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ESIE07-09 BMS multi scroll DRAFT tcm135

1. 2 27 3 30 objects Kol ana uM EE 2 11 Operation and display 1 1 3 9 Index i ESIE07 09 S service meni ur Lou 3 a a is en Gah n renun dub eed LLA is 1 11 SIV K cru RO ates mre tss echt a mr een qr deuda detis 1 4 Specifications er Re Lr Ep TTT 3 7 W wiring diagram ieres neda eire FREE RA ERE RR RE Index
2. Cancei 2 32 Part 2 LON ESIE07 09 Communication procedure 2 After commissioning the device can be browsed or a function block can be used to browse the available variables Example 4 Bile Edit Browse Help 4jojeje ed 21 sem Device Network Variable Ca ONP onal Blo 00 Subsystem 1 EKLONPG Virtual Functional Block nviCapctyLim 002 Y 0000 Subsystem 1 EKLONPG Virtual Functional Block nviChlrEnbl 001 000 Subsystem 1 Virtual Functional Block nviChirEnbl 002 000 Subsystem 1 EKLONPG Virtual Functional Block nviCoolSetpt 001 32 Subsystem 1 EKLONPG Virtual Functional Block nviCoolSetpt 002 vu 32 Subsystem 1 EKLONPG Virtual Functional Block nviHeatSetpt 001 Y 32 Subsystem 1 EKLONPG Virtual Functional Block nviHeatSetpt 002 Y 32 Subsystem 1 EKLONPG Virtual Functional Block nviMode 001 Y HVAC AUTO Subsystem 1 EKLONPG Subsystem 1 EKLONPG Subsystem 1 EKLONPG Subsystem 1 EKLONPG Subsystem 1 EKLONPG Subsystem 1 EKLONPG Subsystem 1 EKLONPG Functional Block nviMode 002 HVAC AUTO Functional Block nvoActCapcty 001 Y 0000 Functional Block nvoActCapcty 902 YU 0 000 Functional Block nvoActvSetpt 001 Y 5138 Functional Block nvoActvSetpt 002 YU 46 22 Functional Block nvoAlrmDescr 001 v Functional Block nvoAlrmDesc
3. TZS o se el 2 5 ow 21 a MZ Se Pe J Subsystem 1 Virtual Functional Block nviCapctyLim 001 Y 0 Subsystem 1 EKLONPG Virtual Functional Block nviCapetyLim 002 Y 00 subsystem 1 EKLONPG Virtual Functional Block nviChlrEnbl 001 000 Subsystem 1 EKLONPG Virtual Functional Block nviChirEnbl_002 000 onal Blo oolSetpi Subsystem 1 EKLONPG Virtual Functional Block nviCoolSetpt_002 Monitor AlOn Ctrl 8 Subsystem 1 EKLONPG Virtual Functional Block nviHeatSetpt_001 Y AA P EE Subsystem 1 EKLONPG Virtual Functional Block nvileatSetpt 002 Y cris rer Subsystem 1 Virtual Functional Block nviMode 001 Y 2 d Subsystem 1 EKLONPG Virtual Functional Block nviMode_002 va Properties pa Subsystem 1 EKLONPG Virtual Functional Block nvoActCapety 001 Y Monitor 2 Subsystem 1 EKLONPG Virtual Functional Block nvoActCapety_002 va Get Value Subsystem 1 Virtual Functional Block nvoActvSetpt_001 Y Serve i ed P Subsystem 1 EKLONPG Virtual Functional Block nvoActvSetpt 002 va Clear value 1 Subsystem EKLONPG Virtual Functional Block nvoAlrmDescr 001 Y Des at 3 Subsystem 1 EKLONPG Virtuai Functional Block nvoAlrmDesci 002 va 4 Mg Svosystem 1 EKLONPG Virtual Functional Block nvoCapetyLim 0
4. 4 Press to enter the configuration file name Enter Parameter L Local lt PC gt Filename config csu R Remote lt FieldServer gt Filename config csu D Download Part 2 LON 3 27 Gateway configuration ESIE07 09 5 Type the configuration file name including drive directory Enter Paraneter L Local lt PC gt Filename config csu R Remote lt FieldServer gt Filename config csu D Dounload Example dAconfig configbon pc daikin 2units vO 6 csv d conf ig conf igbn daikin Zunits 6 6 Press enter If file exist the file is shown on screen Remote User Interface Downloading Configuration File L Locad conf ig conf ighn_pe_daikin_2units_v _6 csu R Remote FieldServer gt Filename conf ig csu D Download 7 Press D Download starts Remote User Interface Downloading Download busy 9 to quit At the end following message is displayed Remote User Interface F User Message Download Complete 8 Press any key to continue Remote User Interface E Downloading Configuration File L Locad conf ig conf ighn_pe_daikin_2units_v _6 csu R Remote FieldServer gt Filename config csu D Download 3 28 Part 2 LON ESIE07 09 Gateway configuration 9 Press ESC to go back to main menu Adap 08 Unconf igured Bridge B FieldServer Informa
5. HUB BACnet LON Gateway 2 via Ethernet cross over cable Configuration PC BACnet LON Gateway 3 24 Part 2 LON ESIE07 09 Gateway configuration Download process Step1 Identification of the IP number of the gateway gt use ping utility Action Result 1 Goto START gt Programs gt fieldserver utili The display should show ties gt ping utility IillPing Utility E Start Ping utility ruiping exe Documentation L Tools Bridge ID Ld Configuration File Folder C3 Debug and Log File Folder dk Remote User Interface ites ess 525 499 Urinstai If it does not even after repeated attempts then either the network cabling is incorrect or the computer network card is faulty or incorrectly configured m Check the Ethernet link OK led W Check the activity led on the ethernet connection this should flash at least once every 2 seconds if rui is still running and perhaps more often depending on the network traffic m Check that the IP address of the PC is within the same network 192 168 1 xxx of the gateway The default IP address of the gateway is 192 168 1 24 submask is 255 255 255 0 m Confirm that there is an ethernet adapter installed the PC s device manager list and that it is configured to run the TCP IP protocol m f using Windows XP ensure that the firewall is disabled
6. Limitation Setting for C21 0 OFF 1 ON 204 CB Limitation Setting for C22 0 OFF 1 ON 205 CC Low noise mode 0 NOT ACTIVE 1 CHANG DIG INP 2 DAILY SCHEDULE 3 ACTIUE Part 1 Address card EKACPG System Outline ESIE07 09 Register Address address Read Unit of decimal hexadecimal Write Description 208 1 STARTUP 2 PRIORITY 3 FLOU 4 PUMPLERD TIM 5 TIMER BUSY 6 FREE COOLING 207 E R fC12 7 AREC INLET 8 UNIT OFF e 9 STANDBY DICN 10 LIMIT 112 MIN RUN TIM 12 SETBACK in case of software V1 0 208 CF R Status of C21 13 DEFROST BUSY 14 FREEZEUP 15 FREEZEUP DIS 16 SAFETY ACT in case of software V2 0 and above 210 Di R Status of C22 13 PR 14 DEFROST BUSY 15 FREEZEUP PR 16 FREEZEUP DIS 17 SAFETY ACT 211 D2 R RH11 compressor 11 running hours higher part hx 1000 Running hours higher part x 1000 lower part 212 D3 R RH11 compressor 11 running hours lower par h 213 D4 R RH12 compressor 12 running hours higher part hx 1000 214 D5 R RH12 compressor 12 running hours lower par h 215 D6 R RH21 compressor 21 running hours higher part hx 1000 216 D7 R RH21 compressor 21 running hours lower
7. Subsystem 1 EKLONPG nviMode 001 Y AUTO Subsystem 1 EKLONPG nviMode 002 Y BVAC AUTO Subsystem 1 EKLONPG nvoActCapety 001 Y 0000 Subsystem 1 EKLONPG nvoActCapcty 002 Y 0 000 E Subsystem 1 EKLONPG nvoActySetpt 001 Y nao H Subsystem 1 EKLONPG nvoActvSetpt 002 v 7 90 Subsystem 1 EKLONPG nvoAlrmDescr 001 je m Subsystem 1 EKLONPG nvoAlrmDescr 002 Y 0 E Subsystem 1 EKLONPG nvoCapctyLim 001 100 000 a Subsystem 1 EKLONPG nvoCapetyLim 002 Y 100 000 2 Subsystem 1 nvoChirStat 001 COOL 0 1 0 0 1 0 a Subsystem 1 EKLONPG nvoChlr Stat 002 Y COOL 0 0 0 0 1 0 Subsystem 1 EKLONPG nvoEntChwTmp 001 YU 1449 i Subsystem 1 EKLONPG nvoEntChwTmp 002 2730 d Subsystem 1 EKLONPG nvoLvgChwTmp 001 v 850 5 Subsystem 1 EKLONPG Virtual Functional Block nvoLvgChwTmp 002 1519 Subsystem 1 Virtual Functional Block nvoOnOff 001 YO 100 0 1 1 Subsystem 1 EKLONPG Virtual Functional Block nvoOnOff 002 00 El Set value of selected object inn i m Page 18 18 Default 100 INSRT sro 113 6 00 x 4 50 Result of modifying setpoint can be monitored by checking status change of variable nvoActSetp 001 This variable will be changed to new value ex 12 0 when the unit accepts the value pic OpenOffice org Writer a Edt View Insert Format Table
8. Device 11 BE Analog Input 15 BE Analog Input 16 155 Analog Input 17 GE Analog Value 11 155 Analog Value 12 BE Analog Value 13 155 Analog Value 14 cum 5 Binary Input 3 SE Binary Input 4 BE Binary Input 5 155 Binary Input 6 155 Binary Input 7 155 Binary Input 8 zl Name Binary Input 1 Value Inactive 0 Property Name Property Value active text Active event state normal 0 inactive text Inactive objectidentiier binanrinput 1 objectname StatStopStatus_O01 binaryinput 3 F normal 0 inactive 0 nofaul detected 0 FFFAO When unit is on present value active 1 tle Ele Edit view Help metri BACnet Explorer 01 He e Device 11 BE Analog Input 15 BE Analog Input 16 Analog Input 17 BE Analog Value 11 BE Analog Value 12 Analog Value 13 Analog Value 14 Binary Input 3 Binary Input 4 Te Binary Input 5 155 Binary Input 6 BS Binary Input 7 155 Binary Input 8 Binary Input 1 Active 1 Property Name Property Value active text eventstate inactive text object identitier abjectname objecttype out of service Active normal 0 Inactive binaryrinput 1 StartStopStatus_OO1 binary input 3 F normal 0 active 1 nodaul detected 0 FFFFO Example 3 StartStopCommand 001 BO Remark In Cimetrics BACnet explorer o
9. Storage temperature 20 70 C Dimensions HxWxD 357 x 240 x 78 mm Power consumption Max 5 W Weight 2 1 kg FS D RRRRRRRRRRRRRRRER i 425 LN 11 4 n T in j E m m A 1 Ethernet 10 100 Base T connection for BACnet IP communication and for PC configuration 2 RS485 Modbus connection 3 Power supply Part BACnet 3 7 Design guide ESIE07 09 Accessories Screw nut For EKBNPG BACnet IP Gateway Manual option box 3 8 Part 3 BACnet ESIE07 09 Design guide Dimensions 230 210 HOLE DISTANCE e DAIKIN 8 e 293 HOLE DISTANCE 3565 e 1 4x hole 25 to fix the option box 2 Option box lid Operation and display signals LED Colour PWR 2x green RX 1 green TX 1 green only for BACnet IP Gateway EKBNPG RAO red Lights up when power is connected Flashes when receiving data via RS485 Modbus Flashes when transmitting data via RS485 Modbus Flashes when the PCB is in normal operation Part BACnet 3 9 Design guide ESIE07 09 1 6 BACnet object list B
10. Analogue and integer data An analogue and integer value is represented by a 16 bit WORD register in binary notation For each register the first byte contains the high order bits and the second byte contains the low order bits m The analogue variables are represented in tenths for example the value 10 0 is transmitted as 0064h 100d for example the value 10 0 is transmitted as FF9Ch 100d W The integer variables are transferred using the effective value for example the value 100 is transmitted as 0064h 100d The address card operates on registers where one register must be considered at 16 bit case the BMS or supervisory system tries to write a value of a parameter that is out of range the riting will be ignored Part 1 Address card EKACPG System Outline ESIE07 09 Implemented error code Modbus interpretation Condition 1 Illegal function Message is not supported or the number of variables reguired is greater than the allowed limit length lt 30 Defining the BMS Refer to the installation manual of the chiller unit for defining the BMS settings setting The cable terminal resistor is integrated on the address card and is enabled by means of a DIP switch 53 Example BMS g 2 wn 5 o Address 01 amp vi vi a Address 02 Address 03 Wi DIP swit
11. LON ESIE07 09 Design guide 1 Design guide 1 1 What Is in This Chapter Overview This chapter contains the following topics Topic See page 1 2 Outline and features 2 4 1 3 System outline 2 5 1 4 System configuration 2 6 1 5 Specifications 2 7 1 6 LON objects 2 11 1 7 Function 2 15 1 8 Wiring diagram 2 16 Part 2 LON 2 3 Design guide ESIE07 09 1 2 Outline and features 1 Manage the information of up till 8 multiscroll chillers 2 Compatible with LonWorks Network 2 4 Part 2 LON ESIE07 09 Design guide 1 3 System outline 2 27 EKLONPG Lon gateway Chillers with address card EKACPG MODBUS RS 485 LonTalk ETHERNET TCP IP LonTalk DAIKIN A C INFRASTRUCTURE Security Fire alarm System Address card EKACPG Kit for serial connection on multiscroll chiller Part 2 LON 2 5 Design guide ESIE07 09 1 4 System configuration Examples of communication connections LonTalk network field supply EKLONPG Gateway Chiller unit 1 Address 01 Chiller unit 2 Modbus Slaves Address 2 Chiller unit 3 Address 03 Maximum 8 multiscroll chillers 2 6 Part 2 LON ESIE07 09 Design guide 1 5 Specifications LonWorks networks compatible gateway 8 multiscroll chill
12. Virtual Functional nviMode 001 AUTO EKLONPG Virtual Functional nviMode 002 AUTO EKLONPG Virtual Functional voActCapcty 001 190 000 EKLONPG Virtual Functional nvoActCapcty 002 0 000 EKLONPG nvoActySetpt 001 7 00 EKLONPG Vit nvoActvSetpt 002 1 50 EKLONPG nvoAlrmDescr 001 g EKLONPG nvoAlrmDescr 002 v EKLONPG Virtual Functional nvoCapctyLim 001 100 000 4 EKLONPG Virtual Functional Block nvoCapctyLim 002 100 000 EKLONPG Virtual Functional Block nvoChirStat 001 CHLR RUILHVAC _ 001 0 1 0 0 1 0 EKLONPG Virtual Functional Block nvoChirStat 002 CHLR_OFF HVAC_COOL 0 0 0 0 1 0 EKLONPG nvoEntChwTmp 001 1400 Subsystem 1 EKLONPG nvoEntChwTmp 002 27 20 Subsystem 1 EKLONPG Virtual Functional Block nvoLvgChwTmp 001 Subsystem 1 EKLONPG Virtual Functional Block nvoLvgChwTmp 002 1430 Subsystem 1 EKLONPG Virtual Functional Block nvoOnOff 001 100 01 Subsystem 1 EKLONPG Virtual Functional Block nvoOnOff 002 0 00 50 Modify the nviCapctyLim_001 to value 50 Result nvoCapctyLim_001 will be modified to 50 50 nvoActCapcty_001 will go to 50 50 nvoChlrStat 001 limited bit will go to 1 1 limitation active Bro ed 0 Browse Help slala elsi Zl ses Subsystem Device Functional Block Network Variable Config Prop M
13. aM co m DIZO 3 Press 1 Remote User Interface Edit fiddress Settings 192 168 1 24 255 255 255 8 192 168 1 1 DISABLED DISABLED yi DHCP Client State DHCP Server State 4 Press 1 and enter new IP address Example 192 168 1 23 Remote User Interface 1 Enter Parameter IP Address 192 168 1 24 Netnask 255 255 25 Gateway 1 192 168 1 1 DHCP Client State DISABLED DHCP Server State DISABLED Changes only become active once the FieldServer has been restarted Press any key to continue 5 Close the remote user interface push End now if requested Part 2 LON 3 31 Gateway configuration ESIE07 09 6 Switch to power off and on of the gateway 7 Restart Remote User Interface Remote User Interface RUINET Discovering FieldServers on the local network FieldServers discovered on the network 1 CN 241 Daikin 2 units v8 6 192 168 1 23 Recently connected to FieldServers A Adap B Unconfigured Bridge 192 168 1 24 B CN88241 Daikin 2 units v8 6 D Adap 00 Unconfigured Bridge 3 32 Part 2 LON ESIE07 09 Communication procedure 4 Communication procedure 4 1 What Is in This Chapter Overview This chapter contains the following topics Topic See page 4 2 Cimetrics BACnet explorer 3 34 4 3 CAS BACnet explorer 3 34 Part 3 BACnet 3 33 Communication procedure
14. 3 Slave3 283 11A R W Mode only for DICN 0 Normal 1 standby 2 disconnect on off 284 11B R Status of master only for DICN 02 Normal 1 standby 2 disconnect on off 3 safety 285 11C R Status of S1 only for DICN 0 Normal 1 standby 2 disconnect on off 3 safety 286 11D R Status of S2 only for DICN 0 Normal 1 standby 2 disconnect on off 3 safety 287 11E R Status of S3 only for DICN 0 Normal 1 standby 2 disconnect on off 3 safety Overview integer values of safety codes difference between softcopy input files installation manual and print out Value Message safety menu Value Message safety menu 0 UNIT SAFETY No safety 62 CIRCUIT 1 SAFETY 1J5 SUCTSENSOR ERRH1 1 UNIT SAFETY OF0 EMERGENCY STOP 63 CIRCUIT 1 SAFETY 1J5 SUCTSENSOR ERRH2 2 UNIT SAFETY OAE FLOW HAS STOPPED 64 UNIT WARNING 1J6 COIL1 SENSOR ERR 4 UNIT SAFETY 0C9 INL SENSOR ERR 65 UNIT WARNING 1J7 COIL2 SENSOR ERR 5 UNIT SAFETY OCA OUT SENSOR ERR 66 CIRCUIT 1 SAFETY 1J5 REFR SENSOR ERR 6 UNIT SAFETY 9 T SENSOR ERR 67 UNIT SAFETY 0A4 FREEZE UP C1 9 UNIT SAFETY 0U4 EXT COMM ERR 70 CIRCUIT 2 SAFETY 1U1 REU PHASE PROT 10 UNIT SAFETY 0U4 MAINPCB COMM ERR 71 CIRCUIT 2 SAFETY 1E3 HIGH PRESSURE SW 12 UNIT SAFETY PUMP INTERLOCK 75 CIRCUIT 2 SAFETY 1E4 LOW PRESSURE 14 UNIT WARNING OAE FLOW HAS
15. Information for service manual public internal use only Item Daikin version date Daikin title example 1 unit Daikin config file example 1 unit Daikin reference Software code Software version amp date Applicable units Content References detailed content and bugs V0 6 23 08 2007 CN00256 Daikin 1 units v0 6 configLON PC Daikin 1units vO 6 csv EWA YG80 260 New Part 2 LON 2 43 History ESIE07 09 2 44 Part 2 LON ESIE07 09 Configuration files 7 Configuration files this chapter really necessary This is already stated at the beginning of the two gateway configuration chapters The config files can be found on the Daikin extranet http extranet daikineurope com Part 2 LON 2 45 Configuration files ESIE07 09 2 46 Part 2 LON ESIE07 09 Part 3 BACnet Overview This part contains the following chapters Chapter See page 1 Design guide 3 3 2 Functional specifications 3 15 3 Gateway configuration 3 21 4 Communication procedure 3 33 5 BACnet objects 3 41 6 History 3 45 7 Configuration files 3 47 Part 3 BACnet 3 1 ESIE07 09 Part 3 BACnet ESIE07 09 Design guide 1 Design guide 1 1 What Is in This Chapter Overview This chapter contains the following topics Topic See page 1 2 Outline and fe
