Panasonic Heat pump manager Manual, part 1
Contents
1. Heating circuits Domestic hot water circuits Heat pump Off Off Valve stays in current Off Valve stays in current Off position pump off position pump off Auto Automatic operation Automatic setpoint switching depending Automatic on timer program day night operation Yan Setpoint 2 Summer Switch off operation Automatic operation Automatic z 5 according to E Valve closed Pump off setpoint switch depending on e i demand amp Frost protection remains timer program 5 active A Holiday Reduced operation support operation Setpoints of non operating time NO night apply Duration Nominal operation Setpoints of operating time 1 OTI day apply Manual Manual operation Valve and pump function as defined in the Manual operation menu Table 1 4 Operating mode switch NOTE In the Off switch position the frost protection and pump prerun extended running functions are not active You can find further information in the menu configuration switch operating mode switch When the controller is communicating via communication port with the heat pump s you will find in this menu also the main switch of the heat pump MS HPx These parameters substitute the ON OFF keys of the heat pump and the FORCE key in the operating unit in the heat pump MS Px 8 Off Heat pump is switched off KZ E Auto Heat pump is controlled by the controller HPMx 2 Force Heat pu2. 0 100 101 AUTO pump empty tank 0 OFF 1 ON 3 AUTO service general value status priority return limitation signal controller DWH tank DWH tank flow load flow solar circuit thermal desinfection output limitation switch on delay switch off delay solar statistic sensor correction correction value 10K terminal assignment 46 Module heating circuit heating circuit current value room only wilt room temp control outdoor flow etc setpoints SP room i Toomi temp SP flow heating curve slope heating curve exponent base point OT1 SP cooling setpoint cooling function summer switch off heating curve adaption setpoint limitation universal limitation only with room temp room compensation p control delayed outdoor temperature design temperature remote control signal frost protection pump controller pump valve exercise output limitation support operation screed drying cooling operating status error status SP source outputs show status help status manual operation valve 3pnt O CLOSE 1 OPEN cont 0 100 101 AUTO pump 0 OFF 1 ON 3 AUTO 0 NORMAL prop reduction 1 MINIMAL 3 AUTO 47 service General value summer switch off heating curve adaptation setpoint limitation universal limitation only with room temp room compensation P control delayed outdoor temperature remote control signal controller out
3. APPENDIX deeg eege hn sah Nina am nan 39 4 1 THE DISPLAYING OF ERROR MESSAGES cccssssscessoccesssssccssnsnsesssoneesessecaccnsnsssesenassssnsas Tee 4 3 TABLE OF MEASURING VALUES OF THE SENSORS 4 4 MENU STR CT RE 2 eee eve eene ce evade ania Fee a re eee ERR NEES Sian kanannya inn Chapter 1 General information This operating manual consists of a detailed description of the installation and commissioning of the HPM controller The manual describes the individual parts of the controller as well as its operation how to connect sensors pumps and valves selecting the system diagram and how to make additional adjustments to adapt the controller to the construction of a individual system and its installed heat pump s The appendix of the manual contains the most common system diagrams along with the complete menu structure an overview of the available types of heat pumps type of communication an overview of the possible heating curves a description of cascade control i e using more than one heat pump with communication and information for configuring web communication Ethernet network interface To simplify controller operation its display will show only such parameters and menu items that are currently relevant I e if a boiler has been selected as the heat source menus pertaining to the operation of district heating and heat pumps will not be visible Or supposing there is no return temperature sensor assigned to a
4. Fig 2 15 Connection of a pump with continuous control 0 10V 21 2 2 6 Connection with the heat pump Terminals on the indoor on the indoor Lead wire cord wire cord H 9 7 9 3 P o O m O m gt oe o z o z 8 o m LHP UE UM AA EAS A H H M M Tank Tank External eed Three way Valve Booster Heater i OLP Sensor Controller Solar Three way Solar Pump alve Cable Cable Cord e Cable Cable Cable Valve Cable prs The HPM controller is capable of controlling the Panasonic heat pump via a contact demand signal Communication via contact signal only offers the possibility to send a demand for the heating circuits through the signal Direct communication with the heat pump via a communications port provides the controller with the advantage of being able to send the current flow temperature setpoints for heating or cooling as well as for domestic hot water Cascade control of up to 3 heat pumps via HPM controllers is also possible An additional HPM 2 controller is needed for control of the second and third heat pump in a cascade Activation via contact r Only if Solar Connection PCB installed Fig 2 16 External connections at a Panasonic Aquarea heat pump The HPM controller can send a heat demand to the heat pump via an activation release signal A heat demand will cause the contact to close The heat pump then provides a flow temperature generated from its own internal heating curve which is stored in the oper
5. HPM is available with or without a built in display Models without a display have no control elements In this case the controller is operated via the communication port RS 485 Models featuring a display offering a front panel that is highly intuitive and simple to use containing a backlit text display and a control element with 5 keys UP OK DOWN Fig 1 2 The control elements 1 4 2 The default display The display of HPM is a backlit text display of 4 x 20 characters When the controller is in sleep mode the default display will be shown containing the following information time day date Maintenance function Type Status of the interface operating mode switch Fig 1 3 The default display The menu global service display permits adjusting the default display to the individual needs of the user The 4 rows of the display is capable of displaying current sensor values output signals and or plain text 1 4 3 The main operating mode switch The menu for the main operating switch can be accessed by pressing while in the default display The menu contains the operating mode switch for the controller and the main switch for the heat pump The position of the switch can then be selected by using and The selected position can be entered by pressing OK The main operating switch has the following effects on the module library
6. e Inthe menu for the heat pump select the menu function using DOWN and OK e Inthe function menu select the menu item Aquarea using DOWN and OK e Inthe Aguarea menu select the menu settings using DOWN and OK This menu contains the most important parameters displayed in the table below with their default values Some of the parameters will already have been automatically adjusted when the system diagram was selected e g DHW tank included or not Name Info text Range default value Thermos Room thermostat 0 no I yes Tank Tank Connection 0 no I yes SolarPrio Solar Priority 0 no I yes HeatPrio Heating Priority 0 no I yes Steril Sterilization 0 no I yes basPanH bas pan heater 0 no I yes CoolPrio Cooling Priority 0 no I yes AntiFr Antifreezing 0 no I yes OpInt Operation Interval range 30 600 min default 180 min Tankint Tank heat Interval range 5 95 min default 30 min BoostDel Booster Delay range 20 95 min default 60 min SterTemp Sterilisation boiling temperature range 40 75 C default 70 C SterTime Sterilization continuing time range 5 60 min default 10 min HeaterC Heater Capacity range 0 3 6 9 KW default 0 kW OutTOn Outdoor temp heater on range 15 20 C default 0 C Table 3 4 Aquarea setting parameters After adjusting the parameters the power supply for the
7. 4 The display will now jump automatically into the menu system diagram 5 Change the sysDiagram parameter to your selected system diagram number using Sep and OK 6 Press DOWN to select the parameter type sensor Changing the default setting 0 is only necessary if a foreign sensor 1 Ni1000 2 NI1000LG will be used Choose the desired sensor type for the system by using and OK 7 When selecting a system diagram which includes communication with the heat pump s 4xxxx 5xxxx 6xxxx 7xxxx the type s of heat pumps must be entered in the parameters type HP1 type HP2 and type HP3 Here the identification 1 according to the type label on the heat pump must be entered e g SXC12D90E8 1 and OK enables adjusting each character in the line 8 Ifthe type entered is not accepted when pressing OK then communication with a heat pump of this type is not possible An overview of all compatible heat pumps is contained in the appendix 9 Use DOWN to select the parameter cold start Change the parameter to 1 by using Press OK 10 When the display shows SYSTEM XXXXX LOADED you are done The controller is now ready for operation CAUTION When performing a cold start all previously performed adjustments are lost and all parameters are reset to their default values 29 3 2 2 Reloading the system diagram The
