Panasonic Aquarea WH-ADC0309J3E5 Planning And Installation Manual
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Panasonic Aquarea WH-ADC0309J3E5 Planning And Installation Manual

Air-to-water heat pumps
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Panasonic Aquarea air-to-water heat pumps
Planning and installation manual
for bi-bloc and mono-bloc systems
Panasonic Aquarea air-to-water heat pumps 2022
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Summary of Contents for Panasonic Aquarea WH-ADC0309J3E5

  • Page 1 Panasonic Aquarea air-to-water heat pumps Planning and installation manual for bi-bloc and mono-bloc systems Panasonic Aquarea air-to-water heat pumps 2022...
  • Page 2 Notes:...
  • Page 3 The copyright of this Manual remains with the manufacturer. No part of this Manual may be reproduced or processed using electronic systems, or distributed in any form without the written consent of Panasonic Marketing Europe GmbH. Infringements which conflict with the above-mentioned information will render you liable for damages.

  • Page 4: Table Of Contents

    Table of Contents Range of Aquarea heat pump models ..............General ........................Safety Notes ......................General Safety Notes for preventing electric shocks and other hazards to health ... General Safety Notes relating to preventing material damage ..........General further information ....................Product Description ....................
  • Page 5 Accessories ..........................4.8.1 Domestic hot water tanks....................4.8.1.1 Stainless steel domestic hot water tanks ................... 4.8.1.2 Enamelled domestic hot water tanks ....................4.8.2 Buffer Tanks ........................4.8.3 Combo Tanks ........................4.8.4 Residential ventilation unit with heat recovery ..............4.8.5 Recommended on-site accessories ................. Planning ........................
  • Page 6 Application examples ......................5.6.1 Example 1: One-zone system without buffer tank ............5.6.2 Example 2: Two-zone system with buffer tank ..............5.6.3 Example 3: Single-phase two-zone system ..............5.6.4 Example 4: Bivalent two-zone system with buffer tank ............ 5.6.5 Example 5: Two-zone system with integrated domestic hot water tank ........5.6.6 Example 6: One-zone system with integrated domestic hot water tank ......5.6.7 Example 7: Bivalent two-zone system with solar heating system ........
  • Page 7 Starting up the system ......................6.9.1 Evacuating the refrigerant circuit and carrying out a pressure test ........6.9.2 Filling and venting the water system ................6.9.2.1 Filling hot water tank .......................... 6.9.2.2 Filling the heating or cooling circuit ....................6.9.3 Checking the system......................6.9.4 Carrying out a test run .....................

  • Page 8: Range Of Aquarea Heat Pump Models

    Range of Aquarea heat pump models Range of Aquarea heat pump models 3 kW 5 kW 7 kW Aquarea High Performance All in One 1 Phase 3 Phase WH-ADC0309J3E5 WH-ADC0309J3E5 WH-ADC0309J3E5 WH-ADC0309J3E5B WH-ADC0309J3E5B WH-ADC0309J3E5B WH-ADC0309J3E5C WH-ADC0309J3E5C WH-ADC0309J3E5C WH-UD03JE5 WH-UD05JE5 WH-UD07JE5 Bi‑bloc 1 Phase 3 Phase...
  • Page 9 Range of Aquarea heat pump models 9 kW 12 kW 16 kW WH-ADC1216H6E5 WH-ADC1216H6E5 WH-ADC0309J3E5 WH-UD12HE5 WH-UD16HE5 WH-ADC0309J3E5B WH-ADC0916H9E8 WH-ADC0916H9E8 WH-ADC0309J3E5C WH-UD12HE8 WH-UD16HE8 WH-UD09JE5-1 WH-ADC0916H9E8 WH-ADC1216H6E5C WH-ADC1216H6E5C WH-UD09HE8 WH-UD12HE5 WH-UD16HE5 WH-SDC0709J3E5 WH-SDC12H6E5 WH-SDC16H6E5 WH-UD09JE5-1 WH-UD12HE5 WH-UD16HE5 WH-SDC09H3E8 WH-SDC12H9E8 WH-SDC16H9E8 WH-UD09HE8 WH-UD12HE8 WH-UD16HE8 WH-MDC09J3E5...

  • Page 10: General

    1 Model range, p. Intended use Aquarea air-to-water heat pumps from Panasonic are intended for use in space heating and domestic hot water (DHW) production and represent complete, high-quality heating systems. If required, they can be combined with hot water tanks, solar thermal or photovoltaic systems and/or further heat sources powered by electricity, oil or gas.
  • Page 11 General Information for using this Manual Various notices, symbols and text representations used in this Manual are briefly explained below. Safety-related information Safety-related information, including product safety labels, safety notes and warning messages, warns the user about dangers and provides instructions for the safe and proper use of the product. In this manual, the following layout and symbols are used for warning messages: WARNING This signal word warns of a potentially hazardous situation which can lead to death or severe injury.

  • Page 12: Safety Notes

    ► Adherence is to be paid to the respective national electrical wiring regulations and safety arrangements with regard to residual current. Panasonic recommends using a residual current circuit breaker (RCCB). CAUTION Danger of frostbite from the skin coming into contact with the refrigerant Direct contact of the skin with the refrigerant can cause frostbite.

  • Page 13: General Safety Notes Relating To Preventing Material Damage

    The devices must only be operated with the refrigerants described in this Manual or the respective operating instructions. The use of other refrigerants or multi-component refrigerants can lead to the devices being damaged and to safety risks. Panasonic will not accept any responsibility or liability whatsoever if incorrect refrigerants are used.
  • Page 14 Safety Notes Notices ● Whether air-to-water heat pumps are subject to approval depends on the national and local regulations in force at the installation site. In addition, all valid regulations, especially in the area of noise, must be observed. ● Attention must be paid to both the Safety Notes and information in the operating instructions for the respective devices and the information contained in this Manual.

  • Page 15: Product Description

    Product Description Product Description Operating Principle Pleasant indoor temperatures just above 20 °C are needed to ensure living comfort. This temperature does not differ much over most of the year, no matter what the outside temperature is. In contrast to heating with burners, which generate temperatures of several hundred degrees as part of the combustion process, a heat pump generates only the temperature that is needed at the moment.
  • Page 16 Product Description In a circulation process, ambient heat is brought to a higher temperature level. An environmentally- compatible refrigerant passes through four steps: ● In the evaporator (1), the refrigerant boils and goes from the liquid phase to the gaseous phase. In this step, heat is extracted from the environment. ●...
  • Page 17 Product Description EU Ecodesign Directive The European Union’s Ecodesign Directive 2009/125/EG provides the framework for establishing the determination of the EU-wide valid requirements applicable for the product design, with which the environmental loads and the CO -emission by energy consumption-related products are to be reduced throughout their total life cycle.
  • Page 18 Product Description pumps. In comparison with a heating, which is purely based on electrical power, the power sourcing is thus reduced to a quarter for the same heat production. Comparison of the power requirement of an Aquarea heat pump with a purely electrical heater for the same heat production 80 % 20 %...

  • Page 19: Heat Source

    Note With the Aquarea Designer, Panasonic offers a cost-free programme for heat pump dimensioning, which can be used for calculating the annual COP (see the section “Panasonic Aquarea Designer” in the planning chapter). Test certificates for applying for state promotion can be downloaded if required from the Download area of the Panasonic ProClub at www.PanasonicProClub.com.

  • Page 20: Heat Pump

    Heat pump 4.3.1 Functioning and Characteristics Panasonic has developed the heat pump, as the core of the heat pump system, in three different model series. This makes it possible to offer the best possible solution to address individual heat supply requirements for buildings: ●...

  • Page 21: Heat Use

    Legionella is particularly likely in water temperatures between 30 and 50 °C. Panasonic hot water tanks are fitted with an electrical heating rod (DHW tank booster heater) for comfortable hot water supply, which is only switched on when needed or for Legionella prophylaxis (sterilisation).

  • Page 22: Cooling

    If the contents of chloride and sulphate exceed 250 mg/l, water pretreatment is required. The warranty is invalidated at values above 250 mg/l. ► When using the Panasonic hot water tank, make sure that the water quality conforms to Directive 98/83/EC on drinking water quality.

  • Page 23: Model Types

    Product Description ATTENTION Danger of damage to building or risk of slipping in the floor area In the cooling mode, a drop below dew point can cause condensation of moisture from the air on the surface of the heat transfer systems. This can damage the building or pose the risk of slipping in the floor area.

  • Page 24: Series

    With the large number of different model variants, which illustrates the large variety of characteristics and functions of the Aquarea heat pumps, Panasonic can achieve a high level of flexibility and adaptability for the most varied applications. This is intended to offer the best possible solution to address individual heat supply and air-conditioning requirements for buildings using Aquarea heat pumps.

  • Page 25: Model Code

    Product Description Aquarea High Performance Aquarea T‑CAP Aquarea HT Control and connectivity Smart Grid Contact Smart Grid Contact Smart Grid Contact Wireless LAN Ready Wireless LAN Ready Range All in One from 3 to 16 kW (185 L) All in One from 9 to 16 kW (185 L) Bi-bloc from 9 to 12 kW Bi-bloc from 3 to 16 kW Bi-bloc from 9 to 16 kW...
  • Page 26 Product Description Model code for standard indoor units (bi-bloc systems) ‑ 0709 WH: Air-to-water heat pump Device type S: Standard indoor unit (hydrokit of the bi-bloc system) Construction D: Aquarea High Performance, X: Aquarea T-CAP, Q: Aquarea T-CAP Super Quiet, H: Aquarea HT Series C: Heating and cooling, F: Heating only Operating mode...

  • Page 27: Functions And Technical Data

    Product Description Model code for mono-bloc units ‑ WH: Air-to-water heat pump Device type M: Mono-bloc outdoor unit Construction D: Aquarea High Performance, X: Aquarea T-CAP, H: Aquarea HT Series C: Heating and cooling, F: Heating only Operating mode Nominal 05 to 16 (corresponds to 5 to 16 kW) heating capacity Device...

  • Page 28: Bi-Bloc System

    Product Description Easy operation ● Contol panel for standard and All in One bi-bloc systems is integrated in the hydrokit, but can be installed separately within the building in the same way as the control panel for mono-bloc systems ● Easy programming via the control panel ●...