16. X24A default 129 80 R Changeable digital output3 function not pre defined 0 Open 1 closed X25A default 130 81 R Changeable digital input3 function not pre defined 0 Open 1 closed X65A 1 2 default 131 82 R Changeable digital input4 function not pre defined 0 Open 1 closed X65A 3 4 9 08 default 136 87 R Changeable digital output6 function not pre defined 0 Open 1 closed X63A default 137 88 R Changeable digital output4 function not pre defined 0 Open 1 closed X64A 1 3 default 138 89 R Changeable digital output5 function not pre defined 0 Open 1 closed X64A 5 7 default 145 90 R Reverse phase detection L1 L2 L3 circuit 2 0 OK 1 not OK X12A 1 3 5 146 91 R Digital input High pressure switch circuit 2 0 Open 1 closed X4A 147 92 R Digital input Compressor interlock 1 circuit 2 0 Open 1 closed X5A 10 09 148 93 R Digital input Compressor interlock 2 circuit 2 0 Open 1 closed X6A 149 94 R Digital input Fan overcurrent relay Fanstep 1 circuit 2 0 Open 1 closed X7A 150 95 R Digital input Fan overcurrent relay Fanstep 2 circuit 2 0 Open 1 closed X8A 151 96 R Digital input Fan overcurrent relay Fanstep 3 circuit 2 0 Open 1 closed X9A 155 9A R Digital input Fan inverter safety circuit 2 only for OPIF 0 Open 1 closed X274 Part 1 Address card EKACPG System Outline ESIE07 09 Register Register Coil number address num
17. the chiller m Theregister numbering and the number of coils starts with 1 in decimal notation m The register address numbering and coil address numbering starts with 00 hexadecimal notation Part 1 Address card EKACPG ESIE07 09 System Outline Digital variables Register Register Coil Coil number address number address Read decimal hexadecimal decimal hexadecimal Write Description Comment 1 00 1 00 Not used 49 30 R Unit status monitoring 0 Off 1 On 50 31 W Unit status control 0 Off 1 On 51 32 R General alarm 0 no alarm 1 alarm 52 33 R Thermostat status 0 Off 12 On 4 03 53 34 R Low noise status only for OPIF 0 no 1 yes 54 35 R Low pressure bypass active C1 0 no 1 yes 55 36 R Low pressure bypass active C2 0 no 1 yes 63 3E R Free cooling active 0 no 1 yes 64 R Remote on off enabled 0 no 1 yes yes if REMOTE ON OFF is selected on a changeable digital input 97 60 R Reverse phase detection L1 L2 L3 circuit 1 0 OK 1 not OK X12A 1 3 5 98 61 R Digital input High pressure switch circuit 1 0 Open 1 closed X4A 99 62 R Digital input Compressor interlock 1 circuit 1 0 Open 1 closed X5A 100 63 R Digital input Compressor interlock 2 circuit 1 0 Open 1 closed X6A 7 od 101
18. 0 00 Subsystem 1 EKLONPG Virtual Functional Block nviChirEnbl_002 0 00 Subsystem 1 EKLONPG Virtual Functional Block nviCoolSetpt_001 0 00 Subsystem 1 EKLONPG Virtual Functional Block nviCoolSetpt_002 0 00 Subsystem 1 EKLONPG Virtual Functional Block nviHeatSetpt 001 0 00 Subsystem 1 EKLONPG Virtual Functional Block nviHeatSetpt 002 0 00 Subsystem 1 EKLONPG Virtual Functional Block nviMode 001 AUTO Subsystem 1 EKLONPG Functional Block nviMode 002 HVAC AUTO EKLONPG Functional Block nvoActCapcty 001 0 000 EKLONPG Virtual Functional Block nvoActCapety_002 0 000 Subsystem 1 EKLONPG Virtual Functional Block nvoActvSetpt 001 1130 Subsystem 1 EKLONPG Functional Block nvoActvSetpt 002 7 90 Subsystem 1 EKLONPG nvoAlrmDescr 001 Subsystem 1 EKLONPG nvoAlrmDescr 002 g Subsystem 1 EKLONPG Virtual Functional Block nvoCapctyLim 001 100 000 Subsystem 1 EKLONPG Virtual Functional Block nvoCapctyLim 002 100 000 Subsystem 1 EKLONPG Virtual Functional Block nvoChirStat 001 CHLR_OFF HVAC_COOL 0 1 0 0 1 0 Subsystem 1 EKLONPG Virtual Functional Block nvoChirStat 002 CHLR_OFF HVAC_COOL Subsystem 1 EKLONPG Functional Block nvoEntChwTmp_001 1440 Subsystem 1 EKLONPG Virtual Functional Block nvoLvgChwTmp 001 8 40 Subsystem 1 EKLONPG Virtual Functional Block nvoLvgChwTmp_002 15 30 Subsystem 1
19. 12 LLLL 2 LLL 3 LL Readout fan status 4 Low 5 Medium 6 High 32 FanC2Status XXX MI For OPIF 96 Overview integer difference between softcopy input files installation manual and print out values of safety codes 0 UNIT SRFETY No safety 62 CIRCUIT 1 SAFETY 1J5 SUCTSENSOR ERRH1 1 UNIT SAFETY EMERGENCY STOP 63 CIRCUIT 1 SAFETY 1J5 SUCTSENSOR ERRH2 2 UNIT SAFETY OAE FLOW HAS STOPPED 64 UNIT WARNING 1J6 COIL1 SENSOR ERR 4 UNIT SAFETY 0C9 INL SENSOR ERR 65 UNIT WARNING 1J7 COIL2 SENSOR ERR 5 UNIT SAFETY 0CA 0UT SENSOR ERR 66 CIRCUIT 1 SAFETY 1J5 REFR SENSOR ERR 6 UNIT SAFETY 0HS AMB T SENSOR ERR 67 UNIT SAFETY 0A4 FREEZE UP Ci 9 UNIT SAFETY 0U4 EXT COMM ERR 70 CIRCUIT 2 SAFETY 1U1 REU PHASE PROT 10 UNIT SAFETY 0U4 MAINPCB COMM ERR 71 CIRCUIT 2 SAFETY 1E3 HIGH PRESSURE SU 12 UNIT SAFETY PUMP INTERLOCK 75 CIRCUIT 2 SAFETY 1E4 LOU PRESSURE 14 UNIT WARNING OAE FLOW HAS STOPPED 77 CIRCUIT 2 SAFETY 1JA HP SENSOR ERR 16 UNIT WARNING 0C9 INL SENSOR ERR 78 CIRCUIT 2 SAFETY 1JC LP SENSOR ERR 3 42 Part 3 BACnet ESIE07 09 BACnet objects Value Message safety menu Value Message safety menu 17 UNIT SAFETY OAS EEU PCB COMM ERR 82 CIRCUIT 2 SAFETY 153 FAN INU ERR 18 UNIT SRFETY OAS EEU PCB ERR 84 CIRCUIT 2 SAFETY 1J3 DISCHSENSOR ERR1 19 UNIT SAFETY OUA OP NOT CONFIRMED 85
20. 2 29 Gateway configuration ESIE07 09 2 30 Part 2 ESIE07 09 Communication procedure 4 Communication procedure 4 1 What Is in This Chapter Overview This chapter contains the following topics Topic See page 4 2 LonMaker V3 1 2 32 Part 2 LON 2 31 Communication procedure ESIE07 09 4 2 LonMaker V3 1 For procedure how to use LonMaker V3 1 refer to VRV LON gateway service manual Si72 305 1 Commissioning procedure Main differences During commission of device no external XIF file is used Select the Upload From Device New Device Wizard Specify Device Template Current Template Device Name s EKLONPG Extemal Interface Definition Upload From Device C LoadMF Template Name EKLONPG Existing Template lt Back Cancel Hep Other parts of the commissioning procedure are similar to the VRV LON gateway Commission Device Wizard Specify the initial state of the device and the source of CP values Device Name s EKLONPG State Source of Configuration Property Values Defaut C Offline Current values in database Online Default values C Disable Echelon LonMaker 107 Please press the service pin on device EKLONPG Options Total Received Display data trom service pin Fiter on program DD 0 Filter on channel Echelon LonMaker Commissioning device
21. 5 Device 11 159 Analog Input 15 GE Analog Input 16 GE Analog Input 17 155 Analog Value 11 BE Analog Value 12 BE Analog Value 13 BE Analog Value 14 ES Binary Input 1 BS Binary Input 3 BE Binary Input 4 BS Binary Input 5 155 Binary Input 6 BS Binary Input 7 BE Binary Input 8 JAnalog Value 11 Value 12 degrees Celsius Property Name Property Value eventstate normal 0 obiect identifier analog value 11 object name CoollnletSetpoint_001 objecttype analog value 2 F priority array 12 1 at Manual Operator 8 nothing at inferior priority reliability no fault detected 0 relinquish defauit 0 status ilags FFFF U units degrees Celsius 62 EREE 3 36 Part 3 BACnet ESIE07 09 Communication procedure The setpoint will be modified after certain time seconds push reload to see active value Untitled Cimetrics BACnet Explorer Ele Edt View Help aala sae el 8 5 BACnet Global Internetwork Name Analog Value 11 Local Network Ba Networks Value 121 degrees Celsius m Device 11 Property Value BE Analog Input 15 2 normal 0 ge objectidentifier analog value 11 Ed Mis 10416 lobject name CoollnletSetpoint 001 Aneiag 17 objecttype analog value 2 Es Analog Value 11 out of service r Analog Value 12 present value mu mum 3 me priority array at Manual Opera
22. 5 BACnet objects 6 History 7 Configuration files Table of Contents iii ESIE07 09 Table of Contents ESIE07 09 Introduction 1 Introduction 1 1 About This Manual Introduction Usage of the manual Using icons A The purpose of the address card and the Daikin gateways is to connect the Daikin water chillers to a larger Building Management System BMS There are 3 possibilities with the EKACPG address card m EKACPG to connect with a system using Modbus m EKACPG to connect with a LON gateway m EKACPG to connect with a BACnet gateway Before starting up the system for the first time ensure that it has been properly installed The present manual gives you all the information you need to do the set up and the troubleshooting related to the BMS option for Daikin air cooled chillers It is intended for and should only be used by qualified engineers It is not intended to replace technical know how acquired through training and experience Icons are used to attract the attention of the reader to specific information The meaning of each icon is described in the table below Icon Type of information Description Note A note provides information that is not indispensable but may never theless be valuable to the reader such as tips and tricks Caution A caution is used when there is danger that the reader through incor rect manipulation may damage equipment loose data ge
23. BS Device Object Bg Multistate Input 18 Value State_0 0 Be Multistate Input 20 Property Name Property Value BE Multistate Input 22 event state normal 0 BE Multistate Input 23 number of states 5 abjectidentifier mulistate output 13 Etat objectname ModeCoolHeatCommand_001 Multistate Input 28 object type multistate output 14 Multistate Input 29 outof service F BE Multistate Input 30 tj priority array 10 at Manual Operator 8 nothing at inferior priority Multistate Input 31 reliability no fault detected 0 BE Multistate Input 32 relinguish default 0 T Mukistate Output 19 State 077918 277514 9 Multistate Output 21 FFFA0 5 Multistate Output 24 Multistate Output 25 BE Multistate Output 26 Device 12 El Success Tr o 24 Set new Property value Property type present alue Property Value 1 n Briony Part 3 BACnet 3 37 Communication procedure ESIE07 09 ini Success Binary Output 2 Ei Device Object Multistate Input 18 ES Multistate Input 20 Mukistate Input 27 Mukistate Input 28 Mulistate Input 29 Mukistate Input 30 Be Multistate Input 31 BE Multistate Input 32 BE Multistate Output 19 Multistate Output 21 Mukistate Output 24 Multistate Output 25 B Multistate Output 26 Device 12 Multistate Outpu
24. Block nvoCapctyLim 001 100 000 EKLONPG Virtual Functional Block nvoCapctyLim 002 100 000 Subsystem 1 EKLONPG Virtual Functional Block oChirStat 001 OFF HVAC COOL 0 1 0 0 1 0 Subsystem 1 EKLONPG Virtual Functional Block oChirStat 002 OFF HVAC COOL 0 0 0 0 1 0 Subsystem 1 EKLONPG Virtual Functional Block nvoEntChwTmp 001 1419 Subsystem 1 Virtual Functional Block nvoEntChwTmp 002 21 30 Subsystem 1 Virtual Functional Block nvoLvgChwTmp 001 8 50 A Subsystem 1 Virtual Functional Block nvoLvgChwTmp 002 15 10 en Subsystem 1 EKLONPG Virtual Functional Block nvoOnOff 001 000 Subsystem 1 Virtual Functional Block nvoOnOff 002 Set value of selected object B 4 IF Page 18 18 Default 100 Result of switching unit can be monitored by checking status change of variable nvoOnOff 001 This variable will be changed to on when the unit has been switched on File Edit Browse Help Graphi 1 ex 218 120 z see a Set Value Subsystem 1 EKLONPG Virtual Funct
25. CHW_flow Read out flow 0 Chiller switch status water flow 1 Chiller water flow detected CONDW flow Not integrated 0 No Con Always value 0 denser Water flow 1 Con denser water flow detected All other bits unused Part 2 LON 2 13 Design guide ESIE07 09 Overview integer difference between softcopy input files installation manual and print out values of safety codes 0 UNIT SAFETY No safety 62 CIRCUIT 1 SAFETY 1J5 SUCTSENSOR ERRHi 1 UNIT SAFETY OF0 EMERGENCY STOP 63 CIRCUIT 1 SAFETY 1J5 SUCTSENSOR ERRHe 2 UNIT SAFETY 0AE FLOW HAS STOPPED 64 UNIT WARNING 1J6 COIL1 SENSOR ERR 4 UNIT SAFETY 0C9 INL SENSOR ERR 65 UNIT WARNING 1J COIL2 SENSOR ERR 5 UNIT SAFETY 0CA 0UT SENSOR ERR 66 CIRCUIT 1 SAFETY 1J5 REFR SENSOR ERR 6 UNIT SAFETY 9 T SENSOR ERR 67 UNIT SAFETY 0A4 FREEZE UP 9 UNIT SAFETY 0U4 EXT COMM ERR 70 CIRCUIT 2 SAFETY 1U1 REU PHASE PROT 10 UNIT SAFETY 0U4 MAINPCB COMM ERR 71 CIRCUIT 2 SAFETY 1E3 HIGH PRESSURE SW 12 UNIT SAFETY PUMP INTERLOCK 75 CIRCUIT 2 SAFETY 1E4 LOU PRESSURE 14 UNIT WARNING RnE FLOU HAS STOPPED JT CIRCUIT 2 SAFETY 1JA HP SENSOR ERR 16 UNIT WARNING 0C9 INL SENSOR ERR 78 CIRCUIT 2 SAFETY 1JC LP SENSOR ERR 17 UNIT SAFETY 0 9 PCB COMM E
26. CIRCUIT 2 SAFETY 1F3 HIGH DISCH TEMP1 29 UNIT SAFETY 005 COMM PROBLEM 86 UNIT URRNING 253 FAN OUERC ST1 30 CIRCUIT 1 SAFETY 1U1 REU PHASE PROT 87 UNIT WARNING 253 FAN OUERC ST2 31 CIRCUIT 1 SAFETY 1E3 HIGH PRESSURE SW 88 UNIT WARNING 253 FAN OVERC ST3 35 CIRCUIT 1 SAFETY 1E4 LOW PRESSURE 89 CIRCUIT 2 SAFETY 1A9 EEV ERR 37 CIRCUIT 1 SAFETY 1JA HP SENSOR ERR 90 CIRCUIT 2 SAFETY 153 FAN OVERC ST1 38 CIRCUIT 1 SAFETY 1JC LP SENSOR ERR 91 CIRCUIT 2 SAFETY 153 FAN OVERC ST2 42 CIRCUIT 1 SAFETY 153 FAN INV ERR 92 CIRCUIT 2 SAFETY 153 FAN OVERC ST3 44 CIRCUIT 1 SAFETY 1J3 DISCHSENSOR ERR1 93 CIRCUIT 2 SAFETY 1J5 SUCTSENSOR ERR 45 CIRCUIT 1 SAFETY 1F3 HIGH DISCH TEMP1 94 CIRCUIT 2 SAFETY 183 SUPERHERT ERR 46 UNIT URRNING 153 FAN OUERC ST1 96 UNIT WARNING 2E3 HP SETBACK 47 UNIT WARNING 153 FAN OUERC ST2 97 UNIT URRNING eE6 COMP PR 48 UNIT URRNING 153 FAN OUERC ST3 98 CIRCUIT 2 SAFETY 1E6 COMPR 1 SAFETY 49 CIRCUIT 1 SAFETY 1A9 EEV ERR 99 CIRCUIT 2 SAFETY 1E6 COMPR 2 SAFETY 50 CIRCUIT 1 SAFETY 153 FAN OVERC ST1 100 CIRCUIT 2 SAFETY 1J3 DISCHSENSOR 51 CIRCUIT 1 SAFETY 153 FAN OUERC ST2 101 CIRCUIT 2 SAFETY 1F3 HIGH DICH TEMP2 52 CIRCUIT 1 SAFETY 153 FAN OUERC ST3 102 CIRCUIT 2 SAFETY 1J5 SUCTSENSOR 53 CIRCUIT 1 SAFETY 1J5 SUCTSENSOR ERR 103 CIRCUIT 2 SAFETY 1J5 SUCTSENSOR ERRH2 54 CIRCUIT 1 SAFETY 1A9 SUPERHEAT ERR 104 UNIT URRNING eJ6 COIL1 SENSOR ERR 56 U
27. Cnet IP The communication can be consulted SMT the internal gateway functionality Modbus the modbus communication BACnet IP the BACnet communication Part 2 LON 2 27 Gateway configuration ESIE07 09 Change IP address Action Result 1 Goto START gt Programs gt fieldserver utili ties gt Remote User Interface B Documentation Tools Bridge ID Configuration File Folder CJ Debug and Log File Folder iHi Ping Utility Uninstall The display should show FieldServers discovered on the network Connection Troubleshooting Tips Recently connected to FieldServers A CN00241 Daikin 2 un B CN88241 Daikin 2 un D AdapO 8 Unconf igure 192 168 1 24 192 168 1 23 192 168 1 168 FieldServers discovered the network 1 Adap 8 Unconfigured Bridge 192 168 1 24 Recently connected to FieldServers A 0 241 Daikin 2 uni B CN88241 Daikin 2 units D hfidapBBB nconfigured 192 168 1 24 192 168 1 23 192 168 1 168 Remote User Interface RUINET Discovering FieldServers on the local network 1 Turn off Windows XP Firewall if connecting from Windows XP When the gateway is discovered Remark after power up the gateway this can take up to 90 sec Remote User Interface RUINET Discovering FieldServers on the local network 2 Press the item of the discovered gateway In this case press 1 Remote U
28. E m IE Page 18 18 Default 100 1 5 sro 113 6 00 x 4 50 h 2 34 Part 2 LON ESIE07 09 Communication procedure 3 Example to switch unit on off Double click on nviChlrEnbl 001 Modify value to 100 0 1 to switch unit on or 0 0 0 to switch unit off and click on Set value or press enter pic OpenOffice Eile Edit View Insert Format Table rg Writer Tools Window Help x D i Block Set Value work Ws EKLONPG Virtual Functional Block nviCapetyLim 001 EKLONPG Virtual Functional Block nviCapctyLim 002 EKLONPG Virtual Functional Block nviChlrEnbl 002 EKLONPG Virtual Functional Block nviCoolSetpt 001 EKLONPG Virtual Functional Block nviCoolSetpt 002 Virtual Functional Block nviHeatSetpt 001 EKLONPG Virtual Functional Block nviHeatSetpt 002 EKLONPG Virtual Functional Block nviMode 001 AUTO EKLONPG Virtual Functional Block nviMode 002 AUTO Subsystem 1 Virtual Functional Block nvoActCapcty 001 0 000 Subsystem 1 EKLOHPG Virtual Functional Block nvoActCapcty 002 0 000 Subsystem 1 Virtual Functional Block nvoActvSetpt 001 11 10 Virtual Functional Block nvoActvSetpt 002 1 90 Virtual Functional Block nvoAlrmDescr 001 0 Virtual Functional Block nvoAlrmDescr 002 EKLONPG Virtual Functional
29. Functional Block nvoCapetyLim Y 100 000 i Subsystem 1 EKLONPG Virtual Functional Block nvoCapetyLim 002 Y 100 000 z Subsystem 1 EKLONPG nvoChlrStat 001 YU CHLR RUILHVAC C00L 0 1 0 0 1 0 Subsystem 1 EKLONPG mnvoChirStat 002 Y COOL O 0 0 0 1 0 Subsystem 1 EKLONPG nvoEntChwTmp 001 1440 Subsystem 1 EKLONPG Virtual Functional Block nvoEntChwTmp 002 27 70 2l Subsystem 1 Virtual Functional Block nvoLvgChwTmp 001 vu s 19 Subsystem 1 EKLONPG Virtual Functional Block nvoLvgChwTmp 002 14 80 x Subsystem 1 EKLONPG Virtual Functional Block nvoOnOff 001 vu 10001 Subsystem 1 EKLONPG Virtual Functional Block nvoOnOff 002 Y 000 Bl a E IS Ready ips eme S 2 36 Part 2 LON ESIE07 09 Communication procedure 5 Example to modify limit settings Status of unit nvoCapctyLim 001 is 100 10096 no limitation nvoActCapcty 001 is 100 10096 nvoChlrStat 001 limited bit is O 02 no limitation active V LonMaker Browser Untitled File Edit Browse Help lojale e 000 Device ONP EKLONPG nviCapetyLim 002 EKLONPG nviChlrEnbl 001 EKLONPG Virtual Functional Block nviChlrEnbl 002 EKLONPG Virtual Functional Block nviCoolSetpt 001 EKLONPG Virtual Functional Block nviCoolSetpt 002 EKLONPG Virtual Functional Block nviHeatSetpt 001 EKLONPG Virtual Functional nviHeatSetpt 002 EKLONPG