8. 5 When the access code has been correctly entered it will be shown by the controller in the display There are 5 different access levels Access Level Area of access Default Access Code Base Level Look at all parameters in the MCS BMS menu No code needed Level 1 Changes in setpoints timer system clock 1111 Level 2 Changes in additional functions manual operation 2222 Level 3 Changes in service functions 3333 Level 4 Changes in global menu access codes etc 4444 Table 3 3 Access codes The access codes can be adjusted in the menu Global service access code 33 3 3 3 Aguarea basic configuration only needed for connection via Bus The HPM controller serves as a substitute for the Aguarea operating unit Therefore all parameter adjustments needed for initial installation of the heat pump must be performed via the menu structure of the HPM This includes necessary basic configuration and parameters as these are described in the operating and service manuals of the Panasonic heat pump s To do this press OK in the default menu and open the MCR BMS menu Select the item heat producer using DOWN and enter the menu using OK Depending on the system diagram loaded one or more heat pumps the menu structure of the heat pump module will either be automatically displayed or it will be necessary to select heat pump 1 3 by using UP DOWN and OK
9. The switch over valve is controlled by the heat pump Depending on the type of heat pump it can also be switched to cooling operation The flow temperature setpoint and the criteria for switching to cooling operation can be adjusted in the menu for the heating circuits in the HPM controller The following pictures display the connection of the operating unit on the main PCB to which the adapter cable must be connected Fig 2 18 Split above left pos of connection MONO middle right 23 In split or MONO block heat pumps the connectors for the adapter cable are in different places on the main PCB On the main PCB the connectors are labelled with CN REMOTE for a split heat pump and CN REMOTE2 for a MONO block heat pump When replacing the cables the power to the heat pump and the controller must be switched off When the basic parameters in the HPM have been adjusted the other end of the adapter cable must be connected to the BUS interface of the HPM The heat pump will emit a beep if the connection was successful As an accessory there are 2 different adapter cables available for the connection between HPM and the heat pump They have been developed especially for the communication with Panasonic split and MONO block heat pumps and only work in the right combination PAW HPMINT U for all Split heat pumps 3m long PAW HPMINT M for all MONO block heat pumps 30m long Cascade via contact activation Cont
10. a service technician the possibility to service the pump s in question this menu provides the possibility to start the maintenance function signalling demand to the heat pump for 15 minutes or to acknowledge reset errors Pressing UP will bring up the Acknowledge maintenance menu The DOWN key then permits selecting the desired parameter The keys and you enables adjusting the parameter to ON or OFF The OK key is used to enter the parameter setting For more information refer to the chapter Configuration keys 1 5 The socket The socket of the HPM constitutes a separate component in which the terminals are contained and the wires connected The socket is divided by a separator into 2 parts The left hand side contains low voltage connections such as for sensors and 0 10 V terminals and the right hand side contains high voltage connections 230 V for actuators and pumps Terminals Separator LN Q3 MAN RA e e e i e S 9 S 9 e e ge Ground multiplier Fig 1 7 The socket Each section of the socket contains ground multipliers which are situated immediately next to the terminals Low voltage and high voltage use separate grounds to prevent electromagnetic influence To fasten the socket to the controller simply slide the controller onto the socket and push the two clips on each side of the socket A screwdriver is required in order to open the
11. between the setpoint and current value exceed a certain limit for a given time an error message is generated The reaction to a power failure will consist of a step being repeated or of the function being started again or cancelled The monitoring to be used can be set using the additional parameters in this menu In the status menu of the heating circuit and in the menu service screed drying it is possible to view further information about the current step when the function is activated e g Setpoint temperature 35 C step status heating up At the end of the screed drying function the operating mode of the heating circuit switches to weather dependent setpoint calculation 1f an outdoor sensor is assigned If system diagram 50090 was choosen no outdoor sensor is assigned and the heating circuit goes into the operating mode not active OFF no demand to heat pump Additional functions can be found in Part II of the manual Parameter description 38 Chapter 4 Appendix 4 1 The displaying of error messages HPM recognises a number of trouble indications and errors You will see them when the error message alternates with the defaukt display The following short text can be seen FP system Frost protection for the system flow temperature below frost limit FP stor Frost protection for storage tank storage tank temperature below frost limit BP frRoom Building protect
12. clips again Cable inlets Clip to fasten socket Fig 1 8 Cable knockouts and clip to fasten the socket The cable inlets must be pressed out where needed The holes are prepared for standard M cable glands 10 1 6 The interfaces Depending on the type of controller a number of interfaces are available RS 485 for Ethernet for TCP IP web external display server and other controllers RS 485 for USB to PC communication with service heat pump Fig 1 9 The interfaces USB Each controller is eguipped with an USB interface The USB interface can be used to e Make adjustments e Create a backup of the configuration e Upload backups or new firmware The only equipment neccessary is a normal USB to Micro USB interface cable and the necessary COM port driver as required by the computer s operating system External display RS 485 This interface enables connecting a remote control unit e g an external touch panel Communication with the heat pump RS 485 This interface is used to communicate with the heat pump To connect the heat pump a PAW HPMINT X model adapter cable is needed The X stands here for either U a3 m adapter cable to communicate with the internal unit of a split heat pump or M a 30 m adapter cable to communicate with a MONO block heat pump In this case the HPM functions as a substitute for the operating unit of the heat pump Network Ethernet If the cont
13. in the OFF position These have to be moved into the AUTO position for the system to start working 28 Naturally the automatically generated parameter configuration may later be manually adjusted or changed This means it is also possible to control systems which are not entirely covered by the pre configured system diagrams Upon delivery of the controller there is normally no system diagram assigned and the control programs are Inactive CAUTION When the system diagram is being loaded the power supply should not be disconnected Doing so will cause the configuration not to finish completely in which case the automatic configuration must be performed again see chapter Manual configuration 3 2 1 Initial loading of the system diagram If the HPM controller notices that no system diagram has been loaded the user is automatically asked to select a language and to enter the system diagram number 1 Switch the controller on and follow the steps shown in the display 2 The controller will ask what language should be shown in the display The default language is German If this language is wanted simply press OK Otherwise use and to select a language and press OK to select it Changing the language is possible any time in the menu global service software 3 The message Please configure all system data then load diagram with coldstart 1 OK will be displayed Press OK
