GHPH-MM08 - Heat pump GRUNDIG - Free user manual and instructions

USER MANUAL GHPH-MM08 GRUNDIG

041

GHPH-MM08

GHPH-MM14

GHPH-MM10

GHPH-MM16

GHPH-MM12

EN - FR

CONTENTS

ENGLISH 3-135

FRANÇAIS 136-276

Advanced Important Notice

Cautions:

1. Do not use means to accelerate the defrosting process or to clean, other than those recommended by the manufacturer.
2. The appliance shall be stored in a room without continuously operating ignition sources (for example: open flames, an operating gas appliance or an operating electric heater.).
3. Do not pierce or burn.
4. Be aware that refrigerants may not contain an odour.
5. Appliance shall be installed, operated and stored in a room with a floor area larger than X m ^2 (refer to specifications sheet).
6. The installation of pipe-work shall be kept to a minimum X m2 (refer to specifications sheet).
7. Spaces where refrigerant pipes shall be compliance with national gas regulations.
8. Servicing shall be performed only as recommended by the manufacturer.
9. The appliance shall be stored in a well-ventilated area where the room size corresponds to the room area as specified for operation.
10. All working procedure that affets safety means shall only be carried by competent persons.

General Notice:

1. Transport of equipment containing flammable refrigerants Compliance with the transport regulations
2. Marking of equipment using signs Compliance with local regulations

3. Disposal of equipment using flammable refrigerants Compliance with national regulations

4. Storage of equipment/appliances The storage of equipment should be in accordance with the manufacturer's instructions.

5. Storage of packed (unsold) equipment Storage package protection should be constructed such that mechanical damage to the equipment inside the package will not cause a leak of the refrigerant charge. The maximum number of pieces of equipment permitted to be stored together will be determined by local regulations.

Please read this user manual first!

Dear Customer,

Thank you for preferring a Grundig product. We hope that you get the best results from your product which has been manufactured with high quality and state-of-the-art technology. Therefore, please read this entire user manual and all other accompanying documents carefully before using the product and keep it as a reference for future use. If you handover the product to someone else, give the user manual as well. Follow all warnings and information in the user manual.

Meanings of the symbols

Following symbols are used in the various section of this manual:

Important information or useful hints about usage.

Warning for hazardous situations with regard to life and property.

Warning to actions that must never perform.

Warning for electric shock.

This symbol shows that information is available such as the operating manual or installation manual.

Do not cover it.

This symbol shows that the operation manual should be read carefully.

This symbol shows that a service personnel should be handling this equipment with reference to the installation manual.

(For R32/R290 gas type)

This symbol shows that this appliance used a flammable refrigerant. If the refrigerant is leaked and exposed to an external ignition source, there is a risk of fire.

CONTENTS

1 Safety precautions 8

2 General introduction 17

3 Accessories 21

3.1 Accessories supplied with the unit 21

3.2 Accessories from local supplier .....21

4 Before installation 22

5 Important information for the refrigerant 24

6 Installation site 25

6.1 Selecting a location in cold climates....27

6.2 Selecting a location in hot climates....27

7 Installation precautions 28

7.1 Dimensions 28

7.2 Installation requirements....29

7.3 Drain hole position 30

7.4 Servicing space requirements .....31

7.5 Reference: Recommended water circulation characteristics during installation. 33

8 Typical applications 34

8.1 Application 1....34

8.2 Application 2....36

8.3 Application 3.42

8.4 Balance tank volume requirement 47

9 Overview of the unit 48

9.1 Disassembling the unit....48

9.2 Main components....49

CONTENTS

9.3 Electronic control box....51
9.4 Water piping....64
9.5 Filling water 69
9.6 Water piping insulation....70
9.7 Field wiring 71

10 Start-up and configuration 87

10.1 DIP switch settings overview .....87
10.2 Initial start-up at low outdoor ambient temperature .....87
10.3 Pre-operation checks....88
10.4 The circulation pump .....89
10.5 Field settings .....89

11 Test run and final checks 101

11.1 Final checks.... 101

12 Maintenance and service 102

13 Trouble shooting 104

13.1 General guidelines.... 104
13.2 General symptoms 104
13.3 Parameter view 106
13.4 Error codes.... 107

14 Technical specifications 116

14.1 General 116
14.2 Electrical specifications.... 117
14.3 General (3-Phase).... 117
14.4 Electrical specifications (3-Phase) 118
14.5 Energy rating label and Specification sheet.... 118

CONTENTS

15 Information servicing 123
16 European disposal guidelines 134
17 F-Gas instruction 135

1 Safety precautions

Warning:

• Before touching electric terminal parts, turn off power switch.
• When service panels are removed, live parts can be easily touched by accident.
• Never leave the unit unattended during installation or servicing when the service panel is removed.
• Do not touch water pipes during and immediately after operation as the pipes may be hot and could burn your hands. To avoid injury, give the piping time to return to normal temperature or be sure to wear protective gloves.
• Do not touch any switch with wet fingers. Touching a switch with wet fingers can cause electrical shock.
• Before touching electrical parts, turn off all applicable power to the unit.
• Tear apart and throw away plastic packaging bags so that children will not play with them. Children playing with plastic bags face danger of death by suffocation.
• Safely dispose of packing materials such as nails and other metal or wood parts that could cause injuries.

Warning:

• Ask your dealer or qualified personnel to perform installation work in accordance with this manual. Do not install the unit yourself. Improper installation could result in water leakage, electric shocks or fire.
• Be sure to use only specified accessories and parts for installation work. Failure to use specified parts may result in water leakage, electric shocks, fire, or the unit falling from its mount.
  • Install the unit on a foundation that can withstand its weight. Insufficient physical strength may cause the equipment to fall and possible injury.
• Perform specified installation work with full consideration of strong wind, hurricanes, or earthquakes. Improper installation work may result in accidents due to equipment falling.
• Make certain that all electrical work is carried out by qualified personnel according to the local laws and regulations and this manual using a separate circuit. Insufficient capacity of the power supply circuit or improper electrical construction may lead to electric shocks or fire.
• Be sure to install a ground fault circuit interrupter according to local laws and regulations. Failure to install a ground fault circuit interrupter may cause electric shocks and fire.

Warning:

- Make sure all wiring is secure. Use the specified wires and ensure that terminal connections or wires are protected from water and other adverse external forces. Incomplete connection or affixing may cause a fire.

- When wiring the power supply, form the wires so that the front panel can be securely fastened. If the front panel is not in place there could be overheating of the terminals, electric shocks or fire.

- After completing the installation work, check to make sure that there is no refrigerant leakage.

- Never directly touch any leaking refrigerant as it could cause severe frostbite. Do not touch the refrigerant pipes during and immediately after operation as the refrigerant pipes may be hot or cold, depending on the condition of the refrigerant flowing through the refrigerant piping, compressor and other refrigerant cycle parts. Burns or frostbite are possible if you touch the refrigerant pipes. To avoid injury, give the pipes time to return to normal temperature or, if you must touch them, be sure to wear protective gloves.

- Do not touch the internal parts (pump, backup heater, etc.) during and immediately after operation. Touching the internal parts can cause burns. To avoid injury, give the internal parts time to return to normal temperature or, if you must touch them, be sure to wear protective gloves.

Warning:

• Ground the unit.
• Grounding resistance should be according to local laws and regulations.
• Do not connect the ground wire to gas or water pipes, lightning conductors or telephone ground wires.

• Incomplete grounding may cause electric shocks.

• Gas pipes: Fire or an explosion might occur if the gas leaks.

• Water pipes: Hard vinyl tubes are not effective grounds.
• Lightning conductors or telephone ground wires: Electrical threshold may rise abnormally if struck by a lightning bolt.

- Install the power wire at least 3 feet (1 meter) away from televisions or radios to prevent interference or noise. (Depending on the radio waves, a distance of 3 feet (1 meter) may not be sufficient to eliminate the noise.)

- Do not wash the unit. This may cause electric shocks or fire. The appliance must be installed in accordance with national wiring regulations. If the supply cord is damaged, it must be replaced by the manufacturer, its service agent or similarly qualified persons in order to avoid a hazard.

Warning:

- Do not install the unit in the following places:

• Where there is mist of mineral oil, oil spray or vapors. Plastic parts may deteriorate, and cause them to come loose or water to leak.
• Where corrosive gases (such as sulphurous acid gas) are produced. Where corrosion of copper pipes or soldered parts may cause refrigerant to leak.
• Where there is machinery which emits electromagnetic waves. Electromagnetic waves can disturb the control system and cause equipment malfunction.
• Where flammable gases may leak, where carbon fiber or ignitable dust is suspended in the air or where volatile flammables such as paint thinner or gasoline are handled. These types of gases might cause a fire.
• Where the air contains high levels of salt such as near the ocean.
• Where voltage fluctuates a lot, such as in factories.
• In vehicles or vessels.
• Where acidic or alkaline vapors are present.

Warning:

- This appliance can be used by children 8 years old and above and persons with reduced physical, sensory or mental capabilities or lack of experience and knowledge if they are supervised or given instruction on using the unit in a safe manner and understand the hazards involved. Children should not play with the unit. Cleaning and user maintenance should not be done by children without supervision.

• Children should be supervised to ensure that they do not play with the appliance.
• If the supply cord is damaged, it must be replaced by the manufacturer or its service agent or a similarly qualified person.
• DISPOSAL: Do not dispose this product as unsorted municipal waste. Collection of such waste separately for special treatment is necessary. Do not dispose of electrical appliances as municipal waste, use separate collection facilities. Contact your local government for information regarding the collection systems available. If electrical appliances are disposed of in landfills or dumps, hazardous substance can leak into the groundwater and get into the food chain, damaging your health and well-being.

Warning:

• The wiring must be performed by professional technicians in accordance with national wiring regulation and this circuit diagram. An all-pole disconnection device which has at least 3mm separation distance in all pole and a residual current device (RCD) with the rating not exceeding 30mA shall be incorporated in the fixed wiring according to the national rule.
• Confirm the safety of the installation area (walls, floors, etc.) without hidden dangers such as water, electricity, and gas. Before wiring/pipes.
• Before installation, check whether the user's power supply meets the electrical installation requirements of unit (including reliable grounding, leakage, and wire diameter electrical load, etc.). If the electrical installation requirements of the product are not met, the installation of the product is prohibited until the product is rectified.
• When installing multiple air conditioners in a centralized manner, please confirm the load balance of the three-phase power supply, and multiple units are prevented from being assembled into the same phase of the three-phase power supply.

1 Safety precautions

Warning:

• Product installation should be fixed firmly. Take reinforcement measures, when necessary.
• This appliance is intended to be used by expert or trained users in shops, in light industry and on farms, or for commercial use by lay persons"
• The A-weighted emission sound pressure level at workstations, where this exceeds 70 dB (A). If the A-weighted sound pressure level is below 70 dB, no value needs to be given, but the instructions shall state that the A-weighted sound pressure level is below 70 dB.