30. LON based on profile Chiller 8040 but extended with xxx chlr run mode chlr off 0 Read out chiller t chlr run 2 status of on off LED chlr op mode HVAC HEAT Read out hvac t 1 Heating cooling HVAC COOL heating 3 Cooling mode chlr state Structure In alarm Read out 0 alarm alarm 1 In alarm active or not Run enable Read out if 0 Chiller not a compres allowed to sor has the start CAN 1 Chiller can STARTUP start status or not Local 0 Val Not inte ues can be grated changed Always remotely value 0 1 Values can not be changed remotely Limited Read out if 0 limita a compres tion sor is lim 1 Limitation ited active LIMIT or not CHW flow Read out 0 Chiller flow switch water flow status 1 Chiller water flow detected CONDW flow Not inte 0 No Con grated denser Water Always flow value 0 1 Condenser water flow detected All other bits unused Part 2 LON 2 41 LON objects ESIE07 09 Overview integer difference between softcopy input files installation manual and print out values of safety codes 0 UNIT SAFETY No safety 62 CIRCUIT 1 SAFETY 1J5 SUCTSENSOR ERRH1 1 UNIT SAFETY F0 EMERGENCY STOP 63 CIRCUIT 1 SAFETY 1J5 SUCTSENSOR 2 UNIT SAFETY 0AE FLOW HAS STOPPED 64 UNIT WARNING 1J6 COIL1 SENSOR ERR 4 UNIT SAFETY 0C9 INL SEN
31. R Remote FieldServer gt Filename config csu D Download Part 2 LON 2 25 Gateway configuration ESIE07 09 9 Press ESC to go back to main menu Remote User Interface 4 Adap 8B Unconf igured Bridge B FieldServer Information Connection Overview Node Overview Map Descriptor Overview Data Array Overview System Erro Driver Messages Download Configuration to FieldServer Upload Configuration from FieldServer Change IP Address Change UI Display Mode Restart FieldServer 10 Press to restart gateway Remote User Interface RUINET Waiting for FieldServer to restart FieldServer busy restarting If restart is successful the main menu with the down loaded configuration file is shown Remote User Interface CN88241 Daikin 2 units v8 6 B FieldServer Information Connection Overview Node Overview Map Descriptor Overview Data Array Overview Systen Erro Driver Messag Download Configuration to FieldServer Upload Configuration from FieldServer Change IP Address Change UI Display Mode Restart FieldServer 2 26 Part 2 LON ESIE07 09 Gateway configuration Monitor communication Action Result 1 Goto START gt Programs gt fieldserver utili ties gt Remote User Interface Documentation Tools Bridge ID Configuration File Folder Debug and Log File Folder Ping U
32. STOPPED 77 CIRCUIT 2 SAFETY 1JA HP SENSOR ERR 16 UNIT WARNING 0C9 INL SENSOR ERR 78 CIRCUIT 2 SAFETY 1JC LP SENSOR ERR 17 UNIT SAFETY 0A9 EEV PCB COMM ERR 82 CIRCUIT 2 SAFETY 153 FAN INV ERR 18 UNIT SAFETY 0A9 EEV PCB ERR 84 CIRCUIT 2 SAFETY 1J3 DISCHSENSOR ERR1 Part 1 Address card EKACPG 1 17 System Outline ESIE07 09 Value Message safety menu Value Message safety menu 19 UNIT SAFETY CONFIRMED 85 CIRCUIT 2 SAFETY 1F3 HIGH DISCH TEMP1 29 UNIT SRFETY 005 COMM PROBLEM 86 UNIT URRNING 253 FAN OUERC ST1 30 CIRCUIT 1 SAFETY 1U1 REU PHASE PROT 87 UNIT WARNING 253 FAN OUERC ST2 31 CIRCUIT 1 SAFETY 1E3 HIGH PRESSURE SU 88 UNIT URRNING 253 FAN OUERC ST3 35 CIRCUIT 1 SAFETY 1E4 LOU PRESSURE 89 CIRCUIT 2 SAFETY 1A9 EEV ERR 37 CIRCUIT 1 SAFETY 1JA HP SENSOR ERR 90 CIRCUIT 2 SAFETY 153 FAN OUERC ST1 38 CIRCUIT 1 SAFETY 1JC LP SENSOR ERR 91 CIRCUIT 2 SAFETY 153 FAN OUERC ST2 42 CIRCUIT 1 SAFETY 153 FAN INV ERR 92 CIRCUIT 2 SAFETY 153 FAN OVERC ST3 44 CIRCUIT 1 SAFETY 1J3 DISCHSENSOR ERR1 93 CIRCUIT 2 SAFETY 1J5 SUCTSENSOR ERR 45 CIRCUIT 1 SAFETY 1F3 HIGH DISCH TEMP1 94 CIRCUIT 2 SAFETY 183 SUPERHERT ERR 46 UNIT URRNING 153 FAN OUERC ST1 96 UNIT WARNING 2E3 HP SETBACK 47 UNIT WARNING 153 FAN OUERC ST2 97 UNIT URRNING eE6 COMP PR 48 UNIT URRNING 153 FAN OUERC ST3 98 CIR
33. Step2 Make the gateway empty Action Result ES esi Co Click on run Type the name of a program Folder document or Internet resource and Windows will open it For you Open fl 7 w Removable Disk D Cancel Browse Aser e Es Part 2 LON 3 25 Gateway configuration ESIE07 09 2 Now type cmd into the window HUS Type the name of a program Folder document or Internet resource and Windows will open it For you Open Cancel Browse Press enter 3 Type e g Depending on installation directory After a few seconds you get this window cd c program files fieldserver utilities bin enter rogram filesMieldserver utilities bin 4 Type ruinet 1192 168 1 24 zconfig csv enter Documents Remark IP address should be equal to the IP gateway address C Program Could not e C Program Files FieldServer Utilitii 5 Switch the power off and on to reset the gate way 3 26 Part 2 ESIE07 09 Gateway configuration Step3 Connect to the gateway ruinet Action Result 1 Goto START gt Programs gt fieldserver utili The display should show ties gt Remote User Interface mote User Interface E RUINET Discovering FieldServers on the local network Documentation FicldServers discovered on the netwo
34. Subsystem 1 EKLONPG Virtual Functional Block nvoEntChwTmp_002 27 30 Subsystem 1 EKLONPG Virtual Functional Block nvoLvgChwTmp 001 Y 5 Subsystem 1 EKLONPG Virtual Functional Block nvoLvgChwTmp 002 vu 1519 T Subsystem 1 EKLONPG Virtual Functional Block nvoOnOff 001 100 01 m Subsystem 1 EKLONPG Virtual Functional Block nvoOnOff 002 1 El 2 Set value of selected object a E Part 2 LON 2 35 Communication procedure ESIE07 09 4 Example to modify setpoint Double click on nviCoolSetpt 001 Modify value to ex 12 0 and click on Set value Ele Insert Format Table Tools Window Help x aker Browse ed m File Edt Browse Help 1818 enl 3 3 zo 21 es 2 E Set Value E d Subsystem 1 EKLONPG Virtual Functional Block nviCapctyLim 001 Y 0 000 x Subsystem 1 EKLONPG Virtual Functional Block nviCapctyLim 002 Y 0 000 Subsystem 1 EKLONPG Virtual Functional Block nviChlrEnbl 001 10001 Subsystem 1 Virtual Functional Block nviChlrEnbl 002 Y 00 s P onal Blo 00 0 00 x Subsystem 1 EKLONPG nviCoolSetpt 002 Y 0 00 Subsystem 1 EKLONPG nviHeatSetpt 001 Y 0 00 S Subsystem 1 EKLONPG mviHeatSetpt 002 Y
35. The heads of the spacers must be properly pushed through the mounting holes located at the 4 corners of the address card Part 1 Address card EKACPG System Outline ESIE07 09 1 4 Connecting the address card m The wiring between the units must be performed as shown on the wiring diagram and as shown in the example below Unit 1 Unit 2 Unit 3 Unit 4 Term S3A Term S3A Term S3A Term S3A 1 onj oN oN oFF 5485 RS485 2 549515 al 3 5 NN T SN 500m Setting of the S3A DIP switch on the PCB Terminal on the address card connect to and of RS485 Ferrite core wind the cables 2 times Up to BMS terminal m DIP switch setting Bow m m Make the RS485 connection for Modbus communication using 0 75 1 25mm 2 wire cable maximum of 500m from BMS to connection on last unit in line m Foreach group of cables to be connected to the terminals first wind the cables 2 times through the ferrite core 1 and then firmly close the two halves of the ferrite core 2 Cut the wiring 2250 mm m For RS485 connections on the units except the last unit in line strip the cables detail A and fix them to the terminal on the address card as sho
36. Tools Window Help i onMaker Browse ed File Edit Browse Help pp SS ugs e 3 3 zo a Subsystem 1 EKLONPG Virtual Functional Block nviCapctyLim 001 Y Subsystem 1 EKLONPG Virtual Functional Block nviCapetyLim 002 Y Subsystem 1 EKLONPG Virtual Functional Block nviChlrEnbl 001 Yu E Subsystem 1 EKLONPG Virtual Functional Block nviChIrEnbl 002 Y T s P onal Blo 00 gt Subsystem 1 EKLONPG Virtual Functional Block nviCoolSetpt 002 Y E Subsystem 1 EKLONPG Virtual Functional Block nviHeatSetpt 001 Y Subsystem 1 EKLONPG Virtual Functional Block nviHeatSetpt 002 Y 000 Subsystem 1 EKLONPG Virtual Functional Block nviMode 001 Y AUTO al Subsystem 1 EKLONPG Virtual Functional Block nviMode 002 Y AUTO Subsystem 1 EKLONPG Virtual Functional Block nvoActCapcty 001 Y 0 000 Subsystem 1 EKLONPG Virtual Functional Block nvoActCapcty 002 Y 0 000 Subsystem 1 EKLONPG Virtual Functional Block nvoActvSetpt 001 1240 Subsystem 1 EKLONPG Virtual Functional Block nvoActvSetpt 002 150 Subsystem 1 EKLONPG Virtual Functional Block nvoAlrmDescr 001 e Subsystem 1 EKLONPG Virtual Functional Block nvoAlrmDescr 002 v e bi Subsystem 1 EKLONPG Virtual
37. a Modbus interface card Note the BMS PC is field supplied equipment Part 1 Address card EKACPG System Outline ESIE07 09 1 3 Installing the address card Chiller range This specific address card is designed to function with chillers of the ranges m EWAQ080 260DAYN m EWYQ080 250DAYN 1 2 3 9 A B C Z Contents of the kit This kit consists of A Address card B Ferrite core Plastic bag containing 4 spacers D Installation manual Tools required for installation 4 a Before you handle If handled inappropriately your address card may suffer damage Hold your address card by the the address card edges Never touch the backside of the card with your hands Before starting up the unit for the first time make sure that it has been properly installed It is therefore A necessary to read the installation manual supplied with the unit and the recommendations listed in Checks before initial start up carefully 1 6 Part 1 Address card EKACPG ESIE07 09 System Outline How to install the address card Turn the power off before installing the address card Installing the address card 1 Mount the 4 spacers in the holes provided for this purpose in the A11P PCB panel in the switch box as shown in the figure SG c Y 4 ar Ei M B uus Mae f x 2 2 Make sure that the address card is firmly fixed
38. gt Remote User Interface Documentation Tools gt iH Bridge ID CI Configuration File Folder L Debug and Log File Folder Ping Utility r Utilities Uninstall The display should show Remote User Interface RUINET Discovering FieldServers on the local network FieldServers discovered on the network Connection Troubleshooting Ti 1 gt Turn off Windows XP Firewall if connecting from Windows XP Recently connected to FieldServers A CN89241 Daikin 2 units v8 6 B CN00241 Daikin 2 units v8 6 D hfidap888 Unconfigured Bridge 192 168 1 24 192 168 1 23 192 168 1 168 _ When the gateway is discovered Remark after power up the gateway this can take up to 90 sec Remote User Interface iscovering FieldServers on the local network RUINET FieldServers discovered on the network 1 Adap 8 Unconfigured Bridge 192 168 1 24 Recently connected to FieldServers A 00241 Daikin 2 uni B CN00241 Daikin 2 units v8 6 D Adap 00 Unconfigured Bridge 192 168 1 24 192 168 1 23 192 168 1 168 2 Press the item of the discovered gateway In this case press 1 Remote User Interface CN88241 Daikin 2 units v8 6 B FieldServer Information Connection Overview Node Overview Map iptor Overview Data Array Overview System Error Driver ages Download Configuration to FieldServer Upload Configuration from FieldServer Change IP Add Change UI D Restart FieldServer
39. par h 217 D8 R RH22 compressor 22 running hours higher part hx 1000 218 D9 R RH22 compressor 22 running hours lower par h 219 DA R C11C compressor 11 cooling hours higher part hx 1000 Running hours higher part x 1000 lower part only for EWYG 220 DB R C11C compressor 11 cooling hours lower part h only for EWYQ 221 DC R C12C compressor 12 cooling hours higher part hx 1000 only for EWYQ 222 DD R C12C compressor 12 cooling hours lower part h only for EWYQ 223 DE R 21 compressor 21 cooling hours higher part h x 1000 only for EWYQ 224 DF R 21 compressor 21 cooling hours lower part h only for EWYQ 226 E1 R C22C compressor 22 cooling hours higher part h x 1000 only for EWYQ 227 E2 R 22 compressor 22 cooling hours lower part h only for EWYQ 228 E3 R C11H compressor 11 heating hours higher part h x 1000 Running hours higher part x 1000 lower part only for EWYQ 229 E4 R C11H compressor 11 heating hours lower part h only for EWYQ 230 E5 R C12H compressor 12 heating hours higher part h x 1000 only for EWYQ 231 E6 R C12H compressor 12 heating hours lower part h only for EWYQ 232 E7 R C21H compressor 21 heating hours higher part h x 1000 only for EWYQ 233 E8 R C21H compressor 21 heating hours lower part h only for EWYQ 234 E9 R C22H compressor 22 heating hours higher part h x 1000 only for EWYQ 235 EA R C22H compressor 22 heating hours lower part h only for
40. supervisory system assigns a value to a variable with read only status the command will not be executed at all Variables requested by the supervisory system that are not available in a chiller with an address card are sent from the address card to the supervisory system with zero value The supervisory system will have to manage these properly In case the supervisory system tries to write a value of a parameter that is out of range the writing will be ignored General information about the Modbus protocol The Modicon Modbus protocol implemented in the address card complies with the content of the following document Modicon Modbus Protocol Reference Guide June 1996 PI MBUS 300 Rev J The Modbus protocol implemented is of the RTU Remote Terminal Unit type based on character transmission times The configuration uses the multi drop feature of RS 485 The address sent within the Modbus packet addresses the chiller unit Part 1 Address card EKACPG 1 9 System Outline ESIE07 09 Implemented commands for the Modbus protocol The implemented commands in the program are as listed Modbus command Meaning Notes 01 read coil status Read digital variable s obtains current status ON OFF of a group of logic coils or discrete input 02 read input status Read digital variable s obtains current status ON OFF of a group of logic coils or discrete input 03 read holding registers Read analo
41. unit type Control cooling set point inlet outlet depending on thermo stat mode After turn ing the LON gateway On the default value is 0 3 nvoOnOff_xxx nvoOnOff Out SNVT_switch ram Chiller On Off run state Oor1 0 Chiller Off 1 Chiller On Read out status of on off LED 4 nvoActvSetpt_xxx nvoActiveSetpt Out SNVT_temp_p ram Active Cool or Heat Setpt C range depend ing on unit type Read out active set point Cool ing heating inlet outlet depending active ther mostat mode 5 nviCapctyLim_xxx nviCapacityLim SNVT_lev_percent ram Capacity Limit of Chiller For units with 1 circ 0 or 50 or 100 For units with 2 circ 0 or 25 or 50 or 75 or 100 Control capacity limitation After turn ing the LON gateway On the default value is 0 nviEntChwTemp SNVT_temp_p ram Accommodates Remote Temp Sensor input Not inte grated d nviMode xxx nviMode SNVT Hvac mode ram Chiller Mode s SNVT hvac mode HVAC HEAT 1 Heating HVAC COOL 3 Cooling Control cool ing heating mode After turning the LON gate way On the default value is 0 Part 2 LON 2 39 LON objects ESIE07 09 LON based on profile Chiller 8040 but extended with xxx 8 nviHeatSetpt_xxx
42. 0 0 1 0 Y Y Y Subsystem 1 EKLONPG Virtual Functional Block nvoEntChwTmp 001 1400 Subsystem 1 EKLONPG Virtual Functional Block nvoEntChwTmp 002 21 20 Subsystem 1 EKLONPG Virtual Functional Block nvoLvgChwTmp 001 8 30 Subsystem 1 EKLONPG Virtual Functional Block nvoLvgChwTmp 002 1420 Subsystem 1 EKLONPG Virtual Functional Block nvoOnOff 001 100 01 Subsystem 1 EKLONPG Virtual Functional Block nvoOnOff 002 Y 0 00 E Ready Part 2 LON 2 37 Communication procedure ESIE07 09 2 38 Part 2 ESIE07 09 LON objects 5 LON objects The following table contains an overview of the possible LON objects LON based on profile Chiller 8040 but extended with xxx Name xxx Chiller nr NV Reference name according to Chiller profile 8040 In Out SNVT Type SNVT Index Class Description according to Chiller profile 8040 Valid range Additional explanation 1 nviChlrEnbl xxx nviChillerEnable SNVT switch ram Request Start Stop Chiller Oor1 0 Request Chiller Off 1 Request Chiller On Control on off state by pushing on off but ton After turning the LON gate way On the default value is 0 2 nviCoolSetpt_xxx nviCoolSetpt SNVT_temp_p ram Desired Temp of Lvg Chilled Wtr C range depend ing on
