LONWORKS インタフェースカード LONWORKS Interface Card "OPC
Contents
1. 1 LONWORKS 2 XIF 3 LED 4 5 LONWORKS 6 LONWORKS2. LONWORKS LONWORKS OPC LNW RS 485
3. RS 485 A D L PTC NTC HARA 27 7 8 M16 M19 M16 M19 H PID1 ALT En n PID2 Fin PID3 PLE a H Lar PID 1 PID 2 USB
4. 1 5 8 8 1 LONWORKS 2 ON COMM LED VSD UCPT_SendDelayAfterDevRdy EI UCPT_SendDelayAfterDevRdy IS DUYT OHMIC 7 7 3 3 CP 3 3 LONWORKS 5
5. nv9 nviFreqacmd gt 2 LONWORKS UCPT_LinkFunc 3 y98 3 CP SCPT_maxRcvTime 2 nv2 nviDrvSpeedScale SNVT_lev_percent 163 840 163 830 0 005 163 835 SCPT_defScale CP SCPT_maxRcvTime 20 3 nv8 nviOpecmd 1 X9 FWD REV S06
6. 35 10 10 1 OPC LNW 10 50 C 5 95 RH 98 x 40mm ROM 10 2 bps 1C 120 FT 10 Talk NV A NV A CP CP Variable Speed Motor Drive functional Profile Version1 1 36 English Version ENGLISH Preface Thank you for purchasing our LONWORKS Interface Card OPC LNW Installing this card on your inverter makes it possible from other LONWORKS devices in the network to issue run and speed commands and monitor the inverter running status using LONWORKS parameters It also enables modification and moni
7. 7 11 SCPT_maxRcvTime NV Index nv1 iDrvSpeedStpt nv iDrvSpeedScale nv8 nviOpeCmd nv iFreqCmd nv13 nviAOCmd nv14 nv15 nviDOcmd_Y1 Y2 nv16 nviFWDcmd nv17 lt 21 nviXemd_1 5 2 SCPT_maxSendT ime NV 7 12 0 0s 0 0s 6553 4s 0 1s 0 0s 7 12 SCPT_maxSendTime NV mo wore id 32 3 SCPT_minSendT ime NV 7 13 HAN 0 0s 0 0s 6553 4s 0 1s 0 0s 7 13 SCPT_minSendTime NV NV NV nvoReadParamVal nvoAccessErrCode 4 SCPT_minDeltaLevel
8. F E Ce FOR 7 9 E98 98 2 nv33 nvoReadParamVal RS 485 MHT271 5 5 2 nv33 nvoReadParamVal 0
9. S12 Y1 ON OFF 1 ON E20 27 Do Y2 ON OFF 1 ON E21 27 Do FWD S06 XF E98 TH X1 S06 X1 E01 X2 S06 X2 E02 nviXcmd_3 nviXcmd_4 X3 S06 X3 E03 X4 S06 X4 E04 nviAlarmReset SNVT_switch nvo _ Kruse nvo vo nv23 nv24 nv25 nv26 nv27 en oe N nvoDCbusCapacity SNVT_lev_percent nvoReadParamVal SNVT_count nvoAccessEr
10. nv11 nv12 LON 12 10V 100 OV 0 BAY C1 20mA 100 4mA 0m 0 V2 M54 10V 100 0V 0 H Y1 E20 26 Y2 E21 Y3 E22 26 Y5A C E24 M15 26 X1 E01 25 DI X1 ON OFF X2 E02 25 DI X2 ON OFF nvoXstatus_3 _switch X3 E03 25 DI X3 ON OFF nvoXstatus_4 _swit X4 E04 25 DI X4 ON OFF
11. NV CP 6 1 LONWORKS nviXcmd15 san seem na LONWORKS 3 UCPT_LinkFunc bo fo lo E01 E09 X1 lt X9 LE 24 1024 LE ON LOC 35 1035 LOC 6 TOTER OFF FD NV 6 1 6 2 6 2 NV WV EE pe FM2 FMA FMP ai A0 EEE Invidoona_y v2 _Y1
12. NV XIF XIF NV CP Reset NV SCPT_maxSendTime gt SCPT_minSendTime SCPT_minDeltaLevel UCPT_SendDelayAfterDevRdy
13. 00 00 00 FF FF FF 16 CP nv12 nviWriteParamVal 5 nv35 37 nvoAIVal_1 nvoAlVal_3 12 C1 V2 7 7 7 7 nvoAlVal 1 3 nvoAIVal_1 mr fo 100 0 10V nvoAlVal_2 C1 0 100 4 20mA 0 20mA nvoAlVal_3 ver o 100 0 10V DI 127 C1 V2 SNVT_lev_percent 0 000 100 000 0 005 CP SCPT_maxSendTime SCPT_minSendTime SCPT_minDeltaLevel SCPT_maxSendTime SCPT_minSendTime
14. F14 UCPT_momentaryPwr LossMode H04 C HO5 CH CPT_SendDelay 0 AfterDevRdy Reset NV 0 0s NV CPT_AutoRestart 0 1s 1 1s 1 PID J PID 2 0 5s O 5s 0 5s
15. CP LonMaker ReSync CPs F CP CP OK NV NV OFFLINE ONLINE NV 7 4 VSD 1 nv1 nviDrvSpeedStpt LONWORKS SNVT_switch 7 6 nviDrvSpeedStpt 1 fosio 0 5 m omamcen state 1 value 0 nviDrvSpeedStpt value nviDrvSpeedScale SCPT_nomFreq HzZ nviDrvSpeedStpt value x nviDrvSpeedScale x SCPT_nomFreq Hz 3 1 state OxFF
16. 4 1 Fg EA 1 LO 2 2 2 CN1 4 2 4 1 4 1 CN1 EA 4 1 4 2
17. LONWORKS OO bit bit S07 Y1 E20 27 Y2 E21 27 22 9 nv16 nviFWDcmd 10 11 FWD ON OFF FWD E98 FWD E98 SNVT_switch value 0 0 lt 100 0 state 1 0 1 value 0
18. LONWORKS ON OFF Fo RS 485 MHT271 5 5 1 2 3 26 9 nv50 nvoAlarm 7 8 UNVT_alarm_cod 1byte 10 0 255 CP SCPT_minSendTime SCPT_minSendTime 7 8 1 2 3 4 BA PG ia NTC CPU
19. p LONWORKS UCPT_LinkFunc 1 or 3 y98 1 or 3 5 nv10 nviReadParamCode nv33 nvoReadParamVal 7 7 6 1 SNVT_count 0000 FFFF 16 0000 16 CP 21 6 nv11 nviWriteParaCode nv12 nviWriteParamVal nv11 nv12 nv34 nvoAccessErrCode 7 7 6 2
20. 3 4 ID CODE 39 1 4 ABS 10 LED PG N DC 25V BK RCE BRST BLY ER TEE DMA NIP TIF An ERI RATSDENEL
21. 62 U LonMaker Reset NV CP 2 1 LONWORKS 2 MA 3 0PC LNW 2 1 4 2 2 1
22. SNVT_switch value 0 0 100 0 state 1 0 1 value 0 0 state 0 CP SCPT_maxRcvTime nviXcmd_1 5 bit LONWORKS bit bit nv8 nvi0peCmd LONWORKS ON OFF RS 485 MHT271 5 5 1 2 3
23. nvoStatus RQ_UPDATE_STATUS 2 nvoStatus nvoStatus RQ_REPORT_MASK 5 1 1 nvoStatus RQ_CLEAR_ALARM 10 nvoStatus nvoStatus Request Invalid request Invalid request nvoStatus nvoStatus objectID Invalid request Invalid request nvoStatus nvoStatus ii nvoStatus 7 3 Status 7 3 nvoStatus 0bject ID Object ID Request 1 VSD object Disable 1 1 Status 1 4 CP CP 7 3 VSD