14. into the controller hpm control remote control via PC 3 3 Additional adjustments After the system diagram is loaded additional adjustments can be made These adjustments concern necessary adjustments like the adaption of the communication port to the settings in the heat pump s basic configuration and the parameters to adapt the controller to the heating system heating curve setpoints temperature limitations The following chapters will explain the menu structure of the HPM controller and the release via the access code 3 3 1 The menu structure From the default display the menu can be reached by pressing the OK key The menu structure is entered via the menu MCR BMS standing for Measuring Controlling Regulation Building Management System Here all modules are listed From here simply select the module in which it is desirable to look at or change a parameter The sections Global Interfaces Configuration System diagram and System overview are intended primarily for technical personnel All parameters in these sections should be handled with care The menu utilises the following structure Configuration level Module library level Global MCR BMS gt Press OK gt Timer Heat producer Heat pump 1 Heat pump 2 Heat pump 3 Strategy circuit Buffer tank Domestic hot water circuit Heating circuits Heating circuit 1 Heating circuit
15. or if the heat pump is in a cascade system with other heat pumps HP2 and HP3 the heat pump is not responsible for loading a DHW tank In a system where the heat pump is controlled via contact system diagrams that include domestic hot water circuits cannot be loaded into the HPM controller since the controller has no way to control loading of a DHW tank As a result it is not possible to visualize the current temperature in the DHW tank or to change setpoints for the DHW temperatures in the web graphic of the HPM controller Communication port The full functionality of the HPM controller can only be used if the heat pump is connected to the controller via the communication port In this operating mode the HPM controller serves as a substitute for the operating unit in the heat pump The adapter cable has to be connected to the main PCB inside the heat pump instead of to the operating unit All basic configurations for initial startup of the heat pump must be performed via the menu of the HPM controller During communication between the HPM controller and the heat pump the HPM controller transfers the calculated flow temperature setpoint to the heat pump The heat pump controls its own actuators pump compressor fan electric heating to provide the desired temperature at the heat pump s flow outlet If needed the HPM switches the operating mode of the heat pump to tank DHW tank loading and provides the desired flow temperature
16. potentiometer The function of the input terminals must be manually assigned during initial installation to the module s Heating circuit 1 and or 2 as room sensor and SW Poti The influence of current room temperature on calculation of the flow temperature setpoint can be adjusted in the menu Heating circuit function room influence Contacts counter Sensor N Sensor L Sensor Potential for 13 Sensor Relay Sensor Not used Sensor Relay E Sensor Potential for 9 11 E Sensor Relay s Contact counter Not used ZS Contact counter Relay Componen t 0 10 V Potential for 5 7 sending signal unns d Relay m or pulse Sensor ground Not used Not used Relay Not used Potential for 1 3 Not used Relay Fig 2 8 Connection of counters contact inputs A signal can consist of a feedback signal from a pump or a ventilator The wires have to be connected to the assigned terminal and the sensor ground Terminal 25 or 26 may be used either as a signal input or a counter input 17 Room thermostat for switch off of heating circuits If a room thermostat used to switch off the heating should be connected a switching contact must be placed between the sensor ground and a free input terminal 17 26 When assigning the terminal called system main switch in the heating circuit this input terminal is configured automatically as a cont
17. system diagram can be reloaded at any time e g if the automatic configuration was incomplete due to a power failure or if you want to select a different system diagram The following steps must then be performed 1 Press and hold OK until the controller asks for an access code Using and OK enter the access code 4444 Press OK and the controller will switch to the MCR BMS menu Pressing UP will navigate to the main menu Using DOWN select the System diagram menu item Press OK to enter the System diagram menu Change the parameter sysDiagram to your selected system diagram number by using ates E er and OK Press DOWN to select the parameter type sensor Changing the default setting 0 is only necessary if a foreign sensor 1 Nil000 2 NI1000LG will be used Choose the desired sensor type for the system by using and OK When selecting a system diagram which includes communication with the heat pump s 4xxxx 5xxxx 6xxxx 7xxxx the type s of heat pumps must be entered in the parameters type HP1 type HP2 and type HP3 Here the identification 1 according to the type label on the heat pump must be entered e g SXC12D90E8 1 and OK enables adjusting each character in the line If the type entered is not accepted when pressing OK then communication with a heat pump of this
18. temperature has to be above the set threshold for 3 days in a row before the heating goes into summer shutdown mode The same applies if the outdoor temperature falls below the switch on threshold The parameter type can be manually set to 1 comfort caretaker in the menu heating circuits heating circuit x functions summer shutdown if it is desirable that the summer shut down should react immediately A graph of the most commonly used heating circuits is contained in the appendix of this manual Depending on the design of the heating system and the materials used in it it might be necessary to set a setpoint limitation This function ensures the flow temperature will not exceed a set maximum temperature limitation regardless of the selected heat curve The parameters for this function can be activated and set in the menu heating circuits heating circuit x functions setpoint limitation The parameters maxFI and maxDemFI T affect the setpoint limitation maximum calculated flow temperature and the demand limitation maximum demanded flow temperature 35 3 3 6 System time and date In the menu timers timer service the system clock of the HPM controller can be set To set the clock press OK starting from the default menu Press OK again to enter the menu timers Use DOWN to select timer service and enter this menu by pressing OK This menu contains
19. terminal no entry will be visible in the menu Current values pertaining to a return temperature The selected and loaded system diagram along with any additional manual adjustments made decide what will be displayed in the menu system of the controller 1 1 HPM tool Selecting the system diagram To select the system diagram Panasonic offers a web based tool called HPM tool HPM tool is a web based software accessible via the address www hpmtool eu by using a standard Internet browser HPM tool permits guick and easy selection of the right system diagram for your heating system SE English v Ideas for life e Heat Pump Ki Dom Hot Water gt Buffer Tank bd Heating Circuit gt Heating Circut2 1 heat pump changeover valve com installed Continuous actuator unmixed communication solar system Wiring diagram d Print Preview X Save to excel Save as pdf 17 temp sensor N 16 HC flow tec perature 18 temp sensor L 15 19 wmpsensor ground for 13 14 20 mmp sensor mear n MC puma Solar cohector we perat 31 wmpsensor not utc 12 Meat Pumo Strategy Buffer tank tee peratuem 22 wmpsensor relay nm 23 mmp3ansor Ground tor get 10 24 emp sensor reay H 2 counter not utes 26 contact reay T Solar pump D I valve continuous aT 010v ground for 5 Li 28 00v relay 5 HC pump 29 sensoccontsct ground notusec 4 30 nouses reay 3 3 notuseg ground for 1 3 2 32 nousa mem DAMAI 2049 Dannan
20. the controller will switch to the MCR BMS menu Pressing UP will navigate to the main menu Using DOWN select the System diagram menu item Press OK to enter the System diagram menu Change the parameter sysDiagram to 99999 using and OK Press DOWN to select the parameter type sensor Changing the default setting 0 is only necessary if a foreign sensor 1 Nil000 2 NI1000LG will be used Choose the desired sensor type for the system by using and OK To select the number of heat pumps and whether the connection between heat pump and controller is via contact switch or communication port the following type HPx parameters must be configured as follows e If the connection between HPM and the heat pump is via contact switch type HPx 1 must be set e If the connection between HPM and the heat pump is via communication port the appropriate type must be entered into parameters type HP1 type HP2 and type HP3 Here the identification 1 according to the type label on the heat pump must be included e g SXC12D90E8 1 If no change is performed to the parameters type HPx a heat pump program will not be included into the structure e The buttons and OK enables adjusting each character in the line If the type entered is not accepted when pressing OK then communication with a heat pump of this type i