43. 01 Y eee 7 Subsystem 1 EKLONPG Virtual Functional Block nvoCapetyLim 002 Y 5 Subsystem 1 Virtual Functional Block nvoChirstat 001 YU CHLR 01 0 004 0 Subsystem 1 EKLONPG Virtual Functional Block nvoChirStat 002 CHLR_OFF HVAC_COOL 0 0 0 0 1 0 subsystem 1 EKLONPG Virtual Functional Block nvoEntChwTmp 001 Y 5792 Subsystem 1 EKLONPG Virtual Functional Block nvoEntChwTmp 002 Y as subsystem ExLonPG Virtual Functional Block nvoLvgChwTmp 001 3694 7 subsystem 1 EKLONPG Virtual Functional Block nvoLvgChwTmp 002 5828 2 Subsystem 1 EKLONPG Virtual Functional Block 001 va 0 00 Subsystem 1 EKLONPG Virtual Functional Block nvoOnOft_002 Y eoo 3 x Ready RT gl lt m IET Page 15 15 Default 100 INSRT Change Format Object Name Formatted Data Catalog c lLonWorksttypes temp pitUS data types E T FMT cALorMorksNTypes UseriEcheloniechelon timt Formats Available Display formats of same size only SNVT temp dift SNVT temp diff 05 SNVT temp p amp US Part 2 LON 2 33 Communication procedure ESIE07 09 W LonMaker Browser Untitled EKLONPG lock nviCapctyLim 001 0 000 Subsystem 1 EKLONPG Virtual Functional Block nviCapctyLim 002 0 000 Subsystem 1 EKLONPG Functional Block nviChlrEnbl 001
44. 12 UNIT SAFETY PUMP INTERLOCK 75 CIRCUIT 2 SAFETY 1E4 LOU PRESSURE 14 UNIT WARNING RnE FLOU HAS STOPPED JT CIRCUIT 2 SAFETY 1JA HP SENSOR ERR 16 UNIT WARNING 0C9 INL SENSOR ERR 78 CIRCUIT 2 SAFETY 1JC LP SENSOR ERR 17 UNIT SAFETY 0 9 PCB COMM ERR 82 CIRCUIT 2 SAFETY 153 FAN INV ERR 18 UNIT SAFETY 9 EEY PCB ERR 84 CIRCUIT 2 SAFETY 1J3 DISCHSENSOR ERR1 19 UNIT SAFETY OUA OF NOT CONFIRMED 85 CIRCUIT 2 SAFETY 1F3 HIGH DISCH TEMP1 29 UNIT SAFETY 005 PCB COMM PROBLEM 86 UNIT WARNING 253 FAN OUERC ST1 30 CIRCUIT 1 SAFETY 1U1 REU PHASE PROT 87 UNIT WARNING 253 FAN OUERC ST2 31 CIRCUIT 1 SAFETY 1E3 HIGH PRESSURE SU 88 UNIT WARNING 253 FAN OUERC ST3 35 CIRCUIT 1 SAFETY 1E4 LOU PRESSURE 89 CIRCUIT 2 SAFETY 1A9 EEV ERR 37 CIRCUIT 1 SAFETY 1JA HP SENSOR ERR 90 CIRCUIT 2 SAFETY 153 FAN OUERC ST1 38 CIRCUIT 1 SAFETY 1JC LP SENSOR ERR 91 CIRCUIT 2 SAFETY 153 FAN OVERC STe 42 CIRCUIT 1 SAFETY 153 FAN INV ERR 92 CIRCUIT 2 SAFETY 153 FAN OVERC ST3 44 CIRCUIT 1 SAFETY 1J3 DISCHSENSOR ERR1 93 CIRCUIT 2 SAFETY 1J5 SUCTSENSOR ERR 45 CIRCUIT 1 SAFETY 1F3 HIGH DISCH TEMP1 94 CIRCUIT 2 SAFETY 1A9 SUPERHEAT ERR 46 UNIT WARNING 153 FAN OUERC ST1 96 UNIT WARNING 2E3 HP SETBACK 47 UNIT WARNING 153 FAN OUERC ST2 97 UNIT WARNING 2E6 COMP PR 48 UNIT WARNING 153 FAN OUERC ST3 98 CIRCUIT 2 SAFETY 1E6 COMPR 1 SAFETY 49 CIRCUIT 1 SAFETY 1A9 EEV ERR 99 CIRCUIT 2 SA
45. 1J5 SUCTSENSOR ERR 45 CIRCUIT 1 SAFETY 1F3 HIGH DISCH TEMP1 94 CIRCUIT 2 SAFETY 1A9 SUPERHEAT ERR 46 UNIT WARNING 153 FAN OUERC ST1 96 UNIT WARNING 2E3 HP SETBACK 47 UNIT WARNING 153 FAN OUERC ST2 97 UNIT WARNING 2E6 COMP PR 48 UNIT WARNING 153 FAN OUERC ST3 98 CIRCUIT 2 SAFETY 1E6 COMPR 1 SAFETY 49 CIRCUIT 1 SAFETY 1A9 EEV ERR 99 CIRCUIT 2 SAFETY 1E6 COMPR 2 SAFETY 50 CIRCUIT 1 SAFETY 153 FAN OUERC ST1 100 CIRCUIT 2 SAFETY 1J3 DISCHSENSOR ERRe 51 CIRCUIT 1 SAFETY 153 FAN OUERC ST2 101 CIRCUIT 2 SAFETY 1F3 HIGH DICH TEMPe 52 CIRCUIT 1 SAFETY 153 FAN OVERC ST3 102 CIRCUIT 2 SAFETY 1J5 SUCTSENSOR ERRH1 53 CIRCUIT 1 SAFETY 1J5 SUCTSENSOR ERR 103 CIRCUIT 2 SAFETY 1J5 SUCTSENSOR ERRHe 54 CIRCUIT 1 SAFETY 1A9 SUPERHEAT ERR 104 UNIT WARNING 2J6 COIL1 SENSOR ERR 56 UNIT WARNING 1E3 HP SETBACK 105 UNIT WARNING 2J7 COIL2 SENSOR ERR 57 UNIT WARNING 1E6 COMP PR 106 CIRCUIT 1 SAFETY 1J5 REFR SENSOR ERR 58 CIRCUIT 1 SAFETY 1E6 COMPR 1 SAFETY 107 UNIT SAFETY 0A4 FREEZE UP 59 CIRCUIT 1 SAFETY 1E6 COMPR 2 SAFETY 190 NETWORK SAFETY 0U4 PCB COMM PROBLEM 60 CIRCUIT 1 SAFETY 1J3 DISCHSENSOR ERRe 191 NETWORK SAFETY 0CA 0UT E SENSOR ERR 61 CIRCUIT 1 SAFETY 1F3 HIGH DICH TEMPe 192 NETWORK SAFETY 0CS INL E SENSOR ERR 194 NETUORK SAFETY 0U4 SW VERSION ERR 2 42 Part 2 LON ESIE07 09 History 6 History lt EKLONPG gt LON configuration file
46. 2 JP2 AAA POWER RS485 T S D 88 N 1 L 1 4 1 1 230 VAC PE Y y4 v Ethernet 10 100 Base T To EKACPG LON WORKS PC configuration RS485 MODBUS connection Connect cables according to specifications in the table below Connection to LonWorks network LonWorks network communication wiring no polarity Configuration PC In case of communication via hub use a ethernet 10 100 Base T straight cable field supply In case of direct communication use a ethernet 10 100 Base T cross cable field supply RS485 Modbus connection Use a 0 75 1 25 mm 2 wire cable of maximum 500 m meas ured from gateway to last unit in line polarity Power supply Use a 1 5 mm 2 wire earth cable and perform grounding 2 16 Part 2 LON ESIE07 09 Functional specifications 2 Functional specifications 2 1 What Is in This Chapter Overview This chapter contains the following topics Topic See page 2 2 lt EKLONPG gt LON gateway 2 18 Part 2 LON 2 17 Functional specifications ESIE07 09 2 2 lt LON gateway Summary The LON gateway enables interfacing between the chiller unit and the LonWorks network Units installed in such configuration can be monitored and operated on the LonTalk com
47. 2 5B R Analogue input Low pressure sensor circuit 1 bar x1 10 X43A 93 5C R Analogue input Current measurement only for A x1 10 X44A OP57 94 5D R Analogue input Voltage measurement only for Vx1 10 X45A OP57 96 5F R Analogue input Heating suction temperature sensor C x1 10 X66A 1 circuit 1 only for EWYQ 98 61 R Analogue input Heating suction temperature sensor C x1 10 X67A 2 circuit 1 only for EWYQ 99 62 R Changeable analogue input2 function not V or mA or C In case type DI then 0 Open 50 Closed X68A pre defined default x1 10 or DI 100 63 R Changeable analogue input function not V or mA or C In case type DI then 0 Open 50 Closed X69A pre defined default x1 10 or DI 101 64 R Changeable analogue input4 function not V or mA or In case type DI then 0 Open 50 Closed X70A pre defined default x1 10 or DI 102 65 R Changeable analogue input3 function not or mA or In case type DI then 0 Open 50 Closed X714 pre defined default x1 10 or DI 1 14 Part 1 Address card EKACPG ESIE07 09 System Outline Register Address address Read Unit of decimal hexadecimal Write Description measurement Comment 103 66 R Analogue output Fanspeed signal circuit 1 V x1 10 X72A 3 4 only for OPIF 105 68 R Changeable analogue input1 func
48. 64 R Digital input Fan overcurrent relay Fanstep 1 circuit 1 0 Open 1 closed X7A 102 65 R Digital input Fan overcurrent relay Fanstep 2 circuit 1 0 Open 1 closed X8A 103 66 R Digital input Fan overcurrent relay Fanstep 3 circuit 1 0 Open 1 closed X9A 107 6A R Digital input Fan inverter safety circuit 1 only for OPIF 0 Open 1 closed X274 111 6E R Digital input Flow switch 0 Open 1 closed X30A 112 6F R Digital input Pump interlock 0 Open 1 closed X31A 113 70 R Changeable digital input1 function not pre defined 0 Open 1 closed X32A 3 4 default 114 71 R Changeable digital input2 function not pre defined 0 Open 1 closed X32A 1 2 default 115 72 R Digital output Compressor contactor 1 circuit 1 0 Open 1 closed X13A 116 74 R Digital output Compressor contactor 2 circuit 1 0 Open 1 closed X14A 117 74 R Digital output Heatertape 0 Open 1 closed X15A Us 118 75 R Digital output Pump contactor 0 Open 1 closed X16A 119 76 R Digital output Reverse valve circuit 1 Only for EWYG 0 Open 1 closed X17A 121 78 R Digital output Fanstep 1 circuit 1 0 Open 1 closed X19A 1 3 122 79 R Digital output Fanstep 2 circuit 1 0 Open 1 closed X19A 5 7 123 7A R Digital output Fanstep 3 circuit 1 0 Open 1 closed X20A 126 7D R Changeable digital output1 SAFETY W NO 0 Open 1 closed X22A default 128 7F R Changeable digital output2 GEN OPERATION 0 Open 1 closed
49. 9 R W Cooling outlet setpoint 2 C x1 10 29 1C Heating inlet setpoint 1 only EWYQ C x1 10 30 1D R W Heating inlet setpoint 2 only EWYQ C x1 10 31 1E R W outlet setpoint 1 only EWYQ C x1 10 32 1F R W outlet setpoint 2 only EWYQ C x1 10 35 22 R W Thermostat C x1 10 36 23 Thermostat C x1 10 37 24 R W Thermostat 9 x1 10 39 26 R Minimum Outlet Water C x1 10 40 27 R High Pressure Circuit 1 Temperature 90 x1 10 41 28 R Low Pressure Circuit 1 Temperature C x1 10 42 29 R High Pressure Circuit 2 Temperature 90 x1 10 43 2A R Low Pressure Circuit 2 Temperature 90 x1 10 82 51 R Analogue input Ambient sensor C x1 10 X33A 83 52 R Analogue input Inlet water sensor 90 x1 10 X34A 84 53 R Analogue input Outlet water sensor C x1 10 X35A 85 54 R Analogue input Suction temperature sensor circuit 1 x1 10 X36A 86 55 R Analogue input Refrigerant piping temperature C x1 10 X37A sensor circuit 1 87 56 R Analogue input Coil temperature sensor 1 circuit 1 C x1 10 X38A only for EWYQ 88 57 R Analogue input Coil temperature sensor 2 circuit 1 C x1 10 X39A only for EWYG 89 58 R Analogue input Discharge temperature sensor 1 C x1 10 X40A circuit 1 90 59 R Analogue input Discharge temperature sensor 2 C x1 10 X41A circuit 1 91 5A R Analogue input High pressure sensor circuit 1 bar x1 10 X42A 9
50. ACnet Object Type BO Binary Output Object Name string Input T Nr XXX Chiller nr Al Analog Input Present_Value property Additional explanation AV Analog Value Ml Multistate Input 1 StartStopStatus XXX BI Inactive 0 Off Active 1 On Readout status of on off LED 2 StartStopCommand XXX BO Inactive 0 Off Active 1 On Control on off state by pushing on off button 3 Alarm_XXX BI Inactive 0 Normal Readout alarm active or not Active 1 Abnormal 4 ThermoStatus XXX BI Inactive 0 Off Active 1 On Readout if thermostat is active or not 5 LowNoiseStatus XXX BI Inactive 0 Off Active 1 On Readout if low noise mode is active or not 6 FreeCoolingStatus XXX BI Inactive 0 Off Active 1 On Readout if free cooling is active or not 7 C11CompressorStatus XXX BI Inactive 0 Off Active 1 On Readout compressor status 8 C12CompressorStatus XXX BI Inactive 0 Off Active 1 On Readout compressor status 9 C21CompressorStatus_XXX BI Inactive 0 Off Active 1 On Readout compressor status 10 C22CompressorStatus XXX BI Inactive 0 Off Active 1 On Readout compressor status 11 CoollnletSetpoint XXX AV Degree Readout and control Cooling inlet setpoint 12 CoolOutletSetpoint XXX AV Degree Readout and control Cooling outlet setpoint 13 HeatlnletSetpoint XXX AN Degree Readout and control Heating inlet setpoint 14 HeatOutletSetpoint XXX AV Degree Readout and control Heating outlet setpoint 15 AmbientTemp XXX Al Degree Readout ambient temp 16 Inle
51. CUIT 2 SAFETY 1E6 COMPR 1 SAFETY 49 CIRCUIT 1 SAFETY 1A9 EEV ERR 99 CIRCUIT 2 SAFETY 1E6 COMPR 2 SAFETY 50 CIRCUIT 1 SAFETY 153 FAN OVERC ST1 100 CIRCUIT 2 SAFETY 1J3 DISCHSENSOR ERR2 51 CIRCUIT 1 SAFETY 153 FAN OUERC ST2 101 CIRCUIT 2 SAFETY 1F3 HIGH DISCH TEMP 52 CIRCUIT 1 SAFETY 153 FAN OUERC ST3 102 CIRCUIT 2 SAFETY 1J5 SUCTSENSOR 53 CIRCUIT 1 SAFETY 1J5 SUCTSENSOR ERR 103 CIRCUIT 2 SAFETY 1J5 SUCTSENSOR 54 CIRCUIT 1 SAFETY 1A9 SUPERHEAT ERR 104 UNIT URRNING 2J6 COIL1 SENSOR ERR 56 UNIT URRNING 1E3 HP SETBACK 105 UNIT WARNING 2J7 COIL2 SENSOR ERR 57 UNIT WARNING 1E6 COMP PR 106 CIRCUIT 2 SAFETY 1J5 REFR SENSOR ERR 58 CIRCUIT 1 SAFETY 1E6 COMPR 1 SAFETY 107 UNIT SAFETY 0A4 FREEZE UP Ce 59 CIRCUIT 1 SAFETY 1E6 COMPR 2 SAFETY 190 NETWORK SAFETY 0U4 PCB COMM PROBLEM 60 CIRCUIT 1 SAFETY 1J3 DISCHSENSOR ERR2 191 NETWORK SAFETY OCA OUT E SENSOR ERR 61 CIRCUIT 1 SAFETY 1F3 HIGH DISCH TEMP2 192 NETWORK SAFETY 0CS INL E SENSOR ERR 194 NETUORK SAFETY 0U4 SU VERSION ERR 1 18 Part 1 Address card EKACPG ESIE07 09 Overview This part contains the following chapters Chapter See page 1 Design guide 2 3 2 Functional specifications 2 17 3 Gateway configuration 2 19 4 Communication procedure 2 31 5 LON objects 2 39 6 History 2 43 7 Configuration files 2 45 Part 2 LON 2 1 ESIE07 09 Part 2
52. DAIKIN ESIE07 09 Service Manual BMS option for Daikin air cooled chillers with scroll compressor Gateway Address card EKLONPG EKACPG EKBNPG ESIE07 09 Table of Contents 1 Introduction 1 About This Manual si ec tte e emet piens i i 2 Building Management System 5 i ii Part 1 Address card EKACPG 1 System Outline 1 1 Whats in This Chapter 1 3 1 2 Communication Outline eese 1 4 1 3 Installing the address 1 6 1 4 Connecting the address card 1 8 Part 2 1 Design guide 1 1 What Is in This Chapter 24 89 8 2 3 1 2 O tlinie and features een Ro em ieee 2 4 1 3 System Outline ihi ecu t Re aa aa a aaa ais 2 5 1 4 System configuration 2 6 1 5 Specifications LR cto che LR ch odia a 2 7 1 6 LON Kojo Te m En 2 11 1 7 Lis saaa rai iais ei A eee 2 15 1 8 Wiring et eet sa i had ip a dete eet 2 16 2 Functional specifications 2 1 What Is in This Chapter 2 17 2 2 lt EKLONPG gt LON 2 18 Table of Contents i ESIE07 09 3 Gateway configuration 3 1 Whatlsiin This Ghapter s neu svedichanis PRESE 2 19 3 2 Configuration flle tite as eile eL ee antenatal ee eee 2 20 3 3 Downloading the configur
53. EKLONPG Virtual Functional Block nvoOnOff 001 0 00 Subsystem 1 EKLONPG Virtual Functional Block nvoOnOff_002 0 00 Remark As described in the variable details all the nvi have default value 0 To monitor all variables continuously right click on a variable and select Monitor All On Then all the status variables are continuously displayed Example nvoOnOff 001 0 0 0 off 100 0 1 on nvoActSetp 001 pic OpenOffice org Writer Edt View Insert Format Table Tools Window Help X LonMaker Browse ed E File Edit Browse Help a i ES n m 1 3 Subsystem 1 EKLONPG Virtual Functional Block nviCapctyLim 00 oS 5 Subsystem 1 EKLONPG Virtual Functional Block nviChlrEnb 001 Refresh ay ur Subsystem 1 EKLONPG Virtual Functional Block nviChirEnbl 002 cis Al yalues Subsystem 1 EKLONPG Virtual Functional Block nviCoolSetpt 001 E Subsystem 1 EKLONPG Virtual Functional Block mviCoolSetpt 002 Properties H Subsystem 1 EKLONPG Virtual Functional Block mwieatSetpt 001 Subsystem 1 EKLONPG Virtual Functional Block 002
54. ESIE07 09 4 2 Cimetrics BACnet explorer The software should be available on the DENV extranet Service department For procedure how to install and startup the BACnet explorer refer to VRV BACnet service manual Si72 304 Example 1 Discovered devices 11 amp 12 on network 5 double click local network Untitled Cimetrics BACnet Explorer 2 xl Ele Edit View Help 181218 26 68 28 Untitled Cimetrics BACnet Explorer 2 Ani Ele Edt View Help e12 2 EE Device 11 9 Analog Input 15 Ba Analog Input 16 Be Analog Input 17 BE Analog Value 11 BE Analog Value 12 BE Analog Value 13 Analog Value 14 Binary Input 1 Binary Input 3 BE Binary Input 4 BS Binary Input 5 Binary Input 6 Binary Input 7 Binary Input 8 Name analog Input 15 Value Property Name Property Value Device Object BE Multistate Input 18 BE Multistate Input 20 Mukistate Input 22 Mukistate Input 23 Mukistate Input 27 Multistate Input 28 Be Multistate Input 29 BE Multistate Input 30 159 Multistate Input 31 Be Multistate Input 32 33 objects added 3 34 Part 3 BACnet ESIE07 09 Communication procedure Example 2 StartStopStatus 001 BI When unit is off present value inactive 0 Ele Edit View Help led Cimetri BACnet Expl ini xi see e e 2
55. EWYQ 236 EB R CS11 number of compressor 11 startups higher Number of compressor startups higher part x 1000 part lower part 237 EC R CS11 number of compressor 11 startups lower part 238 ED R CS12 number of compressor 12 startups higher part 239 EE R CS12 number of compressor 12 startups lower part 242 F1 R CS21 number of compressor 21 startups higher part 243 F2 R CS21 number of compressor 21 startups lower part 244 F3 R CS22 number of compressor 22 startups higher part 245 F4 R CS22 number of compressor 22 startups lower part Part 1 Address card EKACPG ESIE07 09 System Outline Register Address address Read Unit of decimal hexadecimal Write Description measurement Comment 246 F5 R Actual status fan circuit 1 0 Off 1 LLLL 2 LLL 3 LL 4 Low 5 Medium 6 High Actual status fan circuit 1 OPIF 96 0 100 247 F6 R Actual status fan circuit 2 0 Off 1 LLLL 2 LLL 3 LL 4 Low 5 Medium 6 High Actual status fan circuit 2 OPIF 96 0 100 250 F9 R W Loadup time inlet control 5 251 Loaddown time inlet control S 252 FB R W Loadup time outlet control S 253 FC R W Loaddown time outlet control S 254 FD R BMS allowed 0 No 1 Yes 255 FE R Software version high Ve
56. FETY 1E6 COMPR 2 SAFETY 50 CIRCUIT 1 SAFETY 153 FAN OUERC ST1 100 CIRCUIT 2 SAFETY 1J3 DISCHSENSOR ERRe 51 CIRCUIT 1 SAFETY 153 FAN OUERC ST2 101 CIRCUIT 2 SAFETY 1F3 HIGH DICH TEMPe 52 CIRCUIT 1 SAFETY 153 FAN OVERC ST3 102 CIRCUIT 2 SAFETY 1J5 SUCTSENSOR ERRH1 53 CIRCUIT 1 SAFETY 1J5 SUCTSENSOR ERR 103 CIRCUIT 2 SAFETY 1J5 SUCTSENSOR ERRHe 54 CIRCUIT 1 SAFETY 1A9 SUPERHEAT ERR 104 UNIT WARNING 2J6 COIL1 SENSOR ERR 56 UNIT WARNING 1E3 HP SETBACK 105 UNIT WARNING 2J7 COIL2 SENSOR ERR 57 UNIT WARNING 1E6 COMP PR 106 CIRCUIT 1 SAFETY 1J5 REFR SENSOR ERR 58 CIRCUIT 1 SAFETY 1E6 COMPR 1 SAFETY 107 UNIT SAFETY 0A4 FREEZE UP 59 CIRCUIT 1 SAFETY 1E6 COMPR 2 SAFETY 190 NETWORK SAFETY 0U4 PCB COMM PROBLEM 60 CIRCUIT 1 SAFETY 1J3 DISCHSENSOR ERRe 191 NETWORK SAFETY 0CA 0UT E SENSOR ERR 61 CIRCUIT 1 SAFETY 1F3 HIGH DICH TEMPe 192 NETWORK SAFETY 0CS INL E SENSOR ERR 194 NETUORK SAFETY 0U4 SW VERSION ERR 3 12 Part 3 BACnet ESIE07 09 Design guide 1 7 Function Main functions Functions EKBNPG BACnet IP gateway Monitor and control On Off Thermostat setpoints Cooling heating mode Capacity limitation Low noise mode only OPIF O O O O O Monitor Error active not active code of highest priority active error Inlet outlet sensor temperature Unitcapacity Compressor On Off status fan s