24. Ga RM HEL Ca XIF O Web https felib fujielectric co jp download Echelon LonMaker I D CODE 39 ID LONWORKS CN1 Ts O LED See ner x LW ire i ET u MET A jr u m BoooL f 2 8 2 1 2 2 3 3 1
25. SCPT_maxSendTime SCPT_minSendTime SCPT_minDeltaLevel FENIAN BRI CMEC WAT 4 155 32 034 037 039 C42 CM 7 nv39 nv40 nv41 nv43 nvoYstatus_1 nvoYstatus_2 nvoYstatus_3 nvoYstatus_5 Y1 Y2 Y3 Y5A C ON OFF E20 E21 E22 E24 E20 E21 E22 E24 SNVT_switch value 0 0 100 0 state 1 0 CP SCPT_maxSendTime SCPT_minSendTime SCPT_maxSendTime SCPT_minSendTime nv42 nvoYstatus_4 Y4 i
26. 028 LONWORKS NN 7 7 7 1 SCPT_maxRcvTime 7 11 SCPT_maxRcvTime NV LONWORKS NV 1 UCPT_CblLossMode 8 1 EB 027 8 1 UCPT_CblLossMode UCPT_ UCPT_ CblLossMode 027 CblLossTimer o28 0s LED NV Timeout 0s Fob Delay 028 SCPT_maxRcvTime Delay
27. 2 NV 7 1 7 1 nv1 nviRequest SNVT_obj_request Object Request RQ_NORMAL 0 RQ_ENABLED 7 RQ_DISABLED 1 RQ_UPDATE_STATUS 2 RQ_REPORT_MASK 5 RQ_CLEAR_ALARM 10 nv2 nvoStatus SNVT_obj_status object Status object_id Invalid_id Invalid_request disabled In_alarm report_mask SNVT_address Configuration file Directory 3 i nviRequest 7 2 nviRequest 7 2 nviRequest TERE RQ_NORMAL 0 object NV object NV nvoStatus nvoStatus RQ_DISABLE 1 Node Object VSD Object NV H nvoStatus
28. 5 1 5 2 1 LONWORKS LONMARK LW1618 Echelon FT3120 FT3150 Smart Transceiver Data Book Echelon Web URL https www echelon com support documentation manuals transceivers 005 0139 01D pdf 2 LONWORKS TERMI 3 5 2 5 1 MVSTBR2 5 3 ST 5 08 5 2 LONWORKS 5 1 M3 0 5 0 6 Nm Cy 2 NET A NET B NET
29. 8 nv44 48 nvoXstatus_1 nvoXstatus_5 X1 X9 ON OFF y98 UCPT_LinkFunc 0 X nviXcmd_1 5 RS 485 MHT271 5 5 1 2 3 SNVT_switch value 0 0 100 0 state 1 0 CP SCPT_maxSendTime SCPT_minSendTime SCPT_maxSendTime SCPT_minSendTime Co ee DI E01 E05 25 X ON OFF IRRE LONWORKS X 5bit
30. NV 7 14 NV NV 100 ME 7 14 NV 100 CP 0 0 0 0 200 0 0 5 0 0 7 14 SCPT_maxSendTime NV F05 AVR FO5 0 200V 400V 33 8 LONWORKS 8 1 LONWORKS SCPT_maxRcvTime NN LONWORKS CP UCPT_CblLossMode 027 UCPT_CblLossTimer
31. UCPT_LinkFunc 2 or 3 y98 2 or 3 nv22 nviAlarmReset ON ON OFF SNVT_switch value 0 0 lt 100 0 state 1 0 1 value 0 0 state 0 CP 23 7 5 VSD VD 7 3 VSD 1 nv4 nvoDrvSpeed SCPT_nomFreq SNVT_lev_percent 163 840 163 830 0 005 CP SCPT_maxSendTime SCPT_minSendTime SCPT_minDeltaLevel SCPT_maxSendTime SCPT_minSendTime
32. CP SCPT_maxSendTime nv10 nviReadParamCode SCPT_maxSendTime nv10 nviReadParamCode 24 4 nv34 nvoAccessErrCode nv11 nviWriteParaCode nv12 nviWriteParamVal 1byte 2byte 00h Q 7 6 2 4 OR 7 10 UNVT ErrCode 3byte 1byte 1byte 1byte LonMaker 10 10 10 17 6 2
33. SNVT_count 0000 FFFF 16 0000 16 CP 7 nv13 nviAOcmd FM A FM1 0 11V 4mA 20mA FM2 0 11V OmA 20mA FMA 0 11V 4mA 20mA FMP Ich C FM FM2 F31 F35 SNVT_lev_percent 163 840 163 830 0 000 lt 110 000 163 835 0 000
34. 0 1Hz 5 0 5Hz 30 2 nv11 nviWriteParaCode nv12 nviWriteParamVal nv34 nvoAccessErrCode 1 nv11 nviWriteParaCode 2 nv12 nviWriteParamVal RS 485 MHT271 5 5 2 3 nv34 nvoAccessErrCode nv34 nvoAccessErrCode 1byte 1byte 1byte LonMaker 10
35. 2 NV Repeated NVT_ nvoAlarmCurrent SNVT_amp nv57 nv58 nv59 3 CP 7 5 CP CP Cl CP 7 5 VSD CP SCPT_maxSetpoint 0 005 an SCPT_nomFreq 100 100 000 60Hz
36. 8 8 1 LONWORKS VSD nv34 nvoAccessErrCode 7 7 6 2 RS 485 MHT271 4 4 3 7 7 1 Variable Speed Motor Drive UF VSD 2 7 2 MD Node Object 0 N nviRequest nvoStatus nvi SNvT obj_request nV2 SNvT obj_status nvoFileDirectory nv8 SNVT_adress x 7 1
37. NV NV CP CP CP LonMaker ReSync CPs CP CP CP CP CP
38. 028 NV LED POWER LED JR AIR Delay 028 Delay 028 UCPT_CbILossMode 3 LONWORKS YES LED LONWORKS POWER LED RAR LET NV
39. 1 VSD RS 485 MHT271 5 nv1 nviDrvSpeedStpt mandatory nv2 nviDrvSpeedScale VSD object 1 nv3 nvoDrvCurnt M11 nv4 nvoDrvSpeed mandatory nv5 nvoDrvVolt M12 nv6 nvoDrvPwr M10 nv7 nvoDrvRunHours Z40 nv8 nviOpeCmd S06 nv9 nviFreqCmd S05 FUJI original NVs nv10 nviReadParamCode T nv11 nviWriteParaCode nviWriteParamV al nv12 nv13 nviAOcmd S12 nv14 nviDOcmd_Y1 S07 nv15 nv16 nviFWDcmd S06 nv17 nviXcmd_1 506 nv21 nvixcmd_5 S06 nv22 nv1AlarmReset S14 nv23 nvoDrvStatus M14 nv24 nvoOutputFreq M09 nv25 nvoDrvTorque M07 nv26 nvoDrvEnergy W81 nv27 T nvoDrvOpeHours W70
40. 3 CO 5 4 CN 4 1 FRENIC HVAC A port teal CHE 4 2 FRENIC HVAC A port 4 2 2 4 2 5 5 1 SLI R Ue Ni ors 797 L3 T Wo G G
41. LONWORKS 2 UCPT_CblLossTimer UCPT_CblLossMode o28 34 9 LED ON POWER LED POWER LED