1 Safety precautions

Note:

- About Fluorinated Gasses

- This air-conditioning unit contains fluorinated gasses. For specific information on the type of gas and the amount, please refer to the relevant label on the unit itself. Compliance with national gas regulations shall be observed.

- Installation, service, maintenance and repair of this unit must be performed by a certified technician.

- Product uninstallation and recycling must be performed by a certified technician.

- If the system has a leak-detection system installed, it must be checked for leaks at least every 12 months. When the unit is checked for leaks, proper record-keeping of all checks is strongly recommended.

2 General introduction

GHPH-MM04
GHPH-MM06
GHPH-MM08
GHPH-MM10
GHPH-MM12
GHPH-MM14
GHPH-MM16

Internal layout: GHPH-MM14, GHPH-MM16 for example

4/6/8 kW

10/12 kW

14/16 kW

Note:

The picture and function described in this manual contain the backup heater components.

Pictures in this manual are for reference only, please refer to the actual product.

2 General introduction

• These units are used for both heating and cooling applications and domestic hot water tanks. They can be combined with fan coil units, floor heating applications, low temperature high efficiency radiators, domestic hot water tanks and solar kits, which are all field supplied.
• A wired controller is supplied with the unit.
- If you choose the built-in backup heater unit, the backup heater can increase the heating capacity during cold outdoor temperature. The backup heater also serves as a backup in case of malfunctioning and for frozen protection of the outside water piping during winter time.

Tbivalent Outdoor temperature

1. Heat pump capacity.
2. Required heating capacity (site dependent).
3. Additional heating capacity provided by backup heater.

Domestic hot water tank (field supply)

A domestic hot water tank (with or without booster heater) can be connected to the unit.

The requirement of the tank is different for different unit and material of heat exchanger.

The booster heater should be installed below the temperature probe (TB).

The heat exchanger (coil) should be installed below the temperature probe.

The pipe length between the outdoor unit and tank should be less than 5 meters.

2 General introduction

Room thermostat (field supplied)

Room thermostat can be connected to the unit (room thermostat should be kept away from heating source when selecting the installation place).

Solar kit for domestic hot water tank (field supplied)

Operation range

The unit have anti-freezing function that uses the heat pump or backup heater (Customized model) to keep the water system safe from freezing in all conditions. (Refer to 9.4 "Water piping").

In cooling mode, the water flowing temperature (TB) range in different outdoor temperature (T4) is listed below:

Operation range by heat pump with possible limitation and protection.

In heating mode, the water flowing temperature (TB) range in different outdoor temperature (T4) is listed below:

If IPH/AHS setting is valid, only IPH/AHS turns on; If IPH/AHS setting is invalid, only heat pump turns on, limitation and protection may

2 General introduction

occur during heat pump operation.

Operation range by heat pump with possible limitation and protection.

Heat pump turns off, only IPH/AHS turns on.

-- Maximum inlet water temperature line for heat pump operation.

In DHW mode, the water flowing temperature (TB) range in different outdoor temperature (T4) is listed below:

If IPH/AHS setting is valid, only IBH/AHS turns on; If IPH/AHS setting is invalid, only heat pump turns on, limitation and protection may occur during heat pump operation.
Operation range by heat pump with possible limitation and protection.
Heat pump turns off, only IPH/AHS turns on.
—— Maximum inlet water temperature line for heat pump operation.

3 Accessories

3.1 Accessories supplied with the unit

Installation Fittings
Name Shape Quantity
Installation and owner's manual		1
Wired controller manual 1
Product fiche 1
Y-shape filter 1
Wired controller 1
20m extension cord 1
Water outlet connection pipe assembly		1
Energy label 1
Shockproof 6
DHW sensor (8m) 1

3.2 Accessories from local supplier

Thermistor for balance tank (TE1)		1
Thermistor for Zone flow temp. (TZ2)		1
Thermistor for solar temp. (Tsolar)		1

4 Before installation

• Before installation
  Be sure to confirm the model name and the serial number of the unit.
• Handling
  Due to relatively large dimensions and heavy weight, the unit should only be handled using lifting tools with slings. The slings can be fitted into foreseen sleeves at the base frame that are made specifically for this purpose.

Warning:

• To avoid injury, do not touch the air inlet or aluminum fins of the unit.
- Do not use the grips in the fan grills to avoid damage.
- The unit is top heavy! Prevent the unit from falling due to improper inclination during handling.

4 Before installation

4/6/8 kW (unit: mm)

The position of barycenter for different units can be seen in the picture below.

10/12 kW (unit: mm)

14/16 kW (unit: mm)

5 Important information for the refrigerant

This product has the fluorinated gas, which is forbidden to release to air.

Refrigerant type: R32; Volume of GWP: 675.

GWP = Global Warming Potential

Warning:

• Frequency of Refrigerant Leakage Checks

• For unit that contains fluorinated greenhouse gases in quantities of 5 tonnes of CO2 equivalent or more, but of less than 50 tonnes of CO2 equivalent, at least every 12 months, or where a leakage detection system is installed, at least every 24 months.
• For unit that contains fluorinated greenhouse gases in quantities of 50 tonnes of CO2 equivalent or more, but of less than 500 tonnes of CO2 equivalent at least every six months, or where a leakage detection system is installed, at least every 12 months.
• For unit that contains fluorinated greenhouse gases in quantities of 500 tonnes of CO_2 equivalent or more, at least every three months, or where a leakage detection system is installed, at least every six months.
• This air-conditioning unit is a hermetically sealed equipment that contains fluorinated greenhouse gases.
• Only certificated person is allowed to do installation, operation and maintenance.

Warning:

• There is flammable refrigerant in the unit and it should be installed in a well-ventilated site. If the unit is installed inside, an additional refrigerant detection device and ventilation equipment must be added in accordance with the standard EN378. Be sure to adopt adequate measures to prevent the unit from being used as a shelter by small animals.
• Small animals making contact with electrical parts can cause malfunction, smoke or fire. Please instruct the custom- er to keep the area around the unit clean.

- Select an installation site where the following conditions are satisfied and one that meets with your customer's approval.

• Places that are well-ventilated.
• Places where the unit does not disturb neighbors.
• Safe places which can bear the unit's weight and vibration and where the unit can be installed at an even level.
• Places where there is no possibility of flammable gas or product leak.
• The equipment is not intended for use in a potentially explosive atmosphere.
• Places where servicing space can be well ensured.

• Places where the units' piping and wiring lengths come within the allowable ranges.

• Places where water leaking from the unit cannot cause damage to the location (e.g. in case of a blocked drain pipe).

• Places where rain can be avoided as much as possible.
• Do not install the unit in places often used as a work space. In case of construction work (e.g. grinding etc.) where a lot of dust is created, the unit must be covered.
• Do not place any object or equipment on top of the unit (top plate).
• Do not climb, sit or stand on top of the unit.
• Be sure that sufficient precautions are taken in case of refrigerant leakage according to relevant local laws and regulations.
• Don't install the unit near the sea or where there is corrosion gas.

- When installing the unit in a place exposed to strong wind, pay special attention to the following.

Strong winds of 5 m/sec or more blowing against the unit's air outlet causes a short circuit (suction of discharge air), and this may have the following consequences:

• Deterioration of the operational capacity.
• Frequent frost acceleration in heating operation.
• Disruption of operation due to rise of high pressure.
• When a strong wind blows continuously on the front of the unit, the fan can start rotating very fast until it breaks.

In normal condition, refer to the figures below for installation of the unit:

6 Installation site

In case of strong wind and the wind direction can be foreseen, refer to the figures below for installation of the unit (any one is OK):

Turn the air outlet side toward the building's wall, fence or screen.

Make sure there is enough room to do the installation. Set the outlet side at a right angle to the direction of the wind.

• Prepare a water drainage channel around the foundation, to drain waste water from around the unit.
- If water does not easily drain from the unit, mount the unit on a foundation of concrete blocks, etc. (the height of the foundation should be about 100 mm (3.93 in).
- If you install the unit on a frame, please install a waterproof plate (about 100 mm) on the underside of the unit to prevent water from coming in from the low side.
- When installing the unit in a place frequently exposed to snow, pay special attention to elevate the foundation as high as possible.
- If you install the unit on a building frame, please install a waterproof tray (field supply) (about 100mm, on the underside of the unit) in order to avoid drain water dripping. (See the picture in the right).

6 Installation site

6.1 Selecting a location in cold climates

Refer to "Handling" in section "4 Before installation"

Note:

When operating the unit in cold climates, be sure to follow the instructions described below.

• To prevent exposure to wind, install the unit with its suction side facing the wall.
- Never install the unit at a site where the suction side may be exposed directly to wind.
• To prevent exposure to wind, install a baffle plate on the air discharge side of the unit.
- In heavy snowfall areas, it is very important to select an installation site where the snow will not affect the unit. If lateral snowfall is possible, make sure that the heat exchanger coil is not affected by the snow (if necessary construct a lateral canopy).

1. Construct a large canopy.
2. Construct a pedestal.

Install the unit high enough off the ground to prevent it from being buried in snow.

6.2 Selecting a location in hot climates

As the outdoor temperature is measured via the outdoor unit air thermistor, make sure to install the outdoor unit in the shade or a canopy should be constructed to avoid direct sunlight, so that it is not influenced by the sun's heat, otherwise protection may be possible to the unit.

7 Installation precautions

7.1 Dimensions

10/12 kW

7 Installation precautions

7.2 Installation requirements

• Check the strength and level of the installation ground so that the unit may not cause any vibrations or noise during its operation.
• In accordance with the foundation drawing in the figure, fix the unit securely by means of foundation bolts. (Prepare four sets each of 10 Expansion bolts, nuts and washers which are readily available in the market.)
• Screw in the foundation bolts until their length is 20 mm from the foundation surface.

(unit: mm)

- Location guidance on not installing unit adjacent to a bedroom or living room due to noise and vibration.

7 Installation precautions

7.3 Drain hole position

Note:

It's necessary to install an electrical heating belt if water can't drain out in cold weather even the big drain hole has opened.

7 Installation precautions

7.4 Servicingspace requirements

7.4.1 In case of stacked installation

1) In case obstacles exist in front of the outlet sid

2) In case obstacles exist in front of the air inle

7 Installation precautions

7.4.2 In case of multiple-row installation (for roof top use, etc.)

In case of installing multiple units in lateral connection per row.

7 Installation precautions

7.5 Reference: Recommended water circulation characteristics during installation.

Note:

We must maintain and inspect the unit regularly to ensure equipment safety. It is strongly recommended that the unit must be inspected after 1 month, 4 months, 6 months and 12 months of operation.

8 Typical applications

The application examples given below are for illustration only.