21. type is not possible An overview of all compatible heat pumps is contained in the appendix Use DOWN to select the parameter cold start Change the parameter to 1 by using Press OK When the display shows SYSTEM XXXXX LOADED the process is complete The controller is now ready for operation CAUTION When performing a cold start all previously performed adjustments are lost and all parameters are reset to their default values 3 2 3 Manual configuration loading of diagram 99999 If the HPM tool is not offering a system diagram number that fits the current system the system diagram 99999 can be selected and the entire controller then configured manually After setting the type of heat pump to 1 release via contact or to the actual product type e g SXC12D90E8 1 or to no type HP not existing the selection for the other control circuits buffer tank DHW circuit and heating circuits should also be set to a value 0 1 2 When performing a cold start the controller will be freshly initialized After the cold start all input and output terminals of the control circuits must be assigned according to the system specifications 30 The following steps must be performed for a manual configuration 1 Press and hold OK until the controller asks for an access code Using and OK enter the access code 4444 Press OK and
22. x For Pt1000 NI1000 or NI1000LG sensors accuracy 0 4 C T Can also be used as digital inputs en E bad 2 x 0 10 V DC accuracy 0 15 of full output signal Digital inputs iei ie 2 x contact input for potential free contacts Outputs Analogue outputs sese 2x0 10 V DC 1 mA short circuit proof Digital outputs ooo 7 x relay 230 V AC 1 A inductive Totally max 7 A Collective alarm enero ttr hts The output can be configured Interface USB P S Service interface with micro USB connector WOD TCP IP with fixed IP DHCP can be activated T ne esheets Web graphic WebRemote BUS c Communication with a heat pump via adapter cable For Split heat pumps eoe meme PAW HPMINT U 3 m long For MONO block heat pumps o PAW HPMINT M 30 m long External display sercis RS 485 for the connection of a Touch Display E EE ET as remote control unit with room temperature ts wurde ee sensor and setpoint adjustment Chapter 2 Installation and wiring 2 1 Installation HPM comes prepared for 3 different kinds of mounting 2 1 1 Wall mounting c n V d f d d n d H dl 3 x Holes for wall mounting Fig 2 1 Wall mounting Because the HPM is a stand alone controller it is highly suitable for direct wall mounting The socket comes equipped with specially located holes that e
23. 2 Trend Trend 1 Trend 2 Interfaces Configuration System Diagram System Overview gt Press gt Overview of each controller and module Table 1 The Menu Structure The shaded menus can be used by any user of the system The other menus should be accessed only by technical personnel They can only be accessed after the code for the access level 4 has been entered finished by pressing OK and by moving out of the menu MCR BMS with the UP key 32 Every module except for the timer uses the following structure Module library level Parameter level E g district heating circuit Current values Setpoints Additional functions Status Manual operation Service functions Table 3 2 menu structure in a library module The appendix contains a detailed description of the menu structure of the HPM controller 3 3 2 Access codes If no access code has been entered the controller will display only a limited amount of information parameters To display more information or to make adjustments it is necessary to first enter an access code 1 If the default display is not currently shown press UP until it is 2 Press and hold OK You will be asked to enter the access code digit by digit 3 Use and to select the digit 4 Press OK to enter the digit The display will automatically jump to the next digit
24. 76 1 294 12 0 953 18 1 070 48 1 186 78 1 301 10 0 961 20 1 078 50 1 194 80 1 309 8 0 969 22 1 086 52 1 202 82 1 317 6 0 976 24 1 093 54 1 209 84 1 324 4 0 984 26 1 101 56 1 217 86 1 332 2 0 992 28 1 109 58 1 225 88 1 340 0 1 000 30 1 117 60 1 232 90 1 347 41 4 4 Menu structure MCR BMS signal error service system clock structure timers heat source buffer tank domHotWater heating circuits trend hardware software cold warm start access codes project management display WEB timer curVal timer chan select timer status timer manual contr timer service heat pump x strategy circuit heating circuit x trend n 42 control circuit week program DHW HC1 HC2 quiet special non occup special occup priority control circuit operating status 0 NO 1 OT1 2 OT2 3 OT3 4 OT4 5 10 SNO 11 AUTO time current time control circuit date current date mode su wi switch terminal ass control circuit see following pages menu structure of the module heat pump circuit see following pages menu structure of the module strategy circuit see following pages menu structure of the module buffer tank see following pages menu structure of the module domestic hot water see following pages menu structure of the module heating circuit current value trend function record controller status service
25. Panasonic Aguaarea Heat pump manager PAW HPM 4 PAW HPM 2 Manual part 1 Installation and commissioning Copyright Panasonic Germany 2013 COPYRIGHT O Panasonic All rights reserved Windows Windows 2000 Windows XP and Windows Server 2003 are registered trademarks of Microsoft Corporation Some product names mentioned in this document are used for identification purposes only and may be the registered trademarks of their respective companies Revision A February 2013 Software revision 1 0 0 00 NOTICE Before removing the controller from the terminal block be sure to switch off the supply voltage Part 1 Installation and startup Table of contents Part Installation and startup CHAPTER 1 GENERAL INFORMATION ee eee eene eee eene netta 4 1 2 HPM TOOL SELECTING THE SYSTEM DIAGRANM eene enne ennemi 5 1 3 MODEL OVERVIEW AND ACCESSORIES 1 4 THE HP M PACKAGE x LAET NEN Nu ee ge 1 5 1 ag TER EE H 1 5 2 The default diSp lay oo momo omWoooomooocnbilhmambhkuangwa 7 1 5 3 The main operating mode Switch ie e AE WWW 8 1 54 System e 9 1 5 5 OVertlime oot rh REOR EYE FORE Pra VER ROS Mama mo asa anda 9 1 5 6 Maintenance acknowledgment sese 1 6 THESOGKET eege gegen rit mee eer ud aan 1 7 THE INTERFACES 1 8 TECHNICAL DATA CHAPTER 2 INSTALLATION AND WIRING oo oo eene SNE E del 201 all We le 2 1 2 Mounting in
26. a control cabinet door 2 1 3 Mounting in control cabinet on DIN rail PARAVIT nan E an naa DD AGO Krell casts cane eege repete eie re ax late he ae Ka Ka te PAN NE AR ENDE Pese teu BA 2 2 2 Main TE 2 2 3 Input TERMI EE 2 2 4 0 10V Universal terminals 2 2 5 Output terminals WWW Wak 2 2 7 Connection with the heat pump WWW CHAPTER 3 INITIAL INSTALLATION seen 26 3 1 SELECTING A SYSTEM DIAGRAM HPM oO 26 3 2 LOADING THE SYSTEM DIAGRAM cessa Hentai ha E Ne eer canes hutan onani 28 3 2 1 Initial loading of the system diagram oo 29 3 2 2 Reloading the system dlagram sisiran seci aiaia 30 3 2 3 Manual configuration loading of diagram 99999 susuus 30 3 3 ADDITIONAL ADJUSTMENTS tege pto ree ena nisan un ai TEE 32 3 3 1 Mhe menu StEHCEUTe s eese tst repe hn aen euren a EXER E viene n ER een 32 3 3 2 Access codes eie na aah Ee Y E ERR PR Re dE od 33 3 3 3 Aquarea basic configuration only needed for connection via Bus 34 3 3 4 Domestic hot water Setpoints mk 34 3 3 5 Heating Circuits Setpoints heating curve setpoint limitation 35 3 3 6 System time and date 36 3 3 7 EE SEIT Eeer degen See RN an NN ana 36 3 3 8 Operating mode SWITCH oiii Wo o o do doooo coocooococomoodoooo moeasanana 37 3 3 9 Testing the functionality rro oWooooomoomo oomn dense 37 3 3 LO Screed GIVING coco eroe reor NAN NAN EPA ere Rasa KONSER Eben 38 CHAPTER
27. act signal input As long as the contact is closed room is still too cold the heating program will remain in automatic operation When the contact opens the heating circuit changes to switch off operation In this case no temperature demand is calculated only the frost protection function is active 2 2 4 0 10V Universal terminals Sensor N Sensor E Sensor Potential for 13 Sensor Relay z Sensor Not used Sensor Relay E Sensor Potential for 9 1 1 E Sensor Relay s Contact counter Not used b Contact counter Relay 0 10 V Potential for 5 7 0 10 V Relay g Component Sensor ground Not used sending or Not used Relay receiving Not used Potential for 1 3 0 10 V Not used Relay Fig 2 9 Connection of 0 10V inputs or outputs The HPM has two 0 10 V universal terminals These can be used as inputs or outputs individually Please refer to the operating manual for further information 18 External heat demand Controller 10 controls heating circuits and DHW circuits sensor relay sensor ground for 9 71 lay sensor contact counter 11 1 notused Upto 10 controllers Fig 2 10 controlling external heat demand with up to 10 controllers The 0 10 V inputs outputs can be used to transfer a heat demand from one controller to another If one controller is used to control the heat source the 0 10 V inputs