42. RR 4 ED 4 Co a ee nn 4 4 5 5 6 en aan De 7 eee 7 7 9 10 SS W Eu ooo SS mo en 12 Pe ae he ah Os ook vase heeded 12 12 VD 14 VSD 20 VSD 24 BAJI eee eis chs bs oe ee eae 29 VSD CP 32 LONWORKS 34 LONWORKS 34 35 Men nennen 36 L R i E E eng 36 IRE A d nck ee ak 36 1 LONWORKS 78Kbps Variable Speed Motor Drive functional profile Ver1 1
43. nv21 nviXcmd_5 SNVT_switch This input turns a terminal command bi S06 ON OFF which is assigned to the inverter s digital input terminal X5 with unction code E05 v22 nviAlarmReset SNVT_switch Turning this variable ON TRUE clears alarm in the inverter Once it turns ON it automatically returns to OFF False v23 nvoDrvStatus SNVT_state This output reports the running status Functionally equivalent to function code M14 dedicated to inverter communication v24 nvoOutputFreq SNVT_freq_hz This output reports the output frequency with 0 1 Hz resolution v25 nvoDrvTorque SNVT_lev_percent This output reports the output torque as a percentage of the rated torque with 0 005 resolution V26 nvoDrvEnergy SNVT_elec_kwh This output reports the inverter s cumulative power consumption in watt hours v27 nvoDrvOpeHours SNVT_time_hour This output reports the cumulative inverter run time Diagnostic reference data for inverter lifetime v28 nvoOpeTm_1 SNVT_time_hour This output reports the cumulative run time of electrolytic capacitors on printed circuit boards Diagnostic reference data for service lifetime of the control circuit v29 nvoOpeTm_2 SNVT_time_hour This output reports the cumulative run time of the cooling fan v30 nvoDCbusCapacity SNVT_lev_percent This output reports the current capacitance of the DC link bus capacitor in based on the capacitance when shipped as 100 nv31 nvoDrvT
44. y98 UCPT_LinkFunc 3 y99 LE LOC Reset nviXcmd_1 5 nviFWDcmd ON y98 UCPT_LinkFunc 2 3 X FWD LONWORKS nviDOcmd_Y1 Y2 ON nviAOcmd Y FM1 FM2 FMA FMP DO0 AO LONWORKS COMM LED
45. SCPT_minDeltaLevel OV OmA 4mA 0 10V 20mA 100 25 6 nv38 nvoPIDFb 12 C1 V2 PID PID PID PID J PID SNVT_lev_percent 0 0 163 830 0 005 CP SCPT_maxSendTime SCPT_minSendTime SCPT_minDeltaLevel
46. CP SCPT_maxRcvTime FM1 FMA F31 10 FM2 FMP F35 10 FM FM2 FMA FMP 8 nv14 nviDOcmd_Y1 nv15 nviDOcmd_Y2 Y1 Y2 ON OFF DO Y 2bit Y E20 E21 SNVT_switch value 0 0 lt 100 0 state 1 0 1 value 0 0 state 0 CP SCPT_maxRcvTime nviDOcmd_Y1 Y2 bit
47. FRENIC HVAC 22kW 5 4 6 LONWORKS nviXomd1 5 6 1 Et NV 6 2 6 3 RS 485 MHT271 5 LONWORKS LONWORKS Reset Online
48. TEL 0120 128 220 FAX 0120 128 230 INR SI47 1705 JE
49. 10 10 J 7 9 7 10 02h 2 03h 3 06h 6 h 7 h 9 h 15 TE nv34 nvoAccessErrCode OFh H13 9 5s 1 nv11 nviWriteParaCode 80D hex H 08h 13 gt 0Dh 2 nv12 nviWriteParamVal 95 0 1s 95
50. SCPT_minDeltaLevel 2 nv23 nvoDrvStatus M14 Tin bit15 bit14 bit13 bit12 bit11 bit10 bit9 bit8 bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 FWD REV EXT ee INT DEC BRK ALM NUV 0 RL VL BUSY SNVT_state CP SCPT_maxSendTime SCPT_minSendT ime SCPT_maxSendTime SCPT_minSendTime 3 nv33 nvoReadParamVal nv10 nviReadParamCode ta 17 6 1 4 SNVT_count 0000 FFFF 16
51. 10 nv51 nvoAlarmLog 3 UNVT_alarm_log 10 1byte x 3 1byte 2 10 LonMaker 1 2 3 0 0 0 255 255 255 CP SCPT_minSendTime SCPT_minSendTime 28 16 1 nv10 nviReadParamCode nv33 nvoReadParamVal 1 nv10 nviReadParamCode 16bit H30 H gt 08 30 2 1E ee 081E 16 2078 10 bit15 bit14 bit13 bit12 bit11 bit10 bit9 bit8 bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0
52. 7 NV CP 8 LONWORKS LONWORKS 9 10 7 Un KH Ho en p HOH onnnmunprrwwwwwm Bz Eea DE Sel dh le SMe all Se 1 OR ee ene ee ig ee 1 3 eee es 3 4
53. ID o30 1 es Fa o30 1 3 2 LED LED 4 3 1 LED 0 5s LONWORKS 5 1 Roar ARE COMM 4 LONWORKS 2 DN LED WINK WINK SERVICE
54. nv10 nviReadParamCode nv33 nvoReadParamVal 7 9 Wi pn en BF RIE 1 s 235977 29 s M F e ES ea 7 9 y J1 36 24h Ee 39 27h 1 1 J3 Ea e 3 i e afo 2 el l a 2 x ed a d Est HF F26 F 04 26 IA 16 23 0 5Hz 1 nv10 nviReadParamCode 417 hex F 04h 23 17h 2 nv33 nvoReadParamVal 5
55. nv28 nvoOpeTm_1 W67 nv29 nvoOpeTm_2 W68 nv30 nvoDCbusCapacity W75 nv31 nvoDrvTemp_1 M61 nv32 T nvoDrvTemp_2 M62 nv33 nvoReadParamVal nv34 nvoAccessErrCode nv35 nvoAIVal_1 M49 nv36 nvoAIVal_2 M50 nv37 nvoAlVal_3 M54 T nv38 nvoPIDFb M72 nv39 nvoYstatus_1 M15 nv43 nvoYstatus_5 M15 nv44 nvoXstatus_1 M13 nv48 nvoXstatus_5 M13 nv49 nvolnAlarm bit nv50 nvoAlarm M16 nv51 NvoAlarmLog M17 M18 M19 nv52 T nvoAlarmOpCmd M39 nv53 nvoAlarmFreq_1 M31 nv54 nvoAlarmFreq_2 M35 nv55 nvoAlarmCurrent X21 nv56 nvoAlarmVolt M38 nv57 nvoAlarmOpTime M42 I nv58 nvoAlarmPower X35 nv59 nvoAlarmTorque M33 Configuration Properties 24 72 VSD 14 2 NV 7 4 7 4 VSD nviDrvSpeedStpt nviDrvSpeedScale nvoDrvVolt nv8 nv9 nv10 nv11 nviWriteParaCode nv12 nviReadParamCode nviWriteParamVal nviXcmd