8.1 Application 1

graph TD
    A["Outdoor"] --> B["Modbus"]
    B --> C["AHS"]
    C --> D["13"]
    C --> E["9"]
    C --> F["3"]
    C --> G["4.1"]
    C --> H["4.2"]
    C --> I["5"]
    C --> J["10"]
    J --> K["4.3"]
    J --> L["4.2"]
    M["Indoor"] --> N["FHL1"]
    M --> O["FHL2"]
    M --> P["FHLn"]
    N --> Q["19"]
    O --> R["20"]
    P --> S["18"]
    Q --> T["6"]
    R --> U["7"]
    S --> V["13"]
    T --> W["11"]
    U --> X["11.2"]
    V --> Y["11.3"]
    W --> Z["11.1"]
    X --> AA["11.2"]
    Y --> AB["11.3"]
    Z --> AC["13"]
    AA --> AD["17"]

8 Typical applications

- Space heating

The ON/OFF signal and operation mode and temperature setting are set on the user interface. P_o keeps running as long as the unit is ON for space heating, SV1 keeps OFF.

• Domestic water heating

The ON/OFF signal and target tank water temperature (TWS) are set on the user interface. P_o stops running as long as the unit is ON for domestic water heating, SV1 keeps ON.

• AHS (auxiliary heat source) control

The AHS function is set on the wired controller (See "wired controller manual")

1) When the AHS is set to be valid only for heating mode, AHS can be turned on in the following ways:

a. Turn on the AHS via BACKUPHEATER function on the user interface;

b. AHS will be turned on automatically if initial water temperature is too low or target water temperature is too high at low ambient temperature.

P_o keeps running as long as the AHS is ON, SV1 keeps OFF.

2) When the AHS is set to be valid for heating mode and DHW mode. In heating mode, AHS control is same as part 1); In DHW mode, AHS will be turned on automatically when the initial domestic water temperature TW is too low or the target domestic water temperature is too high at low ambient temperature. P_o stops running, SV1 keeps ON.

• WTH (tank booster heater) control

The WTH function is set on the user interface. (See "wired controller manual")

1) When the WTH is set to be valid, WTH can be turned on via BACKUPHEATER function on the user interface; In DHW mode, WTH will be turned on automatically when the initial domestic water temperature TW is too low or the target domestic water temperature is too high at low ambient temperature.

8 Typical applications

- Solar energy control

Hydraulic module recognizes solar energy signal by judging Tsolar or receiving SL1SL2 signal from user interface. The recognition method can be set via SOLAR INPUT on the user interface. Please refer to 9.7.6/1). For solar energy input signal" for wiring.

1) When Tsolar is set to be valid, Solar energy turns ON when Tsolar is high enough, P_s starts running; Solar energy turns OFF when Tsolar is low, P_s stops running.
2) When SL1SL2 control is set to be valid, Solar energy turns ON after receiving Solar kit signal from user interface, P_s starts running; Without solar kit signal. Solar energy turns OFF, P_s stops running.

Warning:

The highest outlet water temperature may reach 70^ C, please beware of burn.

Note:

Make sure to fit the (SV1) 3-way valve correctly. For more details, please refer to 9.7.6 "Connection for other components. At extremely low ambient temperature, the domestic hot water is exclusively heated by WTH, which assures that heat pump can be used for space heating with full capacity.

8.2 Application 2

ROOM THERMOSTAT Control for Space heating or cooling need to be set on the user interface. It can be set in three ways: MODE SET/ONE ZONE/TWO ZONE. The monobloc can be connected to a high voltage room thermostat and a low voltage room thermostat. Please refer to 9.7.6/5) "For room thermostat" for wiring. (see 10.5.7 "ROOM THERMOSTAT" for setting)

8 Typical applications

8.2.1 One zone control

graph TD
    A["Outdoor Indoor Tank"] --> B["Modbus"]
    B --> C["12"]
    B --> D["14"]
    B --> E["16"]
    B --> F["15"]
    B --> G["10"]
    G --> H["4.1"]
    G --> I["4.2"]
    G --> J["5"]
    G --> K["19"]
    K --> L["FHL1"]
    K --> M["FHL2"]
    K --> N["FHLn"]
    B --> O["RT8"]
    B --> P["RT1"]

8 Typical applications

- Space heating

One zone control: the unit ON/OFF is controlled by the room thermostat, cooling or heating mode and outlet water temperature are set on the user interface. System is ON when any "HL" of all the thermostats closes. When all "HL" open, system turns OFF.

- The circulation pumps operation When the system is ON, which means any "HL" of all the thermostats closes, P_o starts running; When the system is OFF, which means all "HL" close, P_o stops running.

8.2.2 Mode set control

graph TD
    A["Outdoor"] --> B["1"]
    B --> C["2"]
    C --> D["RT1"]
    C --> E["RT8"]
    C --> F["RT2"]
    G["Indoor"] --> H["10"]
    H --> I["4.1"]
    H --> J["4.2"]
    H --> K["5"]
    H --> L["22"]
    L --> M["FCU1"]
    L --> N["FCU2"]
    L --> O["FCUn"]
    M --> P["FHL1"]
    M --> Q["FHL2"]
    M --> R["FHLn"]
    style A fill:#f9f,stroke:#333
    style G fill:#ccf,stroke:#333
    style H fill:#cfc,stroke:#333
    style I fill:#fcc,stroke:#333
    style J fill:#fcc,stroke:#333
    style K fill:#fcc,stroke:#333
    style L fill:#cff,stroke:#333
    style M fill:#ffc,stroke:#333
    style N fill:#ffc,stroke:#333
    style O fill:#ffc,stroke:#333
    style P fill:#fff,stroke:#333
    style Q fill:#fff,stroke:#333
    style R fill:#fff,stroke:#333

8 Typical applications

- Space heating

Cooling or heating mode is set via the room thermostat, water temperature is set on the user interface.

1) When any "CL" of all the thermostats close, system will be set at cooling mode.
2) When any "HL" of all the thermostats close and all "CL" open, system will be set at heating mode.

• The circulation pumps operation

1) When the system is in cooling mode, which means any "CL" of all the thermostats closes, SV2 keeps ON, P_o starts running.
2) When the system is in heating mode, which means one or more "HL" close and all "CL" open, SV2 keeps OFF, P_o starts running.

8.2.3 Double zone control

graph TD
    A["Indoor"] --> B["Outdoor"]
    B --> C["Modbus"]
    C --> D["14"]
    C --> E["12"]
    C --> F["14"]
    C --> G["16"]
    D --> H["10"]
    E --> I["4.1"]
    F --> J["4.2"]
    G --> K["5"]
    H --> L["TZ2"]
    I --> L
    J --> L
    K --> L
    L --> M["ZONE1"]
    L --> N["ZONE2"]
    L --> O["FHL1"]
    L --> P["FHL2"]
    L --> Q["FHLn"]

8 Typical applications

- Space heating

Zone1 can operate in cooling mode or heating mode, while zone2 can only operate in heating mode; While installation, for all thermostats in zone1, only "H, L" terminals need to be connected. For all thermostats in zone2, only "C, L" terminals need to be connected.

1) The ON/OFF of zone1 is controlled by the room thermostats in zone1. When any "HL" of all thermostats in zone1 closes, zone1 turns ON. When all "HL" turn OFF, zone1 turns OFF; Target temperature and operation mode are set on the user interface.

2) In heating mode, the ON/OFF of zone2 is controlled by the room thermostats in zone2. When any "CL" of all thermostats in zone2 closes, zone2 tums ON. When all "CL" open, zone2 tums OFF. Target temperature is set on the user interface; Zone 2 can only operate in heating mode. When cooling mode is set on the user interface, zone2 keeps in OFF status.

8 Typical applications

• The circulation pump operation

When zone 1 is ON, P_o starts running; When zone 1 is OFF, P_o stops running;

When zone 2 is ON, sV3 switches between ON and OFF according to the set TZ2, P_C keeps ON; When zone 2 is OFF, Sv3 is OFF, P_c stops running.

The floor heating loops require a lower water temperature in heating mode compared to radiators or fan coil unit. To achieve these two set points, a mixing station is used to adapt the water temperature according to requirements of the floor heating loops. The radiators are directly connected to the unit water circuit and the floor heating loops are after the mixing station. The mixing station is controlled by the unit.

Warning:

1. Make sure to connect the SV2/SV3 terminals in the wired controller correctly, please refer to 9.7.6/2) for 3-way valve SV1, SV2, SV3.
2. Thermostat wires to the correct terminals and to configure the ROOM THERMOSTAT in the wired controller correctly. Wiring of the room thermostat should follow method A/B/C as described in 9.7.6 "Connection for other components/5) For room thermostat".

Notes:

1. Zone 2 can only operate in heating mode. When cooling mode is set on user interface and zone 1 is OFF, "CL" in zone 2 closes, system still keeps "OFF". While installation, the wiring of thermostats for zone 1 and zone 2 must be correct.
2. Drainage valve (2) must be installed at the lowest position of the piping system.

8 Typical applications

8.3 Application 3

8.3.1 Cascade application

8.3.1.1 Hydraulic system

graph TD
    A["Outdoor"] --> B["Indoor"]
    B --> C["Zone1"]
    B --> D["Zone2"]
    B --> E["PHL1"]
    B --> F["PHL2"]
    B --> G["PHLn"]
    B --> H["AN5"]
    B --> I["PMER"]
    B --> J["19"]
    B --> K["20"]
    B --> L["23"]
    B --> M["24"]
    B --> N["25"]
    B --> O["4.19"]
    B --> P["4.5"]
    B --> Q["4.4"]
    B --> R["4.3"]
    B --> S["4.2"]
    B --> T["4.19"]
    B --> U["4.19"]
    B --> V["4.19"]
    B --> W["4.19"]
    B --> X["4.19"]
    B --> Y["4.19"]
    B --> Z["4.19"]
    B --> AA["4.19"]
    B --> AB["4.19"]
    B --> AC["4.19"]
    B --> AD["4.19"]
    B --> AE["4.19"]
    B --> AF["4.19"]
    B --> AG["4.19"]
    B --> AH["4.19"]
    B --> AI["4.19"]
    B --> AJ["4.19"]
    B --> AK["4.19"]
    B --> AL["4.19"]
    B --> AM["4.19"]
    B --> AN["4.19"]
    B --> AO["4.19"]
    B --> AP["4.19"]
    B --> AQ["4.19"]
    B --> AR["4.19"]
    B --> AS["4.19"]
    B --> AT["4.19"]
    B --> AU["4.19"]
    B --> AV["4.19"]
    B --> AW["4.19"]
    B --> AX["4.19"]
    B --> AY["4.19"]
    B --> AZ["4.19"]
    B --> BA["4.19"]
    B --> BB["4.19"]
    B --> BC["4.19"]
    B --> BD["4.19"]
    B --> BE["4.19"]
    B --> BF["4.19"]
    B --> BG["4.19"]
    B --> BH["4.19"]
    B --> BI["4.19"]
    B --> BJ["4.19"]
    B --> BK["4.19"]
    B --> BL["4.19"]
    B --> BM["4.19"]
    B --> BN["4.19"]
    B --> BO["4.19"]
    B --> BP["4.19"]
    B --> BQ["4.19"]
    B --> BR["4.19"]
    B --> BS["4.19"]
    B --> BT["4.19"]
    B --> BU["4.19"]
    B --> BV["4.19"]
    B --> BW["4.19"]
    B --> BX["4.19"]
    B --> BY["4.19"]
    B --> BZ["4.19"]

Cascade hydraulic system

8 Typical applications

Notes:

• The example is just for application illustration, please confirm the exact installation method according to the installation manual.
  • At most 8 units can be controlled in group.
• The group control system can control and view the operation of the entire system only by connecting the master to the wire controller.
• If the DHW function is required, the water tank can only be connected to the master unit water circuit through a 3-way valve, and controlled by the master unit.
• If AHS is needed, it can only be connected to the master waterway and controlled by the master unit.
• The TE1 temperature sensor must be installed in the parallel system (otherwise unit cannot be started).
• If the balance tank is too large, TE2 needs to be added in order to improve the control accuracy.
  • TE2 is set in the lower part of the balance tank.
• The water inlet and outlet pipe joints of each unit of the parallel system should be connected with soft connections and one-way valves must be installed at the water outlet pipe.