57. Flashes when transmitting data via RS485 Modbus only for Lon Gateway EKLONPG LA green Flashes when the PCB is in normal operation LON red Lights up when the Lon service pin is pushed RX 2 green Flashes when receiving data via LonTalk network TX 2 green Flashes when transmitting data via LonTalk network Lon service pin The network integrator will need to push the Lon service pin during commissioning the LonTalk network 2 10 Part 2 LON ESIE07 09 Design guide 1 6 LON objects The LON objects are based on the Lonmark function profile 8040 Following items are taken into account with the multiscroll chillers setup The variables are extended with XXX to determine the chiller unit 0012 first chiller unit Some variables are not integrated nviEntCndWTemp The valid range of all the variables is adapted to the multiscroll chillers The variable nvoAlarmDescr The SNVT type SNVT str asc according to chiller profile 8040 is replaced by SNVT Count R ON Chiller Controller 8040 Mandatory Network Variables nviChillerEnable nvoOnOff snvi switch snvt switch nviCoo Setpt nv4 nvoActiveSetpt snvt temp snvt temp p Optional Network Variables nviCapacityLim snvt lev percent snvt lev percent 10 nvoCapacityLim snvt lev percent vil T nvoLvgC HW Temp snvt temp p nva nvoActualCapacity nviEntChWTemp snv
58. NIT URRNING 1 SETBRCK 105 UNIT URRNING eJ COIL2 SENSOR ERR 57 UNIT URRNING 1E6 COMP PR 106 CIRCUIT 1 SAFETY 1J5 REFR SENSOR ERR 58 CIRCUIT 1 SAFETY 1E6 COMPR 1 SAFETY 107 UNIT SAFETY OA4 FREEZE UP Ce 59 CIRCUIT 1 SAFETY 1E6 COMPR 2 SAFETY 190 NETWORK SAFETY 0U4 PCB COMM PROBLEM 60 CIRCUIT 1 SAFETY 1J3 DISCHSENSOR 191 NETWORK SAFETY OCA OUT E SENSOR ERR 61 CIRCUIT 1 SAFETY 1F3 HIGH DICH TEMP2 192 NETWORK SAFETY 0CS INL E SENSOR ERR 194 NETUORK SAFETY 0U4 SU VERSION ERR Part 3 BACnet 3 43 BACnet objects ESIE07 09 3 44 Part 3 BACnet ESIE07 09 History 6 History lt EKBNPG gt BACnet configuration file Information for service manual public Internal use only Item Daikin version date Daikin title example 1 unit Daikin config file example 1 unit Daikin reference Software code Software version amp date Applicable units Content References detailed content and bugs V0 8 11 09 2007 CN00241 Daikin 1 unit v0 8 configBN PC Daikin 1unit vO 8 csv EWA YG80 260 New Part 3 BACnet 3 45 History ESIE07 09 3 46 Part 3 BACnet ESIE07 09 Configuration files 7 Configuration files this chapter really necessary This is already stated at the beginning of the two gateway configuration chapters The config files can be found on the Daikin extranet http extr
59. Object BS Multistate Input 18 BE Multistate Input 20 159 Multistate Input 22 152 Multistate Input 23 SS Mukistate Input 27 ml Name Binary Output 2 Value Inactive 0 Property Property Value active text Active eventstate normal 0 inactive text Inactive objectidentifier binary outpu 2 objectname StartStopCommand 001 objecttype binary output 4 out of service polarity normal 0 presentvalue inactive 0 lait inactive 0 relinguish default VT status flags FFFFIO Fes Tre Tues Result unit will be turned on Part 3 BACnet 3 35 Communication procedure ESIE07 09 Example 4 InletTemp 001 Al Monitor inlet water temperature present value is 14 3 C netrics BACnet Explorer Ele Edt View Help I mg e e B BACnet Global Internetwork Local Network Network 5 EE Device 11 Es Analog Input 15 BE Analog Input 16 Analog Input 17 25 Analog Value 11 BE Analog Value 12 BE Analog Value 13 155 Analog Value 14 YES Binary Input 1 BS Binary Input 3 Binary Input 4 BS Binary Input 5 Binary Input 6 BS Binary Input 7 Binary Input 8 Analog Input 16 Value 14 3 degrees Celsius Property Value normal 0 object identifier fanalog input 16 lobject name InietTemp 001 lobject type analog input 0 out of service present value 14 reliability nofa
60. RH1 53 CIRCUIT 1 SAFETY 1J5 SUCTSENSOR ERR 103 CIRCUIT 2 SAFETY 1J5 SUCTSENSOR ERRHe 54 CIRCUIT 1 SAFETY 1A9 SUPERHEAT ERR 104 UNIT WARNING 2J6 COIL1 SENSOR ERR 56 UNIT WARNING 1E3 HP SETBACK 105 UNIT WARNING 2J7 COIL2 SENSOR ERR 57 UNIT WARNING 1E6 COMP PR 106 CIRCUIT 1 SAFETY 1J5 REFR SENSOR ERR 58 CIRCUIT 1 SAFETY 1E6 COMPR 1 SAFETY 107 UNIT SAFETY 0A4 FREEZE UP 59 CIRCUIT 1 SAFETY 1E6 COMPR 2 SAFETY 190 NETWORK SAFETY 0U4 PCB COMM PROBLEM 60 CIRCUIT 1 SAFETY 1J3 DISCHSENSOR ERRe 191 NETWORK SAFETY 0CA 0UT E SENSOR ERR 61 CIRCUIT 1 SAFETY 1F3 HIGH DICH TEMPe 192 NETWORK SAFETY 0CS INL E SENSOR ERR 194 NETUORK SAFETY 0U4 SW VERSION ERR 2 14 Part 2 LON ESIE07 09 Design guide 1 7 Function Main functions Functions EKLONPG Monitor and control On Off Thermostat setpoints Cooling heating mode Capacity limitation Low noise mode only OPIF Monitor Error active not active code of highest priority active error Inlet outlet sensor temperature Unitcapacity function possible Part 2 LON Design guide ESIE07 09 1 8 Wiring diagram A1P Printed circuit board F1 Fuse 1A TR1 Power supply transformer 230 V 21 8 V X1M Terminal strip EKLONPG al al i i 2lelo A1P
61. RR 82 CIRCUIT 2 SAFETY 153 FAN INV ERR 18 UNIT SAFETY 9 EEY PCB ERR 84 CIRCUIT 2 SAFETY 1J3 DISCHSENSOR ERR1 19 UNIT SAFETY OUA OF NOT CONFIRMED 85 CIRCUIT 2 SAFETY 1F3 HIGH DISCH TEMP1 29 UNIT SAFETY 005 PCB COMM PROBLEM 86 UNIT WARNING 253 FAN OUERC ST1 30 CIRCUIT 1 SAFETY 1U1 REU PHASE PROT 87 UNIT WARNING 253 FAN OUERC ST2 31 CIRCUIT 1 SAFETY 1E3 HIGH PRESSURE SU 88 UNIT WARNING 253 FAN OUERC ST3 35 CIRCUIT 1 SAFETY 1E4 LOU PRESSURE 89 CIRCUIT 2 SAFETY 1A9 EEV ERR 37 CIRCUIT 1 SAFETY 1JA HP SENSOR ERR 90 CIRCUIT 2 SAFETY 153 FAN OUERC ST1 38 CIRCUIT 1 SAFETY 1JC LP SENSOR ERR 91 CIRCUIT 2 SAFETY 153 FAN OUERC STe 42 CIRCUIT 1 SAFETY 153 FAN INV ERR 92 CIRCUIT 2 SAFETY 153 FAN OVERC ST3 44 CIRCUIT 1 SAFETY 1J3 DISCHSENSOR ERR1 93 CIRCUIT 2 SAFETY 1J5 SUCTSENSOR ERR 45 CIRCUIT 1 SAFETY 1F3 HIGH DISCH TEMP1 94 CIRCUIT 2 SAFETY 1A9 SUPERHEAT ERR 46 UNIT WARNING 153 FAN OUERC ST1 96 UNIT WARNING 2E3 HP SETBACK 47 UNIT WARNING 153 FAN OUERC ST2 97 UNIT WARNING 2E6 COMP PR 48 UNIT WARNING 153 FAN OUERC ST3 98 CIRCUIT 2 SAFETY 1E6 COMPR 1 SAFETY 49 CIRCUIT 1 SAFETY 1A9 EEV ERR 99 CIRCUIT 2 SAFETY 1E6 COMPR 2 SAFETY 50 CIRCUIT 1 SAFETY 153 FAN OUERC ST1 100 CIRCUIT 2 SAFETY 1J3 DICHSENSOR ERRe 51 CIRCUIT 1 SAFETY 153 FAN OUERC ST2 101 CIRCUIT 2 SAFETY 1F3 HIGH DICH TEMPe 52 CIRCUIT 1 SAFETY 153 FAN OVERC ST3 102 CIRCUIT 2 SAFETY 1J5 SUCTSENSOR ER
62. SOR ERR 65 UNIT WARNING 1J COIL2 SENSOR ERR 5 UNIT SAFETY 0CA 0UT SENSOR ERR 66 CIRCUIT 1 SAFETY 1J5 REFR SENSOR ERR 6 UNIT SAFETY 9 T SENSOR ERR 67 UNIT SAFETY 0A4 FREEZE UP 9 UNIT SAFETY 0U4 EXT COMM ERR 70 CIRCUIT 2 SAFETY 1U1 REU PHASE PROT 10 UNIT SAFETY 0U4 MAINPCB COMM ERR 71 CIRCUIT 2 SAFETY 1E3 HIGH PRESSURE SW 12 UNIT SAFETY PUMP INTERLOCK 75 CIRCUIT 2 SAFETY 1E4 LOU PRESSURE 14 UNIT WARNING RnE FLOU HAS STOPPED JT CIRCUIT 2 SAFETY 1JA HP SENSOR ERR 16 UNIT WARNING 0C9 INL SENSOR ERR 78 CIRCUIT 2 SAFETY 1JC LP SENSOR ERR 17 UNIT SAFETY 0 9 PCB COMM ERR 82 CIRCUIT 2 SAFETY 153 FAN INV ERR 18 UNIT SAFETY 9 EEY PCB ERR 84 CIRCUIT 2 SAFETY 1J3 DISCHSENSOR ERR1 19 UNIT SAFETY OUA OF NOT CONFIRMED 85 CIRCUIT 2 SAFETY 1F3 HIGH DISCH TEMP1 29 UNIT SAFETY 005 PCB COMM PROBLEM 86 UNIT WARNING 253 FAN OUERC ST1 30 CIRCUIT 1 SAFETY 1U1 REU PHASE PROT 87 UNIT WARNING 253 FAN OUERC ST2 31 CIRCUIT 1 SAFETY 1E3 HIGH PRESSURE SU 88 UNIT WARNING 253 FAN OUERC ST3 35 CIRCUIT 1 SAFETY 1E4 LOU PRESSURE 89 CIRCUIT 2 SAFETY 1A9 EEV ERR 37 CIRCUIT 1 SAFETY 1JA HP SENSOR ERR 90 CIRCUIT 2 SAFETY 153 FAN OUERC ST1 38 CIRCUIT 1 SAFETY 1JC LP SENSOR ERR 91 CIRCUIT 2 SAFETY 153 FAN OVERC STe 42 CIRCUIT 1 SAFETY 153 FAN INV ERR 92 CIRCUIT 2 SAFETY 153 FAN OVERC ST3 44 CIRCUIT 1 SAFETY 1J3 DISCHSENSOR ERR1 93 CIRCUIT 2 SAFETY
63. Summary The BACnet gateway enables interfacing between the chiller unit and the BMS Building Management System Units installed in such configuration can be monitored and operated on the BMS through BACnet IP communication 3 16 Part BACnet ESIE07 09 Functional specifications 2 3 BACnet Protocol Implementation Conformance Statement PICS Following statement is the general statement from the PCB supplier Meaning only the BACnet IP related items are valid Driver Version 1 15 Document Revision 9 FieldServer Driver BACnet Protocol Implementation Conformance Statement BACnet Protocol Date Vendor Name Product Name Product Model Number Product Description Protocol Conversions September 9 2005 FieldServer Technologies FieldServer FS B40 FS B20 or FS B30 Series ProtoCessor FFP SlotServer This software product will provide bi directional communication between various RTU DCS SCADA and PLC using most common protocols and a BACnet system The FieldServer can perform protocol conversion as opposed to routing between the different BACnet Data Link Layer options This is arranged by way of static mappings See FieldServer Technologies list of protocol drivers available to deter mine available protocol conversions BACnet Standardized Device Profile Annex L Note that the FieldServer is a gateway device V BACnet Smart Sensor B SS V BACnet S
64. T Subsystem 1 EKLONPG Virtual Functional Block nviMode 001 nM subsystem EKLONPG Virtual Functional Block nviMode 002 du bis 4 Subsystem 1 EKLONPG Virtual Functional Block nvoActCapety 00 11 Virtuai Functional Block nvoActCapety 00 Change Format Ctri a Subsystem 1 EKLONPG Virtual Functional Block nvoActvSetpt 00 Change cube o Subsystem EKLONPG Virtual Functional Block nvoActvSetpt 002 7 2 Subsystem 1 EKLONPG Virtual Functional Block nvoAlrmDescr 001 Y subsystem 1 EKLONPG Virtual Functional Block nvoAlrmDescr 002 v 10 3 Subsystem 1 EKLONPG Virtual Functional Block nvoCapctyLim 001 Y 100 006 L 5vosystema Virtual Functional Block nvoCapctyLim 002 Y 190 000 Subsystem 1 EKLONPG Virtual Functional Block nvoChirStat 001 Y EHLR OFFHVAC COOL O 1 0 9 1 0 E Subsystem 1 EKLONPG InvoChirStat 002 Y CHLR COOL 0 0 9 1 0 7 subsystem 1 EkLonpo Virtual Functional Block nvoEntChwTmp 001 Y 1350 Subsystem 1 EKLONPG Virtual Functional Block nvoEntChwTmp 002 2720 Subsystem 1 EKLONPG Virtual Functional Block nvoLvgChwTmp 001 Y 830 EKLONPG Virtuai Functional Block vaChwTmp 102 1480 1 EKLONPG Virtual Functional Block nvoOnOrf 001 Y 000 Subsystem 1 EKLONPG Virtual Functional Block nvoOnOf 002 Y eoe PE Ready LE J
65. alues of parameter 182 safety codes 2 difference between softcopy input files installation manual and print out on page 17 181 B4 R Error Type of selected active error refer to integer 0 unit 1 circuit 1 2 circuit 2 5 network 6 warning parameter 182 182 B5 R W Selected active error number The information of the active error corresponding to this reference number is displayed in variables 180 and 181 the maximum allowed input value of variable 183 183 B6 R Maximum number of active errors that are present 184 B7 R W Cooling Heating mode setting 0 COOLING 1 HERTING Remark R only in case remote cool heat by digital input is selected in software 185 B8 R W Thermostat mode 0 MANUAL CONTROL 1 INL WATER 2 OUTL WATER 186 B9 R Active mode 0 MANUAL MODE 1 INLSETP 1 2 INLSETP2 3 OUTSETP 1 4 OUTSETP2 187 BA R Unit capacity 188 1 189 BC R Capacity C2 96 192 BF R Unit current only for OP57 A 199 C6 R W limit mode 0 NOT ACTIVE 1 CHANG DIG INP 2 LIMIT 25 50 75 or SETTING refer to next variable 200 C7 limit mode selection Only valid in case address 199 is equal to 2 O LIMIT 25 1 LIMIT 50 2 LIMIT 75 3 LIMIT SETTING 201 C8 R W Limitation Setting for C11 0 OFF 1 ON 202 C9 R W Capacity Limitation Setting for C12 0 OFF 1 ON 203 CA R W
66. anet daikineurope com Part 3 BACnet 3 47 Configuration files ESIE07 09 3 48 Part 3 BACnet ESIE07 09 index A address card connection o aded deren Maan E des 1 8 BACnetobjectlist 2 3 te L eee wr uM voe aq re ed 3 10 3 41 BMS What idera e NR os aaa A E iHi chang IP address o TUR Ae a ERA S REPRISES 2 28 3 31 communication chiller and BMS ene eet Ss me RD V E ee Ua Sere 4 Iu Yu 1 4 communication connections 2 6 configuration file 2 ana nir onde a dE UE E DN hes 2 43 DENV extranet 22 Lini ai k L Le E A aa XR 3 24 Lame e ate e bo Bde recorte dated 3 9 download configuration file to 1 3 24 procedure nat id USE Nen a 3 25 ar eee cede eee dere 3 13 installation address card is sausi ias a eke dad 1 7 master cime aime de od ea eb aede e en pelts ewe a e 1 4 Modb s ptetecoli x eer nte reete te e Teide lea a 1 4 1 9 ejo lo E 1 9 monitor
67. ation file to the gateway 2 21 4 Communication procedure 4 1 Whats in This Ghapter senistres daken e tat ee ft tete 2 31 4 2 LonMaker V9 1 ced ee eee Lene ie ee 2 32 5 LON objects 6 History 7 Configuration files Part 3 BACnet 1 Design guide 1 1 What Is in This Chapter 2 44444 80000 3 3 1 2 Outline and fealures 2 ree Ts 3 4 1 3 System outline ee ERR bete e eiecit n ea dette ees 3 5 1 4 System corifiguratiori iii ut ede EEURMR 3 6 1 5 Specificatlons iii ipae ee RAE THER e SERAIS 3 7 1 6 BAGnet object lit sone ede cede fe e f etie 3 10 1 7 RUNCHON Sesen E 3 13 1 8 Wiri g diagram ua sis asai rere ne dee e tet ees 3 14 2 Functional specifications 2 1 Whatls in IhiS Ghapter n neci BRE S 3 15 2 2 Sur ML 3 16 2 3 BACnet Protocol Implementation Conformance Statement PICS 3 17 ii Table of Contents ESIE07 09 3 Gateway configuration 3 1 What I in This Chapter nent 3 21 3 2 Configuration file css ce had dee eka dea 3 22 3 3 Downloading the configuration file to the 3 24 4 Communication procedure 4 1 What Is in This Chapter 3 33 4 2 Cimetrics BACnet 42 22 0 3 34 4 3 GAS BAOnetexplorer e iiie ti det iet eine 3 39
68. atures 3 4 1 3 System outline 3 5 1 4 System configuration 3 6 1 5 Specifications 3 7 1 6 BACnet object list 3 10 1 7 Function 3 13 1 8 Wiring diagram 3 14 Part 3 BACnet 3 3 Design guide ESIE07 09 1 2 Outline and features 1 Manage the information of up till 8 multiscroll chillers 2 Objects compatible with BACnet IP ANSI ASHRAE 135a 3 4 Part 3 BACnet ESIE07 09 Design guide 1 3 System outline EKBNPG BACnet Egateway BACnet IP Chillers with address card EKACPG DAIKIN A C INFRASTRUCTURE BACNET ETHERNET F Fire alarm Security Power supply facility i Lighting Elevator Address card EKACPG Kit for serial connection on multiscroll chiller Part 3 BACnet 3 5 Design guide ESIE07 09 1 4 System configuration Examples of communication connections BMS Ethernet BACnet field supply EKBNPG Gateway Chiller unit 1 Address 1 Chiller unit 2 Modbus slaves Address 2 Chiller unit 3 Address 03 Maximum 8 multiscroll chillers Part 3 BACnet ESIE07 09 Design guide 1 5 Specifications Components BACnet gateway 8 multiscroll chillers per gateway BACnet transmission BACnet IP Power supply 1 230 VAC 10 at 50 60Hz Relative Humidity 5 90 non condensing Operation temperature 15 60 C
69. ber address Read decimal hexadecimal decimal hexadecimal Write Description Comment 163 A2 R Digital output Compressor contactor 1 circuit 2 0 Open 1 closed X13A 164 A3 R Digital output Compressor contactor 2 circuit 2 0 Open 1 closed X14A 11 0A 167 A6 R Digital output Reverse valve circuit 2 only for EWYQ 0 Open 1 closed X174 169 A8 R Digital output Fanstep 1 circuit 2 0 Open 1 closed X19A 1 3 170 A9 R Digital output Fanstep 2 circuit 2 0 Open 1 closed X19A 5 7 171 AA R Digital output Fanstep 3 circuit 2 0 Open 1 closed X20A Analogue and integer variables Register Address address Read Unit of decimal hexadecimal Write Description measurement Comment 18 11 R W Active Cooling inlet setpoint C x1 10 Depends on changeable digital input Dual setpoint 19 12 R W Active Cooling outlet setpoint C x1 10 Depends on changeable digital input Dual setpoint 21 14 R W Active Heating inlet setpoint only EWYQ C x1 10 Depends on changeable digital input Dual setpoint 22 15 R W Active Heating outlet setpoint only EWYQ x1 10 Depends on changeable digital input Dual setpoint 23 16 R W Cooling inlet setpoint 1 C x1 10 24 17 R W Cooling inlet setpoint 2 C x1 10 25 18 R W Cooling outlet setpoint 1 C x1 10 26 1
70. ch setting In this example the last in line DIP switch on the address cards of chiller units 1 and 2 are to be set to OFF Because chiller unit 3 is the last unit in line the last in line DIP switch on the address card must be set to ON Service menu Submenu communication COMMUNICATION fourth screen Unit 1 Unit 2 Unit 3 RS485 MODBUS MODBUS MODBUS MODBUS ADDR Address 01 02 03 m BR Baudrate 19200 19200 19200 19200 PARITY EVEN EVEN EVEN EVEN 1STOPb 1STOPb 1STOPb 1 STOPb 1 11 Part 1 Address card EKACPG System Outline ESIE07 09 How to operate the address card Variables database COMMUNICATION sixth screen BMS CONTROL ALLOWED Y Y Y Y Make sure that the address card is firmly fitted onto the A11P PCB panel the wiring for a DICN system and or the wiring for a MODBUS communication setup is connected properly and that the BMS settings are correctly defined In the input output status menu you can always check if the RS485 and DIII COMMUNICATION k k RS232 ONLINE N communication is active RS485 ONLINE Y DIII ONLINE Y The BMS or supervisory system and the chiller unit communicate through a fixed set of variables also called address numbers Hereafter you will find the information you need about the digital integer and analogue variables that the BMS or supervisory system can read from or write to the address card of