  • Page 29: Components

    Product Description 4.6.2.1 Components All in One unit | J generation | Standard configuration (for 1 heating zone) WH-ADC0309J3E5     ‚ B Internal detail view of upper section (seen from Front side, Rear side   right side) A Internal view (seen from front side) 1 5 Vortex water flow sensor 16 Expansion vessel...
  • Page 30 Product Description All in One unit | J generation | Two-zone configuration (for 2 heating zones) WH-ADC0309J3E5B 23 24     B Internal detail view of upper section (seen from Front side, Rear side   right side) A Internal view (seen from front side) 1 7 Vortex water flow sensor 1 Air purge valve...
  • Page 31 Product Description All in One unit | J and H generation | Compact configuration (for 1 heating zone) WH-ADC0309J3E5C, WH-ADC1216H6E5C     B Internal view of upper section (seen 18 RCCB (for power supply) Front side, Rear side ...
  • Page 32 Product Description All in One unit | H generation | Standard configuration (for 1 heating zone) WH-ADC1216H6E5, WH-ADC0916H9E8 A Exterior view C Detailed view of upper section 1 Front panel 12 Air purge valve 2 Side panel 1 3 Vortex water flow sensor 3 Remote controller 14 3-way-valve (not visible) 4 Water pressure gauge...
  • Page 33 Product Description Hydrokit | J and H generation WH-SDC****J3E5, WH-SDC**H*E5, WH-SDC**H*E8, WH-SXC**H*E5, WH-SXC**H*E8, WH-SQC**H*E5, WH-SQC**H*E8 A Exterior view 12 Return water inlet (from space heating/cooling) 1 Front panel 13 Supply water outlet (to space heating/cooling) 2 Side panel 14 Refrigerant gas line 3 Remote controller 15 Refrigerant liquid line 4 Water pressure gauge...

  • Page 34: Dimensions

    Product Description Hydrokit | F generation – Only for HT series WH-SHF**F*E5, WH-SHF**F*E8 9 10 9 10 9 10 A Exterior view 11 Air purge valve 1 Front panel 12 Overload protector 2 Side panel 13 Expansion vessel (10 litres) 3 Handle 14 Backup heater B Internal view (seen from front side)
  • Page 35 Product Description Indoor units All in One unit (Standard) | J generation WH‑ADC0309J3E5 Front view Right side view Top view Bottom view 4 height-adjustable feet All in One unit (Two‑zone) | J generation WH‑ADC0309J3E5B Front view Right side view Top view Bottom view 4 height-adjustable feet Aquarea air-to-water heat pumps - Planning and installation manual - 02/2022...
  • Page 36 Product Description All in One unit (Compact) | J and H generation WH‑ADC0309J3E5C, WH‑ADC1216H6E5C Front view Right side view Top view Function Connector size Return water inlet (from space R 1¼" heating/cooling) Supply water outlet (to space R 1¼" heating/cooling) Fresh water inlet R ¾"...
  • Page 37 Product Description Hydrokit | J and H generation Hydrokit | F generation WH‑SDC****J3E5, WH‑SDC**H*E5, WH‑SDC**H*E8, WH‑SHF**F*E5, WH‑SHF**F*E8 WH‑SXC**H*E5, WH‑SXC**H*E8, WH‑SQC**H*E5, WH‑SQC**H*E8 Front view Right side view Right side view Front view 424,5 424,5 404,1 404,1 54,6 54,6 69,5 69,5 437,3 437,3 58,9 58,9...
  • Page 38 Product Description Aquarea High Performance bi‑bloc outdoor unit | 7 and 9 kW WH‑UD07JE5, WH‑UD09JE5‑1 Top view Left side view Front view Right side view Rear view (30) ) 0 4 318,5 Aquarea High Performance, T‑CAP and HT bi‑bloc outdoor unit | 9 to 16 kW WH‑UD**HE5, WH‑UD**HE8 WH‑UX**HE5, WH‑UX**HE8 WH‑UH**FE5, WH‑UH**FE8...
  • Page 39 Product Description T‑CAP Super Quiet bi‑bloc outdoor unit | 9 to 16 kW WH‑UQ**HE8 Top view (579) Left side view Front view Right side view Rear view 318,5 83,5 1283 Aquarea air-to-water heat pumps - Planning and installation manual - 02/2022...

  • Page 40: Technical Data

    Product Description 4.6.2.3 Technical Data All in One systems | Aquarea High Performance | J Generation | Single Phase | Heating and Cooling | 1 or 2 zones | R32 Single phase (Power to indoor) Kit 1 zone (for 2 zone add B at the end) KIT‑ADC03JE5 KIT‑ADC05JE5 KIT‑ADC07JE5...
  • Page 41 Product Description All in One systems | Aquarea High Performance | H Generation | Single Phase / Three Phase | Heating and Cooling | R410A Single phase (Power to indoor) Three phase (Power to indoor) KIT‑ADC12HE5 KIT‑ADC16HE5 KIT‑ADC09HE8 KIT‑ADC12HE8 KIT‑ADC16HE8 Heating capacity / COP (A +7 °C, W 35 °C) kW / –...
  • Page 42 Product Description All in One Compact systems | Aquarea High Performance | J Generation | Single Phase | Heating and Cooling | R32 Single phase (Power to indoor) KIT‑ADC03JE5C KIT‑ADC05JE5C KIT‑ADC07JE5C KIT‑ADC09JE5C‑1 Heating capacity / COP (A +7 °C, W 35 °C) kW / –...
  • Page 43 Product Description All in One Compact systems | Aquarea High Performance | H Generation | Single Phase | Heating and Cooling | R410A Single phase (Power to indoor) KIT‑ADC12HE5C KIT‑ADC16HE5C Heating capacity / COP (A +7 °C, W 35 °C) kW / –...
  • Page 44 Product Description All in One systems | Aquarea T-CAP | H Generation | Single Phase / Three Phase | Heating and Cooling | R410A Single phase (Power to indoor) Three phase (Power to indoor) KIT‑AXC09HE5 KIT‑AXC12HE5 KIT‑AXC09HE8 KIT‑AXC12HE8 KIT‑AXC16HE8 Heating capacity / COP (A +7 °C, W 35 °C) kW / –...
  • Page 45 Product Description All in One systems | Aquarea T-CAP | H Generation | Three Phase | Super Quiet | Heating and Cooling | R410A Three phase (Power to indoor) KIT‑AQC09HE8 KIT‑AQC12HE8 KIT‑AQC16HE8 Heating capacity / COP (A +7 °C, W 35 °C) kW / –...
  • Page 46 Product Description All in One Compact systems | T-CAP | H Generation | Single Phase | Heating and Cooling | R410A Single phase (Power to indoor) KIT‑AXC09HE5C KIT‑AXC12HE5C Heating capacity / COP (A +7 °C, W 35 °C) kW / – 9.00 / 4.84 12.00 / 4.74 Heating capacity / COP (A +7 °C, W 55 °C)
  • Page 47 Product Description Bi-bloc systems | Aquarea High Performance | J Generation | Single Phase | Heating and Cooling | R32 Single phase (Power to indoor) KIT‑WC03J3E5 KIT‑WC05J3E5 KIT‑WC07J3E5 KIT‑WC09J3E5 Heating capacity / COP (A +7 °C, W 35 °C) kW / – 3.20 / 5.33 5.00 / 5.00 7.00 / 4.76...
  • Page 48 Product Description Bi-bloc systems | Aquarea High Performance | H Generation | Single Phase / Three Phase | Heating and Cooling | R410A Single phase Three phase (Power to indoor) KIT‑WC12H6E5 KIT‑WC16H6E5 KIT‑WC09H3E8 KIT‑WC12H9E8 KIT‑WC16H9E8 Heating capacity / COP (A +7 °C, W 35 °C) kW / –...
  • Page 49 Product Description Bi-bloc systems | T-CAP | H Generation | Single Phase / Three Phase | Heating and Cooling | R410A Single phase (Power to indoor) Three phase (Power to indoor) KIT‑WXC09H3E5 KIT‑WXC12H6E5 KIT‑WXC09H3E8 KIT‑WXC12H9E8 KIT‑WXC16H9E8 Heating capacity / COP (A +7 °C, W 35 °C) kW / –...
  • Page 50 Product Description Bi-bloc systems | Aquarea T-CAP | H Generation | Three Phase | Super Quiet | Heating and Cooling | R410A Three phase (Power to indoor) KIT‑WQC09H3E8 KIT‑WQC12H9E8 KIT‑WQC16H9E8 Heating capacity / COP (A +7 °C, W 35 °C) kW / –...

  • Page 51: Mono-Bloc System

    Product Description Bi-bloc systems | Aquarea HT | F Generation | Single Phase / Three Phase | Heating Only | R407C Single phase (Power to indoor) Three phase (Power to indoor) KIT‑WHF09F3E5 KIT‑WHF12F6E5 KIT‑WHF09F3E8 KIT‑WHF12F9E8 Heating capacity / COP (A +7 °C, W 35 °C) kW / COP 9,00 / 4,64 12,00 / 4,46...

  • Page 52: Components

    Product Description ATTENTION Danger of water pipes freezing in ambient temperatures below 0 °C When the heating circuit is filled with water and the outside temperature falls below 0 °C, the water pipes of the mono-bloc system are at risk of freezing up. This can damage the mono-bloc unit. The client should therefore ensure the absence of frost by taking one of the following measures: ►...

  • Page 53: Dimensions

    Product Description Mono-bloc unit | High Performance | H generation | 9 and 12 kW (WH-MDC**H6E5) Mono-bloc unit | T-CAP | J generation | 9 to 16 kW (WH-MXC**J3E5, WH-MXC**J*E8) Mono-bloc unit | T-CAP | H generation | 9 to 16 kW (WH-MXC**H3E5, WH-MXC**H*E8) Mono-bloc unit | HT | G generation | 9 and 12 kW (WH-MHF**G*E5) CAUTION CAUTION...
  • Page 54 Product Description Aquarea High Performance mono‑bloc unit | J generation | 5 to 9 kW WH‑MDC**J3E5 Top view (579) (10) Left side view Front view Right side view (20) 1283 Aquarea High Performance, T‑CAP and HT mono‑bloc unit | 9 to 16 kW WH‑MDC**H6E5 WH‑MXC**J3E5, WH‑MXC**J*E8, WH‑MXC**H3E5, WH‑MXC**H*E8 WH‑MHF**G*E5...