56. nv48 nvoXstatus_5 _swit X5 E05 25 DI X5 ON OFF nv49 nvolnAlarm SNVT_switch ON nv50 nvoA UNVT_alarm_cod 1byte decimal nv51 nvoAlarmLog UNVT_alarm_log 3 1byte decx3 1 2 3 nvoAlarm0pCmd SO6 A nvoAlarmFreq_1 SNVT_freq_hz 0 1Hz nvoAlarmFreq_2 SNVT_freq_hz 0 1Hz nv52 nv53 nv54 nv55 nv56 nvoAlarmVolt SNVT_volt 0 1V nvoAlarmOpT ime nvoAlarmPower SNVT_power_kilo 0 1kW nvoAlarmTorque SNVT_lev_percent 100 0 005 1 NV
57. SCPT_minSetpoint 0 005 I SCPT_nomFreq 100 0 000 F16 SCPT_maxSendTime 0 NV 0 0s CH SCPT_nomRPM 1r min 100 r min 1800r min CP SCPT_nomFreq 0 1Hz 100 Hz 1009 0 18 0 0 18 0 SCPT_maxRcvTime 0 1s NV I 0 0s NV NV 0 0 NV NV F 0 0s 1 A 0 1Hz x4
58. 9 5s 3 nv34 nvoAccessErrCode 0 8 13 0 H 13 8 8 13 8 H 13 31 7 7 VSD CP VSD CP CP 7 3 VSD 1 SCPT_maxRcvTime NV 7 11 LONWORKS 0 0s A LONWORKS 8 T8 1 LONWORKS 0 0s 6553 4s 0 1s 0 0s 6553 5s
59. the interface card does not output any NVs even if the NV value changes within this time length Setting this CP at 0 0 s provides no send prohibit time length Data setting range 0 0 to 6553 4 s 0 1 s resolution Default setting 0 0 s Inactive Table 7 13 NVs with Minimum Pause Period Specified by SCPT_minSendTime All output NVs except the following nvoReadParamVal nvoAccessErrCode SCPT_minDeltaLevel Minimum data change rate for send This CP specifies the hysteresis width or minimum insensitivity band on data change for individual NVs listed in Table 7 14 If a data change exceeding the band occurs in an NV the NV can fetch the change in its data and the interface card outputs it Specify the band in the ratio to the 100 value of each NV value Table 7 14 lists the 100 value of each NV Setting 0 0 also inactivates this CP Data setting range 0 0 to 200 0 0 5 resolution Default setting 0 0 Inactive Table 7 14 NVs with Minimum Data Change Rate Specified by SCPT_maxSendTime nv5 nvoDrvVolt V Base voltage Same as data of inverter s function code F05 er When F05 0 not AVR controller 200 400 VAC nvo vol vol vol _ 100 DCbusCapacity 100 F nvoDrvTemp_1 C 100 C nvoDrvTemp_2 C 100 C 35 ENGLISH Chapter 8 Inverter Reaction to LONWORKS Communications Errors 8 1 If with the receive heartbeat SCPT_maxRcvTime specified the target input NV receives no dat
60. whose function is specified by E24 nv44 nvoXstatus_1 _SWi This output reports the status of a terminal command assigned to digital input terminal X1 When E01 data is 25 Universal DI this output reports the ON OFF state of the physical terminal X1 nv45 nvoXstatus_2 SNVT_switch This output reports the status of a terminal command assigned to digital input terminal X2 When E02 data is 25 Universal DI this output reports the ON OFF state of the physical terminal X2 v46 nvoXstatus_3 SNVT_switch This output reports the status of a terminal command assigned to digital input terminal X3 When E03 data is 25 Universal DI this output reports the ON OFF state of the physical terminal X3 command assigned to digital input terminal X4 When E04 data is 25 Universal Dl this output reports the ON OFF state of the physical terminal X4 nv48 nvoXstatus_5 SNVT_switch This output reports the status of a terminal command assigned to digital input terminal X5 When E05 data is 25 Universal DI this output reports the ON OFF state of the physical terminal X5 v49 nvolnAlarm SNVT_switch This output remains ON when the inverter is in an alarm state or has not canceled the recent alarm nv50 nvoAlarm UNVT_alarm_cod This output reports the code of an alarm that is 1 byte decimal occurring or has occurred most recently 17 n nv47 nvoXstatus_4 SNVT
61. 0 state 0 CP SCPT_maxRcvTime FWD REV REV E99 nviDrvSpeedStpt ON OFF UCPT_LinkFunc 2 or 3 y98 2 or 3 nv17 21 nviXcmd_1 nviXcmd_5 X1 gt X5 ON OFF E01 E05 E01 E05
62. 4 1 2 3 UCPT_LinkF LONWORKS y98 y98 3 and UCPT_multStepFreq1 0 01Hz 1 X FWD E01 E05 98 RL ON OFF Die SCPT_minDeltaLevel SCPT_minSendTime UCPT_JogF Dsettings PID P DEM J04 J05 J06 1 _StartFreq F23 z 027 34 UCPT_TorqLimit blLossMode LONWORKS 0 o27 LONWORKS 5 o28 CPT_FlyingStart 0 Mode blLossTimer H17