71. ctiveSetpt Out SNVT temp p ram Active Cool or C range depend Read out Heat Setpt ing on unit type active setpoint Cooling heat ing inlet outlet depending active thermo stat mode 5 nviCapctyLim xxx nviCapacityLim In SNVT lev percent ram Capacity Limit of For units with 1 Control capac Chiller circ 096 or 5096 or ity limitation 10096 After turning For units with 2 the LON gate circ 096 or 2596 or way On the 50 or 75 or default value is 10096 0 6 nviEntChwTemp In SNVT temp p ram Accommodates Not integrated Remote Temp Sensor input 7 nviMode xxx nviMode In SNVT Hvac mode ram Chiller Mode s SNVT hvac mode HVAC HEAT Control cool 1 Heating ing heating HVAC COOL mode After 8 Cooling turning the LON gateway On the default value is 0 8 nviHeatSetpt xxx nviHeatSetpt In SNVT temp p ram Heating Setpoint C range depend Control heat ing on unit type ing setpoint inlet outlet depending on thermostat mode After turning the LON gate way On the default value is 9 nvoActCapcty xxx nvoActualCapacity Out SNVT lev percent ram Actual Running range 0 or 2596 Read ou Capacity of Unit or 50 or 75 or capacity of unit 10096 0 nvoCapctyLim xxx nvoCapacityLim Out SNVT lev percent ram Current Capacity range 0 or 2596 Read ou Limit Setting of or 50 or 75 or capacity limita Chiller 10096 tion setting of unit 1 nvoLvgChwTmp xxx nvoLvgChwTemp Out SNVT temp p ram Leaving Chilled C range depend Read out Out Wa
72. d EKACPG Introduction The purpose of this part is to describe the communication with the EKACPG address card using Modbus Overview This part contains the following chapter Chapter See page 1 System Outline 1 3 Part 1 Address card EKACPG 1 1 ESIE07 09 Part 1 Address card EKACPG ESIE07 09 System Outline 1 System Outline 1 1 What Is in This Chapter Overview This chapter contains the following topics Topic See page 1 2 Communication Outline 1 4 1 3 Installing the address card 1 6 1 4 Connecting the address card 1 8 Part 1 Address card EKACPG 1 3 System Outline ESIE07 09 1 2 Communication Outline Introduction The communication between the chiller s slave s and the BMS master is possible in Modbus protocol The chillers and the address cards are Daikin parts The other equipment must be field supplied Communication The illustration below shows a communication outline example outline example water supply BMS m MODBUS Master d supplied equipment Daikin supplied equipment Chiller unit 1 Address 01 EKACPG PCB Chiller unit 2 Address 02 EKACPG PCB MODBUS Slaves Chiller unit 3 Address 03 EKACPG PCB DIP switch setting In this example the last in line DIP switch on the address cards of ch
73. e 1 On Control on off state by pushing on off button 3 Alarm XXX B Inactive 0 Normal Readout alarm active or not Active 1 Abnormal 4 ThermoStatus XXX B Inactive 0 Off Active 1 On Readout if thermostat is active or not 5 LowNoiseStatus XXX BI Inactive 0 Off Active 1 On Readout if low noise mode is active or not 6 FreeCoolingStatus_XXX B Inactive 0 Off Active 1 On Readout if free cooling is active or not 7 C11CompressorStatus XXX BI Inactive 0 Off Active 1 On Readout compressor status 8 C12CompressorStatus XXX BI Inactive 0 Off Active 1 On Readout compressor status 9 C21CompressorStatus XXX BI Inactive 0 Off Active 1 On Readout compressor status 10 C22CompressorStatus XXX BI Inactive 0 Off Active 1 On Readout compressor status 11 CoollnletSetpoint XXX AV Degree Readout and control Cooling inlet setpoint 12 CoolOutletSetpoint XXX AV Degree Readout and control Cooling outlet setpoint 13 HeatlnletSetpoint XXX AV Degree Readout and control Heating inlet setpoint 14 HeatOutletSetpoint XXX AV Degree Readout and control Heating outlet setpoint 15 AmbientTemp XXX Al Degree Readout ambient temp 16 InletTemp XXX Al Degree Readout inlet temp 17 OutletTemp XXX Al Degree Readout outlet temp 18 MalfunctionCode XXX MI Refer to overview of integer values Readout active safeties of safety codes Refer to overview of integer values of safety codes 19 ModeCoolHeatCommand XXX MO 0 COOLING Control cooling heating mode 1 HEATING 20 ModeCoolHeatStat
74. ers per gateway Protocol LonTalk Transmission speed 78 kbps Topology FTT 10A Free topology Transmission medium Twisted pair wire Power supply 1 230 VAC 10 at 50 60Hz Relative Humidity 5 90 non condensing Operation temperature 15 60 C Storage temperature 20 70 C Dimensions HxWxD 357 x 240 x 78 mm Power consumption Max 5W Weight 2 1 kg Components r E it AS4B5 00 8 LN d 12 tt pp n i M M m A 1 2 4 1 Ethernet 10 100 Base T connection for PC configuration 2 RS485 Modbus connection 3 LonWorks connection 4 Power supply Part 2 LON 2 7 Design guide ESIE07 09 DAIKIN Accessories For EKLONPG Lon Screw nut Gateway option box Manual 2 8 Part 2 LON ESIE07 09 Design guide Dimensions 230 210 HOLE DISTANCE 1 e EU t p DAIKIN e i R E E A A A i 1 4x hole 5 to fix the option box 2 Option box lid Operation and display signals Part 2 LON 2 9 Design guide ESIE07 09 LED Colour PWR 2x green Lights up when power is connected RX 1 green Flashes when receiving data via RS485 Modbus TX 1 green
75. f the gateway is 192 168 1 24 submask is 255 255 255 0 W Confirm thatthere is an ethernet adapter installed in the PC s device manager list and that it is configured to run the TCP IP protocol m f using Windows XP ensure that the firewall is disabled Step2 Make the gateway empty Action Result 1 Go to START Click on run 2x 71 the name of a program Folder document or E w Internet resource and Windows will open it For you Removable Disk D Open 7 Browse Aor 0 MAN 3 2 22 Part 2 LON ESIE07 09 Gateway configuration 2 Now type into the window LL the name of program Folder document or Internet resource and Windows will open it for you Cancel Browse Press enter 3 Type e g Depending on installation directory After a few seconds you get this window cd c program files fieldserver utilities bin enter INNT system32 cmd exe ram filesMieldserver utilitieswbin 4 ruinet i192 168 1 24 zconfig csv enter Remark IP address should be equal to the IP gateway address gran Files not estab DELETED from config C Program Files FieldServer Utiliti 5 Switch the power off and on to reset the gate way Part 2 LON 2 23 Gateway conf
76. grams are the result after installing Install zip ruinet exe Install zip can be downloaded from the internet Ping utility http www protocessor com tech support utilities html ruiping exe Hardware setup 1 via hub Configuration PC HUB LON Gateway 2 via Ethernet cross over cable Configuration PC LON Gateway Part 2 LON 2 21 Gateway configuration ESIE07 09 Download process Step1 Identification of the IP number of the gateway gt use ping utility Action Result 1 Goto START gt Programs gt fieldserver utili The display should show ties gt ping utility GM Ping Utility Start Ping utility ruiping exe Documentation Tools iH Bridge ID Configuration File Folder Debug and Log File Folder Remote User Interface Uninstall FieldServer Utilities 2 If it does not even after repeated attempts then either the network cabling is incorrect or the computer network card is faulty or incorrectly configured m Check the Ethernet link OK led m Check the activity led on the ethernet connection this should flash at least once every 2 seconds if rui is still running and perhaps more often depending on the network traffic m Check that the IP address of the PC is within the same network 192 168 1 xxx of the gateway The default IP address o
77. gue variable s obtains current binary value in one or more holding registers 04 read input registers Read analogue variable s obtains current binary value in one or more holding registers 05 force single coil Write individual digital variable s forces single coil to ON or OFF status 06 preset single register Write individual analogue variable s places a specific binary value into a holding register 15 force multiple coils Write series of digital variables forces a series of consecutive logic coils to be defined to ON or OFF status 16 preset multiple registers Write series of analogue variables places specific binary values into a series of consecutive holding registers Note that m Due to the variety of chillers with installed address cards no distinction is made between input D H In W variables with read only status and output variables with read write status so that the knowledge of the database and its management depends on the part present on the supervisory system Due to the general nature of the system the address card answers in the same way to various Modbus commands ata representation of the Modbus protocol Digital All digital data is coded by a single bit 0 for OFF for ON All digital variables are assigned to bits of consecutive registers each one having the lower address variable assigned to the less significant bit the higher address variable assigned to the most significant bit
78. iguration ESIE07 09 Step3 Connect to the gateway ruinet Action Result 1 Go to START gt Programs gt fieldserver utili The display should show ties gt Remote User Interface Remote User Interface 7 RUINET Discovering FieldServers on the local network T Documentation LAN FieldServers discovered on the network Tools gt Connection Troubleshooting Tips Bridge ID d C Configuration File Folder i 1 Turn off Windows XP Firewall if connecting from Windows XP Debug and Log File Folder Recently connected to FieldServers A CN88241 Daikin 2 units v8 6 192 168 1 24 B CN002 Daikin 2 units v8 6 192 168 1 23 D hfdap888 Unconfigured Bridge 192 168 1 168 Uninstall When the gateway is discovered Remark after power up the gateway this can take up to 90 sec Remote User Interface E RUINET Discovering FieldServers on the local network FieldServers discovered on the network 1 Adap 8 Unconfigured Bridge 192 168 1 24 Recently connected to FieldServers A CN G241 Daikin 2 unit 192 168 1 24 CN00241 Daikin 2 unit al 192 168 1 23 D Adap 08 Unconf igured 192 168 1 168 2 Press the item of the discovered gateway In this case press 1 Adap B Unconf igured Bridge B FieldServer Information Connection Overview Node Over Map Des Data Array System Er Driver Me Download Configuration to FieldServer Upload Configu
79. iller units 1 and 2 are to be set to OFF Because chiller unit 3 is the last unit in line the last in line DIP switch on the address card must be set to ON Refer to EKACPG installation manual ref 4PW35237 1 and multiscroll installation manuals Required settings m Modbus address This can be selected but should match the addresses mention in the gateway config file Baudrate 19200 Fixed value for setup with gateways Parity NONE 2STOPb Fixed value for setup with gateways m BMS CONTROL ALLOWED Y 1 4 Part 1 Address card EKACPG ESIE07 09 System Outline Example of unit controller settings Service menu Submenu communication COMMUNICATION fourth screen Unit 1 Unit 2 Unit3 sca RS485 MODBUS MODBUS MODBUS MODBUS ADDR Address 01 02 03 x BR Baudrate 19200 19200 19200 19200 PARITY EVEN 1 EVEN 1 EVEN 1 EVEN 1 STOPb STOPb STOPb STOPb COMMUNICATION sixth screen BMS CONTROL ALLOWED Y Y Y Y Parts and The table below gives a description of the different parts of the communication outline description Part Description BMS The Building Management System is the customer s control unit Refer to Building Management System BMS on page i ii Address card EKACPG The EKACPG is a small module that should be installed on the A11P PCB panel in the switch box of the chiller BMS PC The BMS PC is the Modbus master through
80. ion file The configuration files should be available on the DENV extranet Service department Number of Select the file based on the nr of units that will be connected to the gateway connected chillers Nr of units connected to gateway LON configuration file 1 configLON PC Daikin 1unit vO 6 csv 2 configLON PC Daikin 2units vO 6 csv 8 configLON PC Daikin 8units vO 6 csv Modbus address Modbus address is defined in the configuration file The modbus address can be modified as follows Node ID Modbus address Default 01 02 03 08 depending on nr of units Range 01 32 Example configBN PC Daikin 1unit vO 6 csv Client Side Nodes Nodes Node Name Node ID Protocol Port PLC 01 03 Modbus RTU S1 Example configBN PC Daikin 8units vO 6 csv Il Client Side Nodes Il Nodes Node Name Node ID Protocol Port PLC 01 01 Modbus S1 PLC 02 02 Modbus RTU S1 PLC 03 03 Modbus RTU S1 PLC 04 04 Modbus RTU S1 PLC 05 05 Modbus S1 PLC 06 06 Modbus RTU S1 PLC 07 07 Modbus RTU S1 PLC 08408 Modbus RTU S1 2 20 Part 2 LON ESIE07 09 Gateway configuration 3 3 Downloading the configuration file to the gateway Overview hardware software should be available on the DENV extranet Service department software setup Software Remote user interface These pro
81. ional Block nviCapctyLim 001 0 000 Gi Subsystem 1 EKLONPG Virtual Functional Block nviCapetyLim 002 Y 0 n Subsystem 1 EKLONPG Virtual Functional Block nviChlrEnbl 001 100 01 Subsystem 1 EKLONPG Virtual Functional Block nviChIrEnbl 002 Y 000 A bsys Blo oolSetpt_00 0 00 Subsystem 1 EKLONPG Virtual Functional Block nviCoolSetpt 002 v ooo 3 Subsystem 1 EKLONPG Virtual Functional Block nviHeatSetpt 001 Y 000 E Subsystem 1 EKLONPG Virtual Functional Block nviHeatSetpt 002 Y eoo Subsystem 1 EKLONPG Virtual Functional Block nviMode 001 Y AUTO Subsystem 1 EKLONPG Virtual Functional Block nviMode 002 Y AUTO Subsystem 1 EKLONPG Virtual Functional Block nvoActCapcty 001 Y 0 000 Subsystem 1 EKLONPG nvoActCapcty 002 Y 0 000 2 Subsystem 1 EKLONPG nvoActvSetpt 001 v nae i Subsystem 1 EKLONPG nvoActySetpt 002 Y 150 Subsystem 1 EKLONPG nvoAlrmDescr 001 19 A Subsystem 1 EKLONPG nvoAlrmDescr_002 Y 0 Subsystem 1 EKLONPG Virtual Functional Block nvoCapetyLim 001 100 000 EY Subsystem 1 EKLONPG Virtual Functional Block nvoCapctyLim 002 v 100 000 Subsystem 1 EKLONPG Virtual Functional Block nvoChirStat 001 YU RUILHVAC COOL J A Subsystem 1 EKLONPG Virtual Functional Block nvoChlrStat 002 Y OFF HVAC COOL 0 0 0 0 1 0 Subsystem 1 EKLONPG Virtual Functional Block nvoEntChwTmp 001 vu 1419 a
82. lick on present value and select write 2819 Menu Iw 4 e Refres Monitor setti Update About Exit protocol revision 1 max apdu length accepted 1458 timeout 2000 number of APDU_retries 3 8 Binaryinput 1 E Binary output 2 Instance Number 2 Binary output object name StartStopCommand 001 object type Binary output reliability no out of servic active text inactive text Inactive Binary input 3 Binary input 4 Binary input 5 a Add to monitor list Part 3 BACnet 3 39 Communication procedure ESIE07 09 Write 1 to switch on write O to switch off A r Set Property Value Device 11 Binary output 2 Present Value Priority 8 Manual Operator Write property Close 3 40 Part 3 BACnet ESIE07 09 BACnet objects 5 BACnet objects The following table contains an overview of the possible BACnet objects BACnet Object Type BO Binary Output Object Name string Bl Binary Input Nr XXX Chiller nr Al Analog Input Present Value property Additional explanation AV Analog Value Ml Multistate Input 1 StartStopStatus XXX B Inactive 0 Off Active 1 On Readout status of on off LED 2 StartStopCommand XXX BO Inactive 0 Off Activ
83. mart Actuator B SA BACnet Interoperability Building Blocks Supported Annex K V K 1 1 BIBB Data Sharing ReadProperty A DS RP A V K 1 2 BIBB Data Sharing ReadProperty B DS RP B V K 1 3 BIBB Data Sharing ReadPropertyMultiple A DS RPM A except ProtoCes sor FFP V K 1 4 BIBB Data Sharing ReadPropertyMultiple B DS RPM B except ProtoCes sor FFP V K 1 7 BIBB Data Sharing WriteProperty A DS WP A V K 1 8 BIBB Data Sharing WriteProperty B DS WP B V K 1 12 BIBB Data Sharing COV B 05 V K 2 2 BIBB Alarm and Event Notification Internal B AE N I B V K 5 1 BIBB Device Management Dynamic Device Binding A DM DDB A Part 3 BACnet Functional specifications ESIE07 09 K 5 2 BIBB Device Management Dynamic Device Binding B DM DDB B K 5 3 BIBB Device Management Dynamic Device Binding A DM DOB A K 5 4 BIBB Device Management Dynamic Device Binding B DM DOB B Segmentation Capability None Standard Object Types Supported Device Object Analog Input Analog Output Analog Value Binary Input Binary Output Binary Value Multi State Input Output Multi State Output Multi State Value Notification Class Object For all these properties the following apply 1 Does not support BACnet CreateObject 2 Does not support BACnet DeleteObject 3 Does not support any optional properties 4 No additional writeable pro