28. am IP address in cascade system As the IP address will be changed in the slave controllers loading of the system diagram should take place before the controller is connected to the LAN switch 25 Chapter 3 Initial installation 3 1 Selecting a system diagram HPM tool HPM tool is a web based software accessible via the address www hpmtool eu by using a standard Internet browser HPM tool permits guick and easy selection of the right system diagram for your heating system ideas for life Heat Pump Ki Dom Hot Water gt Buffer Tank Ki Heating Circuit 1 gt Heating Circuit2 gt nore 1 heat pump enable contact none none none none 2 hoot pumps erable contact 3 hoat pumps enable contact Welcome to HPMtool 2 heat pumps com master controller bose your system configuration from the menu at the top or enter your SD Number directly below 3 heat pumps com master controller 2nd heat pump com slave controller 3rd heat pump com slave controller SD Nr 2012 Panasonic Deutschland eine Division der Panasonic Marketing Europe GmbH Fig 3 1 Selection of the heat producer heat pump s It is necessary to select the corresponding modules for the main parts of the system heat producer heat pump s domestic hot water heating circuit 1 2 The selected modules are combined into a system diagram HPM tool then generates a system diagram number which has to be entered into the HPM dur
29. ating unit of the heat pump The HPM controller cannot make any adjustments to this flow temperature via the contact signal In systems with domestic hot water control the loading process of the domestic hot water tank is not controlled by the HPM controller but by the internal control strategy of the heat pump Depending on the desired system heat production for domestic hot water heating or heating only the activation signal of the HPM must be connected to the following external connections of the heat pump For heating and DHW Function Room thermostat Terminal 9 12 For heating only Function External control signal remote switch Terminal 17418 HPM1 HPM1 SD 17xxx 1HP contact SD 10xxx 1HP contact Pm term 9 12 term 17 18 genge r E DHW heating heating Fig 2 17 Heat pump activation via contact 22 In systems for heating and domestic hot water production with only one heat pump as well as in cascade systems in which HP1 is taking care of heating and DHW the function Room thermostat terminals 9 and 12 must be used In this case the heat pump can decide when the DHW tank should be loaded using its own domestic hot water management controlling the switch over valve and calculating the needed flow temperature The function External control signal remote switch terminals 17 and 18 is always used when the heat pump is used only to produce heat for heating In this case
30. can be used to connect up to 9 other controllers for control of heating circuits or domestic hot water circuits The highest demand highest voltage is used for controlling the heat source Please refer to the operating manual for further information 2 2 5 Output terminals Valves Valve actuator with 2 point control thermal actuator or spring return Sensor N Sensor L Sensor Potential for 13 Sensor Relay Sensor Not used Sensor Relay E Sensor Potential for 9 1 1 S Sensor Relay E Contact counter Not used a Contact counter Relay 0 10 V Potential for 5 7 0 10 V Relay Sensor ground Not used Not used Relay Not used Potential for 1 3 Not used Relay Fig 2 11 Connection of valves 2 point Actuator with 2 point control 19 Valve actuator with 3 point control Sensor N Sensor L Sensor Potential for 13 Sensor Relay Sensor Not used Sensor Relay 8 Sensor Potential for 9411 E Sensor Relay 2 Contact counter Not used a Contact counter Relay 0 10 V Potential for 5 7 0 10 V Relay Sensor ground Not used Not used Relay Not used Potential for 1 3 Not used Relay Fig 2 12 Connection of valves 3 point Valve actuator with continuous control 0 10 V Actuator with 3 point control External E power supply 5 230 V 24 V 5 S N EI E PE Actuator with contin
31. communication HC1 unmixed without a pump has been loaded After this system diagram has been loaded the screed drying function will appear in the display automatically If a different system diagram was loaded or if it is desirable to start the function from normal operation the following steps must be performed Press OK in the default display Select heating circuits using DOWN and enter the menu by pressing OK in system diagrams using more than one heating circuit select heating circuit x and enter by pressing OK Select functions using DOWN and press OK to enter the menu The following parameters will be displayed Name Info text Range default values active activate the function 0 1 default 0 InitTemp initial temperature 2 50 C default 25 C dwellInitTime dwell time initial temperature 0 10 days default 1 day rateTmpt rate of heat up 1 50 K per day default 5 K per day rateTmp rate of cool down 1 50 K per day default 5 K per day maxTemp maximum temperature 2 65 C default 45 C dwellMaxTemp dwell time maximum temperature 0 10 days default 3 days Table 3 4 Parameters to adjust and activate When screed drying is active the flow temperature setpoint of the current step is controlled through control of the valve in the heating circuit and demand to the heat pump respectively If the difference
32. e weekly timer programs the beginning and end time of the occupation times are not permitted to overlap Occupation times that exceed the end of a day must be programmed using 2 occupation times numOT 2 1 18 24 o clock 2 0 6 o clock The annual programs for the timers permit setting special non occupation times max 15 and special occupation times max 10 Depending on the date it is possible to set operating times that differ from the normal non occupation times e g holiday in a private house and normal occupation times e g a normal weekday in a school For annually recurring special days the year may be set to e g 01 01 The timer menu is opened by pressing OK twice before the display shows the default display Use DOWN to select the channel selection timer chan selec and press OK Select the desired timer using DOWN and press OK to enter From here the menu items weekly program special non occupation time or special occupation time can be selected as desired containing the aforementioned parameters 36 3 3 8 Operating mode switch The operating mode switch for the controller and heat pump are set to the OFF position after the system diagram has been loaded In this position no temperature setpoints are calculated and no control outputs activated To place the system into automatic operation the operating mode switches for the controller and the h
33. eat pump must be set to AUTO The switches can be located by pressing while in the default display Select the required operating mode switch using DOWN Use or to set the switch to the desired position and press OK 3 3 9 Testing the functionality Testing the connected sensors and the correct functionality of the outputs is an important step during initial installation Sensors The value measured at each connected sensor can be seen in the menu Current value in each module If a sensor is missing or if its cable has broken or suffered a short it will be shown in the default display e g as the error message TI input trouble indication Term xx The status menu of each module will detail which error was recognized on which sensor e g outdoor sensor too high cable broken oudoor sensor too low short in cable or in the sensor What to do e Solve any eventual wiring problems e Measure the signal resistance of the disconnected sensor If nesseccary replace the sensor A table of sensor measuring vaues is contained in the appendix of this manual e Sensors which have been assigned by loading the system diagram but which are not needed or not connected must be deleted in the menu System terminal assignment in the associated module Outputs To check the functionality of the connected valves and pumps the following steps must be followed 1 Set t
34. he operating mode switch to manual 2 The menu manual of each module permits manual control of the connected component Parameter value 3 sets the pumps and the the 3 point actuators to automatic 101 will do the same for actuators with continuous control 0 10 V 3 Changing the parameter to 0 will cause the HPM controller to issue a CLOSE signal to 3 point actuators an OFF signal to pumps and a 0 control signal to actuators with continuous 0 10 V control 4 Changing the parameter to 1 will cause the HPM controller to issue an OPEN signal to 3 point actuators and an ON signal to 2 point controlled components Entering a value between 0 10 enables testing of the complete continuous control signal 0 10 V 5 After all testing has been performed all values must be reset to their original state and the operating mode switch set back to AUTO 37 3 3 10 Screed drying The screed drying function enables the initiatiation of a special heating up program for a composition floor layer Depending on the screed material used and its composition it is possible to adjust the parameters for starting time and heat up holding and cool down steps before the function is activated The HPM controller offers the screed drying function only if a flow temperature sensor is assigned to the heating circuit or if the system diagram 50090 heat pump with