63. handy when performing certain settings or operations 2 This icon indicates a reference to more detailed information Table of Contents Preface Chapter 7 Object Details How this manual is organized A 7 1 Overview Chapter 1 Features a 7 2 Node Object Chapter 2 Acceptance Inspection 7 3 VSD Object ie Chapter 3 Basic Functions 7 4 VSD Object Input Network Variables 22 3 1 Service Button 7 5 VSD Object Output Network Variables 26 3 2 Status Indicator LEDs 7 6 Reading and Writing from to Inverter s 3 3 Terminal Blocks Function Codes 0 eee eee 31 3 4 Barcode Label 7 7 VSD Object Configuration Properties Chapter 4 Installation and Removal 5 RY 34 R Chapter 8 Inverter Reaction to LONWORKS 4 1 Installing the Interface Card 5 Communications Errors 36 4 2 Removing the Interface Card 6 8 1 Specifying an Inverter Reaction to Chapter 5 Wiring 7 LONWORKS Communications Errors 36 5 1 Basic Connection Diagram 7 Chapter 9 Troubleshooting 5 2 Wiring to the Terminal Blocks 7 Chapter 10 Specifications 5 3 Wiring to Inverter 9 10 1 General Specifications Chapter6 Function Code Settings Required for 10 2 Communications Specifications LONWORKS Communication 10 Chapter 1 Features The LONWORKS interface card has the following features Baud rate 78 kbps Profile Variable Speed Motor Dr
64. inverter data of run forward reverse digital input terminals X1 to X9 FWD and REV The command format of this NT is the same as that of function code S06 bit 15 bit 14 bit 13 bit 12 bit 11 bit 10 bit9 bit8 bit7 bit6 bit5 bit4 bit3 bit2 bit1 bitO e fro FWD REV Run forward reverse commands to the inverter X1 to X9 Terminal command assignment fields for inverter s digital inputs X1 to X9 FWD REV Run forward reverse terminal command assignment fields for inverter s digital inputs FWD and REV ALMRST Switching from ON to OFF clears inverter alarms Variable type SNVT_state Default setting 0000000000000000 16 bit binary CPs for control of the affected network bandwidth SCPT_maxRcvTime Note The number of inverter s general purpose input terminals differs depending on the target inverter Tip To validate this NV entry on the inverter any of the following settings is required UCPT_LinkFunc 2 or 3 or inverter s function code y98 2 or 3 nv9 nviFreqcmd This NV specifies the frequency command in Hz with 0 1 Hz resolution Variable type SNVT_freq_hz Data setting range 0 0 to 6553 5 Hz Valid range for inverter 0 0 to 400 0 Hz Default setting 0 0 Hz CPs for control of the affected network bandwidth SCPT_maxRcvTime ENGLISH Note The frequency command can be specified with this NV and nv1 nviDrvSpeedStpt If both of these NVs are specified the last o
65. 0 0 to 100 0 state 1 0 1 Default settings value 0 0 state 0 CPs for control of the affected network bandwidth SCPT_maxRcvTime Note Do not use nviDOcmd_Y1 or nviDOcmd_Y2 as a bit array This is because in LONWORKS communication two or more variables are never output concurrently so the interface card may miss fetch the bit array at the timing when the data gets validated on the inverter Accordingly the inverter could receive it as unexpected data To handle them as a bit array read out S07 by the function code readout feature Tip To validate this NV entry on the inverter either of the following settings is required For Y1 inverter s function code E20 27 For Y2 E21 27 24 9 nv16 nviFWDcmd This NV controls the ON OFF of inverter s digital input terminal FWD Command assignment to FWD is made with function code E98 The factory default command is Run forward LI For details about function code E98 refer to the user s manual of an inverter FUNCTION CODES Variable type SNVT_switch Data setting range value 0 0 to 100 0 state 1 0 1 Default setting value 0 0 state 0 CPs for control of the affected network bandwidth SCPT_maxRcvTime Note To assign the Run reverse command to terminal FWD it is necessary to assign a terminal command other than Run reverse to terminal REV using function code E99 Note The run command issued by this NV is independent of the one i
66. 13 Fuji Electric Co Ltd The purpose of this manual is to provide accurate information in the handling setting up and operating of the LONWORKS Interface Card for the inverters for our company Please feel free to send your comments regarding any errors or omissions you may have found or any suggestions you may have for generally improving the manual In no event will Fuji Electric Co Ltd be liable for any direct or indirect damages resulting from the application of the information in this manual Fuji Electric Co Ltd Gate City Ohsaki East Tower 11 2 Osaki 1 chome 141 0032 11 2 Shinagawa ku Tokyo 141 0032 Japan URL http www fujielectric cojp Phone 81 3 5435 7283 Fax 81 3 5435 7425 eee URL http www fujielectric com P gt 7513 8633 5520
67. A NET B 3 1 1 Echelon TP FT 10 lt Channel Terminator Model No 44100 RC C1 O NET A R 62 3Q2 1 1 8W R C1 C2 100uF 50V min O NET B 5 3 5 3 LONWORKS LONWORKS FRENIC HVAC 7 5kW