  • Page 55: Technical Data

    Product Description 4.6.3.3 Technical Data Mono-bloc systems | Aquarea High Performance | J Generation | Single Phase | Heating and Cooling | R32 Single phase Outdoor unit WH‑MDC05J3E5 WH‑MDC07J3E5 WH‑MDC09J3E5 Heating capacity / COP (A +7 °C, W 35 °C) kW / –...
  • Page 56 Product Description Mono-bloc systems | Aquarea High Performance | H Generation | Single Phase | Heating and Cooling | R410A Single phase Outdoor unit WH‑MDC12H6E5 WH‑MDC16H6E5 Heating capacity / COP (A +7 °C, W 35 °C) kW / – 12.00 / 4.74 16.00 / 4.28 Heating capacity / COP (A +7 °C, W 55 °C) kW / –...
  • Page 57 Product Description Mono-bloc systems | Aquarea T-CAP | J Generation | Single Phase / Three Phase | Heating and Cooling | R32 Single phase Three phase Outdoor unit WH‑MXC09J3E5 WH‑MXC12J6E5 WH‑MXC09J3E8 WH‑MXC12J9E8 WH‑MXC16J9E8 Heating capacity / COP (A +7 °C, W 35 °C) kW / –...
  • Page 58 Product Description Mono-bloc systems | Aquarea T-CAP | H Generation | Single Phase / Three Phase | Heating and Cooling | R410A Single phase Three phase Outdoor unit WH‑MXC09H3E5 WH‑MXC12H6E5 WH‑MXC09H3E8 WH‑MXC12H9E8 WH‑MXC16H9E8 Heating capacity / COP (A +7 °C, W 35 °C) kW / –...

  • Page 59: Control

    Product Description Mono-bloc systems | Aquarea HT | G Generation | Single Phase | Heating only | R407C Single phase Outdoor unit WH‑MHF09G3E5 WH‑MHF12G6E5 Heating capacity / COP (A +7 °C, W 35 °C) kW / – 9.00 / 4.64 12.00 / 4.46 Heating capacity / COP (A +7 °C, W 65 °C) kW / –...

  • Page 60: Remote Controller For J And H Generation Models

    Product Description domestic hot water tank this function is available only after the external domestic water temperature sensor is installed, electrically connected and enabled via the remote controller.) IMPORTANT As it is not possible to cover all variants of remote controller functions for all models within the scope of this manual, only the most recent remote controller for the J generation and its functions are explained in detail to serve as an example.
  • Page 61 Product Description Heating Auto Domestic hot water production Cooling Auto heating Heat pump in operation Auto cooling 2 Operating Symbols Display of the currently set function: Holiday mode Powerful operation mode Electric heating element for water heating Weekly timer Demand control, SG ready or Solar mode Quiet mode Electric heating element for...
  • Page 62 Product Description 10 Operation indicator Lights up during operation and flashes if there is a fault. 11 Navigation keys (arrow keys) Down Left Right Selecting a menu element or entering a value 12 Confirmation Key Confirming the selected setting or the selected value 13 Quick menu button Invoking the Quick Menu with the following options: Force DHW Force defrost Quiet mode Error reset...
  • Page 63 Product Description Anti freezing Activating or deactivating the anti-freezing function while the device is switched off. Base pan heater Choice whether an optional base pan heater is connected or not and its use type: Type A - The base pan heater is only switched on during defrost mode. Type B -The base pan heater is switched on at temperatures of 5 °C and below.
  • Page 64 Product Description Note Detailed information about the control functions is given in the operating instructions (→ 200) and in the Service manual of the 8.1 Operating instructions extract (J Generation), p. device concerned. Additional functions of the remote controller on connecting the optional PCB CZ-NS4P The installation of the optional PCB CZ-NS4P (→...

  • Page 65: Remote Controller For F And G Generation Models

    Product Description Demand control Limiting the operating current according to the actual power requirement through a 0--10 Volt input signal. For safe- ty reasons, a minimum operating current is applied for every device. For the change between two power stages, there is a switching hysteresis of 0.2 V (see table). The voltage values are only taken into consideration to the first decimal place and not rounded.

  • Page 66: External Interfaces For J And H Generation Models

    Product Description 4.7.2.1 External interfaces for J and H generation models The overview of external interfaces is valid for the following models: Bi‑bloc systems with All in One unit Bi‑bloc systems with hydrokit Mono‑bloc systems High Performance | J Generation | R32 High Performance | J Generation | R32 High Performance | J Generation | R32 WH-ADC0309J3E5 + WH-UD**JE5(-1)
  • Page 67 Tank temperature Use component according to the 2 × min. 3 to 4 sensor Panasonic specifications. 0.3 mm² Maximum total cable length: 30 m Overload protection for Allows connection of the overload protection System setting needed. 2 × min.
  • Page 68 Product Description Electric heater of the domestic hot water tank ● The maximum power output of the electric tank heater should be maximum 3 kW. ● The cable of the electric tank heater must be 3 x min. 1.5 mm² and conform to the code 60245 IEC 57 or higher.
  • Page 69 Product Description Overload protection ● The cable of the overload protection should be 2 x min. 0.5 mm² and have a double insulated PVC- or rubber-jacket cable. ● Maximum total cable length: 30 m Optional PCB CZ-NS4P Overview of the external interfaces Optional thermostat 2 Optional thermostat 1 Mixing valve 1...
  • Page 70 Product Description Terminals Connection Function Condition Cable cross section CN205 Temperature For measuring the buffer tank temperature Maximum total cable length: 30 m 2 × min. 5 to 6 sensor for buffer tank 0.3 mm² PAW-A2W-TSBU CN206 SG signal Smart Grid switch Must be connected to both contacts.

  • Page 71: External Interfaces For F And G Generation Models

    Product Description Room thermostat for heating circuits 1 and 2: ● The cables of the room thermostats for heating circuits 1 and 2 must each be 4 x min. 0.5 mm² and conform to the code 60245 IEC 57 or higher. ●...

  • Page 72: Accessories

    (tank heater) additionally ensures maximum comfort, even at very low outside temperatures, and can also be used for sterilisation. Panasonic offers various DHW tank models in different sizes for easy domestic hot water production for different requirements. Aquarea air-to-water heat pumps - Planning and installation manual - 02/2022...

  • Page 73: Stainless Steel Domestic Hot Water Tanks

    ● Sacrificial magnesium anode (for enamelled hot water tanks only) ● Thermostatic overload protection ● Adjustable feet ● Insulation in polyurethane foam (Panasonic U-Vacua™ insulation with minimised thermal conductivity in case of stainless steel hot water tanks) ● 3-way switchover valve set PAW-3WYVLV-SI or CZ-NV1 available as optional accessory.
  • Page 74 Product Description Connections PAW‑ PAW‑ PAW‑ Connection TD20C1E5 TD30C1E5 TD30C1E5‑HI Hot water outlet 3/4“ BSP 3/4“ BSP 3/4“ BSP female female female Circulation pipe inlet 3/4“ BSP 3/4“ BSP 3/4“ BSP female female female Supply water inlet from 3/4“ BSP 3/4“...

  • Page 75: Enamelled Domestic Hot Water Tanks

    Product Description 4.8.1.2 Enamelled domestic hot water tanks With their generously dimensioned heating surfaces for increased heat transfer, the enamelled hot water tanks are optimally suited for combination with Aquarea heat pumps. They are all equipped with a sacrificial anode for improved protection against corrosion and reach a maximum supply water temperature of 95 °C.
  • Page 76 Product Description A Internal view 1 Thermometer 2 Cover of electric tank heater (Ø 180 mm) 3 Adjustable foot (x 3, 120° angle) 4 Sacrificial magnesium anode 5 Heat insulation (50 mm thick) 6 Hot water tank 7 Heat exchanger coil PAW‑TA20C1E5STD / PAW‑TA30C1E5STD / PAW‑TA40C1E5STD Connections A Top view for floor-standing installation 1 Detail view of water piping connections on top side...
  • Page 77 Product Description Dimensions X Floor‑standing installation Y Wall‑mounted installation Dimension PAW‑TA15C1E5STD 1,210 D (Ø) G (Ø) Unit: mm PAW‑TA15C1E5STD PAW‑ PAW‑ PAW‑ Dimension TA20C1E5STD TA30C1E5STD TA40C1E5STD 1,340 1,797 1,832 1,000 1,036 1,245 G (Ø inside) H (Ø outside) Unit: mm PAW‑TA20C1E5STD / PAW‑TA30C1E5STD / PAW‑TA40C1E5STD Aquarea air-to-water heat pumps - Planning and installation manual - 02/2022...
  • Page 78 Product Description PAW-TA30C2E5STD This enamelled hot water tank offers, besides all the above-mentioned properties, the addi- tional option of using it as a bivalent tank with two heat exchangers e.g. for combination with a solar system. PAW‑TA30C2E5STD Components A Internal view 1 Thermometer 2 Cover of electric tank heater (Ø...
  • Page 79 This enamelled hot water tank has a square footprint and the outer dimensions of a regular household device like e.g. a refrigerator. It is best suited for combinaion with the Panasonic Heat recovery ventilation unit, because the ventilation unit has the same footprint and fits perfectly on top the compact hot water tank.
  • Page 80 Product Description Connections Connection PAW‑TA20C1E5C Supply water outlet to heating circuit 1″ Supply water inlet from the heat pump 1″ Circulation pipe inlet (plugged) 1/2″ Fresh water inlet 3/4″ Hot water outlet 3/4″ Return water outlet to the heat pump 1″...