• Space heating

All salve units can operate in space heating mode. The operation mode and setting temperature are set on the user interface (2). Due to changes of the outdoor temperature and therequired load indoors, multiple outdoor units may opreate at different times.

In cooling mode with FCU, SV3 (23.1) and P_C (23.2) keep OFF, P_O (5) keeps ON;

In heating mode, when both ZONE 1 and ZONE 2 work, P_C (23.2) and P_O (5) keep OFF, SV3 (23.1) switches between ON and OFF according to the set TZ2.

In heating mode, when only ZONE 1 work, P_O (5) keep ON, SV3 (23.1) and P_C (23.2) keep OFF.

In heating mode, when only ZONE 2 work, P_O (5) keep OFF, SV3 (23.1) and P_C (23.2) keep ON. switches between ON and OFF. according to the set TZ2.

• Domestic water heating

Only master unit (1.1) can operate in DHW mode. Desired hot water temperature is set on the ser interface (2). In DHW mode, SV1 (3) keeps ON. When master unit operated in DHW mode, slave units can operate in space cooling/heating mode.

8 Typical applications

- AHS control

AHS is only controlled by master unit. When master unit operates in DHW mode, AHS can only be used for producing domestic hot water; when master unit operates in heating mode, AHS can only be used for heating mode.

- WTH control

WTH is only controlled by master unit.

- Solar energy control

Solar water heater kit is only controlled by Master unit.

8.3.2 Wiring

graph TD
    A["GRUNDIG"] --> B["MASTER #0"]
    B --> C["Distribution box"]
    C --> D["Power Supply Circuit Breaker Manual Switch"]
    B --> E["Use a grounded shielding cable"]
    E --> F["Distribution box Distribution box"]
    F --> G["FUSE"]
    G --> H["Distribution box"]
    H --> I["Use a grounded shielding cable"]
    I --> J["Only last slave unit with a 120 ohm build-out resistor between CN4"]

Cascade system wiring diagram for single phase 4\~16kW models

8 Typical applications

graph TD
    A["GRUNDIG"] --> B["MASTER #0"]
    B --> C["Distribution box"]
    C --> D["Use a grounded shielding cable"]
    D --> E["Distribution box"]
    E --> F["Power Supply Circuit Breaker Manual Switch"]
    E --> G["Distribution box"]
    G --> H["Only last slave unit with a 120 ohm build-out resistor between CN4"]

Cascade system wiring diagram for three phase 10\~16kW models

8 Typical applications

8.3.3 Power supply

8.4 Balance tank volume requirement

9 Overview of the unit

9.1 Disassembling the unit

Door 1 To access the compressor and electrical parts and hydraulic compartment

Warning:

• Switch off all power — i.e. unit power supply and backup heater and domestic hot water tank power supply (if applicable) — before removing door 1
  • Parts inside the unit may be hot.

9 Overview of the unit

9.2 Main components

9.2.1 Hydraulic module

4\~6 kW without backup heater

4\~6 kW with backup heater (optional)

10\~12 kW with backup heater (standard)

14\~16 kW with backup heater (standard)

9 Overview of the unit

10\~12 kW (3-Phase) with backup heater (standard)

14\~16 kW (3-Phase) with backup heater (standard)

9 Overview of the unit

9.3 Electronic control box

Note:

The picture is for reference only, please refer to the actual product.

9 Overview of the unit

Overview of the unit

Drive and refrigerant system PCB (PCB A)

DC fan drive board (PCB B)

Main power supply terminal

Manual temperature protector

Remote switch terminal

Electromagnetic contactor (IBH, 9kW)

Front side

10-12kW (3-phase)

Auxiliary terminal

Hydraulic module

Drive and refrigerant system PCB (PCB A)

DC fan drive board (PCB B)

Main power supply terminal

Remote switch terminal

Electromagnetic contactor (IBH, 9kW)

Manual temperature protector

Front side

14-16kW (3-phase)

Hydraulic module

Auxiliary terminal

9 Overview of the unit

PCB specification

9.3.1 Main control board of hydraulic module

9 Overview of the unit

9.3.2 1-phase for 4-16kW units

1) PCB A, 4-6kW, Drive and refrigerant system PCB

9 Overview of the unit

2) PCB A, 8-10-12kW, Drive and refrigerant system PCB

Note:

8kw and 10-12kw models has different PCB A but same connect ports

9 Overview of the unit

9 Overview of the unit

3) PCB A, 14-16kW, Drive PCB

9 Overview of the unit

4) PCB B, 14-16kW, Refrigerant system PCB

9 Overview of the unit

9.3.3 3-phase for 10-16kW units

1) PCB A, 3-phase for 10-16kW, Drive and refrigerant system PCB

9 Overview of the unit

9 Overview of the unit

2) PCB B, 3-phase for 10-16kW, DC Fan drive board

9 Overview of the unit

9.4 Water piping

All piping lengths and distances have been taken into consideration.

Note:

If water is not removed from the system in freezing weather when unit is not used, the frozen water may damage the water circle parts.

9 Overview of the unit

9.4.1 Check the water circuit

The unit is equipped with a water inlet and water outlet for connection to a water circuit. This circuit must be provided by a licensed technician and must comply with local laws and regulations.

The unit is only to be used in a closed water system. Application in an open water circuit can lead to excessive corrosion of the water piping.

Example:

graph LR
    A["Outdoor 1"] --> B["12"]
    B --> C["14"]
    C --> D["16"]
    D --> E["15"]
    E --> F["4.2"]
    F --> G["4"]
    G --> H["10"]
    H --> I["Indoor 20"]
    I --> J["19"]
    J --> K["..."]
    K --> L["FHLn"]
    style A fill:#f9f,stroke:#333
    style I fill:#bbf,stroke:#333

Before continuing installation of the unit, check the following:

• The maximum water pressure ≤ 3 bar.
• The maximum water temperature ≤ 70°C according to safety device setting.

• Always use materials that are compatible with the water used in the system and with the materials used in the unit.
- Ensure that components installed in the field piping can withstand the water pressure and temperature.

9 Overview of the unit

• Drain taps must be provided at all low points of the system to permit complete drainage of the circuit during maintenance.
• Air vents must be provided at all high points of the system. The vents should be located at points that are easily accessible for service. An automatic air purge valve is provided inside the unit. Check that this air purge valve is not tightened so that automatic release of air in the water circuit is possible.

9.4.2 Water volume and sizing expansion vessels

The units are equipped with an expansion vessel of 5L that has a default pre-pressure of 0.15 bar. To assure proper operation of the unit, the pre-pressure of the expansion vessel might need to be adjusted.

1) Check that the total water volume in the installation, excluding the internal water volume of the unit, is at least 40L. See 14 "Technical specifications" to find the total internal water volume of the unit.

Notes:

• In most applications this minimum water volume will be satisfactory.
• In critical processes or in rooms with a high heat load though, extra water might be required.
- When circulation in each space heating loop is controlled by remotely controlled valves, it is important that this minimum water volume is kept even if all the valves are closed.

2) Expansion vessel volume must fit the total water system volume.
3) To size the expansion for the heating and cooling circuit.

The expansion vessel volume can follow the figure below:

9 Overview of the unit

9.4.3 Water circuit connection

Water connections must be made correctly in accordance with labels on the outdoor unit, with respect to the water inlet and water outlet.

Warning:

Be careful not to deform the unit's piping by using excessive force when connecting the piping. Deforming the piping can cause the unit to malfunction.

If air, moisture or dust gets in the water circuit, problems may occur. Therefore, always take into account the following when connecting the water circuit:

• Use clean pipes only.
- Hold the pipe end downwards when removing burrs.

• Cover the pipe end when inserting it through a wall to prevent dust and dirt entering.
- Use a good thread sealant for sealing the connections. The sealing must be able to withstand the pressures and temperatures of the system.
- When using non-copper metallic piping, be sure to insulate two kind of materials from each other to prevent galvanic corrosion.
- For copper is a soft material, use appropriate tools for connecting the water circuit. Inappropriate tools will cause damage to the pipes.

9 Overview of the unit

Notes:

The unit is only to be used in a closed water system. Application in an open water circuit can lead to excessive corrosion of the water piping:

• Never use Zn-coated parts in the water circuit. Excessive corrosion of these parts may occur as copper piping is used in the unit's internal water circuit.
• When using a 3-way valve in the water circuit. Preferably choose a ball type 3-way valve to guarantee full separation between the domestic hot water and floor heating water circuit.
• When using a 3-way valve or a 2-way valve in the water circuit. The recommended maximum changeover time of the valve should be less than 60 seconds.

9.4.4 Water circuit anti-freeze protection

All internal hydronic parts are insulated to reduce heat loss. Insulation must also be added to the field piping.

In event of a power failure, the above features would not protect the unit from freezing.

The software contains special functions using the heat pump and backup heater (if it is available) to protect the entire system against freezing. When the temperature of the water flow in the system drops to a certain temperature, the unit will heat the water, either using the heat pump, the electric

heating tap, or the backup heater. The freeze protection function will turn off only when the temperature increases to a certain valve.

Water may enter into the flow switch and cannot be drained out and may freeze when the temperature is low enough. The flow switch should be removed and dried, then can be reinstalled in the unit.

Note:

Counterclock wise rotation, remove the flow switch. Drying the flow switch completely.

9 Overview of the unit

Warning:

When the unit is not running for a long time, make sure the unit is powered on all the time. If you want to cut off the power, the water in the system pipe needs to be drained clean, avoid the unit and pipeline system be damaged by freezing. Also the power of the unit needs to be cut off after water in the system is drained off.

Warning:

Ethylene Glycol and Propylene Glycol are TOXIC

9.5 Filling water

• Connect the water supply to the filling valve and open the valve.
  • Make sure the manual air purge valve is open (at least 2 turns).
• Fill with water pressure of approximately 2.0 bar. Remove air in the circuit as much as possible using the air purge valves. Air in the water circuit could lead to malfunction of the backup electric heater.

Do not fasten the black plastic cover on the vent valve at the topside of the unit when the system is running. Open air purgevalve, turn anticlockWise at least2 full turnsto releaseair from the system.