68. FO Instruction Manual LONWOORKS LONWORKS Interface Card OPC LNW Fuji Electric Co Ltd INR SI47 1705 JE Copyright 2013 Fuji Electric Co Ltd All rights reserved No part of this publication may be reproduced or copied without prior written permission from Fuji Electric Co Ltd LONWORKS LonTalk and LonMaker are registered trademarks of Echelon Corporation in the United States All other product and company names mentioned in this manual are trademarks or registered trademarks of their respective holders The information contained herein is subject to change without prior notice for improvement LONWORKS LonTalk LonMaker Echelon LONWORKS 1 OPC LNW
69. R progress during powering on sequence second Blinks in red LONWORKS communications error The inverter shows 5 1 R i Hardware error i cou Lights ited Card not properly installed or card faulty he inventer SNOWS y The change of an output NV value lights this LED even if the cable is not connected WINK Blinks in green WINK message received Blinking 6 times Lights in green Service button being pressed Bee rn SERVICE Occurrence of LONWORKS communications COMM Lights in green event 2 Blinks in green Unconfigured Inicluding uncommissioned state Configured Including commissioned state 1 Configuration for ignoring 5 is possible For details refer to Chapter 8 Section 8 1 Specifying an Inverter Reaction to LONWORKS Communications Errors 2 Upon completion of initialization of the interface card after the power is turned on an event that outputs all output network variables supported by this card occurs in order to tell the latest inverter information to the network Since this event occurs independent of the cable connection disconnection binding unbinding and commissioned not commissioned it lights the COMM LED The delay time from the occurrence of the event to the output of the output network variables can be adjusted with the VSD object UCPT_SendDelayAfterDevRdy C For details about UCPT_SendDelayAfterDevRdy refer to Section 7 3 3 List of VSD object configuration properties CPs 3 3 Termin
70. SendTime if specified after the time specified by SCPT_minSendTime if specified or when the data change rate exceeds the value specified by SCPT_minDeltaLevel if specified 2 nv23 nvoDrvStatus This NV outputs the current inverter status The format of this NV is the same as that of the inverter s communication function code M14 bit 15 bit14 bit13 bit12 bit11 bit10 bit9 bit8 bit7 bit6 bit5 bit4 bit3 bit2 bit1 bitO FWD REV Run forward Run reverse IL During output current limiting EXT During DC braking or Pre exciting ACC During acceleration INT Inverter shutdown DEC During deceleration BRK Braking ALM Alarm relay output NUV DC link bus voltage established 0 Undervoltage RL Communication active VL Output voltage limiting BUSY Busy in writing function codes Variable type SNVT_state CPs for control of the affected network bandwidth SCPT_maxSendTime and SCPT_minSendTime Output timing At the time of data change at intervals specified by SCPT_maxSendTime if specified or after the time specified by SCPT_minSendTime if specified 3 nv33 nvoReadParamVal This NV reads out data from the inverter s function code specified by nv10 nviReadParamCode LQ For details about readout of function code data refer to Section 7 6 1 Reading from inverter s function codes Variable type SNVT_count Data setting range 0000 to FFFF hexadecimal CPs for control of the affected network bandwi
71. _1 nv13 nv14 nv15 nv16 nv17 nviXcmd_2 SNVT_switch SNVT_lev_percent SNVT mp SNVT_lev_percent SNVT_volt SNVT_power_kilo SNVT_time_hour SNVT_state SNVT _lev_percent SCPT_nomFreq 100 0 1A SCPTnomFreq 100 0 1V 0 1kW S06 SNVT_freq_hz 0 1Hz nv33 A nv11 nv34
72. _percent This input specifies any output level for the inverter s analog output terminal Functionally equivalent to function code 12 dedicated to inverter communication v14 nviDOcmd_Y1 _SWi This input turns the inverter s digital output terminal Y1 ON OFF If the value is 1 Y1 is ON Setting E20 to 27 Universal DO is needed iDOcmd_Y2 _SWi This input turns the inverter s digital output terminal Y2 ON OFF If the value is 1 Y2 is ON Setting E21 to 27 Universal DO is needed This input turns terminal command FWD bit XF of S06 ON OFF which is assigned to the inverter s digital input terminal FWD with function code E98 FWD runs a motor forward by factory default 15 ENGLISH nv17 nviXcmd_1 SNVT_switch This input turns a terminal command bi S06 ON OFF which is assigned to the inverter s digital input terminal X1 with unction code E01 nv18 nviXcmd_2 SNVT_switch This input turns a terminal command bi S06 ON OFF which is assigned to the inverter s digital input terminal X2 with unction code E02 v19 nviXcmd_3 SNVT_switch This input turns a terminal command bi S06 ON OFF which is assigned to the inverter s digital input terminal X3 with unction code E03 v20 nviXcmd_4 SNVT_switch This input turns a terminal command bi S06 ON OFF which is assigned to the inverter s digital input terminal X4 with unction code E04