84. munication The LON objects are based on the Lonmark function profile 8040 For more information regarding the LonWorks network and the Lon profile refer to the internet www lonmark org For details concerning the multiscroll integration refer to chapter 56171456 LON objects To which chapter does this need to refer LON objects on page 2 11 XIF file An external interface file XIF file is NOT provided The procedure for obtaining the XIF file is to upload it from the LON gateway during commissioning Refer to below figure Upload from Device New Device Wizard Specify Device Template Current Template Device Name s EKLONPG External Interface Definition Upload From Device C LoadXIF File Template EKLONPG C Existing Template Name lt Back Cancel Help Background Each time the LON gateway is configured refer to Gateway configuration on page 2 19 and Gateway configuration on page 3 21 the gateway creates an internal a xif file based on the loaded configuration file 2 18 Part 2 LON ESIE07 09 Gateway configuration 3 Gateway configuration 3 1 What Is in This Chapter Overview This chapter contains the following topics Topic See page 3 2 Configuration file 2 20 3 3 Downloading the configuration file to the gateway 2 21 Part 2 LON 2 19 Gateway configuration ESIE07 09 3 2 Configurat
85. n 2 unit 6 192 168 1 24 B CN88241 Daikin 2 unit 6 192 168 1 23 D fdapBBB8 Unconfigured 192 168 1 168 FieldServer Utilities Uninstall When the gateway is discovered Remark after power up the gateway this can take up to 90 sec Remote User Interface RUINET Discovering FieldServers on the local network FieldServers discovered on the network 1 Adap Unconfigured Bridge 192 168 1 24 Recently connected to FieldServers A CN00241 Daikin 2 units v8 6 192 168 1 24 B CN 241 Daikin 2 unit 6 192 168 1 23 D hfidap888 Unconfigured Bridge 192 168 1 168 2 Press the item of the discovered gateway In this case press 1 CN88241 Daikin 2 units v8 6 FieldServer Information Connection Overview iptor Overview y Overview System Er Driver Me Download Configuration to FieldServer Upload Configuration from FieldServer Change IP Addr Change UI Disp Mod Restart FieldServer 3 Press O Connection Overview Connection Protocol Tx Msg Rx Msg Tx Char Rx Char 81 Ni SMT 2098 2099 914858 923088 82 81 MODBUS_RTU 382 382 3056 2554 03 Ni BACnet_IP 1 a 5 a The communication can be consulted SMT the internal gateway functionality Modbus the modbus communication BACnet_IP the BACnet communication 3 30 Part 2 LON ESIE07 09 Gateway configuration Change IP address Action Result 1 Goto START gt Programs gt fieldserver utili ties
86. nly the switch from off to on works The switch from on to off does not work due to Cimetrics BACnet explorer Untitled Cimetrics BACnet Explorer 2 Ani Ele Edit View Help sele els Ba Analog Input 17 BE Analog Value 11 BE Analog Value 12 BE Analog Value 13 ES Analog Value 14 YES Binary Input 1 E Binary Input Binary Input 4 ES Binary Input 5 Binary Input 6 BS Binary Input 7 Binary Input 8 BR Binary Input 9 Binary Input 10 Ei Device Object 9 Multistate Input 18 SS Mukistate Input20 ml To switch unit on push present value and modify to active 1 tle etrics BACnet Explorer Ele Edt View Help Name Bina Output 2 Inactive 0 Property Name Property Value active text eventstate inactive text object identifier abject name objecttype out of service polarity present value reliability relinquish default status flags Active normal 0 Inactive binary output 2 StartStopCommand 001 binary output 4 F normal 0 inactive 0 Nothing commanded at any priority no fault detected 0 inactive 0 FFFAO Oj Bam see e Analog Value 13 ES Analog Value 14 Es Binary Input 1 Binary Input 3 Binary Input 4 Binary Input 5 BE Binary Input 6 Binary Input 7 Binary Input 8 Binary Input 9 E Binary Input 10 Binary Output 2 BE Device
87. nviHeatSetpt In SNVT_temp_p ram Heating Setpoint C range depend Control ing on unit type heating set point inlet outlet depending on thermo stat mode After turn ing the LON gateway On the default value is 0 9 nvoActCapcty xxx nvoActualCapacity Out SNVT lev percent ram Actual Running range 096 or 2596 Read ou Capacity of Unit or 50 or 75 or capacity of 100 unit 10 nvoCapctyLim xxx nvoCapacityLim Out SNVT lev percent ram Current Capacity range 0 or 2596 Read ou Limit Setting of or 50 or 75 or capacity Chiller 100 imitation setting o unit 11 nvoLvgChwTmp xxx nvoLvgChwTemp Out SNVT temp p ram Leaving Chilled C range depend Read ou Water Temp ing on unit type Outlet water temp 12 nvoEntChwTmp xxx nvoEntChwTemp Out SNVT temp p ram Temp C range depend Read ou ing on unit type nlet water temp 13 nvoEntCndWTemp Out SNVT temp p ram Entering Con Not inte denser Water grated Temp 14 nvoLvgCndWTemp Out SNVT temp p ram Leaving Con Not inte denser Water grated Temp 15 nvoAlrmDescr xxx nvoAlarmDescr Out SNVT Count ram Alarm annuncia 0 65535 Read out Remark SNVT tion text active safet type ies str asc Refer to according to chiller overview of profile 8040 is integer val replaced by ues of SNVT Count safety codes 16 nvoChlrStat xxx nvoChillerstat Out SNVT chlr stat ram Chiller Status Structure 2 40 Part 2 ESIE07 09 LON objects
88. on Value Blo 00 0 000 Subsystem 1 EKLONPG Virtual Functional nviCapctyLim 002 Y 0000 Subsystem 1 EKLONPG Virtual Functional nviChirEnbl 001 100 01 Subsystem 1 EKLONPG Virtual Functional nviChirEnbi_002 Y 0 00 Subsystem 1 EKLONPG Virtual Functional nviCoolSetpt 001 1200 Subsystem 1 EKLONPG nviCoolSetpt 002 Y 00 Subsystem 1 EKLONPG nviHeatSetpt 001 Y 0 00 Subsystem 1 EKLONPG nviHeatSetpt 002 Y Subsystem 1 EKLONPG Virtual Functional nviMode 001 Y AUTO Subsystem 1 EKLONPG Virtual Functional nviMode 002 V AUTO Subsystem 1 EKLONPG Virtual Functional nvoActCapety 001 Y 50000 Subsystem 1 EKLONPG Virtual Functional nvoActCapety 002 Y 000 Subsystem 1 EKLONPG Virtual Functional nvoActvSetpt 001 740 Subsystem 1 EKLONPG Virtual Functional Block nvoActySetpt 002 Y 15 Subsystem 1 EKLONPG Virtual Functional Block nvoAlrmDescr 001 v jo Subsystem 1 EKLONPG Virtual Functional Block nvoAlrmDescr 002 Y Subsystem 1 EKLONPG Virtual Functional Block nvoCapctyLim 001 YU 50000 Subsystem 1 EKLONPG Virtual Functional Block nvoCapctyLim 002 100 000 Subsystem 1 EKLONPG Virtual Functional Block nvoChirStat 001 Y RUILHVAC COOL 0 1 0 1 1 0 Subsystem 1 EKLONPG Virtual Functional Block nvoChirStat 002 Y OFF HVAC C00L 0 0
89. perties exist 5 No proprietary properties exist 6 No range restrictions exist 7 Client Driver can only read Present Value property Data Link Layer Options BACnet IP Annex J ANSI ATA 878 1 2 5 Mb ARCNET Clause 8 V Point to point EIA 232 Clause 10 baudrate up to 57 6 kbps ISO 8802 3 Ethernet Clause 7 MS TP master Clause 9 baudrate up to 57 6 kbps MS TP slave Clause 9 baudrate up to 57 6 kbps 3 18 Part 3 BACnet ESIE07 09 Functional specifications Device Address Binding Not supported Networking Options X Router Clause 6 List all routing configurations e g ARCNET Ethernet Ethernet MS TP etc x Annex H BACnet Tunneling Router over IP V BACnet IP Broadcast Management Device BBMD V Registrations by Foreign Devices Part 3 BACnet 3 19 Functional specifications ESIE07 09 3 20 Part 3 BACnet ESIE07 09 Gateway configuration 3 Gateway configuration 3 1 What Is in This Chapter Overview This chapter contains the following topics Topic See page 3 2 Configuration file 3 22 3 3 Downloading the configuration file to the gateway 3 24 Part 2 LON 3 21 Gateway configuration ESIE07 09 3 2 Configuration file The configuration files should be available on the DENV extranet Service department Number of Select the file based on the number of units tha
90. r 002 vu 0 Subsystem 1 EKLONPG Virtual Functional Block nvoCapctyLim 001 Y 100 000 Subsystem 1 EKLONPG Virtual Functional Block nvoCapctyLim 002 Y 100000 Subsystem 1 EKLONPG Virtual Functional Block nvoChirStat 001 CHLR COOL 0 1 0 0 1 0 Subsystem 1 EKLONPG Virtual Functional Block nvoChirStat 002 CHLR COOL 0 0 0 0 1 0 Subsystem 1 EKLONPG Virtual Functional Block nvoEntChwTmp 001 Y 57132 Subsystem 1 EKLONPG Virtual Functional Block nvoEntChwTmp 002 so 96 Subsystem 1 EKLONPG Virtual Functional Block nvoLvgChwTmp 001 YU 46 94 Subsystem 1 EKLONPG Virtual Functional Block nvoLvgChwTmp 002 va 59 Subsystem 1 EKLONPG Virtual Functional Block nvoOnOff 001 va 0 00 Subsystem 1 EKLONPG Virtual Functional Block nvoOnOff 002 Y 000 Ready Remark All the temperature values are in Fahrenheit Each variable be modified to Celsius by selecting the variable and right click and select Change Format Then change format from SNVT temp p US to SNVT temp p IS View Insert Format Table Tools Window Help E aker Bro e ed D File Edit Browse Help
91. ration from FieldServer Change IP Addr Change UI Display Mode Restart FieldServer 3 Press D to enter the download configuration menu Downloading Configuration File L Local lt PC gt Filename config R Remote lt FieldServer Filename config D Download 4 Press to enter the configuration file name Enter Parameter L Local lt PC gt Filename conf R Remote lt FieldServer Filename D Download 2 24 Part 2 LON ESIE07 09 Gateway configuration 5 Type the configuration file name including drive directory Enter Paraneter L Local PC gt Filename config csu R Remote lt FieldServer gt Filename config csu D Download Example dAconfig configbn pc daikin 2units vO 6 csv d conf ig conf ighn_pc_daikin_2units_v _6 csu 6 Press enter If the file exist it is shown on screen Remote User Interface Downloading Configuration File L Locad conf ig conf ighn_pe_daikin_2units_v _6 cs R Remote FieldServer gt Filename config csu D Download 7 Press D Download starts Remote User Interface Downloading Download busy 9 to quit At the end following message is displayed Remote User Interface User Message Download Complete 8 Press any key to continue Remote User Interface Downloading Configuration File L Locad NconfigNconfigbn pc daikin 2units v8 6 csu
92. ridge Title System Node Id Network number CN00241 Daikin 8 units v0 8 1 15 BACnet device The BACnet address is defined in the configuration file The BACnet address can be modified as address BACnet follows gateway only Node ID BACnet address Default 11 12 13 18 depending on nr of units Range 1 16777215 Example configBN PC Daikin 1unit vO 6 csv Server Side Nodes Nodes Node Name Node ID Protocol Virtual 11 1 Bacnet Example configBN PC Daikin 8units vO 6 csv Server Side Nodes Il Nodes Node Name Node ID Protocol Virtual BCU 11 11 Bacnet Virtual BCU 12 12 Bacnet Virtual BCU 13 13 Bacnet Virtual BCU 14 14 Bacnet Virtual BCU 15 15 Bacnet Virtual BCU 16 16 Bacnet Virtual BCU 17 17 Bacnet Virtual BCU 18 18 Bacnet 1 1 Part 2 LON 3 23 Gateway configuration ESIE07 09 3 3 Downloading the configuration file to the gateway Overview The software should be available on the DENV extranet Service department hardware software setup Software Remote user interface These programs are the result after installing Install zip ruinet exe Install zip can be downloaded from the internet Ping utility http www protocessor com tech support utilities html ruiping exe Hardware setup 1 via hub Configuration PC
93. rk Tools Connection Troubleshooting Tips 1 Turn off Windows Firewall if connecting from Windows Bridge ID CJ Configuration File Folder Ca Debug and Log File Folder Recently connected to FieldServers A 241 Daikin 2 units v8 6 192 168 1 24 B CN 241 Daikin 2 units v8 6 192 168 1 23 D 8 Bridge 192 168 1 168 r Utilities Uninstall When the gateway is discovered Remark after power up the gateway this can take up to 90 sec mote User Interface RUINET Discovering FieldServers on the local network FieldServers discovered on the network 1 Adap 08 Unconfigured Bridge 192 168 1 24 Recently connected to FieldServe A CN89241 Daikin 2 units v8 6 192 168 1 24 B CN002 aikin 2 units v8 6 192 168 1 23 Adapi nconfigured Bridge 192 168 1 168 2 Press the item of the discovered gateway In Leer 0 this case press 1 Hain Henu Adap 8B Unconf igured Bridge B FieldServer Information Connection view Node Overy Map Descriptor Overview Data Array Overview Download Configuration to FieldServer Upload Configuration from FieldServer Change IP Addre Change UI Display Mode Restart FieldServer 3 Press to enter the download configuration menu Downloading Configuration File L Local lt PC gt Filenane config csu R Remote lt FieldServer gt Filename config csu D Download
94. rsionz Software version high Software version low 256 FF R Software version low 258 101 R SoftCode Main PCB xxxx value gt SPxxxxy zzz e g SP1532A 036 259 102 R SoftCode Extension 1 PCB xxxx value gt SPxxxxy zzz e g SP1559A 009 260 103 R SoftCode Remocon xxxx value gt SPxxxxy zzz e g SP1534A 028 261 104 R SoftCode Main PCB character y value 0 1 A 2 B gt SPxxxxy 222 262 105 R SoftCode Extension PCB character y value 0 1 A 2 B gt SPxxxxy 222 263 106 R SoftCode Remocon character y value 0 1 A 2 B gt SPxxxxy 222 264 107 R SoftVersion Main PCB zzz value gt SPxxxxy zzz 265 108 R SoftVersion Extension PCB zzz value gt SPxxxxy zzz 266 109 R SoftVersion Remocon PCB Zzz value 2 SPxxxxy zzz 267 10A R Unittype 1 0 AW 268 10B R Unittype 2 02 1 RH 269 10C R Unittype 3 kW 0 999 270 10D R Number of circuits 1 2 271 10E R Number of evaporators 1 272 10F R Number of coils 1 2 274 111 R Refrigerant 0 R410A 275 112 R Compressor type 0 SCL 276 113 R EEV Type 0 P 277 114 R VA option OP57 0 No 1 Yes 278 115 R Fan option OPIF 0 No 1 Yes 279 116 R Dual pump option OPTP or OPTC 0 No 1 Yes 280 117 R Evaporator option OP10 0 No 1 Yes 281 118 of slaves only for DICN Master 282 119 R Master or slave only for DICN 0 Master 1 Slave1 2 Slave2
95. ser Interface CN88241 Daikin 2 units v8 6 B FieldServer Information Connection Overview Node Overvieu Map Descriptor Overview Data firray Overview System E Driver M Download Configuration to FieldServer Upload Configuration from FieldServer Change IP Change UI Restart Fi 3 Press 1 Remote User Interface Edit IP Address Settings 192 168 1 24 255 255 255 0 192 168 1 1 DISABLED DISABLED IP Address Netna Gateway 1 DHCP Client State DHCP Server State 4 Press 1 and enter new IP address Example 192 168 1 23 Remote User Interface gt Enter Parameter IP Address Netna Gateway 1 DHCP Client State DHCP Server State 192 168 1 24 255 255 255 0 192 168 1 1 DISABLED DISABLED Changes only become active once th eldServer has been restarted any key to continue 192 168 1 23 5 Close the remote user interface push End now if requested 2 28 Part 2 LON ESIE07 09 Gateway configuration 6 Switch to power off and on of the gateway 7 Restart Remote User Interface RUINET Discovering FieldServers on the local network FieldServers discovered on the netuork 1 CN88241 Daikin 2 units v8 6 192 168 1 23 Recently connected to FieldServers A Adap B Unconfigured Bridge 192 168 1 24 B CN00241 Daikin 2 units v8 6 192 168 1 23 D Adap Unconfigured Bridge 192 168 1 168 Part 2 LON
96. t 13 State 11 Property Name Property Value event state number of states objectidentifier object name objecttype out of service present value priority array reliability relinquish default state text status flags normal 0 5 mmultistate output 19 ModeCoolHeatCommand_001 mulistate output 14 F 11 at Manual Operator 8 nothing at inferior priority no fault detected 0 0 State State 1 State 2 State 3 State 4 3 38 Part BACnet ESIE07 09 Communication procedure 4 3 CAS BACnet explorer Example 1 Discovered devices 11 amp 12 on network 5 double BACnet IP Network x CAS BACnet Explorer Ant Menu Refresh Report Monitor setti Update E BACnet IP E Network 5 RE Device 12 Menu 2 amp 9 a Refresh Report setti Update About Exit protocol revision 1 max apdu length accepted 1458 apdu timeout 2000 number of APDU 3 Binan Binary output object name StartStopCommand 001 object type Binary output present value 0 event state normal reliability no fault detected out of service False aclive test Active inactive text Inactive Binaryinput 3 Binaryinput 4 E Binary input 5 To switch unit on right c
97. t an unex A pected result or has to restart part of a procedure Warning A warning is used when there is danger of personal injury Reference A reference guides the reader to other places in this binder or in this manual where he she will find additional information on a specific topic Introduction ESIE07 09 1 2 Building Management System BMS Introduction Communication Daikin BMS option As buildings plants or other sites become too large to control manually the need for automatic distance control becomes more important Building Management Systems BMS were developed to have a centralized overview of complete sites In general control of lights elevators water supply air conditioning power consumption etc can be controlled by one control system To implement correct communication between the connected subsystems and the control system the same communication protocol must be used The Daikin BMS option makes it possible to connect the Daikin chillers to a larger control system The tools necessary for this communication are the Gateway and the address cards After installing address cards and Gateway the BMS must be programmed to be able to control and monitor the chillers through the Gateway To enable this configuration individual parameters and relative addresses of the chillers are described in this manual ESIE07 09 Part 1 Address car