  • Page 81: Buffer Tanks

    2 Energy efficiency class scale from A+ to F. Note: Enamelled Tanks and Square Tank are produced by AEmail. 4.8.2 Buffer Tanks Panasonic offers a variety of stainless steel buffer tanks in different sizes. A buffer tank can reduce the number of start and stop sequences...
  • Page 82 Product Description Connections PAW‑BTANK50L‑2 / Connection PAW‑BTANK100L Air purge valve 1/2″ BSPP female Upper supply/return connection 1″ BSPP female Lower supply/return connection 1″ BSPP female Drain valve 1/4″ BSPP female Unit: Inches (") Dimensions Dimension PAW‑BTANK50L‑2 PAW‑BTANK100L 1,243 1,175 F (Ø) Unit: mm PAW-BTANK200L / PAW-BTANK300L Components 1 Buffer tank with sensor bracket 2 Automatic air vent (included) 3 Drain cock (included) 4 1“...
  • Page 83 Product Description Connections PAW‑BTANK200L / Connection PAW‑BTANK300L Air purge valve 1/2″ BSPP female Upper supply/return connection 1″ BSPP female Lower supply/return connection 1″ BSPP female Drain valve 1/2″ BSPP female Unit: Inches (") Dimensions Dimension PAW‑BTANK200L PAW‑BTANK300L 1,340 1,820 1,275 1,755 1,421 F (Ø) Unit: mm 30° 150° 45°...

  • Page 84: Combo Tanks

    ● Hydraulic disconnection of heat pump and heat consumer circuits ● Ensuring minimum required water volume in the heating system ● Buffer function for optimum operation of the Aquarea heat pumps Panasonic offers one enamelled Combo Tank (PAW-TD20B8E3-2) and one stainless steel Combo Tank (PAW-TD23B6E5). Note When installing a Combo Tank, observe the respective installation instructions enclosed with each model.
  • Page 85 Product Description Connections Connection PAW‑TD20B8E3‑2 Return water outlet to the heat pump 3/4″ (male) Supply water inlet from the heat pump 3/4″ (male) Drain valve of the hot water tank 1/2″ (female) Drain valve of the buffer tank 1/2″ (female) Supply water outlet to heating circuit 3/4″ (male) Return water inlet from heating circuit 3/4″ (male)
  • Page 86 Product Description Stainless steel Combo Tank: PAW-TD23B6E5 Components A Internal view (seen from front side) B Top view 1 Air purge valve for DHW tank 2 Return water outlet to the heat pump 3 Supply water inlet from the heat pump 4 Temperature and pressure valve 5 Hot water outlet 6 Fresh water inlet...

  • Page 87: Residential Ventilation Unit With Heat Recovery

    Note: Enamelled Combo Tank is produced by Lapesa. Stainless Steel Combo Tank is produced by OSO. 4.8.4 Residential ventilation unit with heat recovery PAW-A2W-VENTA-L / PAW-A2W-VENTA-R The Panasonic residential ventilation unit with heat recovery is designed to serve two impor- tant purposes: ensuring a good indoor air quali- ty and recovering heat that would otherwise be lost through manual ventilation.
  • Page 88 EC technology fans. For a space-saving solution, the compact ventilation unit is optimised for installation atop the Panasonic Square Tank (PAW-TA20C1E5C) or the Aquarea All in One Compact indoor units (WH- ADC0309J3E5C, WH-ADC1216H6E5C). However, it can also be combined with Aquarea mono- bloc or bi-bloc systems.
  • Page 89 Product Description Dimensions PAW‑A2W‑VENTA‑L/‑R PAW‑A2W‑VENTA‑L PAW‑A2W‑VENTA‑R Left side view Front view Front view PAW‑A2W‑VENTA‑L PAW‑A2W‑VENTA‑R Top view Top view Ø125(x4) Ø125(x4) Ø125(x4) Ø125(x4) Unit: mm Technical data Heat recovery Ventilation unit PAW-A2W-VENTA-L PAW-A2W-VENTA-R Supply side Left Right Nominal airflow rate @ 50 Pa m³/h Maximum airflow rate @ 100 Pa m³/h Specific fan power (SFP) @ 204 m³/h 1.24...

  • Page 90: Recommended On-Site Accessories

    Note: Heat recovery Ventilation unit is produced by Systemair. 4.8.5 Recommended on-site accessories Panasonic recommends the following on-site accessories It is particularly advisable to use building components and accessories recommended by the manufacturer. Use the correct interfaces (→ 65) and connection conditions when connecting 4.7.2 External interfaces (inputs/outputs), p.

  • Page 91: Planning

    Planning with Panasonic Aquarea Designer Online Tool For easy and quick calculation as well as optimisation of heating systems with heat pump, Panasonic offers the Aquarea Designer Online Tool, which is accessible for free on www.PanasonicProClub.com. The online tool offers the following functions: ●...

  • Page 92: Refrigeration Technology And Performance Criteria

    Planning View of the initial screen of the Panasonic Aquarea Designer Online Tool Refrigeration technology and performance criteria 5.1.1 Determination of design outside temperature and design heat load The heat load of a building is determined according to EN 12831 “Energy performance of buildings - Method for calculation of the design heat load”...

  • Page 93: Determination Of The Domestic Hot Water Demand

    The approximate calculation method shown only yields rough reference values for the heat load. For correct designing, a heating expert must precisely calculate the required heating capacity in order to provide the correct design. Panasonic cannot be held responsible for any wrong calculations under any circumstances.

  • Page 94: Determination Of The Heating Surface Temperature

    Planning CAUTION Danger of illnesses due to growth of Legionella in water Legionella can grow in domestic hot water tanks, and can cause infectious diseases in humans. ► Respect European and national requirements for avoiding Legionella multiplication (example in Germany: DVGW Worksheet W551). For domestic hot water tanks with more than 400 litres volume as well as in buildings with more than two residential units, there may be higher requirements than for one and two family houses.

  • Page 95: Determination Of The Pipe Length Correction Factor For Bi-Bloc Systems

    Planning Bivalent parallel operating mode (mono-energetic) via the heat pump’s internal electric backup heater Maximum heat load 100 % Bivalence point Outside temperature (°C) IMPORTANT The bivalence point is defined individually for each building (→ 5.1.6 Calculation example: total 95). Due to the inverter technology, Aquarea heat pumps can work heating capacity required, p.

  • Page 96: Cooling

    Planning For calculating the total heating capacity required, all the above-mentioned criteria should be taken into consideration together: 1. Design outside temperature 2. Design heat load 3. Tank charging (time required for domestic hot water production with the heat pump) 4.

  • Page 97: Cooling With Underfloor Heating

    Planning ATTENTION Risk of damage to building or of slipping on the floor In cooling mode, a temperature drop below dew point can cause condensation of moisture from the air on the surface of the heat transfer systems. This can damage the building or pose the risk of slipping on the floor.

  • Page 98: Sound Power Level For Approximate Calculation Of The Sound Pressure Level

    Planning Conversation 10,000 Normal Road 100,000 Loud Press air hammer 1,000,000 Very loud The result of the non-linear perception of the sound pressure is that two equally loud sound sources are not perceived doubly as loud as one sound source, but only as 3 dB louder than one sound source.
  • Page 99 Planning A rough determination of the sound pressure level L at a certain location at a distance r to the heat pump can be calculated with the following formula and based on the sound power level L Waeq + 10 × log WAeq 4 ×...

  • Page 100: Installation Of A Bi-Bloc System

    Planning IMPORTANT The sound propagation can be facilitated or reduced by selecting the installation location. Avoid setting up on reverberant floor surfaces. Sound propagation can be reduced further by construction obstacles, but the air flow should not be hindered. Choice of the blowing direction of the outdoor or mono-bloc unit should preferably be towards the road, because neighbouring rooms requiring protection rarely face in this direction.

  • Page 101: Installation Conditions For Outdoor Units

    Planning 5.2.2.1 Installation conditions for outdoor units The installation conditions for the outdoor unit are as follows: ● The outdoor unit is designed for outdoor installation only and must not be installed indoors. ● For condensed water drainage in defrost mode, drainage is recommended via a drain pipe to the frost-free ground with gravel fill (→...

  • Page 102: Securing The Outdoor Unit

    Planning Correct arrangement of multiple outdoor units with representation of the air flow direction Wrong Correct 1 Minimum distance: 100 mm 5.2.2.3 Securing the outdoor unit 620* The outdoor unit must be mounted on a flat, horizontal and solid surface. Besides the weight of the 420* device, the weight of the water must also be taken into account.

  • Page 103: Requirements Of The Room For Installation Of The Indoor Unit

    The devices must only be operated with the refrigerants described in this Manual or the respective operating instructions. The use of other refrigerants or multi-component refrigerants can lead to the devices being damaged and to safety risks. Panasonic will not accept any responsibility or liability whatsoever if incorrect refrigerants are used.
  • Page 104 Planning Indoor floor area requirement for R32 models Due to the classification of R32 with regard to safety, toxicity and flammability, limitations regarding the refrigerant quantity in relation to the floor area must be observed based on the applicable standards: ●...
  • Page 105 Planning Table I: Maximum refrigerant charge allowed in a room (m²) Maximum refrigerant (m²) Maximum refrigerant (m²) Maximum refrigerant room room room charge (m ) (kg) charge (m ) (kg) charge (m ) (kg) H = 0.6 m H = 0.6 m H = 0.6 m 0.138 1.371...
  • Page 106 Planning Step C: Determine the minimum venting opening area (VA ) for natural ventilation: 1. Determine the excess refrigerant charge quantity (m ), as specified in Table III (see excess below). 2. Then determine the minimum ventilation opening area (VA ) corresponding to the determined m value, as specified in Table III, for natural ventilation between the...

  • Page 107: Installation Conditions For Indoor Units (Hydrokit Or All In One Unit)

    Planning 5.2.2.5 Installation conditions for indoor units (hydrokit or All in One unit) The installation conditions for the indoor units are as follows: ● The indoor units are designed for indoor installation only and must not be installed outdoors. ● The installation space must be dry and frost-free and the installation location easily accessible for maintenance work.
  • Page 108 Planning Hydrokit H generation Hydrokit F generation 2100 Minimum distances hydrokit H generation Minimum distances hydrokit F generation 1 Minimum distance: 100 mm 1 Minimum distance: 300 mm 2 Minimum distance: 800 mm 2 Minimum distance: 600 mm IMPORTANT As the compressor is in the outdoor unit of the bi-bloc system, only the operation of the circulation pump in the hydrokit or All in One unit needs to be taken into consideration as the cause for the development of operating noise.

  • Page 109: Installation Of A Mono-Bloc System

    Planning IMPORTANT Due to the available volume of about 6.25 m³, the installation room in this example is only suitable for single-phase systems of the Aquarea High Performance series with R410A refrigerant. For all other models with a larger quantity of R410A or using one of the two other refrigerants (R32, R407C) the practical limit c will be exceeded (for R32 is c = 0.061 kg/m³, for R410A is c = 0.44 kg/m³...

