp
Compensation
curve
–15°C
50°C
–15°C
40°C
35°C
25°C
35°C
25°C
—
—
—
—
Non active
Active
15°C
15°C
35°C
25°C
25°C
ENG
°C
Off
hh:mm
TH1
TH1
Zone1
0°C
0°C
0°C
0°C
0°C
0°C
0°C
0°C
0°C
On
10 mins
On
30 mins
On
15 mins
120 secs
2 mins
5
*1 The settings related to Zone2 can be switched only when Zone2 temperature control is enabled (when Dip SW2-6 and SW 2-7 are ON).
*2 Cooling mode settings are available for ERSC-VM2B only.
*3 Only available if DHW tank present in system.
*4 Decreasing “time before pump switched off” may increase the duration of stand-by in Heating mode.
60
7
Service and Maintenance
Engineers Forms (2/2)
Commissioning/Field settings record sheet (continued from the previous page)
Main controller screen
Service menu
Heat source setting
Operation settings Freeze stat function
Simultaneous
operation (DHW/
Heating)
Parameters
Default
setting
Standard/Heater/Boiler/Hybrid *5
Outdoor ambient temp. (3 - 20°C)
Standard
5°C
On/Off *6
Off
Outdoor ambient temp. (−15 - +10°C)
−15°C
Cold weather function On/Off *6
Outdoor ambient temp. (−15 - −10°C)
Room temp control Temp. control interval (10 - 60 mins)
(Heating)
Flow temp. range
Min. temp. (25 - 45°C)
Max. temp. (35 - 60°C)
Heat pump thermo diff. On/Off *6
adjust
Lower limit (−9 - −1°C)
Boiler operation
Hybrid settings
GB
Intelligent settings
Floor dry up function
On/Off *6
Target temp.
Flow temp. (Increase)
50°C
On
−5°C
Upper limit (+3 - +5°C)
5°C
Outdoor ambient temp. (−15 - +10°C)
Priority mode (Ambient/Cost/CO2)
Energy price Electricity (0.001 - 999 */kWh)
*7
Boiler (0.001 - 999 */kWh)
CO2
Electricity
emission
(0.001 - 999 kg -CO2/kWh)
Boiler (0.001 - 999 kg
-CO2/kWh)
Heat source Heat pump capacity
(1 - 40 kW)
Boiler efficiency
(25 - 150%)
Booster heater 1 capacity
(1 - 20 kW)
Booster heater 2 capacity
(1 - 20 kW)
−15°C
Ambient
0.5 */kWh
0.5 */kWh
0.5 kg -CO2/kWh
0.5 kg -CO2/kWh
11.2 kW
80%
2 kW
4 kW
Start&Finish (25 - 60°C)
Max. temp. (25 - 60°C)
Max. temp. period (1 - 20 days)
Temp. increase step (+1 - +10°C)
Off
30°C
45°C
5 days
+5°C
Increase interval (1 - 7 days)
2 days
Flow temp. (Decrease) Temp. decrease step (−1 - −10°C)
Decrease interval (1 - 7 days)
External input
settings
Off
−15°C
10 mins
30°C
Demand control
Heat source OFF/Boiler operation
(IN4)
Outdoor thermostat Heater operation/Boiler operation
(IN5)
−5°C
2 days
Boiler
operation
Boiler
operation
*5 When Dip SW1-1 is set to OFF “WITHOUT Boiler” or SW2-6 is set to OFF “WITHOUT Mixing tank”, neither Boiler nor Hybrid can be selected.
*6 On: the function is active; Off: the function is inactive.
*7 “*” of “*/kwh” represents currency unit (e.g. € or £ or the like)
61
Field
setting
Notes
7
Service and Maintenance
Annual Maintenance Log Book
Contractor name
Site name
Engineer name
Site number
Hydrobox maintenance record sheet
Warranty number
No.
Notes
Frequency
Notes
Frequency
Notes
Frequency
Notes
Serial number
Frequency
Notes
GB
Mechanical
Isolate and drain hydrobox, remove mesh from internal strainer clean and
1
replace.