Notes:

During filling, it might not be possible to remove all air in the system. Remaining air will be removed through the automatic air purge valves during the first operating hours of the system. Topping up the water afterwards might be required.

• The water pressure will vary depending on the water temperature (higher pressure at higher water temperature). However, at all times water pressure should remain above 0.3 bar to avoid air entering the circuit.
• The unit might drain-off too much water through the pressure relief valve.
  • Water quality should be complied with EN 98/83 EC Directives.
  • Detailed water quality condition can be found in EN 98/83 EC Directives.

9.6 Water piping insulation

The complete water circuit including all piping, water piping must be insulated to prevent condensation during cooling operation and reduction of the heating and cooling capacity as well as prevention of freezing of the outside water piping during winter. The insulation material should at least of B1 fire resistance rating and complies with all applicable legislation. The thickness of the sealing materials must be at least 13 mm with thermal conductivity 0.039 W/mK in order to prevent freezing on the outside water piping.

If the outdoor ambient temperature is higher than 30^ C and the humidity is higher than RH 80%, then the thickness of the sealing materials should be at least 20 mm in order to avoid condensation on the surface of the seal.

9.7 Field wiring

Warning:

A main switch or other means of disconnection, having a contact separation in all poles, must be incorporated in the fixed wiring in accordance with relevant local laws and regulations. Switch off the power supply before making any connections. Use only copper wires. Never squeeze bundled cables and make sure they do not come in contact with the piping and sharp edges. Make sure no external pressure is applied to the terminal connections. All field wiring and components must be installed by a licensed electrician and must comply with relevant local laws and regulations.

The field wiring must be carried out in accordance with the wiring diagram supplied with the unit and the instructions given below.

Be sure to use a dedicated power supply. Never use a power supply shared by another appliance.

Be sure to establish a ground. Do not ground the unit to a utility pipe, surge protector, or telephone ground. Incomplete grounding may cause electrical shock.

Be sure to install a ground fault circuit interrupter (30 mA). Failure to do so may cause electrical shock. Be sure to install the required fuses or circuit breakers.

9.7.1 Precautions on electrical wiring work

• Fix cables so that cables do not make contact with the pipes (especially on the high pressure side).
• Secure the electrical wiring with cable ties as shown in figure so that it does not come in contact with the piping, particularly on the high-pressure side.
  • Make sure no external pressure is applied to the terminal connectors.
• When installing the ground fault circuit interrupter make sure that it is compatible with the inverter (resistant to high frequency electrical noise) to avoid unnecessary opening of the ground fault circuit interrupter.

Note:

The ground fault circuit interrupter must be a high-speed type breaker of 30 mA (<0.1 s).

- This unit is equipped with an inverter. Installing a phase advancing capacitor not only will reduce the power factor improvement effect, but also may cause abnormal heating of the capacitor due to high-frequency waves. Never install a phase advancing capacitor as it could lead to an accident.

9 Overview of the unit

9.7.2 Wiring overview

The illustration below gives an overview of the required field wiring between several parts of the installation.

Note:

Please use H07RN-F for the power wire, all the cable are connect to high voltage except for thermistor cable and cable for user interface.

• Equipment must be grounded.
- All high-voltage external load, if it is metal or a grounded port, must be grounded.
- All external load current is needed less than 0.2A, if the single load current is greater than 0.2A, the load must be controlled through AC contactor.
- AHS1" "AHS2", "A1" "A2", wiring terminal ports provide only the switch signal. Please refer to image of 9.7.6 to get the ports position in the unit.

Figure 3-4.2.1: Wiring hole for 4/6/8kW models

Figure 3-4.2.2: Wiring hole for 10/12kW models

Figure 3-4.2.3: Wiring hole for 14/16kW models

Code Assembly unit

1 High voltage wire hole
2 Low voltage wire hole
3 Drainage pipe hole
4 Water outlet
5 Water inlet

Field wiring guidelines

- Most field wiring on the unit is to be made on the terminal block inside the switch box. To gain access to the terminal block, remove the switch box service panel (door 1).

Warning:

Switch off all power including the unit power supply and backup heater and domestic hot water tank power supply (if applicable) before removing the switch box service panel.

9 Overview of the unit

• Fix all cables using cable ties.
- A dedicated power circuit is required for the backup heater.
• Installations equipped with a domestic hot water tank (field supply) require a dedicated power circuit for the booster heater. Please refer to the domestic hot water tank Installation & Owner's Manual. Secure the wiring in the order shown below.
- Lay out the electrical wiring so that the front cover does not rise up when doing wiring work and attach the front cover securely.
- Follow the electric wiring diagram for electrical wiring works (the electric wiring diagrams are located on the rear side of door 2.

• Install the wires and fix the cover firmly so that the cover may be fit in properly.

9.7.3 Precautions on wiring of power supply

• Use a round crimp-style terminal for connection to the power supply terminal board. In case it cannot be used due to unavoidable reasons, be sure to observe the following instructions.
• Do not connect different gauge wires to the same power supply terminal. (Loose connections may cause overheating.)
• When connecting wires of the same gauge, connect them according to the figure below.

• Use the correct screwdriver to tighten the terminal screws. Small screwdrivers can damage the screw head and prevent appropriate tightening.
  • Over-tightening the terminal screws can damage the screws.
• Attach a ground fault circuit interrupter and fuse to the power supply line.
• In wiring, make certain that prescribed wires are used, carry out complete connections, and fix the wires so that outside force cannot affect the terminals.

9.7.4 Safety device requirement

1. Select the wire diameters (minimum valve) individually for each unit based on the table 9-1 and table 9-2, where the rated current in table 9-1 means MCA in table 9-2. In case the MCA exceeds 63A, the wire diameters should be selected according to the national wiring regulation.
2. Maximum allowable voltage range variation between phases is 2%.
3. Select circuit breaker that having a contact separation in all poles not less than 3 mm providing full disconnection, where MFA is used to select the current circuit breakers and residual current operation breakers.

9 Overview of the unit

1-phase 4-16kW standard and 3-phase 10-16kW standard

1-phase 4-16kW standard with backup heater 3kW

9 Overview of the unit

3-phase 10-16kW standard with backup heater 9kW

Notes:

MCA: Max. Circuit Amps. (A)

TOCA: Total Over-current Amps. (A)

MFA: Max. Fuse Amps. (A)

MSC: Max. Starting Amps. (A)

RLA: In nominal cooling or heating test condition, the input Amps of compressor where MAX. Hz can operate Rated Load Amps. (A)

KW: Rated Motor Output

FLA: Full Load Amps. (A)

9 Overview of the unit

9.7.5 Remove the switch box cover

UNIT POWER SUPPLY 1-phase

UNIT POWER SUPPLY 1-phase

UNIT POWER SUPPLY 3-phase

Notes:

The ground fault circuit interrupter must be 1 high-speed type of 30mA (<0.1s). Please use 3-core shielded wire.

The default of backup heater is option 3 (for 9kW backup heater).

Stated values are maximum values (see electrical data for exact values).

When connecting to the power supply terminal, use the circular wiring terminal with the insulation casing (see Figure 9.1).

Use power cord that conforms to the specifications and connect the power cord firmly. To prevent the cord from being pulled out by external force, make sure it is fixed securely.

If circular wiring terminal with the insulation casing cannot be used, please make sure that:

- Do not connect two power cords with different diameters to the same power supply terminal (may cause overheating of wires due to loose wiring) (See Figure 9.2).

9 Overview of the unit

9.7.6 Connection for other components

unit 4-16kW

Port provide the control signal to the load. Two kind of control signal port:

Type 1: Dry connector without voltage.

Type 2: Port provide the signal with 220V voltage. If the current of load is <0.2A, load can connect to the port directly. If the current of load is >=0.2A, the AC contactor is required to connected for the load.

Type 1 For additional heat source control

9 Overview of the unit

2) For 3-way valve SV1, SV2 and SV3:

a) Procedure

• Connect the cable to the appropriate terminals as shown in the picture.
• Fix the cable reliably.

9 Overview of the unit

3) For remote shut down:

9 Overview of the unit

4) For Pumpc and DHW pipe pump:

a) Procedure

• Connect the cable to the appropriate terminals as shown in the picture.
• Fix the cable reliably.

5) For room thermostat:

Room thermostat type 1 (High voltage):

"POWER IN" provide the working voltage to the RT, doesn't provide the voltage to the RT connector directly. Port "31 L1" provide the 220V voltage to the RT connector. Port "31 L1" connect from the unit main power supply port L of 1- phase power supply.

Room thermostat type 2 (Low voltage):

"POWER IN" provide the working voltage to the RT.

Note:

There are two optional connect method depend on the room thermostat type.

Room thermostat type 1 (High voltage):

9 Overview of the unit

graph TD
    subgraph_Method_B["Method B\n(One zone control)"]
        A["CON1"] --> B["H 32"]
        B --> C["L1 31"]
        C --> D["RT1"]
        D --> E["POWER IN"]
    end
    subgraph_Method_C["Method C\n(Two zone control)"]
        F["CON1"] --> G["H 32"]
        G --> H["L1 31"]
        H --> I["RT1"]
        I --> J["POWER IN POWER IN"]
        J --> K["C 16"]
        K --> L["RT2"]
        L --> M["zone1"]
    end
    style Method_B fill:#f9f,stroke:#333
    style Method_C fill:#f9f,stroke:#333

There are three methods for connecting the thermostat cable (as described in the picture above) and it depends on the application.

• Method A (Mode set control)

RT can control heating and cooling individually, like the controller for 4-pipe FCU. When the hydraulic module is connected with the external temperature controller, user interface set ROOM THERMOSTAT to MODE SET:

A.1 When unit detect voltage is 230VAC between C and L1, the unit operates in the cooling mode.
A.2 When unit detect voltage is 230VAC between H and L1, the unit operates in the heating mode.
A.3 When unit detect voltage is 0VAC for both side (C-L1, H-L1) the unit stop working for space heating or cooling.
A.4 When unit detect voltage is 230VAC for both side (C-L1, H-L1) the unit working in cooling mode.

• Method B (One zone control)

RT provide the switch signal to unit. User interface set ROOM THERMOSTAT to ONE ZONE:

B.1 When unit detect voltage is 230VAC between H and L1, unit turns on.
B.2 When unit detect voltage is 0VAC between H and L1, unit turns off.

9 Overview of the unit

• Method C (Two zone control)

Hydraulic Module is connected with two room thermostat, while user interface set ROOM THERMOSTAT to ZONES:

C.1 When unit detect voltage is 230VAC between H and L1, zone1 turns on. When unit detect voltage is 0VAC between H and L1, zone1 turns off.
C.2 When unit detect voltage is 230VAC between C and L1, zone2 turns on according to climate temp curve. When unit detect voltage is 0V between C and L1, zone2 turns off.
C.3 When H-L1 and C-L1 are detected as OVAC, unit turns off.
C.4 When H-L1 and C-L1 are detected as 230VAC, both zone1 and zone2 turn on.