  • Page 110: Installation Conditions For Mono-Bloc Units

    Planning 5.2.3.1 installation conditions for mono-bloc units The installation conditions for mono-bloc units are as follows: ● The mono-bloc units are designed for outdoor installation only and must not be installed indoors. ● For condensed water drainage in defrost mode, drainage is recommended via a drain pipe to the frost-free ground with gravel fill (→...

  • Page 111: Securing The Mono-Bloc Unit

    Planning Correct arrangement of multiple mono-bloc devices with representation of the air flow direction Wrong Correct 1 Minimum distance: 100 mm 5.2.3.3 Securing the mono-bloc unit The mono-bloc unit must be mounted on a flat, horizontal and solid surface. Besides the weight of the device, the weight of the water must also be taken into account.

  • Page 112: Hydraulics

    To rule this out, Panasonic recommends to always equip heat transfer systems, which have no hydraulic separation, with an overflow valve between the supply and the return heating pipe.

  • Page 113: Hydraulic Balancing

    Planning Consideration of the nominal flow rate For efficient heat generation, heat pumps use a temperature difference of about 5 K between the supply and return water flow. This distinguishes them from heat sources with boilers, which can work without any problem with a temperature difference of about 10 or 20 K between the supply and return water flow.
  • Page 114 Planning Model-specific limit values for the integrated expansion vessel WH-MDC05J3E5 All other models WH-MDC07J3E5 WH-MDC09J3E5 Expansion vessel volume Initial pressure Total water quantity in the heating system (max.) Static height Pressure stage safety valve (max.) In case the total quantity of water is greater than 150 or 200 litres, or greater static heights are required, it is necessary to maintain the pressure by means of an expansion vessel to be installed on site.

  • Page 115: Heating Water Quality

    Planning Note The calculation of the expansion vessel is done according to EN 12828 “Heating systems in buildings – Design for water-based heating systems”. The design programs for expansion vessels, which are provided by the respective manufactuerer, can be used to design the expansion vessel based on the local requirements.

  • Page 116: Electricals

    ► Adherence is to be paid to the respective national electrical wiring regulations and safety arrangements with regard to residual current. Panasonic recommends using a residual current circuit breaker (RCCB). ATTENTION Danger of damage due to unprofessional installation ►...
  • Page 117 Planning Bi-bloc systems with All in One unit Models Power supply 1 Power supply 2 Phases Max. current Max. power Min. cable size Phases Max. current Max. power Min. cable size consumption consumption (mm²) consumption consumption (mm²) (kW) (kW) WH-ADC0309J3E5(B/C) + 12.0 2.59 3 x 1.5...
  • Page 118 Planning Models Power supply 1 Power supply 2 Phases Max. current Max. power Min. cable size Phases Max. current Max. power Min. cable size consumption consumption (mm²) consumption consumption (mm²) (kW) (kW) WH-ADC0916H9E8 + 5.85 5 x 1.5 13.0 5 x 1.5 WH-UD09HE8 WH-ADC0916H9E8 + 5.85...
  • Page 119 Planning For All in One unit WH-ADC0309J3E5C: ● The equipment’s power supply 1 complies with IEC/EN 61000-3-2. ● The equipment’s power supply 1 complies with IEC/EN 61000-3-3 and can be connected to current supply network. ● The equipment’s power supply 2 complies with IEC/EN 61000-3-2. ●...
  • Page 120 Planning Bi-bloc systems with hydrokit Models Power supply 1 Power supply 2 Phases Max. current Max. power Min. cable size Phases Max. current Max. power Min. cable size consumption consumption (mm²) consumption consumption (mm²) (kW) (kW) WH-SDC0305J3E5 + 12.0 2.59 3 x 1.5 13.0 3 x 1.5...
  • Page 121 Planning POWER SUPPLY 2 POWER SUPPLY 1 RCCB and power supplies Indoor unit /outdoor unit connection For model WH-SHF09F3E8 Terminals on outdoor unit Terminals on indoor unit L B1 L B2 L B3 L A1 L A2 L A3 RCCB Terminals on disconnector of the power supply POWER SUPPLY 2 POWER SUPPLY 2...
  • Page 122 Planning For hydrokit WH-SDC0305J3E5 or WH-SDC0709J3E5: ● The equipment’s power supply 1 complies with IEC/EN 61000-3-2. ● The equipment’s power supply 1 complies with IEC/EN 61000-3-3 and can be connected to current supply network. ● The equipment’s power supply 2 complies with IEC/EN 61000-3-2. ●...
  • Page 123 Planning For hydrokit WH-SDC12H9E8, WH-SDC16H9E8, WH-SXC12H9E8, WH-SXC16H9E8, WH-SQC12H9E8 or WH-SQC16H9E8: ● The equipment’s power supply 1 complies with IEC/EN 61000-3-2. ● The equipment’s power supply 1 complies with IEC/EN 61000-3-3 and can be connected to current supply network. ● The equipment’s power supply 2 complies with IEC/EN 61000-3-2. ●...
  • Page 124 Planning Mono-bloc systems Models Power supply 1 Power supply 2 Phases Max. current Max. power Min. cable size Phases Max. current Max. power Min. cable size consumption consumption (mm²) consumption consumption (mm²) (kW) (kW) WH-MDC05J3E5 12.0 2.59 3 x 1.5 13.0 3 x 1.5 WH-MDC07J3E5...
  • Page 125 Planning Models Power supply 1 Power supply 2 Phases Max. current Max. power Min. cable size Phases Max. current Max. power Min. cable size consumption consumption (mm²) consumption consumption (mm²) (kW) (kW) WH-MXC12J9E8 11.8 7.93 5 x 1.5 13.0 5 x 1.5 WH-MXC16J9E8 –...
  • Page 126 Planning For mono-bloc unit WH-MDC12H6E5 or WH-MDC16H6E5: ● This equipment’s power supply 1 complies with IEC/EN 61000-3-12 provided that the short circuit power Ssc is greater than or equal to 1,100 kW at the interface point between the user’s supply and the public system. It is the responsibility of the installer or user of the equipment to ensure, by consultation with the distribution network operator if necessary, that the equipment is connected only to a supply with a short circuit power Ssc greater than or equal to 1,100 kW.
  • Page 127 Planning For hydrokit WH-MXC09J3E8 or WH-MXC09H3E8: ● The equipment’s power supply 1 complies with IEC/EN 61000-3-2. ● The equipment’s power supply 1 complies with IEC/EN 61000-3-3 and can be connected to current supply network. ● The equipment’s power supply 2 complies with IEC/EN 61000-3-2. ●...

  • Page 128: Electricity Meters And Rates

    Key for the capacity tables The values in the capacity tables show the Panasonic measurement data matching with EN 14511- 2. The data should be considered as reference values and do not offer any performance guarantee.
  • Page 129 Planning WH-UD09JE5-1 Tamb 4,95 1,93 2,56 6,20 3,00 2,07 5,28 3,09 1,71 4,23 3,33 1,27 — — — 7,58 2,70 2,81 7,40 3,20 2,31 6,29 3,26 1,93 5,20 3,42 1,52 — — — 6,39 1,81 3,53 6,12 2,20 2,78 5,88 2,61 2,25 5,90...
  • Page 130 Planning Bi-bloc systems | Aquarea High Performance | H Generation | Three Phase | Heating and Cooling | R410A WH-UD09HE8 Tamb 8.65 3.06 2.83 8.30 3.21 2.59 7.95 3.41 2.33 7.60 3.61 2.11 7.15 3.71 1.93 6.70 3.81 1.76 9.35 2.91 3.21 9.00...
  • Page 131 Planning WH-MDC09J3E5 Tamb 5.33 2.36 2.26 6.43 3.60 1.79 5.78 3.83 1.51 4.83 3.64 1.33 — — — 7.76 3.20 2.43 7.60 3.41 2.23 7.00 3.71 1.89 5.60 3.80 1.47 — — — 7.39 2.45 3.02 7.50 2.85 2.63 7.30 3.37 2.17 7.00...
  • Page 132 Planning Bi-bloc systems | Aquarea T-CAP | H Generation | Single Phase / Three Phase | Heating and Cooling | R410A WH-UX09HE5 Tamb 9.00 3.24 2.78 9.00 3.51 2.56 9.00 3.91 2.30 9.00 4.30 2.09 9.00 4.73 1.90 9.00 5.16 1.74 9.00 2.71...
  • Page 133 Planning WH-UQ12HE8 Tamb 12.00 4.75 2.53 12.00 4.96 2.42 12.00 5.41 2.22 12.00 5.86 2.05 11.80 6.24 1.89 11.60 6.62 1.75 12.00 3.85 3.12 12.00 4.41 2.72 12.00 4.98 2.41 12.00 5.54 2.17 12.00 5.90 2.03 12.00 6.26 1.92 12.00 3.19 3.76 12.00...
  • Page 134 Planning WH-MXC12J6E5 Tamb 11.40 2.10 5.43 13.60 2.09 6.51 15.00 2.06 7.28 12.00 2.87 4.18 15.70 3.60 4.36 14.00 2.56 5.47 12.00 4.14 2.90 13.60 4.35 3.13 12.00 3.04 3.95 10.30 4.89 2.11 11.80 4.98 2.37 10.40 3.72 2.80 Mono-bloc systems | Aquarea T-CAP | H Generation | Single Phase / Three Phase | Heating and Cooling | R410A WH-MXC09H3E5 / WH-MXC09H3E8 Tamb...
  • Page 135 Planning Bi-bloc systems | Aquarea HT | F Generation | Single Phase / Three Phase | Heating Only | R407C WH-UH09FE5 Tamb 9.00 3.46 2.60 9.00 3.71 2.43 9.00 4.01 2.24 8.80 4.26 2.07 8.60 4.61 1.87 8.50 4.91 1.73 8.00 5.06 1.58...

  • Page 136: Application Examples

    The hydraulic schematics were created with the Hydraulic Scheme Generator. Based on the installation requirements entered, this online tool creates an exact hydraulic schematic to facilitate the proper connection of the heat pumps. Panasonic provides it free of cost at www.PanasonicProClub.com.