98. t will be connected to the gateway connected chillers Nr of units connected to gateway LON configuration file 1 configLON PC Daikin 1unit vO 6 csv 2 configLON PC Daikin 2units vO 6 csv 8 configLON PC Daikin 8units vO 6 csv Modbus address Modbus address is defined in the configuration file The Modbus address can be modified as follows Node ID Modbus address Default 01 02 03 08 depending on nr of units Range 01 32 Example configBN PC Daikin 1unit vO 6 csv Client Side Nodes Nodes Node Name Node ID Protocol Port PLC 01 03 Modbus RTU S1 Example configBN PC Daikin 8units vO 6 csv Il Client Side Nodes Il Nodes Node Name Node ID Protocol Port PLC 01 01 Modbus S1 PLC 02 02 Modbus RTU S1 PLC 03 03 Modbus RTU S1 PLC 04 04 Modbus RTU S1 PLC 05 05 Modbus S1 PLC 06 06 Modbus RTU S1 PLC 07 07 Modbus RTU S1 PLC 08 08 Modbus RTU S1 2 BACnet MAC The BACnet address is defined in the configuration file The BACnet address can be modified as address and follows network address BACnet gateway only 3 22 Part 2 LON ESIE07 09 Gateway configuration System Node id BACnet MAC address Default 11 Range 1 16777215 Network number BACnet network Default 5 address Range 1 255 Example configBN PC Daikin 1unit vO 8 csv Il Common Information Il B
99. tTemp XXX Al Degree Readout inlet temp 17 OutletTemp XXX Al Degree Readout outlet temp 18 MalfunctionCode XXX MI Refer to overview of integer values Readout active safeties of safety codes Refer to overview of integer values of safety codes 19 ModeCoolHeatCommand XXX MO 0 COOLING Control cooling heating mode 1 HEATING 20 ModeCoolHeatStatus XXX MI 0 COOLING Readout cooling heating mode 1 HEATING 21 ModelnletOutletCommand XXX MO 0 MANUAL CONTROL Control manual inlet outlet mode 1 INL WATER 2 OUTL WATER 22 ModelnletOutletStatus XXX MI 0 MANUAL CONTROL Readout manual inlet outlet mode 1 INL WATER 2 OUTL WATER 23 CapacityUnit XXX MI 96 Readout capacity of unit 3 10 Part 3 BACnet ESIE07 09 Design guide BACnet Object Name string Nr XXX Chiller nr Object Type BO Binary Output Input Al Analog Input AV Analog Value Ml Multistate Input Present Value property Additional explanation 24 CapacityLimitMode XXX MO 0 NOT ACTIVE 1 CHANG DIG INP 2 LIMIT 25 or 50 or 75 or SET TING refer to next variable 25 CapacityLimitModeSel_XXX MO 0 LIMIT 25 1 LIMIT 50 2 LIMIT 75 3 LIMIT SETTING Readout and control capacity limitation setting of unit 26 LowNoiseMode_XXX MO 0 NOT ACTIVE 1 CHANG DIG INP 2 DAILY SCHEDULE 3 ACTIVE Readout and control Low noise mode setting 27 C11Status XXX MI 28 C12Stat
100. t_temp_p nv nviMode snvt_hvac_mode 8 ny nviHeatSetpt snvt temp p nvoEntCHW Temp snvt temp nvoEntCndW Temp snvt temp nvoLvgCndW Temp snvt temp p nvoAlarmDescr snvt_str_asc nvoChillerStat chlr status LON based on profile Chiller 8040 but extended with xxx Reference name Description according to Chiller according to Name xxx Chiller nr profile 8040 In SNVT Type Chiller profile Valid range Additional NV Out SNVT Index Class 8040 explanation 1 nviChlrEnbl xxx nviChillerEnable In SNVT switch ram Request Start Oor1 0 Reguest Control on off Stop Chiller Chiller Off state by push 1 Request ing on off but Chiller On ton After turning the LON gateway On the default value is 0 2 nviCoolSetpt xxx nviCoolSetpt In SNVT temp p ram Desired Temp of C range depend Control cool Lvg Chilled Wtr ing on unit type ing setpoint inlet outlet depending on thermostat mode After turning the LON gate way On the default value is Part 2 10 T Design guide ESIE07 09 LON based on profile Chiller 8040 but extended with xxx 3 xxx nvoOnOff Out SNVT switch ram Chiller On Off Oor1 0 Chiller Off Read out sta run state 1 Chiller On tus of on off LED 4 nvoActvSetpt xxx nvoA
101. tatus O O function possible Part 3 BACnet Design guide ESIE07 09 1 8 Wiring diagram A1P Printed circuit board F1 Fuse 1A TR1 Power supply transformer 230 V 21 8 V X1M Terminal strip POWER 5485 eee ETerererererererere pene EE 35 5 Bl 11 11 E 11 11 1 1 1 1 230 VAC Ethernet 10 100 Base T To EKACPG BACnet IP communication RS 485 MODBUS PC configuration For external wiring Connect cables according to specifications in the table below Connection to Configuration PC In case of communication via hub use a ethernet 10 100 Base T straight cable field supply BACnet IP communication In case of direct communication use a ethernet 10 100 Base T cross cable field supply RS485 Modbus connection Use a 0 75 1 25 mm 2 wire cable of maximum 500 m meas ured from gateway to last unit in line polarity Power supply Use a 1 5 mm 2 wire earth cable and perform grounding 3 14 Part 3 BACnet ESIE07 09 Functional specifications 2 Functional specifications 2 1 What Is in This Chapter Overview This chapter contains the following topics Topic See page 2 2 Summary 3 16 2 3 BACnet Protocol Implementation Conformance Statement PICS 3 17 Part 3 BACnet 3 15 Functional specifications ESIE07 09 2 2
102. ter Temp ing on unit type let water temp 2 nvoEntChwTmp xxx nvoEntChwTemp Out SNVT temp p ram Entering Chilled C range depend Read out Inlet Water Temp ing on unit type water temp 3 nvoEntCndWTemp Out SNVT temp p ram Entering Con Not integrated denser Water Temp 4 E nvoLvgCndWTemp Out SNVT_temp_p ram Leaving Con Not integrated denser Water Temperature 15 nvoAlrmDescr_xxx nvoAlarmDescr Out SNVT_Count ram Alarm annuncia 0 65535 Read out Remark SNVT type tion text active safeties SNVT str asc Refer to over according to chiller view of integer profile 8040 is values of replaced by safety codes SNVT Count 16 nvoChlrStat xxx nvoChillerstat Out SNVT chlr stat ram Chiller Status Structure 2 12 Part 2 LON ESIE07 09 Design guide LON based on profile Chiller 8040 but extended with xxx chlr run mode chlr off 0 Read out sta chiller t chlr run 2 tus of on off LED chlr op mode HVAC HEAT Read out cool hvac t 1 Heating ing heating HVAC COOL mode 3 Cooling chlr state Structure In alarm Read out 0 alarm alarm active or 1 In alarm not Run_enable Read out if a 0 Chiller not compressor allowed to has the CAN start STARTUP 1 Chiller can status or not start Local 0 Val Not integrated ues can be Always value 0 changed remotely 1 Values cannot be changed remotely Limited Read out if a 0 limita compressor is tion limited 1 Limitation LIMIT or active not
103. tility Utilities Uninstall The display should show Remote User Interface RUINET Discovering FieldServers on the local network FieldServers discovered on the network Connection Troubleshooting Tips 1 gt Turn off Windows XP Firewall if connecting from Windows XP Recently connected to FieldServers A 0 241 Daikin 2 unit 6 B CN88241 Daikin 2 unit 6 D Adap 00 Unconfigured Bridge 192 168 1 24 192 168 1 23 192 168 1 168 When the gateway is discovered Remark after power up the gateway this can take up to 90 sec Remote User Interface E RUINET Discovering FieldServers on the local network FieldServers discovered on the network 1 Adap 0 Unconfigured Bridge 192 168 1 24 Recently connected to FieldServers A CN G241 Daikin 2 units v8 6 192 168 1 24 B CN88241 Daikin 2 unit 6 192 168 1 23 D Adap 8 Unconfigured Bridge 192 168 1 168 2 Press the item of the discovered gateway In this case press 1 Remote User Interface CN88241 Daikin 2 units v8 6 FieldServer Information iptor Overview y Overview System Error Driver Me Download Configuration to FieldServer Upload Configuration from FieldServer Change IP Addres Change UI Display Mode Restart FieldServer 3 Press Remote User Interface Connection Overview Connection Protocol Tx Msg Rx Msg Tx Char Rx Char SMT 2098 2099 914858 923088 MODBUS RTU 382 382 3056 2554 1 5 a B
104. tion Connection Overview Node Overview Map Descriptor Overview Data firray Overview System Errors Driver Messages Download Configuration to FieldServer Upload Configuration from FieldServer Change IP fiddress Change UI Display Mode Restart FieldServer 10 Press to restart gateway ing for FieldServer to restart FieldServer busy restarting If restart is successful the main menu with the down loaded configuration file is shown emote User Interface CN88241 Daikin 2 units v8 6 B FieldServer Infornation Connection Overview Node Overvi Map Descriptor Overview Data firray Overview System Errors Driver Messages Download Configuration to FieldServer Upload Configuration from FieldServer Change IP fiddress Change UI Display Mode Restart FieldServer Part 2 LON 3 29 Gateway configuration ESIE07 09 Monitor communication Action Result 1 Goto START gt Programs gt fieldserver utili The display should show ties gt Remote User Interface Remote User Interface 1 RUINET Discovering FieldServers on the local network Documentation FieldServers discovered on the network Tools connection Troubleshooting Tips 1 gt Turn off Windows XP Firewall if connecting from Windows XP Bridge ID Configuration File Folder Debug and Log File Folder Ping Utility Recently connected to FieldServers A 00241 Daiki
105. tion not V or mA x1 10 X73A pre defined default 106 69 R Analogue output Fanspeed signal circuit 2 V x1 10 X74A 4 5 only for OPIF 131 82 R Analogue input Heating suction temperature sensor C x1 10 X34A 1 circuit 2 only for EWYQ 132 83 R Analogue input Heating suction temperature sensor C x1 10 X35A 2 circuit 2 only for EWYG 133 84 R Analogue input Suction temperature sensor circuit 2 C x1 10 X36A 134 85 R Analogue input Refrigerant piping temperature C x1 10 X37A sensor circuit 2 135 86 R Analogue input Coil temperature sensor 1 circuit 2 C x1 10 X38A only for EWYQ 136 87 R Analogue input Coil temperature sensor 2 circuit 2 C x1 10 X39A only for EWYQ 137 88 R Analogue input Discharge temperature sensor 1 x1 10 X40A circuit 2 138 89 R Analogue input Discharge temperature sensor 2 x1 10 X41A circuit 2 139 8A R Analogue input High pressure sensor c2 bar x1 10 X42A 140 8B R Analogue input Low pressure sensor c2 bar x1 10 X43A 178 B1 R Error Code of highest priority active error 0 no safety 1 refer to Overview integer values of safety codes difference between softcopy input files installation manual and print out on page 17 179 B2 R Error Code of highest priority active error 0 unit 1 circuit 1 2 circuit 2 5 network 6 warning 180 B3 R Error Code of selected active error refer to integer 0 no safety 1 refer to Overview integer v
106. tor nothing at inferior priority Es Analog Value 13 reiabiity nofault detected 0 Es Analog Value 14 relinquish default 0 ES Binary Input 1 status flags T Binary Input 3 units degrees Celsius 62 125 Binary Input 4 BR Binary Input 5 155 Binary Input 6 BS Binary Input 7 Binary Input 8 Example 6 ModeCoolHeatStatus_001 MI Monitor Cooling Heating status present value is 0 means cooling Ele Edit View He xe e Ej Binary Inputs Name 059050540 BE Binary Input 6 459 Binary Input 7 Value State 0 0 Be Binary Input 8 Property Value Ba Binary Input 9 2 normal 0 5 Ed 3 Binary Input 10 pissy Okie multistate input 20 Ex Binary ModeCoolHeatStatus 001 15 Device Object multistate input 13 F BE Multistate Input 18 E 9 59 no fault detected 0 Ee Multistate Input 22 State O State 1 State 2 State 3 State 47 BE Multistate Input 23 F F F F BE Multistate Input 27 0 Multistate Input 28 BE Multistate Input 29 0 Multistate Input 30 BE Multistate Input 31 152 Multistate Input 32 8 8 8 Example 7 ModeCoolHeatCommand 001 To modify cooling heating mode push present value enter new setpoint example 1 means heating and push write er 01 BACnet Expl View Help el 2 Es Binary Output 2 Sl Multistate Output 18
107. ult detected 0 statusflags FFFFIO units degrees Celsius 62 Example 5 CoollnletSetpoint 001 AV Monitor cooling inlet setpoint present value is 12 0 C Untitled Cimetrics BACnet Explorer Ele Edit Help see el 7 E H BACnet Global Internetwork Local Network Ej Networks Analog Value 11 Value 12 degrees Celsius Device 11 Property Name Property Value 159 Analog Input 15 event state normal 0 Z object identifier analog value 11 EU pns lobject name CoalinietSetpoint 001 Anelog input 17 objecttype analog value 2 e outof service F Analog Value 12 present value 12 Ed priority array jothing commanded at any priority aue 3 nodauit detected 0 Es Analog Value 14 relinquish default 0 YES Binary Input 1 status laos Be Binary Input units degrees elsius 62 125 Binary Input 4 BS Binary Input 5 155 Binary Input 6 BS Binary Input 7 BE Binary Input 8 ES est To modify setpoint push present value enter new setpoint example 12 1 and push write Set new Property value Property type present value m Property Value 3 Priority Result Ele Edit view Help see el Ea BACnet Global Internetwork Local Network Epa Network
108. us XXX MI 29 C21Status XXX MI 30 C22Status XXX MI 0 CAN STARTUP 1 NO PRIORITY 2 NO FLOW 3 PUMPLEAD TIM 4 TIMER BUSY 5 FREE COOLING 6 AREC INLET 7 UNIT OFF 8 STANDBY DICN 9 LIMIT 102 MIN RUN TIM 112 SETBACK 12 COMP PR 13 DEFROST BUSY 14 FREEZEUP PR 15 FREEZEUP DIS 16 SAFETY ACT Readout compressor status 31 FanC1Status XXX MI 32 FanC2Status XXX MI 0 Off 12 LLLL 2 LLL 3 LL 4 Low 5 Medium 6 High For OPIF 96 Readout fan status Part 3 BACnet Design guide ESIE07 09 Overview integer difference between softcopy input files installation manual and print out values of safety codes 0 UNIT SAFETY No safety 62 CIRCUIT 1 SAFETY 1J5 SUCTSENSOR ERRHi 1 UNIT SAFETY OF0 EMERGENCY STOP 63 CIRCUIT 1 SAFETY 1J5 SUCTSENSOR ERRHe 2 UNIT SAFETY 0AE FLOW HAS STOPPED 64 UNIT WARNING 1J6 COIL1 SENSOR ERR 4 UNIT SAFETY 0C9 INL SENSOR ERR 65 UNIT WARNING 1J COIL2 SENSOR ERR 5 UNIT SAFETY 0CA 0UT SENSOR ERR 66 CIRCUIT 1 SAFETY 1J5 REFR SENSOR ERR 6 UNIT SAFETY 9 T SENSOR ERR 67 UNIT SAFETY 0A4 FREEZE UP 9 UNIT SAFETY 0U4 EXT COMM ERR 70 CIRCUIT 2 SAFETY 1U1 REU PHASE PROT 10 UNIT SAFETY 0U4 MAINPCB COMM ERR 71 CIRCUIT 2 SAFETY 1E3 HIGH PRESSURE SW
109. us_XXX MI 0 COOLING Readout cooling heating mode 1 HEATING 21 ModelnletOutletCommand XXX MO 0 MANUAL CONTROL Control manual inlet outlet mode 1 INL WATER 2 OUTL WATER Part 3 BACnet 3 41 BACnet objects ESIE07 09 BACnet Object Type BO Binary Output Nr 2 E tring AA Present_Value property Additional explanation AV Analog Value Ml Multistate Input 22 ModelnletOutletStatus XXX MI 0 MANUAL CONTROL Readout manual inlet outlet mode 12 INL WATER 2 OUTL WATER 23 CapacityUnit XXX MI 96 Readout capacity of unit 24 CapacityLimitMode XXX MO 0 NOT ACTIVE Readout and control capacity limitation setting 1 CHANG DIG INP of unit 2 LIMIT 25 or 50 or 75 or SET TING refer to next variable 25 CapacityLimitModeSel_ XXX MO O LIMIT 25 1 LIMIT 50 2 LIMIT 75 3 LIMIT SETTING 26 LowNoiseMode_XXX MO 0 NOT ACTIVE Readout and control Low noise mode setting 1 CHANG DIG INP 2 DAILY SCHEDULE 3 ACTIVE 27 C11Status XXX MI 0 CAN STARTUP Readout compressor status 12 NO PRIORITY 28 C12Status XXX MI 2 NO FLOW 29 C21Status XXX MI a Epa 4 TIMER BUSY 30 C22Status_XXX MI 5 FREE COOLING 6 AREC INLET 7 UNIT OFF 8 STANDBY DICN 9 LIMIT 10 MIN RUN TIM 11 HP SETBACK 12 COMP PR 13 DEFROST BUSY 14 FREEZEUP PR 15 FREEZEUP DIS 16 SAFETY ACT 31 FanC1Status XXX MI 0 Off
110. wn in the figure below detail B m For RS485 connections on the last unit in line strip the cables and fix them to the terminal on the address card as shown in the figure below detail C 1 8 Part 1 Address card EKACPG ESIE07 09 System Outline General description of Modbus The address card communicates using the Modbus protocol Different parts of the communication network m The communication network consists of two major players m The Building Management System BMS or supervisory system B Thechiller or multiple chillers m The BMS or other supervisory system is able to communicate with the chillers through the address card The management of the communication occurs in accordance with a master slave structure in polling where the supervising BMS is the master and the address cards are the slaves m Thechiller unit can be identified by the supervisor through the assignment of an address within the Modbus network The address of the chiller unit can be programmed during the configuration of the BMS settings m The variables database of every chiller with installed address card is the point of reference for the supplier of the supervisory system in Modbus to assign a suitable meaning to the variables The variables can be read and or written by the supervisory system Whether the variables are read only or read write depends on the connected chiller and or the application program being used If the

ESIE07-09 BMS multi scroll DRAFT tcm135

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