35. heat pump must be switched off in order to connect the adapter cable PAW HPINT x to the main PCB inside the heat pump instead of the cable coming from the operating unit The other side of the adapter cable must be connected to the BUS interface of the HPM controller The heat pump will emit a beep if the connection was successful 3 3 4 Domestic hot water Setpoints If setpoints differing from the basic values 45 C should exist for the domestic hot water tank these can be adjusted Different values for occupation times 1 4 can be selected as well as non occupation time and special non occupation time holiday 34 To reach the menu for making these adjustments starting from the default display press OK and select domestic hot water DHW using DOWN Enter the menu using OK and then select setpoints and press OK This menu contains all parameters required for the occupation SP OTx and non occupation times 3 3 5 Heating Circuits Setpoints heating curve setpoint limitation After loading the system diagram the HPM will automatically configure the parameters in the heating circuit for weather dependent flow temperature calculation for underfloor heating systems Therefore a flat heating curve has been chosen Slope hCu slope 0 5 along with a small exponent radiator exponent hCu exp 1 10 and a comfortable base point basepOTx 22 C These parameters can be found in the menu
36. heating circuits heating circuit x setpoints To reach the menu in order to make adjustments press OK starting from the default display select heating circuits with DOWN and enter the menu using OK In the next menu the heating circuit will likely have to be selected Select setpoints with DOWN and enter the menu using OK This menu contains all parameters needed for the heating curve For alternative heating systems the following adjustments must be made Radiator Heating system Heating curve slope exponent 0 2 flow 29 C for outd temp 10 C underfloor heating up to 35 C 0 3 flow 32 C for outd temp 10 C 1 10 0 4 flow 35 C for outd temp 10 C 0 5 flow 38 C for outd temp 10 C low temperature radiators up to 45 C 0 6 flow 41 C for outd temp 10 C 1 20 0 7 flow 44 C for outd temp 10 C 0 8 flow 48 C for outd temp 10 C 0 9 flow 51 C for outd temp 10 C 1 0 flow 55 C for outd temp 10 C 1 20 1 40 DIN 1 33 radiators and plate radiators up to 55 C 1 flow 58 C for outd temp 10 C convectors up to 65 C 1 2 flow 61 C for outd temp 10 C 1 40 1 66 3 flow 65 C for outd temp 10 C Table 3 3 Overview heating systems heating curve When selecting a heating curve gt 0 5 the function summer shutdown will be automatically set to type 2 3 day caretaker This means that the outdoor
37. ing the startup phase 26 BE English z ideas for life Heat Pump Ki Ki Heating Circuit Heating Circuit2 1 heat pump changeover valve com installed 3 point actuator communication Solar system Fig 3 2 Selecting heating circuit 2 the system structure is now completed If a selected system diagram is available this is shown by a symbol located to the right of the number SD Nr 9 Spr Fig 3 3 System diagram NOT available System diagram available If the desired system diagram is not available simply choose the closest available solution and then make the needed adjustments manually during initial installation in order to adjust the controller to your heating system When selection is finished HPM tool will offer the option to print or download the proper documentation in PDF or Excel format amp Print Preview x3 Save to excel Save as pdf Fig 3 4 Options for exporting the documentation The documentation includes the graphical presentation of the system diagram the corresponding system diagram number and the designation of the input and output terminals 27 HPMtool Schema 58133 Print 1 heat pump changeovervalve installed S pointactuator 3 pointactuator temp sensor HC1 flow temperature temp sensor HC2 flow temperature temp sensor ground for 13 temp sensor relay HC1 pump Solar collector temperature temp sensor notused Heat Pump Strategy Buffer tank temperature temp se
38. ion room temperature below frost limit BP heRoom Building protection room temperature above heat limit uLiColl Solar collector above upper limit uLiStor Storage tank temperature above upper limit uLiFlow Flow temperature above upper limit TI system Trouble indication system error message input active Ti input Trouble indication input short or broken cable thermDes Thermal disinfection could not be finished Xw loadFI Loading flow temperature difference between current value and setpoint is above max control deviation Xw room Loading flow temperature difference between current value and setpoint is above max control deviation Xw buffer Storage tank temperature difference between current value and setpoint is above max control deviation Xw bufferVL Storage tank flow temperature difference between current value and setpoint is above max control deviation Xw flow Flow temperature difference between current value and setpoint is above max control deviation Xw contr Temperature difference of control sensor between current value and setpoint is above max control deviation These error messages do not have to be acknowledged the error message will disappear automatically as soon as the problem has been solved Furthermore the error code sent to the HPM when it is connected via Bus will be shown in the display of the controller Some of these errors must be acknowledged A list of all possible error message
39. more thoroughly 2 2 2 Main voltage Sensor N Sensor L Sensor Potential for 13 Sensor Relay Sensor Not used S Sensor Relay Sensor Potential for 9 11 2 Sensor Relay g Contact counter Not used a Contact counter Relay 0 10 V Potential for 5 7 0 10 V Relay a Sensor ground Not used ES Not used Relay Not used Potential for 1 3 Not used Relay Fig 2 5 Connection of the power supply N L 230V AC PE The HPM is a stand alone controller with a 230V power supply The power supply also feeds the components which in turn are connected to the relays 15 2 2 3 Input terminals The HPM has the following input terminals e Sensor input PT1000 Nickel1000 or Nickel1000 LG Only one type of sensor can be used at any one time and has to be specified during the initial installation see chapter The start up sequence e Contact input or counter input for reading a pulse from a meter e 0 10V input for sensors with 0 10V output or for a heat demand via signal 0 10V 0 150 C These inputs can also be used as 0 10V outputs see the operating manual for more information Sensors contact Sensor N Sensor L Sensor Potential for 13 Sensor Sensor Relay contact Sensor Not used Sensor Relay E Sensor Potential for 9 1 1 S Sensor Relay s Contact counter Not used b Contact counte
40. mp is switched on in emergency operation E heater inside is active a Table 1 5 Main switch of heat pump For more information please refer to the menu Configuration switch heat pump main switch 1 4 4 System overview To provide the user or technical personnel with a guick overview of the current heating system it is possible to enter a menu which will display the most relevant parameters These include operating and error status setpoints current values and signals transmitted via the output terminals as well as the option to adjust the occupation time and non occupation time setpoints To enter the system overview menu press while in the default display The list of parameters can then be scrolled through by pressing DOWN For more information refer to the chapter System overview 1 4 5 Overtime It is possible to easily prolong the current occupation time without changing the basic timer parameters or to spontaneously initiate a new occupation time This can be performed simply by pressing DOWN In the overtime menu the overtime for each consumer circuit heating circuit 1 heating circuit 2 and the domestic hot water circuit can then be activated separately depending on the current configuration of the controller For more information refer to the chapter Configuration keys 1 4 6 Maintenance acknowledgment To acknowledge errors of the heat pump s and to give
41. nables it to be screwed directly onto the wall 13 2 1 2 Mounting in a control cabinet door Flaps for fastening controller in cabinet door Fig 2 2 Control cabinet door mounting The HPM can be installed in a cabinet door or in a panel of a boiler or a heat pump The controller is designed to fit into a standard hole of 138 x 192 mm Simply slide the controller through the hole in the cabinet door or the boiler heat pump panel and turn the flaps until the controller is secured No screwdriver or additional tools are needed 2 1 3 Mounting in control cabinet on DIN rail Lock for DIN rail Fig 2 3 Mounting on DIN rail The socket of the HPM is also ready for direct mounting onto a DIN rail either inside of a cabinet or in any other housing in which a DIN rail is available Simply clip the socket onto the DIN rail and the mounting process is completed 14 2 2 Wiring 2 2 1 General 8x PT1000 NI1000 0 10V In Out 0 10V In Out u 1A 230V ind TP ENI Islefsfefo nfefela isfelelalsi 20 at eS lee as E E E View of terminal base Ansicht auf Sockel Fig 2 4 Connection of power supply relay outputs sensor and contact inputs The HPM is equipped with 7 potential free relay outputs 8 sensor inputs which can also be used as contact inputs 2 contact pulse counter inputs and 2 continuous 0 10 V universal inputs outputs The following chapters explain the use of the terminals