  • Page 137: Example 1: One-Zone System Without Buffer Tank

    Planning 5.6.1 Example 1: One-zone system without buffer tank Hydrokit, T-CAP, 9 kW, 3 Ph, domestic hot water tank WH-SxC09H3E8 PAW-TDxxC1E5(-UK) [9 kW] PAW-A2W-TSOD [E36] WH-Ux09HE8 [9 kW] H25 [E28] H9 [E29] Ø15,88 Ø 9,52 PAW-A2W-TSRT PAW-A2W-TSOD CZ-TK1 AC 230 V Aquarea air-to-water heat pumps - Planning and installation manual - 02/2022...

  • Page 138: Example 2: Two-Zone System With Buffer Tank

    Planning 5.6.2 Example 2: Two-zone system with buffer tank Hydrokit, T-CAP, 9 kW, 3 Ph, domestic hot water tank PAW-TDxxC1E5(-UK) WH-SxC09H3E8 [9 kW] PAW-A2W-TSOD [E36] CZ-NS4P H12 [E39] H9 [E53] PAW-A2W-TSHC [E45] H13[E52] H14 [E58] PAW-A2W-TSBU [E42] WH-Ux09HE8 [9 kW] H25 [E28] PAW-A2W-TSHC [E44] H9 [E54]...

  • Page 139: Example 3: Single-Phase Two-Zone System

    Planning 5.6.3 Example 3: Single-phase two-zone system Hydrokit, High Performance, 7/9 kW, domestic hot water tank PAW-TDxxC1E5(-UK) WH-SDC0709J3E5 [7-9 kW] PAW-A2W-TSOD [E36] CZ-NS4P H12 [E39] H9 [E53] PAW-A2W-TSHC [E45] H13[E52] H14 [E58] H25 [E28] WH-UDxxJE5(-1) [7-9 kW] PAW-A2W-TSHC [E44] H9 [E54] Ø15,88 Ø...

  • Page 140: Example 4: Bivalent Two-Zone System With Buffer Tank

    Planning 5.6.4 Example 4: Bivalent two-zone system with buffer tank Hydrokit, T-CAP, 9 kW, second heat source, domestic ot water tank, 2 heating zones H15[E32] PAW-TA30C2E5STD WH-SxC09H3E8 [9 kW] PAW-A2W-TSOD [E36] CZ-NS4P H12 [E39] H9 [E53] PAW-A2W-TSHC [E45] WH-Ux09HE8 [9 kW] H13[E52] H14 [E58] PAW-A2W-TSBU [E42]...

  • Page 141: Example 5: Two-Zone System With Integrated Domestic Hot Water Tank

    Planning 5.6.5 Example 5: Two-zone system with integrated domestic hot water tank All in One unit in two-zone configuration (“B”), High Performance, 3/5 kW H9 [E54/E40] H9 [E53/E41] WH-ADC0309J3E5B HxWxD (mm) 1800x598x717 H4[E33] PAW-A2W-TSOD [E36] WH-UD0*JE5 [3-5 kW] HxWxD (mm) 622x824x298 230 V [E62] [E63] 230 V [E61]...

  • Page 142: Example 6: One-Zone System With Integrated Domestic Hot Water Tank

    Planning 5.6.6 Example 6: One-zone system with integrated domestic hot water tank All in One unit in standard configuration, High Performance, 9/12/16 kW H9 [E29] WH-ADC0916H9E8 PAW-A2W-TSOD [E36] WH-UxxxHE8 [9-16 kW] Ø15,88 Ø 9,52 PAW-A2W-TSRT PAW-A2W-TSOD CZ-TK1 AC 230 V Aquarea air-to-water heat pumps - Planning and installation manual - 02/2022...

  • Page 143: Example 7: Bivalent Two-Zone System With Solar Heating System

    Planning 5.6.7 Example 7: Bivalent two-zone system with solar heating system Hydrokit, second heat source, solar heat, bivalent hot water tank, buffer tank PAW-A2W-TSSO [E47] H15[E32] H17[E56] PAW-TA30C2E5STD WH-SDC0305JE5 [3-5 kW] PAW-A2W-TSOD [E36] CZ-NS4P H12 [E39] H9 [E53] PAW-A2W-TSHC [E45] H13[E52] H14 [E58] PAW-A2W-TSBU [E42]...

  • Page 144: Example 8: Two-Zone System With Swimming Pool

    Planning 5.6.8 Example 8: Two-zone system with swimming pool Hydrokit, domestic hot water tank, buffer tank, swimming pool heating PAW-TDxxC1E5(-UK) WH-SDC0305J3E5 [3-5 kW] PAW-A2W-TSOD [E36] CZ-NS4P H12 [E39] H9 [E53] PAW-A2W-TSHC [E45] H13[E52] H14 [E58] PAW-A2W-TSBU [E42] H25 [E28] PAW-A2W-TSHC [E44] WH-UDxxJE5 [3-5 kW] PAW-A2W-TSHC [E43] Ø12,7...

  • Page 145: Key For The Application Examples

    8 bar) is integrated in the domestic hot water tank. connection distance and a maximum height difference between H24 Domestic hot water tank: In the case of Panasonic domestic hot indoor and outdoor unit applies, which is specified in the technical water tanks, the tank temperature sensor is included in the scope data and must be observed.
  • Page 146 Texts, photos and graphic representations may not be published, copied, marketed and disseminated by users and any third parties in any manner or by any method, until Panasonic itself has permitted this expressly in writing. Aquarea air-to-water heat pumps - Planning and installation manual - 02/2022...

  • Page 147: Installation

    ► Adherence is to be paid to the respective national electrical wiring regulations and safety arrangements with regard to residual current. Panasonic recommends using a residual current circuit breaker (RCCB). Aquarea air-to-water heat pumps - Planning and installation manual - 02/2022...
  • Page 148 The devices must only be operated with the refrigerants described in this Manual or the respective operating instructions. The use of other refrigerants or multi-component refrigerants can lead to the devices being damaged and to safety risks. Panasonic will not accept any responsibility or liability whatsoever if incorrect refrigerants are used.

  • Page 149: Preparing For Installation

    Installation ► Adhere to the prescribed sequence of installation steps. ► Only use parts and tools delivered with the equipment or as specified. ► As far as possible, avoid installation of outdoor units and mono-bloc devices near the sea, in regions with a high content of sulphur or at sites where large quantities of oil (e.g. machine oil, etc.) are present, as this may result in shortened operating life.
  • Page 150 Installation Transport and handling of the devices CAUTION Danger of injury due to carrying of heavy loads As the devices are very heavy, they must always be carried by at least two persons, otherwise there is a danger of injury due to overloading. ►...

  • Page 151: Creating A Hole In The Wall

    Installation Tools needed In general, it is advisable to use the following tools for the installation: ● Phillips head screw driver ● Spirit level ● Electric drill ● Core hole drill (ø 70 mm) ● Hexagon wrench set ● Adjustable spanner set ●...

  • Page 152: Setting Up Devices

    Installation 1 Inside 2 Wall 3 Outside 4 Sealing compound 5 Sleeve for cable grommet 6 Line bushing ø 70 mm a approx. 5 – 7 mm b 15 mm Setting up devices CAUTION Danger of injury due to carrying of heavy loads As the devices are very heavy, overloading poses a danger of injury while lifting and carrying them.

  • Page 153: Outdoor Units And Mono-Bloc Units

    Installation Hydrokit J or H generation > 375 > 375 1 Wall 2 Top mounting plate 3 Hexagon screw M8 with washer 4 Hydrokit 5 Bottom mounting plate 6 Hooks 7 Slots 8 Phillips head screw 6.4.2 Outdoor units and mono-bloc units Carry out the following steps to install the outdoor unit or mono-bloc unit: 1.
  • Page 154 Installation Drilling template for outdoor units and mono-bloc units Aquarea High Performance bi-bloc outdoor unit | 3 and 5 kW Aquarea High Performance bi-bloc outdoor unit | 9 and 7 kW WH-UD03JE5, WH-UD05JE5 WH-UD07JE5, WH-UD09JE5-1 823,4 68,5 21,9 (124) 53,4 Aquarea High Performance, T-CAP and HT bi-bloc outdoor T-CAP Super Quiet bi-bloc outdoor unit | 9 to 16 kW unit | 9 to 16 kW...

  • Page 155: Opening Devices

    Installation Bracing as support against tilting Note: Schematic figure for explanation purposes only. IMPORTANT If the periods in outside temperatures below 0 °C are long, ground frost can cause the condensate to form ice. The result can be that the condensate cannot drain off and faults arise in the heat pump operation.

  • Page 156: Hydrokits

    Installation Note: Schematic figure for explanation purposes only. 6.5.2 Hydrokits Removing and replacing the front plate Carry out the following steps to remove the front plate: 1. Remove the fixing screws (1) on the front plate. 2. Exercise caution as you pull out the bottom part of the front plate towards you to release the front plate from the left and right hooks (2).

  • Page 157: Outdoor Units And Mono-Bloc Units

    Installation Hydrokit J or H generation 6.5.3 Outdoor units and mono-bloc units Removing and replacing the front plate Carry out the following steps to remove the front plate i.e. the cover of the connection box on the front side of the outdoor unit or mono-bloc unit: 1.

  • Page 158: Connecting The Refrigeration Circuit

    Installation Removing top cover plate and replacing it Carry out the following steps to remove the top cover plate of the outdoor unit or mono-bloc unit: 1. Remove the fixing screws (1) along the edge of the cover plate (2). 2.