Room thermostat type 2 (Low voltage):

9 Overview of the unit

There are three methods for connecting the thermostat cable (as described in the picture above) and it depends on the application.

• Method A (Mode set control)

RT can control heating and cooling individually, like the control- ler for 4-pipe FCU. When the hydraulic module is connected with the external temperature controller, user interface set ROOM THERMOSTAT to MODE SET:

A.1 When unit detect voltage is 12VDC between CL and COM, the unit operates in the cooling mode.
A.2 When unit detect voltage is 12VDC between HT and COM, the unit operates in the heating mode.
A.3 When unit detect voltage is OVDC for both side (CL-COM, HT-COM) the unit stop working for space heating or cooling.
A.4 When unit detect voltage is 12VDC for both side (CL-COM, HT-COM) the unit working in cooling mode.

• Method B (One zone control)

RT provide the switch signal to unit. User interface set ROOM THERMOSTAT to ONE ZONE:

B.1 When unit detect voltage is 12VDC between HT and COM, unit turns on.
B.2 When unit detect voltage is OVDC between HT and COM, unit turns off.
• Method C (Two zone control)

Hydraulic Module is connected with two room thermostat, while user interface set ROOM THERMOSTAT to ZONES:

C.1 When unit detect voltage is 12VDC between HT and COM, zone 1 turn on. When unit detect voltage is 0VDC between HT and COM, zone1 turn off.

C.2 When unit detect voltage is 12VDC between CL and COM, zone2 turn on according to climate temp curve. When unit detect voltage is 0V between CL and COM, zone2 turn off.
C.3 When HT-COM and CL-COM are detected as OVDC, unit turn off.
C.4 When HT-COM and CL-COM are detected as 12VDC, both zone1 and zone2 turn on.

Notes:

The wiring of the thermostat should correspond to the settings of the user interface.

Power supply of machine and room thermostat must be connected to the same Neutral Line.

Zone 2 can only operate in heating mode, When cooling mode is set on user interface and zone1 is OFF, "CL" in zone 2 closes, system still keeps 'OFF'. While installation, the wiring of thermostats for zone1 and zone 2 must be correct.

9 Overview of the unit

6) For additional heat source control:

Warning:

This part only applies to the unit without an interval backup heater. If there is an interval backup heater in the unit, the hydraulic module should not be connected to any additional heat source.

7) For outside circulation pump P_o:

a) Procedure

• Connect the cable to the appropriate terminals as shown in the picture.
• Fix the cable with cable ties to the cable tie mountings to ensure stress relief.

9 Overview of the unit

8) For smart grid:

The unit has smart grid function, there are two ports on PCB to connect SG signal and EVU signal as following:

1. when EVU signal is on, the unit operate as below:

DHW mode turn on, the setting temperature will be changed to 70^ C automatically, and the WTH operate as below: TW < 69^ C, the WTH is on, TW ≥ 70^ C, the WTH is off. The unit operate in cooling/heating mode as the normal logic.

1. When EVU signal is off, and SG signal is on, the unit operate normally.

2. When EVU signal is off, SG signal is off, the DHW mode is off, and the WTH is invalid, disinfect function is invalid. The max running time for cooling/heating is "SG RUNNIN TIME", then unit will be off.

10 Start-up and configuration

The unit should be configured by the installer to match the installation environment (outdoor climate, installed options, etc.) and user expertise.

Warning:

It is important that all information in this chapter is read sequentially by the installer and that the system is configured as applicable.

10.1 DIP switch settings overview

10.1.1 Function setting

DIP switch SW1, SW2 SW3 and SW4 are located on the main control hydraulic module board (see "9.3.1 main control board of hydraulic module").

Warning:

Switch off the power supply before making any changes to the DIP switch settings.

Refer to eletrically controlled wiring diagram

10.2 Initial start-up at low outdoor ambient temperature

During initial start-up and when water temperature is low, it is important that the water is heated gradually. Failure to do so may result in concrete floors cracking due to rapid temperature change. Please contact the responsible cast concrete building contractor for further details.

10.3 Pre-operationchecks

Checks before initial start-up.

Warning:

Switch off the power supply before making any connections.

After the installation of the unit, check the following before switching on the circuit breaker:

• Field wiring: Make sure that the field wiring between the local supply panel and unit and valves (when applicable), unit and room thermostat (when applicable), unit and domestic hot water tank, and unit and backup heater kit have been connected according to the instructions described in the chapter 9.7 "Field wiring", according to the wiring diagrams and to local laws and regulations.
• Fuses, circuit breakers, or protection devices Check that the fuses or the locally installed protection devices are of the size and type specified in 14 "Technical specifications". Make sure that no fuses or protection devices have been bypassed.
• Backup heater circuit breaker: Do not forget to turn on the backup heater circuit breaker in the switchbox (it depends on the backup heater type). Refer to the wiring diagram.
• Booster heater circuit breaker: Do not forget to turn on the booster heater circuit breaker (applies only to units with optional domestic hot water tank installed).
• Ground wiring: Make sure that the ground wires have been connected properly and that the ground terminals are tightened.
• Internal wiring: Visually check the switch box for loose connections or damaged electrical components.
• Mounting: Check that the unit is properly mounted, to avoid abnormal noises and vibrations when starting up the unit.
• Damaged equipment: Check the inside of the unit for damaged components or squeezed pipes.
• Refrigerant leak: Check the inside of the unit for refrigerant leakage. If there is a refrigerant leak, call your local dealer.
  • Power supply voltage: Check the power supply voltage on the local supply panel. The voltage must correspond to the voltage on the identification label of the unit.
  • Air purge valve: Make sure the air purge valve is open (at least 2 turns).
• Shut-off valves: Make sure that the shut-off valves are fully open.

10 Start-up and configuration

10.4 The circulation pump

The relationships between the head and the water flow rated, the PMW Return and the water flow rated are shown in the graph below.

Area of regulation is included in between the max speed curve and the min speed curve.

Warning:

If the valves are at the incorrect position, the circulation pump will be damaged.

Warning:

If it's necessary to check the running status of the pump when unit power on, please do not touch the internal electronic control box components to avoid electric shock.

Failure diagnosis at first installation

- If nothing is displayed on the user interface, it is necessary to check for any of the following abnormalities before diagnosing possible error codes.

- Disconnection or wiring error (between power supply and unit and between unit and user interface).

- The fuse on the PCB may be broken.

- If the user interface shows "P01" as an error code, there is a possibility that there is air in the system, or the water level in the system is less than the required minimum.

- If the error code E01 is displayed on the user interface, check the wiring between the user interface and unit.

More error code and failure causes can be found in 13.4 "Error codes".

10.5 Field settings

The unit should be configured to match the installation environment (outdoor climate, installed options, etc.) and user demand. A number of field settings are available. These settings are accessible and programmable through "FUNCTION PARAMETER SET" in user interface.

Procedure

To change one or more field settings, proceed as follows.

Note:

Temperature values displayed on the wired controller (user interface) are in °C.

Keys Function
	Go to the menu structure (on the home page)
	Navigate the cursor on the displayNavigate in the menu structureAdjust settings
	Turn on/off the space heating/cooling operation or DHW modeTurn on/or off functions in the menu structure
	Come back to the up level
	Go to the next step when programming a schedule in the menu structure; and confirm a selection to enter in the submenu of the menu structure.

About FUNCTION PARAMETER SET

"FUNCTION PARAMETER SET" is designed for the installer to set the parameters.

• Setting the composition of equipment.
• Setting the parameters.

How to go to FUNCTION PARAMETER SET

Go to ➞ FUNCTION PARAMETER SET. Press : √

Press ◀▶ to navigate and press ▼▲ to adjust the numerical valve. Press ☑The password is 1212, the following pages will be displayed after putting the password:

10 Start-up and configuration

Press ▼ ▲ to scroll and use "OK" to enter submenu.

10.5.1 GENERAL PARAMETER

Go to > FUNCTION PARAMETER SET>

1. GENERAL PARAMETER. Press ☑The following pages will be displayed:

DHW = domestic hot water

Go to ➞ FUNCTION PARAMETER SET> 2. DHW MODE. Press ⚙The following pages will be displayed

10 Start-up and configuration

Go to ➞ FUNCTION PARAMETER SET>3. HEAT MODE. Press ⚙The following pages will be displayed

10.5.4 COOL MODE SETTING

Go to ➞ FUNCTION PARAMETER SET> 4. COOL MODE. Press ☑ The following pages will be displayed

10 Start-up and configuration

10.5.5 AUTO MODE SETTING

Go to ➕ FUNCTION PARAMETER SET> 5. AUTO MODE. Press ☑The following pages will be displayed

10.5.6 TEMP. TYPE SETTING

About TEMP. TYPE SETTING

The TEMP. TYPE SETTING is used for selecting whether the water flow temperature or room temperature is used to control the ON/OFF of the heat pump.

When ROOM TEMP. is enabled, the target water flow temperature will be calculated from climate-related curves.

Go to > FUNCTION PARAMETER SET >

1. TEMP. TYPE SET. Press ✅ The following pages will be displayed

10.5.7 ROOM THERMOSTAT

About ROOM THERMOSTAT

The ROOM THERMOSTAT is used to set whether the room thermostat is available.

How to set the ROOM THERMOSTAT

Go to ➞ FUNCTION PARAMETER SET >

1. ROOM THERMOSTATSET. Press The following pages will be displayed

Notes:

ROOM THERMOSTAT = NON, no room thermostat.

ROOM THERMOSTAT = MODE SET, the wiring of room thermostat should follow method A.

ROOM THERMOSTAT=ONE ZONE, the wiring of room thermostat should follow method B.

ROOM THERMOSTAT=TWO ZONES, the wiring of room thermostat should follow method C (refer to 9.7.6 "Connection for other components/- For room thermostat")

10 Start-up and configuration

10.5.8 OTHER HEATING SOURCE

The OTHER HEATING SOURCE is used to set the parameters of the backup heater, additional heating sources and solar energy kit.

How to enter the TEMP. TYPE SETTING

Go to > FUNCTION PARAMETER SET >

1. OTHER HEAT SOURCE. Press ☑The following pages will be displayed

10.5.9 AUTO RESTART

sources and solar energy kit.

How to enter the AUTO RESTART

Go to ➤ FUNCTION PARAMETER SET > 9. AUTO RESTART. Press ⚙The following pages will be displayed

10.5.10 RESTOREFACTORY SETTINGS

The RESTORE FACTORY SETTING is used to restore all the parameters set in the user interface to the factory setting.

How to enter the RESTORE FACTORY SET

Go to ➞ FUNCTION PARAMETER SET >

1. RESTORE FACTORY SET Press ☑ The following pages will be displayed

Press ◀▶ to scroll the cursor to YES and press √.

10 Start-up and configuration

The parameters related to this chapter are shown in the table below.

10 Start-up and configuration

10 Start-up and configuration

10 Start-up and configuration

The function description in the table below.

10 Start-up and configuration

10 Start-up and configuration

11 Test run and final checks

The installer is obliged to verify correct operation of unit after installation.