73. _switch This output reports the status of a terminal n ENGLISH nv51 armLog UNVT_alarm_log This output reports three recent alarm codes in 1 byte decx 3 the order of 1st 2nd and 3rd recent ones armOpCmd SNVT_state The status of run command S06 at the time of alarm larmFreq_1 SNVT_freq_hz This output reports the status of a frequency command being executed when the most recent alarm occurred with 0 1 Hz resolution jarmFreq_2 SNVT_freq_hz This output reports the output frequency being applied when the most recent alarm occurred with 0 1 Hz resolution armCurrent SNVT_amp This output reports the output current being applied when the most recent alarm occurred with 0 1 Aresolution nvoAlarmVolt SNVT_volt This output reports the output voltage being applied when the most recent alarm occurred with 0 1 V resolution armOpTime SNVT_time_hour This output reports the inverter s run time being accumulated until the most recent alarm occurred nvoAlarmPower SNVT_power_kilo This output reports the inverter s power consumption detected when the most recent alarm occurred with 0 1 kW resolution armTorque SNVT_lev_percent This output reports the inverter s output torque detected when the most recent alarm occurred as a percentage of the rated torque with 0 005 resolution N Fan out connection using aliases branching a single output NV to two or more input NVs on this interface card should
74. a within the specified heartbeat time this card interprets it as a LONWORKS communications error timeout causing the inverter to trip with er5 depending upon the configuration Specifying an Inverter Reaction to LONWORKS Communications Errors The inverter reaction to follow an occurrence of LONWORKS communications errors can be specified with the configuration properties CPs or their equivalent inverter s function codes given below Configuration properties CPs UCPT_CblLossMode UCPT_CblLossTimer Equivalent inverter s function code 027 028 For details about input network variables NVs to be monitored if a LONWORKS communications error occurs refer to Table 7 11 in Chapter 7 Section 7 7 1 SCPT_maxRcvTime Ti Such an input NV that has not received data once could not be a timeout monitor target so no p LONWORKS communications error can be detected even if the receive heartbeat SCPT_maxRcvTime is specified and the input NV receives no data within the specified heartbeat time 1 UCPT_CbILossMode As listed in Table 8 1 this CP specifies the inverter reaction mode to select when a communications error is detected Inverter s function code 027 is functionally equivalent to this CP Modifying the CP automatically modifies function code 027 data and vice versa Table 8 1 Specifying Inverter Reaction Mode with UCPT_CblLossMode UCPT_CblLossMode UCPT_CblLossTimer 027 028 Inverter Reaction to Communications Error
75. ace Card Remove the two screws that secure the interface card and pull the release knob shown Figure 4 2 to take the interface card out of the inverter Chapter 5 Wiring 5 1 Basic Connection Diagram INVERTER gt LI R Uo Motor L2 S vo LON ENGLISH Mounting the interface card connects to the grounding G Figure 5 1 Basic Connection Diagram 5 2 Wiring to the Terminal Blocks 1 Use a shielded twist pair cable recommended by LONMARK for network connection Tip The recommended cable is LW161S manufactured by Showa Electric Wire amp Cable Co Ltd LEO For details about wiring refer to the FT3120 FT3150 Smart Transceiver Data Book published by Echelon It can be downloaded for free from our website at http www echelon com support documentation manuals 005 0139 01d pdf 2 Wiring to the LONWORKS terminal block TERM1 The terminal block uses a pluggable 3 pin connector shown in Figure 5 2 Table 5 1 shows the pin assignment The applicable pluggable connector is MVSTBR2 5 3 ST 5 08 manufactured by Phoenix Contact Corporation Approx 7mm Cable wire Figure 5 2 Terminal Block and Recommended Strip Length Table 5 1 Pin Assignment on TERM1 NETA For communication data NET B For communication data The table below lists the terminal screw size and its recommended tightening torque Terminal screw size M3 Tightening torque 0 5 to 0 6 N m Tip The net