  • Page 159: Connecting Refrigerant Pipes To The Indoor Unit

    Installation The pipes of the refrigeration circuit are connected with flare fittings. When cutting and flaring pipes, adhere to the following specifications in order to avoid leakages and malfunctions. 1. Use only copper tubes conforming to the requirements of the EN 12735-1 for refrigerant pipes used in refrigeration and air conditioning.
  • Page 160 Installation All in One units All in One unit | J generation | Standard configuration (WH-ADC0309J3E5 for 1 heating zone) or Two-zone configuration (WH-ADC0309J3E5B for 2 heating zones) A Detail view of upper section (seen from rear side) B Detail view of piping connections 1 Zone 2 Supply water outlet (to space heating), 5 Safety valve drainage tap only in two-zone configuration...
  • Page 161 Installation All in One unit | J and H generation | Compact configuration (for 1 heating zone) WH-ADC0309J3E5C, WH-ADC1216H6E5C A Detail view of upper section with piping 3 Refrigerant gas line connections 4 Refrigerant liquid line 1 Supply water outlet (to space heating/cooling) 5 Fresh water inlet 2 Return water inlet (from space heating/cooling) 6 Supply water outlet (to hot water tank)
  • Page 162 Installation Permissible tightening torques of the refrigerant pipes – All in One units J and H generation Bi-bloc systems with All in One unit Note Refrigerant gas pipe Refrigerant liquid pipe Diameter Torque Diameter Torque mm (inches) mm (inches) High Performance | J Generation | R32 WH-ADC0309J3E5(B/C) + WH-UD03JE5 12.7 (1/2) 6.35 (1/4)

  • Page 163: Connecting Refrigerant Pipes To The Outdoor Unit

    Installation Permissible tightening torques of the refrigerant pipes – Hydrokits Bi-bloc systems with hydrokit Refrigerant gas pipe Refrigerant liquid pipe Diameter Torque Diameter Torque mm (inches) mm (inches) High Performance | J Generation | R32 WH-SDC0305J3E5 + WH-UD03JE5 12.7 (1/2) 6.35 (1/4) WH-SDC0305J3E5 + WH-UD05JE5 12.7 (1/2)
  • Page 164 Installation Connections of the refrigerant pipes – outdoor units 1 Front plate 2 Pipe panels 3 Impermissible location to place the adjustable spanner 4 Correct location to place the adjustable spanner 5 Thermal insulation or putty Permissible tightening torques of the refrigerant pipes – Outdoor units Outdoor units for bi-bloc systems Refrigerant gas pipe Refrigerant liquid pipe...

  • Page 165: Connecting The Heating Circuit

    Installation Connecting the heating circuit CAUTION Danger of illnesses caused by colonies of bacteria in the water The risk of colonies of bacteria, particularly of Legionella, in the water can be raised with an open water circuit. ► Only deploy devices in a closed water system. ATTENTION Danger of water pipes freezing in outside temperatures below 0 °C When the heating circuit is filled with water and the outside temperature falls below 0 °C, the...

  • Page 166: Connecting Water Pipes To The Indoor Unit Or Mono-Bloc Unit

    Installation ► Using a wrong tool, e.g. a pipe wrench, can deform or damage the connection. This can cause leakages. Therefore, use a suitable adjustable spanner ► Too high a tightening torque can cause deformation and consequently leakages. 1 Adjustable spanner 2 Torque wrench Therefore, only use a torque wrench to tighten and an adjustable spanner to counter it (see the illustration above).
  • Page 167 Installation All in One units Connections of the water pipes – All in One unit | J Generation | Standard and Two-zone configuration WH-ADC0309J3E5, WH-ADC0309J3E5B A Standard configuration (for 1 heating zone) B Two-zone configuration (for 2 heating zones) a (not available) a Zone 2 Supply water outlet (to space heating/cooling) b (not available) b Zone 2 Return water inlet (from space heating/...
  • Page 168 Installation Connections of the water pipes – All in One unit | J and H generation | Compact configuration (for 1 heating zone) WH-ADC0309J3E5C, WH-ADC1216H6E5C a Supply water outlet (to space heating/cooling) c Fresh water inlet b Return water inlet (from space heating/cooling) d Supply water outlet (to hot water tank) Connections of the water pipes –...
  • Page 169 Installation Permissible tightening torques of the water pipes – All in One units Connection – Supply water outlet (to space heating/ – Supply water outlet (to hot water tank) cooling) – Fresh water inlet – Return water inlet (from space heating/ cooling) Bi-bloc systems with All in One unit Flare nut size...
  • Page 170 7. Install the 3-way switchover valve (to be provided on site) to switch over from heating mode to hot water mode and reverse, if a Panasonic hot water tank is not used. The valve should by default be opened in the direction of the heating circuit. Moreover, the valve should have CE conformity and not exceed a peak load of 12 VA.

  • Page 171: Connecting The Condensation And Water Drain Pipes

    Installation 6.7.2 Connecting the condensation and water drain pipes On site, a hose must be connected to the condensation drain of the indoor, outdoor and mono-bloc units as well as to the water drain of the pressure relief valve. For connection to the condensation drain, a drain elbow and a packing are provided for each device.
  • Page 172 Installation All in One unit J or H Generation Hydrokit J or H Generation Detail view from below Detail view from below 1 Condensation drain outlet 2 Packing 3 Drain elbow Note: Schematic figures for explanation purposes only. Outdoor units IMPORTANT When installing the drain hose on the outdoor unit, also observe the following instructions: ●...

  • Page 173: Connecting The Safety Valve Drainage Tap

    Installation Detail view from below 1 Condensation drain outlet 2 Drain elbow 3 Openings (number depending on model) 4 Rubber sealing caps Note: Schematic figure for explanation purposes only. Mono-bloc units Carry out the following steps to connect the drain hose to the condensation drain outlet of the mono-bloc unit: 1.
  • Page 174 Installation 1 Safety valve drainage tap Hydrokit J or H Generation Carry out the following steps to connect the drain hose to the safety valve drainage tap of the hydrokit: 1. Slide the drain hose onto the safety valve drainage tap on the hydrokit. 2.

  • Page 175: Connecting The Electrical Wiring

    Installation Connecting the electrical wiring WARNING Danger to life from electric shock! The devices are operated with 230 V or 400 V alternating current. Improper installation can present a danger to life from electric shock as well as a danger of fire occurring due to overheating. ►...

  • Page 176: Connecting Power Cord

    Installation 2. When tightening the terminal screw connections, ensure the following tightening torques: Terminal screw connection Tightening torque (Ncm) 157 – 196 196 – 245 3. Note that, for safety reasons, the earth conductor must be longer than the other cables in case the cable slips out from the cable clamp.
  • Page 177 Installation Installation example: Hydrokit WH-SDC12H6E5 A Connection of the power cord a Use separate cable glands for power cord and acces- 1 RCCB for power supply 1 sory cables 2 RCCB for power supply 2 b Fix power cord with cable clamps / strain reliefs 3 Cable clamps / strain reliefs c Leave earth conductor longer than the other cables 4 Terminal block for indoor / outdoor unit connection...

  • Page 178: Connecting The Connection Cable Between Indoor And Outdoor Unit

    Installation Connection diagram – Hydrokits Models Connection diagram For model WH-SHF09F3E8 Terminals on outdoor unit WH-SDC****J3E5 + WH-UD**JE5(-1) Terminals on WH-SDC**H6E5 + WH-UD**HE5 indoor unit Terminals on WH-SXC**H*E5 + WH-UX**HE5 disconnector WH-SHF**F*E5 + WH-UH**FE5 Power Power Indoor / outdoor supply 1 supply 2 unit connection For model WH-SHF09F3E8...

  • Page 179: Connecting Power Cord To The Mono-Bloc Unit

    Installation Installation example: Outdoor unit WH-UD12HE8 -SHF09F3E8 -SHF12F9E8 Terminals on indoor unit Terminals on outdoor unit Indoor / outdoor unit connection A Connection of the connecting cable B Insulation of the pipe and cable 1 Rubber cable sleeve (available or not, depending on 6 Cable tape or cable duct model) 7 Fastening clamps...
  • Page 180 Installation Installation example: Mono-bloc units WH-MDC09J3E5 and WH-MXF12J9E8 CAUTION 240-250V WARNING ABCDEFGHJMFLG ABCDEFGHJMFLG ABCDEFGHJMFLG ABCDEFGHJMFLG POWER SUPPLY 1 POWER SUPPLY 2 A WH-MDC09J3E5: Detailed view of the Rear Side C WH-MXF12J9E8: Detailed view of the Rear Side 1 Rear side of the Cabinet 1 Rear side of the Cabinet 2 Cable gland for power cord 1 2 Cable gland for power cord 1...

  • Page 181: Connecting The Optional On-Site Accessories

    Installation 6.8.2 Connecting the optional on-site accessories 6.8.2.1 Connecting accessories to the indoor unit The following method is correspondingly applicable for all indoor units, All in One units and hydrokits of all generations, but will be explained here on the basis of the example of a hydrokit of the H Generation (→...

  • Page 182: Connecting Accessories To The Mono-Bloc Unit

    Installation 6.8.2.2 Connecting accessories to the mono-bloc unit The following method is correspondingly applicable for all mono-bloc units, but will be explained here on the basis of the example of a 9 kW single-phase model (J Generation) (→ Installation example for accessories (Mono-bloc units), p. 182).

  • Page 183: Brief Overview Of The External Interfaces

    Installation 6.8.2.3 Brief Overview of the external interfaces All in One unit, hydrokit and mono-bloc systems J or H Generation Main PCB Overload protection for electric tank heater Room temperature sensor heating circuit 1 Outdoor temperature sensor Tank temperature sensor External control Operating unit Bivalent heating source...

  • Page 184: Installing And Connecting The Remote Controller

    Installation Hydrokit and mono-bloc systems F Generation 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 2-way valve 3-way valve E-Heating Room Temperature Solar 3-way Solar pump element hot thermostat sensor for hot valve station water tank water tank...
  • Page 185 Installation IMPORTANT Also follow the following notices to avoid faults and malfunctions of the remote controller: ● Install the cable of the remote controller separately from the cables for the power supply in order to avoid operating disruptions. ● Mount the remote controller at a distance of at least 1 m from television, radio and computer devices in order to avoid electrical interference.
  • Page 186 Installation A+B Dismounting the remote controller 1 Cabinet top part 2 Cabinet bottom part 3 Slots 4 Screw driver 5 Electrical wiring of the remote controller (no polarity) 6 Screw C Schematic detailed representation of the terminals on the indoor unit and remote controller 5 Electrical wiring of the remote controller 7 Indoor unit...
  • Page 187 Installation 2. Install a cable (to be field-supplied) that is permissible as electrical wiring of the remote controller (→ 66) from the terminals of 4.7.2.1 External interfaces (J and H generation), p. the indoor unit to the installation location of the remote controller. 3.