11.1 Final checks

Before switching on the unit, read following recommendations:

• When the complete installation and all necessary settings have been carried out, close all front panels of the unit and refit the unit cover.
• The service panel of the switch box may only be opened by a licensed electrician for maintenance purposes.

Note:

That during the first running period of the unit, required power input may be higher than stated on the nameplate of the unit. This phenomenon originates from the compressor that needs elapse of a 50 hours run in period before reaching smooth operation and stable power consumption.

In order to ensure optimal availability of the unit, a number of checks and inspections on the unit and the field wiring have to be carried out at regular intervals.

This maintenance needs to be carried out by your local technician.

A

Warning:

ELECTRIC SHOCK

• Before carrying out any maintenance or repairing activity, must switch off the power supply on the supply panel.
• Do not touch any live part for 10 minutes after the power supply is turned off.
• The crank heater of compressor may operate even in standby.
• Please note that some sections of the electric component box are hot.
• Forbid touch any conductive parts.
• Forbid rinse the unit. It may cause electric shock or fire.
  Forbid leave the unit unattended when service panel is removed.

The following checks must be performed at least once a year by qualified person.

• Water pressure

Check the water pressure, if it is below 1 bar, fill water to the system.

- Water filter

Clean the water filter.

• Water pressure relief valve

Check for correct operation of the pressure relief valve by turning the black knob on the valve counter-clockWise:

• If you do not hear a clacking sound, contact your local dealer.
• In case the water keeps running out of the unit, close both the water inlet and outlet shut-off valves first and then contact your local dealer.

• Pressure relief valve hose
Check that the pressure relief valve hose is positioned appropriately to drain the water.
• Backup heater vessel insulation cover
Check that the backup heater insulation cover is fastened tightly around the backup heater vessel.
- Domestic hot water tank pressure relief valve (field supply) Applies only to installations with a domestic hot water tank. Check for correct operation of the pressure relief valve on the domestic hot water tank.
• Domestic hot water tank booster heater

Applies only to installations with a domestic hot water tank. It is advisable to remove lime buildup on the booster heater to extend its life span, especially in regions with hard water. To do so, drain the domestic hot water tank, remove the booster heater from the domestic hot water tank and immerse in a bucket (or similar) with lime-removing product for 24 hours.

- Unit switch box

- Carry out a thorough visual inspection of the switch box and look for obvious defects such as loose connections or defective wiring.

12 Maintenance and service

- Check for correct operation of contactors with an ohm meter. All contacts of these contactors must be in open position.

• Use of glycol (Refer to 9.4.4 "Water circuit anti-freeze protection") Document the glycol concentration and the pH-valve in the system at least once a year.
• -A PH-valve below 8.0 indicates that a significant portion of the inhibitor has been depleted and that more inhibitor needs to be added.
• -When the PH-valve is below 7.0 then oxidation of the glycol occurred, the system should be drained and flushed thoroughly before severe damage occurs.

Make sure that the disposal of the glycol solution is done in accordance with relevant local laws and regulations.

13 Trouble shooting

This section provides useful information for diagnosing and correcting certain troubles which may occur in the unit.

This troubleshooting and related corrective actions may only be carried out by your local technician.

13.1 General guidelines

Before starting the troubleshooting procedure, carry out a thorough visual inspection of the unit and look for obvious defects such as loose connections or defective wiring.

Warning:

When carrying out an inspection on the switch box of the unit, always make sure that the main switch of the unit is switched off.

When a safety device was activated, stop the unit and find out why the safety device was activated before resetting it. Under no circumstances can safety devices be bridged or changed to a valve other than the factory setting. If the cause of the problem cannot be found, call your local dealer.

If the pressure relief valve is not working correctly and is to be replaced, always reconnect the flexible hose attached to the pressure relief valve to avoid water dripping out of the unit!

Note:

For problems related to the optional solar kit for domestic water heating, refer to the troubleshooting in the Installation and owner's manual for that kit.

13.2 General symptoms

Symptom 1: The unit is turned on but the unit is not heating or cooling as expected

13 Trouble shooting

Symptom 2: Pump is making noise (cavitation)

Symptom 4: The water pressure relief valve leaks

Symptom 3: The water pressure relief valve opens

13 Trouble shooting

13.3 Parameter view

This menu is for installer or service engineer reviewing the operation parameters.

At home page, go to "■> "PARAMETER VIEW".

Press "OK". There are twelve pages for the operating parameter as following. Use "▶", "◀", "▼", "▲" to scroll.

Press "▶" and "◀" to check slave units' operation parameter in cascade system. The address code in the upper right corner

Note:

The flow rates parameters are calculated according to the pump running parameters, the deviation is different at different flow rates, the maximum of deviation is 15%. The flow parameters are calculated according to the electrical parameters of the pump operation.

For cascade application, after you select "PARAMETER VIEW" at home page, the screen will appear the page of selecting the module to be viewed:

Use four arrow keys to select the module and then press "OK" to go into "PARAMETER VIEW" menu. "MA." means master module, "SL." means slave module. Black arrow on the left of the module means the modules are online: one black arrow means the modules are online but currently not running, two black arrows means the modules are online and currently running. It's the online module that can be viewed the parameter.

13.4 Error codes

When a safety device is activated, an error code (which does't include external failure) will be displayed on the user interface.

A list of all errors and corrective actions can be found in the table below.

Reset the safety by turning the unit OFF and back ON.

In case this procedure for resetting the safety is not successful, contact your local dealer.

13 Trouble shooting

13 Trouble shooting

13 Trouble shooting

14 Technical specifications

14.1 General

Technical specifications

14.2 Electrical specifications

Model GHPH-MM04 GHPH-MM06 GHPH-MM08 GHPH-MM10 GHPH-MM12 GHPH-MM14 GHPH-MM16

Power Supply 220-240V\~50Hz Standard unit Nominal Running Current See "9.7.4 Safety device requirement"

Backup heater Power Supply Nominal Running Current See "9.7.4 Safety device requirement"

14.3 General (3-Phase)

14 Technical specifications

14.4 Electrical specifications (3-Phase)

14.5 Energy rating label and Specification sheet

Energy rating label
GHPH-MM08 GHPH-MM10 GHPH-MM12

14 Technical specifications

GHPH-MM14 GHPH-MM16

14 Technical specifications

14 Technical specifications

14 Technical specifications

15 Information servicing

1) Checks to the area

Prior to beginning work on systems containing flammable refrigerants, safety checks are necessary to ensure that the risk of ignition is minimised. For repair to the refrigerating system, the following precautions shall be complied with prior to conducting work on the system.

2) Work procedure

Works shall be undertaken under a controlled procedure so as to minimise the risk of a flammable gas or vapour being present while the work is being performed.

3) General work area

All maintenance staff and others working in the local area shall be instructed on the nature of work being carried out. work in confined sapces shall be avoided. The area around the work space shall be sectioned off. Ensure that the conditions within the area have been made safe by control of flammable material.

4) Checking for presence of refrigerant

The area shall be checked with an appropriate refrigerant detector prior to and during work, to ensure the technician is aware of potentially flammable atmospheres. Ensure that the leak detection equipment being used is suitable for use with flammable refrigerants, i.e. no sparking, adequately sealed or intrinsically safe.

5) Presence of fire extinguisher

If any hot work is to be conducted on the refrigeration equipment or any associated parts, appropriate fire extinguishing equipment shall be

available to hand. Have a dry power or CO_2 fire extinguisher adjacent to the charging area.

6) No ignition sources

No person carrying out work in relation to a refrigeration system which involves exposing any pipe work that contains or has contained flammable refrigerant shall use any sources of ignition in such a manner that it may lead to the risk of fire or explosion. All possible ignition sources, including cigarette smoking, should be kept sufficiently far away from the site of installation, repair- ing, removing and disposal, during which flammable refrigerant can possibly be released to the surrounding space. Prior to work taking place, the area around the equipment is to be surveyed to make sure that there are no flammable hazards or ignition risks. NO SMOKING signs shall be displayed.

7) Ventilated area

Ensure that the area is in the open or that it it adequately ventilated before breaking into the system or conducting any hot work. A degree of ventilation shall continue during the period that the work is carried out. The ventilation should safely disperse any released refrigerant and preferably expel it externally into the atmosphere.

8) Checks to the refrigeration equipment

Where electrical components are being changed, they shall be fit for the purpose and to the correct specification. At all times the manufacturer's maintenance and service guidelines shall be followed. If in doubt consult the manufacturer's technical department for assistance. The following checks shall be applied to installations using flammable refrigerants.

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• The charge size is in accordance with the room size within which the refrigerant containing parts are installed.
• The ventilation machinery and outlets are operating adequately and are not obstructed.
• If an indirect refrigerating circuit is being used, the secondary circuits shall be checked for the presence of refrigerant; marking to the equipment continues to be visible and legible.
• Marking and signs that are illegible shall be corrected.
• Refrigeration pipe or components are installed in a position where they are unlikely to be exposed to any substance which may corrode refrigerant containing components, unless the components are constructed of materials which are inherently resistant to being corroded or are suitably protected against being so corroded.

9) Checks to electrical devices

Repair and maintenance to electrical components shall include initial safety checks and component inspection procedures. If a fault exists that could compromise safety, then no electrical supply shall be connected to the circuit until it is satisfactorily dealt with. If the fault cannot be corrected immediately but it is necessary to continue operation, and adequate temporary solution shall be used. This shall be reported to the owner of the equipment so all parties are advised.

Initial safety checks shall include:

- That capacitors are discharged: this shall be done in a safe manner to avoid possibility of sparking.

• That there no live electrical components and wiring are exposed while charging, recovering or purging the system.
  • That there is continuity of earth bonding.

10) Repairs to sealed components

a) During repairs to sealed components, all electrical supplies shall be disconnected from the equipment being worked upon prior to any removal of sealed covers, etc. If it is absolutely necessary to have an electrical supply to equipment during servicing, then a permanently operating form of leak detection shall be located at the most critical point to warn of a potentially hazardous situation.
b) Particular attention shall be paid to the following to ensure that by working on electrical components, the casing is not altered in such a way that the level of protection is affected. This shall include damage to cables, excessive number of connections, terminals not made to original specification, damage to seals, incorrect fitting of glands, etc.

• Ensure that apparatus is mounted securely.

- Ensure that seals or sealing materials have not degraded such that they no longer serve the purpose of preventing the ingress of flammable atmospheres. Replacement parts shall be in accordance with the manufacturer's specifications.

Notes:

The use of silicon sealant may inhibit the effectiveness of some types of leak detection equipment. Instrinsically safe components do not have to be isolated prior to working on them.

11) Repair to intrinsically safe components

Do not apply any permanent inductive or capacitance loads to the circuit without ensuring that this will not exceed the permissible voltage and current permitted for the equipment in use. Intrinsically safe components are the only types that can be worked on while live in the presence of a flammable atmosphere. The test apparatus shall be at the correct rating. Replace components only with parts specified by the manufacturer. Other parts may result in the ignition of refrigerant in the atmosphere from a leak.