Open the pressure relief valve, check for unrestricted discharge to
2
the tundish and that the valve reseats correctly. Check there are no
blockages in the tundish and associated pipe work.
Drop the primary/heating system pressure to zero check and if necessary
3
top up the expansion relief vessel (1 bar). Air valve of expansion vessel
is TR-412.
Check and if necessary top up the concentration of anti-freeze/inhibitor (if
4
used in the system).
Top up the primary/heating system using an appropriate filling loop and
5
re-pressurise to 1 bar.
Heat system and check pressure does not rise above 3 bar and no water
6
is released from the safety valves.
7
Release any air from the system.
Refrigerant models only [EXCEPT EHPX]
1
Refer to outdoor unit manual.
Electrical
1
Check condition of cables.
2
Check rating and fuse fitted on the electricity supply.
Controller
1
Check field settings against factory recommendations.
2
Check battery power of wireless thermostat and replace if necessary.
Outdoor heat pump unit maintenance record sheet
Model number
Mechanical
1
Inspect grill, heat exchanger fins and air inlet for trapped debris/damage.
2
Check condensate drain provision.
3
Check integrity of water pipe work and insulation.
4
Check all electrical connections.
5
Check and record the operation voltage.
Model number
Serial number
Frequency
* All the above checks should be carried out once a year.
Note:
Within the first couple of months of installation, remove and clean the hydrobox’s strainer plus any that are fitted external to the hydrobox. This is especially
important when installing on an existing system.
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 qualifications.
Parts which require regular replacement
Parts
Pressure relief valve (PRV)
Air vent (Auto/Manual)
Drain cock (Primary circuit)
Flexible hose
Manometer
Parts which require regular inspection
Replace every
Possible failures
Parts
Check every
6 years
Water leakage due to
brass/copper corrosion
(Dezincification)
Immersion heater
2 years
Water circulation pump
20,000 hrs (3 years)
Possible failures
Earth leakage causing
circuit breaker to activate
(Heater is always OFF)
Water circulation pump
failure
Parts which must NOT be reused when servicing
* O-ring
* Gasket
Note:
Always replace the gasket for pump with a new one at each regular maintenance
(every 20,000 hours of use or every 3 years).
62
8
Supplementary information
Refrigerant collecting (pumpdown) for split model systems only
Refer to “Refrigerant collection” in the outdoor unit installation manual or service manual.
Back-up operation of boiler
Heating operation is backed up by boiler.
For more details, refer to the installation manual of PAC-TH011HT-E.
<Installation & System set up>
1. Set Dip-SW 1-1 to ON "With boiler" and SW2-6 to ON “With Mixing tank”.
2. Install the thermistors THWB1 (Flow temp.) and THWB2 (return temp.) *1 on the boiler circuit.
3. Connect the output wire (OUT10: Boiler operation) to the signal input (room thermostat input) on the boiler. *2
4. Install one of the following room temp. thermostats. *3
Wireless remote controller (option)
Room temp. thermostat (field supply)
Main controller (remote position)
*1 The boiler temp. thermistor is an optional part.
*2 OUT10 has no voltage across it.
*3 Boiler heating is controlled on/off by the room temp. thermostat.
<Remote controller settings>
1. Go to Service menu > Heat source setting and choose “Boiler” or “Auto”. *3
2. Go to Service menu > Operation settings > Boiler settings to make detailed settings for “Auto” above .
GB
*3 The “Auto” automatically switches heat sources between Heat pump (and Electric heater) and boiler.
Multiple outdoor units control
To realize bigger systems by using multiple outdoor units, up to 6 units of the same model can by connected.
The hydrobox can be used as a slave unit for multiple outdoor unit control.
For more details, refer to the installation manual of PAC-IF051/052B-E.
<Dip switch setting>
• Set Dip SW4-1 to ON “Active: multiple outdoor unit control”.
• Keep Dip SW4-2 OFF (default setting) (master/slave setting: slave).
• Set Dip SW1-3 to ON when the hydrobox is connected to a DHW tank.
63