  • Page 188: Starting Up The System

    Installation 8. Mount the cabinet top part back on the cabinet bottom part by first placing the top part with the two upper claws (16) on the bottom part and then pressing the bottom edge of the top part carefully against the bottom part, until the two bottom claws (17) latch. 9.
  • Page 189 Installation CAUTION Danger of injury due to unprofessional handling of refrigerants Unprofessional handling of refrigerants leads to various dangers of injury such as freezing, fire and the danger of explosions and the danger of intoxination. ► Working with the refrigerant must be done by a trained skilled person or an authorised dealer with refrigerant certification.
  • Page 190 Installation 4. Close the valve on the low pressure side of the manometer station and switch off the vacuum pump. 5. Recheck whether the measured value remains constant at -1 bar for 10 minutes. Yes: In this case you can assume that the refrigerant circuit is tight and go directly to step 7. No: In this case, there is presumably still a leakage in the refrigerant circuit.

  • Page 191: Filling And Venting The Water System

    6.9.2.1 Filling hot water tank Note The following method describes exclusively how the Panasonic All in One units are filled. When commissioning bi-bloc systems with hydrokit or mono-bloc systems, which are used in combination with hot water tanks from third party suppliers, follow the installation instructions of the third party supplier, which is supplied with the tank, when filling the hot water tank .

  • Page 192: Checking The System

    Installation 5. Vent the system as follows: a. Open the indoor and outdoor unit or the mono-bloc unit (→ 6.5 Opening devices, p. 155). b. Set the lever (2) of the pressure relief valve (1), located in the indoor unit or mono-bloc unit (→...

  • Page 193: Carrying Out A Test Run

    If the pressure does not reach the normal operating range by setting the rotation speed level, please contact your Panasonic dealer. 4. Check whether the water flow rate lies within the model-specific limits (→...

  • Page 194: Carrying Out The System Handover And Instruction

    Installation 6.9.5 Carrying out the system handover and instruction Carry out the following steps for system handover and instruction: 1. Fill in the commissioning report. Make sure again that all installation and commissioning work has been carried out fully and correctly. 2.

  • Page 195: Maintenance

    RCCB, the electrical wiring and the piping. This maintenance work should be conducted by authorised Customer Services staff. Please contact your Panasonic dealer for maintenance inspections to be carried out.

  • Page 196: Checking The Pressure Relief Valve

    Maintenance Checking the pressure relief valve Carry out the following steps: 1. Set the lever (2) of the pressure relief valve (1) located in the indoor unit or mono-bloc unit (→ 4.6.2.1 Components (bi-bloc systems), p. 29, → 4.6.3.1 Components (mono-bloc systems), p.

  • Page 197: Checking The Residual Current Circuit Breaker (Rccb)

    Maintenance Carry out the following steps for a magnetic water filter set, which is included in the All in One unit in Compact configuration of the J and H generation (WH-ADC0309J3E5C, WH-ADC1216H6E5C): 1. Turn the power supply off. 2. Place a container below magnetic water filter set. 3.

  • Page 198: Checking The Air Purge Valve And Venting The System

    Maintenance Checking the air purge valve and venting the system Carry out the following steps: 1. Open the air purge valve (1) by turning the valve cap (2) of the air purge valve one full turn in an anti-clockwise direction (→ 4.6.2.1 Components (bi-bloc systems), p.

  • Page 199: Carrying Out Maintenance Work On The Refrigerant Circuit

    Maintenance Carrying out maintenance work on the refrigerant circuit CAUTION Danger of injury due to unprofessional handling of refrigerants Unprofessional handling of refrigerants leads to various dangers of injury such as freezing, fire and the danger of explosions and the danger of intoxination. ►...

  • Page 200: Appendix

    Appendix Appendix Extract from the operating instructions (J Generation) IMPORTANT As it is not possible to cover the operating instructions for all models within the scope of this manual, only the operation instructions for bi-bloc systems with All in One unit of the J generation are given as an extract from the manual on the following pages to serve as an example.
  • Page 201 Appendix Remote Controller buttons and display Display Mode selection AUTO COOL • Depending on the preset outdoor • COOL operation is either turned temperature, the system selects ON or OFF� HEAT or * COOL operation • The outdoor unit provides cooling mode� to the system� Auto Heat Auto Cool AUTO...
  • Page 202 Appendix Temperature of each zone Time and day Water Tank temperature Outdoor temperature Sensor type/Set temperature type icons Water Temperature Water Temperature Pool only →Compensation curve →Direct Room Thermostat Room Thermostat Room Thermistor →External →Internal Initialization Before starting to install the various menu settings, please initiate the Remote Controller by selecting the language of operation and installing the date and time correctly�...
  • Page 203 Appendix Quick Menu After the initial settings have been completed, you can select a quick menu from the following options and edit the setting� 1 Press to display the quick menu. Force DHW Powerful Quiet Force Heater Weekly Timer Force Defrost Error Reset R/C Lock 2 Use...
  • Page 204 Appendix Menus For user Menu Default Setting Setting Options / Display Holiday timer To save energy, a holiday period may be set to either turn OFF the system or lower the temperature during the period� Holiday start and end� Date and time OFF or lowered temperature • Weekly timer setting may be temporarily disabled during Holiday timer setting but it will be restored once the Holiday timer is completed�...
  • Page 205 Appendix Menus For user Menu Default Setting Setting Options / Display 2 System check Energy monitor Present Present or historical chart of Select and retrieve energy consumption, generation or COP� Historical chart Select and retrieve • COP= Coefficient of Performance. • For historical chart, the period is selected from 1 day/1 week/1year� • Energy consumption (kWh) of heating, * cooling, tank and total may be retrieved�...
  • Page 206 Appendix Menu Default Setting Setting Options / Display Backlight Sets the duration of screen backlight� 1 min Backlight intensity Sets screen backlight brightness� Clock format Sets the type of clock display� Date & Time Sets the present date and time� Year / Month / Day / Hour / Min Language ENGLISH / FRANÇAIS / DEUTSCH /...
  • Page 207 Appendix Menus For installer Menu Default Setting Setting Options / Display 5 Installer setup System setup Optional PCB connectivity To connect to the external PCB required for servicing� • If the external PCB is connected (optional), the system will have following additional functions: Buffer tank connection and control over its function and temperature�...
  • Page 208 Appendix Menu Default Setting Setting Options / Display Buffer tank connection To connect tank to the system and if selected YES, to set T temperature� • The optional PCB connectivity must be selected YES to enable the function� Set T for Buffer • If the optional PCB 5 °C Tank...
  • Page 209 Appendix Menus For installer Menu Default Setting Setting Options / Display Yes Auto To select a bivalent connection to allow an additional heat source such as a boiler to heat- Set outdoor temperature for up the buffer tank and domestic -5 °C turn ON Bivalent hot water tank when heatpump...
  • Page 210 Appendix Menu Default Setting Setting Options / Display Delay timer to stop the bivalent heat 0:30 source (in hour and minutes)� Control pattern Advanced parallel DHW Yes • DHW Tank is activated only after selecting “Yes”� Delay timer to start the bivalent heat 0:30 source (in hour and minutes)�...
  • Page 211 Appendix Menus For installer Menu Default Setting Setting Options / Display Yes After selecting the tank T ON temperature Set T OFF 5 °C temperature Yes After selecting the tank T ON temperature T OFF temperature Set Antifreeze 5 °C temperature Yes After selecting the tank T ON temperature...
  • Page 212 Appendix Menu Default Setting Setting Options / Display Heat-Cool SW 5.17 Force heater 5.18 To turn on Force heater either manually (by default) or automatically� Manual Force defrost 5.19 If auto selection is set, outdoor unit will start defrost operation Manual if long heating hour operate during low outdoor temperature�...
  • Page 213 Appendix Menus For installer Menu Default Setting Setting Options / Display Water temp. for heating ON Compensation curve Input the 4 temperature points X axis: -5 °C, 15 °C (2 on horizontal X Y axis: 55 °C, 35 °C axis, 2 on vertical Y axis)�...
  • Page 214 Appendix Menu Default Setting Setting Options / Display Heater ON/OFF Delay time for heater ON Delay time for heater 0:30 min to turn on Heater ON/OFF Water temperature for heater ON Setting of water temperature to turn -4 °C on from water set temperature�...
  • Page 215 Appendix Menus For installer Menu Default Setting Setting Options / Display Water temp. for cooling ON Direct Set temperature for 10 °C Cooling ON • If 2 zone system is selected, temperature set point must input for Zone 2� • “Zone 1” and “Zone 2” will not appear on the display if only 1 zone system� T for cooling ON Set T for cooling ON * This setting will not...
  • Page 216 Appendix Menu Default Setting Setting Options / Display Tank heat up time (max) Maximum time for 1:00 heating the tank (in hours and minutes) Tank re-heat temp. Set temperature to -8 °C perform reboil of tank water� Sterilization Sterilization may be set for 1 or more days of the week�...
  • Page 217 Appendix Menus For installer Menu Default Setting Setting Options / Display Pump down Pump down operation To set the pump down operation� Dry concrete Edit to set the temperature of dry concrete� To dry the concrete (floor, walls, etc�) during construction� ON / Edit Do not use this menu for any other purposes and in period...
  • Page 218 Appendix Cleaning instructions To ensure optimal performance of the system, cleaning has to be carried out at regular intervals� Consult an authorised dealer� • Disconnect the power supply before cleaning. • Do not use benzine, thinner or scouring powder� • Use only soap ( pH7) or neutral household detergent�...
  • Page 219 Appendix Troubleshooting The following symptoms do not indicate malfunction� Symptom Cause Water flowing sound during operation. • Refrigerant flow inside the unit. Operation is delayed a few minutes • The delay is a protection for the compressor� after restarting� Outdoor unit emits water/steam� • Condensation or evaporation occurring in the pipes�...
  • Page 220 Appendix Below is a list of error codes that may appear on the display when there is some trouble with the system setting or operation� When the display shows an error code as indicated below, contact the number registered in the Remote Controller or a nearest authorised installer�...
  • Page 221 Notes:...
  • Page 222 Notes: 1002 Aquarea air-to-water heat pumps - Planning and installation manual - 02/2022...
  • Page 223 Notes: 1003 Aquarea air-to-water heat pumps - Planning and installation manual - 02/2022...
  • Page 224 www.aircon.panasonic.eu...

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