42. nin Nasbarhinan Fig 1 1 Different modules are combined into a system diagram HPM tool then provides a system diagram number which is entered into the controller and the corresponding terminal configuration By making selections from the menu system near the top of the screen the modules can be combined into a system diagram corresponding to the actual heating system in use HPM tool then generates a system diagram number This has to be entered during initial startup of the controller The terminal configuration displayed in HPM tool shows to which input and output terminals the sensors pumps and valves must be connected The terminal configuration can either be printed out or saved as a Microsoft Excel file 1 2 Model overview and Accessories The product range of the PAW HPM consists of the HPM controller with or without display the adapter cable enabling communication with a split or mono block heat pump and miscellaneous sensors Controller type Display and Keys BUS Web PAW HPMI X X X PAW HPM2 X X Communication with a heat pump requires additional adapter cable of model INT X Table 1 1 Controller types The HPMI is a standardized controller for systems including a heat pump Control of the heat pump can take place either via a contact or via communication A HPM controller can be used for cascade control of up to 3 heat pumps For demand via contact only one HPM1 is required When utilising ca
43. nsor relay HC1 valve CLOSE temp sensor ground for 9411 temp sensor relay HC1 valve OPEN counter notused contact relay 0 10V ground for 5 7 0 10V relay sensor contact ground notused notused relay notused ground for 1 3 notused relay Solar pump HC2 pump HC2 valve CLOSE ECH boo HC2 valve OPEN Fig 3 5 Print preview When entering the system diagram number e g 58133 in the above example into the HPM during its initial start up phase the controller will automatically configure its input and output terminals and parameters in accordance with the documentation offered by the HPM tool The appendix of this manual contains a selection of the most frequently used system diagrams in case no Internet connection is available The graphical display of the web server integrated in the HPM unit is automatically adjusted to the selected system diagram The overview picture in the web server corresponds to that of the selected diagram in HPM tool 3 2 Loading the system diagram When the system diagram is being loaded the HPM will perform an automatic configuration of its parameters according to the selected system diagram e All input and output terminals will be assigned and configured according to the system diagram e All important functions are activated and their parameters are adjusted Afterwards the controller is ready to operate NOTE The operating mode switches in the HPM and in the heat pump will be put
44. put limitation screed drying sensor correction correction value 10K terminal assignment 48 Part Il Index Access codes Aguarea Settings C Communication Connection with the heat pump Control elements Default display DHW setpoints Error acknowledgement Error messages Heating curve HPM tool Installation Interfaces 33 34 11 22 34 39 35 5 26 13 11 50 Maintenance Manual configuration Menu structure Menu structure Model overview Mounting Operating mode switch Overtime Screed drying Socket System date System diagram System overview System time Technical data Wiring 30 42 32 13 8 37 38 10 36 28 36 12 15
45. r Relay 0 10 V Potential for 5 7 0 10 V Relay m Sensor ground Not used Not used Relay Not used Potential for 1 3 Not used Relay Fig 2 6 Connection of sensors or contact inputs A sensor is connected to the assigned terminal and to the sensor ground Exigo supports connection of up to 8 sensors PT1000 Nil000 and Ni1000LG sensors are not poled and it is therefore not necessary to differentiate between which wire should be connected to the ground and which should be connected to the terminal The sensor inputs can also be used as contact inputs Room sensor with remote setpoint adjustment To connect a room temperature sensor with a remote setpoint potentiometer PAW HPMRA all sensor inputs can be used that are still free and which have no function once the system diagram has been loaded The sensor ground and the chosen input terminals must to be connected to the sensor and the setpoint potentiometer in the PAW HPMRA the sensor ground will probably have to be bridged 16 C Sensor N SP Sensor L Sensor Potential for 13 Sensor Relay o Sensor Not used Sensor Relay Sensor Potential for 94 11 E Sensor Relay s Contact counter Not used b Contact counter Relay 0 10 V Potential for 5 7 0 10 V Relay ga Sensor ground Not used Not used Relay Not used Potential for 1 3 Not used Relay Fig 2 7 Connection of a room sensor with remote setpoint
46. record terminal assignment reference delete interfaces Ethernet external display heat pumps general char values heat pump x configuration inputs outputs keys switch diagrams adjustment of system diagram and type of heat pump s initiate cold start system survey controller heating circuit x DHW bufer tank heat pump x Module heat pump heat pump current values HPOutdoor HPOutletTemp HPInletTemp etc setpoints setpointHC heating circuit heating cooling setp DHW demand of domestic hot water functions setpoint limitation boost maintenance signal external demand controller bivalenz Aquarea settings service modus busstatus operating status error status SP source outputs show help status Aquarea return signal s OP manual operation HP release 0 OFF 1 ON 3 AUTO HP Bivalenz 0 OFF 1 ON 3 AUTO service General values operating hours starts status maintenance signal external demand bus status Amount of heat heat energy COP sensor correction correction value 10K terminal assignment 43 Module strategy circuit strategy circuit current value flowHC flowDHW outdoor etc SP flowHC heating circuit heating cooling SP flowDHW demand of DHW setpoints function leading following boost signal frost protection pump additional heat producer external demand controller setpoint limitation pump valve exercise operating sta
47. roller is equipped with an Ethernet interface it can be connected to a communications network which can in turn be connected to the Internet The interface can be used to a Communicate with the controller b Connect master and slave controllers when using more than one heat pump in the system 11 1 7 Technical data Power supply ber entotan ena reiten neben mna 85 265 V AC 50 60 Hz Power consumption oooocoooo W Max 8 VA depending on model Dumenstons Women 146 7 x 97 6 x 76 0 WxHxD Ambienttemperalt re ai idee erede ee an re rap ener Ha naa 0 50 C Storage temperature Lho san Rn anne ena 40 50 C Ambient humidity i225 benua den badai ere uenak Max 90 RH Protectiomelass rro en tr nre toe reds IP20 mounted on the wall M IP40 mounted in cabinet Connection 5 iei Doer Dep ben ow nee ente adu E Des esas RA Terminals in a socket Memory backup ccecccsceesseeseeeeeeeeeeeeceeeeeeeeeeseenaeenees Long life battery 78 years e All settings are stored in the event of power failure Display iicet Unt nts Backlit LCD four rows of 20 characters EMC emissions amp immunity standards This product conforms to the requirements of the EMC Directive 2004 108 EC through product standards EN 61000 6 1 2001 and 61000 6 3 2001 RoHS This product conforms to the Directive 2011 65 EU of the European Parliament and of the Council Inputs Analogue inputs 8
48. rolling the heat pump s via a contact signal permits control of up to 3 heat pumps in a cascade This requires using the right external connections for the heat pump Depending on the system in question either terminal 9 12 or terminal 17 18 must be used HPM1 SD 3xxxx 3HP contact HP1 term 9 12 HP2 term 17 18 HP3 term 17 18 Panasonic Panasonic 1 d eee DHW heating heating heating last following leading Fig 2 19 A cascade system using release via contact 24 Cascade via communication Systems in which more than one heat pump is controlled via the communications port reguire both additional HPM 2 controllers as well as the proper adapter cable for the additional second and third heat pumps The HPM controllers must be connected via an Ethernet LAN switch see figure below When loading the appropriate system diagrams the functions will be automatically adapted in each controller and fixed IP addresses will be issued HPM1 Master 11 HP1 HPM2 Slave 12 HP2 HPM2 Slave 13 HP3 SD 7xxxx 3HP Bus SD 80000 2 HP Bus SD 90000 3 HP Bus WWW DHW heating heating heating last following leading Fig 2 20 cascade system with communication via BUS System diagram IP after loading the diagram 6xxxx 2WP HPM master controller HP1 Txxxx 23WP 192 168 178 11 as default setting HPM2 slave controller HP2 80000 192 168 178 12 HPM2 slave controller HP3 90000 192 168 178 13 Table 2 1 Diagr