12) Cabling

Check that cabling will not be subject to wear, corrosion, excessive pressure, vibration, sharp edges or any other adverse environmental effects. The check shall also take into account the effects of aging or continual vibration from sources such as compressors or fans.

13) Detection of flammable refrigerants

Under no circumstances shall potential sources of ignition be used in the searching for or detection of refrigerant leaks. A halide torch (or any other detector using a naked flame) shall not be used.

14) Leak detection methods

The following leak detection methods are deemed acceptable for systems containing flammable refrigerants. Electronic leak detectors shall be used to detect flammable refrigerants, but the sensitivity may not be adequate, or may need re-calibration. (- Detection equipment shall be calibrated in a refrigerant-free area.) Ensure that the detector is not a potential source of ignition and is suitable for the refrigerant. Leak detection equipment shall be set at a percentage of the LFL of the refrigerant and shall be calibrated to the refrigerant employed and the appropriate percentage of gas (25% maximum) is confirmed. Leak detection fluids are suitable for use with most refrigerants but the use of detergents containing chlorine shall be avoided as the chlorine may react with the refrigerant and corrode the copper pipe-work. If a leak is suspected, all naked flames shall be removed or extinguished. If a leakage of refrigerat is found which requires brazing, all of the refrigerant shall be recovered from the system, or isolated (by means of shut off valves) in a part of the system remote from the leak. Oxygen free nitrogen (OFN) shall then be purged through the system both before and during the brazing process.

15) Removal and evacuation

When breaking into the refrigerant circuit to make repairs of for any other purpose conventional procedures shall be used, However, it is important that best practice is followed since flammability is a consideration. The following procedure shall be adhered to:

• Remove refrigerant;
  • Purge the circuit with inert gas;
• Evacuate;

15 Information servicing

• Purge again with inert gas;
- Open the circuit by cutting or brazing.

The refrigerant charge shall be recovered into the correct recovery cylinders. The system shall be flushed with OFN to render the unit safe. This process may need to be repeated several times.

Compressed air or oxygen shall not be used for this task.

Flushing shall be achieved by breaking the vacuum in the system with OFN and continuing to fill until the working pressure is achieved, then venting to atmosphere, and finally pulling down to a vacuum. This process shall be repeated until no refrigerant is within the system.

When the final OFN charge is used, the system shall be vented down to atmospheric pressure to enable work to take place. This operation is absolutely vital if brazing operations on the pipework are to take place.

Ensure that the outlet for the vacuum pump is not closed to any ignition sources and there is ventilation available.

16) Charging procedures

In addition to conventional charging procedures, the following requirements shall be followed:

• Ensure that contamination of different refrigerants does not occur when using charging equipment. Hoses or lines shall be as short as possible to minimize the amount of refrigerant contained in them.
  • Cylinders shall be kept upright.
• Ensure that the refrigeration system is earthed prior to charging the system with

refrigerant.

• Label the system when charging is complete (if not already).
• Extreme care shall be taken not to overfill the refrigeration system.
• Prior to recharging the system it shall be pressure tested with OFN. The system shall be leak tested on completion of charging but prior to commissioning. A follow up leak test shall be carried out prior to leaving the site.

17) Decommissioning

Before carrying out this procedure, it is essential that the technician is completely familiar with the equipment and all its detail. It is recommended good practice that all refrigerants are recovered safely. Prior to the task being carried out, an oil and refrigerator sample shall be taken.

In case analysis is required prior to re-use of reclaimed refrigerant. It is essential that electrical power is available before the task is commenced.

a) Become familiar with the equipment and its operation.
b) Isolate system electrically
c) Before attempting the procedure ensure that:

- Mechanical handling equipment is available, if required, for handling refrigerant cylinders.

- All personal protective equipment is available and being used correctly.

- The recovery process is supervised at all times by a competent person.

- Recovery equipment and cylinders conform to the appropriate standards.

d) Pump down refrigerant system, if possible.

e) If a vacuum is not possible, make a manifold so that refrigerant can be removed from

15 Information servicing

various parts of the system.

f) Make sure that cylinder is situated on the scales before recovery takes place.
g) Start the recovery machine and operate in accordance with manufacturer's instructions.
h) Do not overfill cylinders. (No more than 80% volume liquid charge).
i) Do not exceed the maximum working pressure of the cylinder, even temporarily.
j) When the cylinders have been filled correctly and the process completed, make sure that the cylinders and the equipment are removed from site promptly and all isolation valves on the equipment are closed off.
k) Recovered refrigerant shall not be charged into another refrigeration system unless it has been cleaned and checked.

18) Labelling

Equipment shall be labelled stating that it has been de-commissioned and emptied of refrigerant. The label shall be dated and signed. Ensure that there are labels on the equipment stating the equipment contains flammable refrigerant.

19) Recovery

When removing refrigerant from a system, either for service or decommissioning, it is recommended good practice that all refrigerants are removed safely.

When tranferring refrigerant into cylinders, ensure that only appropriate refrigerant recovery cylinders are employed. Ensure that the correct numbers of cylinders for holding the total system charge are available. All cylinders to be used are designated for the recovered refrigerant and

labelled for that refrigerant (i.e special cylinders for the recovery of refrigerant). Cylinders shall be complete with pressure relief valve and associated shut-off valves in good working order.

Empty recovery cylinders are evacuated and, if possible, cooled before recovery occurs.

The recovery equipment shall be in good working order with a set of instructions concerning the equipment that is at hand and shall be suitable for the recovery of flammable refrigerants. In addition, a set of calibrated weighing scales shall be available and in good working order.

Hoses shall be complete with leak-free disconnect couplings and in good condition. Before using the recovery machine, check that it is in satisfactory working order, has been properly maintained and that any associated electrical components are sealed to prevent ignition in the event of a refrigerant release. Consult manufacturer if in doubt.

The recovered refrigerant shall be returned to the refrigerant supplier in the correct recovery cylinder, and the relevant Waste Transfer Note arranged. Do not mix refrigerants in recovery units and especially not in cylinders.

If compressors or compressor oils are to be removed, ensure that they have been evacuated to an acceptable level to make certain that flammable refrigerant does not remain within the lubricant. The evacuation process shall be carried out prior to retruning the compressor to the suppliers. Only electric heating to the compressor body shall be employed to accelerate this process. When oil is drained from a system, it shall be carried out safely.

15 Information servicing

Notes:

Only VC (VCL) compressor oil can be added.

20) Transportation, marking and storage for units

Transport of equipment containing flammable refrigerants Compliance with the transport regulations.

Marking of equipment using signs Compliance with local regulations.

Disposal of equipment using flammable refrigerants Compliance with national regulations.

Storage of equipment/appliances.

The storage of equipment should be in accordance with the manufacturer's instructions.

Storage of packed (unsold) equipment.

Storage package protection should be constructed such that mechanical damage to the equipment inside the package will not cause a leak of the refrigerant charge.

The maximum number of pieces of equipment permitted to be stored together will be determined by local regulations.

ANNEX A: Refrigerant cycle

graph TD
    A["Living water (Out)"] --> B["Leaving water (out)"]
    B --> C["Syfy valve"]
    C --> D["Outlet water pressure sensor"]
    D --> E["Safty valve"]
    E --> F["Air purge valve"]
    F --> G["Water-out temp. sensor"]
    G --> H["Internal backup heater"]
    H --> I["Drain needle valve"]
    I --> J["Expansion vessel"]
    J --> K["Water flow switch"]
    K --> L["PWM Water pump"]
    L --> M["Y water filter"]
    M --> N["Entering water (in)"]
    N --> O["Filter"]
    O --> P["EV"]
    P --> Q["Filter"]
    Q --> R["Heating liquid temp. sensor"]
    R --> S["T4 Ambient temp. sensor"]
    S --> T["DC Fan"]
    T --> U["Coll temp. sensor"]
    U --> V["Air side heat exchanger"]
    V --> W["T3 Coil temp. sensor"]
    W --> X["Compressor"]
    X --> Y["Suction temp. sensor"]
    Y --> Z["Low pressure sensor"]
    Z --> AA["Four-way valve"]
    AA --> AB["Four way pressure switch"]
    AB --> AC["High pressure sensor"]
    AC --> AD["T7 Discharge temperature sensor"]
    AD --> AE["Th"]

15 Information servicing

ANNEX K:

Electrical wiring diagram of the unit (GHPH-MM04, GHPH-MM06)

15 Information servicing

Electrical wiring diagram of the unit (GHPH-MM08, GHPH-MM10, GHPH-MM12)

15 Information servicing

ANNEX K:

Electrical wiring diagram of the unit (GHPH-MM14, GHPH-MM16)

Electrical wiring diagram of the unit (3-phase 10\~16kW)

16 European disposal guidelines

This appliance contains refrigerant and other potentially hazardous materials. When disposing of this appliance, the law requires special collection and treatment, Do not dispose of this product as household waste or unsorted municipal waste.

When disposing of this appliance, you have the following options:

• Dispose of the appliance at designated municipal electronic waste collection facility.
• When buying a new appliance, the retailer will take back the old appliance free of charge.
• The manufacturer will take back the old appliance free of charge.
• Sell the appliance to certified scrap metal dealers.

Special notice: Disposing of this appliance in the forest or other natural surroundings endangers your health and is bad for the environment. Hazardous substances may leak into the ground water and enter the food chain.

This symbol indicates that this product shall not be disposed with other household wastes at the end of its service life. Used device must be returned to official collection point for recycling of electrical and electronic devices. To find these collection systems please contact to your local authorities or retailer where the product was purchased. Each household performs important role in recovering and recycling of old appliance. Appropriate disposal of used appliance helps prevent potential negative consequences for the environment and human health.

17 F-Gas instruction

This product contains fluorinated greenhouse gases.

The fluorinated greenhouse gases are contained in hermetically sealed equipment.

Installs, services, maintains, repairs, checks for leaks or decommissions equipment and product recycling should be carried out by natural persons that hold relevant certificates.

If the system has a leakage detection system installed, leakage checks should be performed at least every 12 months, make sure system operate properly.

If product must be performed leakage checks, it should specify Inspection cycle, establish and save records of leakage checks.

For hermetically sealed equipment, portable air conditioner, window air conditioner and dehumidifier, if CO_2 equivalent of fluorinated greenhouse gases is less than 10 tonnes, it should not perform leakage checks.

GHPH-MM04
GHPH-MM06
GHPH-MM08

GHPH-MM10
GHPH-MM12

GHPH-MM14
GHPH-MM16

4/6/8 kW

10/12 kW

14/16 kW

Remarque :

Remarques :

Remarques :

UNIT POWER SUPPLY (ALIMENTATION DE L'APPAREIL) monophasé

UNIT POWER SUPPLY (ALIMENTATION DE L'APPAREIL) monophasé

UNIT POWER SUPPLY (ALIMENTATION DE L'APPAREIL) triphasée

Remarques :

10.5.4 COOL MODE SETTING (RÉGLAGE DU MODE REFROIDISSEMENT)

13.4 Codes d'erreur

ANNEXE K :