49. s not possible An overview of all compatible heat pumps is contained in the appendix Adjustments must now be made to the other control circuits 7 Use DOWN to select the parameter buffer Adjust the parameter to suit system needs 0 no buffer tank included 1 buffer tank included 8 Use DOWN to select the parameter numDHW Adjust the parameter to suit system needs O no DHW circuit included 1 DHW circuit included 9 Use DOWN to select the parameter numHC Adjust the parameter to suit system needs 0 no heating circuit included 1 one heating circuit included 2 two heating circuits included 10 Use DOWN to select the parameter cold start Change the parameter to 1 by using Press OK 11 When the display shows SYSTEM 99999 LOADED the process is complete The controller has been structured 12 When conducting this kind of initial installation it is important to remember that the assignment of input and output terminals and the adjustment of the control circuits must be performed manually CAUTION When performing a cold start all previously performed adjustments are lost and all parameters are reset to their default values 31 When the configuration is performed it can be saved to memory To do so the controller must be connected to a PC or notebook and the appropriate software must be used e g gpm read reading parameter settings hpm write writing parameter settings back
50. s of the heat pump are described in the operating and service manual of the pump 39 OV Dogg enino buyeay y jo julodeseq LO uodas Odeseq Buneeu 100yuapun Joy QL Dupueg jueuodxe 1ojerpe dxe noy coc sve 99e Lev got L UGS ces veo gi 917 ZSL 664 188 cee tro vec tee z9 vOv Urt Liv VIS ros ses veo 199 869 Gel In 808 cre cg Sr o vec ge eve L 8E ely Grp nm eos tr gie 8 9 19 207 vel 19 662 OL cle eoe 676 LSE Go ely vb Lov Ser ces SG 116 S 09 ZER 4g si S 9 soc 789 LE EEE Ss 67 2 Ov vov Ler Lv 6r OLS CG L oc DCH 409 0 z sse ezz rez GO Lee Sve Co ee eec TC Ger ESY Lb 68v Z0S Ges eG S 3 sre ese ive vee L6c LE EZE ee se ese 97 69 Z Ot Gly Ser Lir vs OL see eve tse Bo 19 se eee ec Jee Zoe GIs EZE Les RS LYE sse ese SL 8 see zez c Zee se Le vc eve sve Ars Ge as sc DS 92 cg soe oz cc z cc cc cc cc cc z ce ES ES ES E ze s z0 0 v0 S0 90 z0 80 60 L EL ZE E L vi S EN JY 8 Do Ul nn Buneeu edojs anind orsuejoe eu adojs noyY duet wo D ul einyeJadwaj 100PNO oz Sk DL EN 0 S 0L Sl D Sc i i i i i oz d O SE m Lor z 3 Sy 2 E os g 80 Lee O 60 09 L S9 UL 04 cL EL vi SL 91 Zi 8L DoS JO sdas ur ounjeoduroj 100pjno pue OU USIMJ2G uone ol100 oy surejuoo NUS SIY uondepy NOH SDIAIOS x PNOO SuNvo
51. scade control via a communication port one HPM1 is required as a master controller and up to 2 HPM2 as slave controllers for communication with heat pumps 2 and 3 In addition the HPM controllers must be connected via an Ethernet port Accessories Description Usage Adapter cable PAW HPMINT U Adapter cable HPM split HP 5V 3m Communication with a split heat pump PAW HPMINT M Adapter cable HPM mono block HP 12V 30m Communication with a MONO block heat pump Sensors PAW HPMUH Outdoor sensor 30 70 C For weal her dependant setpoint calculation PAW HPMAH1 Clamp on sensor 20 120 C RU NISUS for the heating Universal cable temperature sensor PAW HPMBI Domestic hot water buffer tank 30 100 C PAW HPMSOLI Cable temperature sensor 50 250 C Solar collector domestic hot water buffer tank high temp PAW HPMDHW Immersion temperature sensor 20 120 C with pocket R1 2 L 90mm stainless steel Flow temperatur for heating circuit domestic hot water buffer tank PAW HPMR4 Room temperature sensor with setpoint adjustment 5 30 C Room temperature and remote setpoint potentiometer for heating circuit Table 1 2 Accessories 1 3 The HPM Package The HPM Package consists of the following components e Controller e Socket e Installation instruction 1 4 The controller 1 4 1 The control elements
52. the menu items time and date In these menus the parameters curTime current time and curDate current date are available for selection and modification The values can be adjusted using 7 and a new value entered with OK To ensure that the occupation times for domestic hot water and the heating circuits will function correctly entering the correct values for the system clock is essential If the system clock uses an incorrect value wrong temperature reductions may occur during the night or during holidays 3 3 7 Occupation times Each consumer circuit domestic hot water heating circuit 1 heating circuit 2 and the whisper i e quiet mode of the heat pump only usable when communicating via bus has an assigned timer After the system diagram has been loaded all timers are set to the occupation time mon sun 00 00 24 00 o clock Using this setting no temperature reduction will take place for the domestic hot water and heating circuits during the night The heat pump will also not automatically switch to whisper mode If temperature reductions are to be used during the night these settings can be changed in the menus DHM heatc 1 heatc 2 quiet after selecting the timer channel in the menu timers timer chan select Up to 4 occupation times can be set per day with an option to use occupation times for a group of days in the same week In th
53. tus error status SP source outputs show help status manual operation pump 0 OFF 1 ON 3 AUTO additional heat producer OFF 1 ON 3 AUTO service General values status leading releaseHC releaseDHW signal pump additional heat producer external demand sensor correction correction value 10K terminal assignment 44 Module buffer tank buffer tank current value setpoints function status manual operation service tank solar additional heat producer etc SP zonel Setpoint heating cooling boostzZ1 boost until switch off limit boost external demand signal buffer tank additional heat producer solar operating status error status SP source outputs show help status additional heat producer 0 OFF 1 ON 3 AUTO solar pump 0 OFF 1 ON 3 AUTO etc General values external demand sensor correction correction value 10K terminal assignment 45 Module domestic hot water domestic hot water current values DHWtank DHWtank2 DHWflow usw Sollwerte SPDHWta SP OT1 SP OT2 etc function priority controller release return limitation remote control signal frost protection setpoint limitation controller forced load thermal desinfection circulation pump pump valve exercise output limitation solar statistic operating status error status SP source outputs show help status manual operation valve 3Pnt 0 CLOSE 1 OPEN 2 STOP 3 AUTO cont
54. uous Sensor N Sensor L Sensor Potential for 13 Sensor Relay z Sensor Not used Sensor Relay Sensor Potential for 9 11 Sensor Relay Contact counter Not used Contact counter Relay 0 10 V Potential for 5 7 0 10 V Relay m Sensor ground Not used z Not used Relay Not used Potential for 1 3 Not used Relay control signal Fig 2 13 Connection of valves with continuous control 0 10 V 20 Pumps Pumps with 2 point control Sensor N Sensor E Sensor Potential for 13 Sensor Relay Sensor Not used Sensor Relay E Sensor Potential for 9 11 S Sensor Relay E Contact counter Not used a Contact counter Relay 0 10 V Potential for 5 7 0 10 V Relay Sensor ground Not used Not used Relay Not used Potential for 1 3 Not used Relay Fig 2 14 Connection of a 2 point pump Pumps with continuous control Pump with 2 point control Sensor N Sensor L Sensor Potential for 13 Sensor Relay e Sensor Not used Sensor Relay External E Sensor Potential for 9 1 1 power supply amp Sensor Relay 230 V 400 V S Contact counter Not used N b Contact counter Relay L 0 10 V Potential for 5 7 PE 0 10 V Relay 4 Sensor ground Not used i Not used Relay Not used Potential for 1 3 Pump with Not used Relay continuous control signal
55. y sy MII SuNeoy NUJU IY ur jo o33uo09 JAdH au ur punoj oq ued soA1no Bulyeoy oq Sunueso1doi ag IY ur S NJLA aq sjurodjos x jmd Suyeoy SNIMIO Sureor nusu oq ur jurodjes o1nje1oduro Moy ou JO uone no eo juopuedop 1ouj o 201 Idepe o3 pasn oq uto Surpi 8 o e1ed jurod oseq oq pue Juduodxo 1uouodxo 10j rpe1 y odo s ono Zune ou soAJno DuneoH zb 4 3 Table of measuring values of the sensors The HPM controller primarily works with standard PT1000 resistor sensors In order to test the sensor both wires of the connection cable must be disconnected from the HPM controller after which a temperature dependent resistor value can then be measured with a multimeter The measured value must correspond with the raw value of the terminal to which the sensor will be connected again The raw value can be found in the menu configuation inputs term xx To reach the configuration menu itis necessary to enter the highest access code for service technicians Temp Raw value Temp Raw value Temp Raw value Temp Raw value C kOhm C kOhm C kOhm C kOhm 28 0 890 2 1 008 32 1 125 62 1 240 26 0 898 4 1 016 34 1 132 64 1 248 24 0 906 6 1 023 36 1 140 66 1 255 22 0 914 8 1 031 38 1 148 68 1 263 20 0 922 10 1 039 40 1 155 70 1 271 18 0 929 12 1 047 42 1 163 72 1 278 16 0 937 14 1 055 44 1 171 74 1 286 14 0 945 16 1 062 46 1 179
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