76. ace card blinks in red showing an occurrence of LONWORKS communications errors Tip If the network binds only NVs of this card turnaround connection the communications link can be occurs 2 UCPT_CblLossTimer This CP specifies the timer to work when a communications error is detected The timer count object varies with the UCPT_CblLossMode setting as listed in Table 8 1 above established even with the LONWORKS network cable disconnected so no communications error Inverter s function code 028 is functionally equivalent to this CP Modifying the CP automatically modifies function code 027 data and vice versa 36 Chapter9 Troubleshooting Phenomenon Symptom None of the LEDs on the interface card would light If any problem arises with this card follow the troubleshooting procedures given below Probable Causes e The inverter is not powered ON e The card is not properly installed e The card is faulty Er alarm cannot be reset The POWER LED lights in red e The card is not properly installed e The card is faulty amp 5 alarm cannot be reset The POWER LED flashes in red e Cabling is not properly done e The target input NV has not received data within the time specified by the receive heartbeat No commissioning possible e An XIF file designed for different products is used or the XIF file version is not latest Cabling is not properly done The card is not grounded Communicati
77. al Blocks The interface card has two terminal blocks LONWORKS and ground El For wirings refer to Chapter 5 Wiring 3 4 Barcode Label The Neuron ID assigned to the Neuron chip mounted on the interface card is printed on the barcode label pasted on the card in both human readable character string and barcode The barcode symbology is Code 39 One more barcode label comes with the card for application to a network drawing etc Chapter 4 Installation and Removal AWARNINGA Turn the power off and wait for at least ten minutes before starting installation Further check that the LED monitor and charge lamp are unlit and check the DC link circuit voltage between the P and N terminals to be lower than 25 VDC Otherwise electric shock could occur ACAUTION Do not use the product that is damaged or lacking parts Doing so could cause a fire an accident or injuries Prevent lint paper fibers sawdust dust metallic chips or other foreign materials from getting into the inverter and the interface card Otherwise a fire or an accident might result Incorrect handling in installation removal jobs could cause a failure A failure might result 4 1 Installing the Interface Card Note Before mounting the interface card perform the wiring for the main circuit terminals and control circuit terminals 1 Remove the front cover from the inverter and expose the control printed circui
78. ard calculates the frequency command value with nviDrvSpeedStpt value nviDrvSpeedScale and SCPT_nomFreq Frequency command Hz nviDrvSpeedStpt value x nviDrvSpeedScale x SCPT_nomFreq Hz Each time any one of the three terms in the above equation is entered the interface card calculates the frequency command again and overwrites the previous value with new one regardless of whether the inverter is running or on halt If state OxFF however no recalculation takes place even with any input Note The frequency command can be specified with this NV and nv9 nviFrecmd If both of these NVs are specified the last one takes effect on the inverter Last command has priority Tip To enable the inverter s run stop and frequency commands via the LONWORKS network either of the following settings is required UCPT_LinkFunc 3 or inverter s function code y98 3 CPs for control of the affected network bandwidth SCPT_maxRcvTime nv2 nviDrvSpeedScale This NV specifies the motor rotational direction and frequency command Variable type SNVT_lev_percent Data setting range 163 840 to 163 830 0 005 resolution If entering 163 835 invalid for example the interface card ignores the entry and the inverter runs with the previous value Default setting Value specified by SCPT_defScale CPs for control of the affected network bandwidth SCPT_maxRcvTime 22 3 4 5 nv8 nviOpecmd This NV specifies the
79. be avoided because the interface card may miss fetch any input NV depending upon the fetch timing If it cannot be avoided use the repeated mode for the connection messaging service to prevent miss fetch of the branched NV aliases 3 18 7 3 3 List of VSD object configuration properties CPs Table 7 5 lists the summary of VSD object configuration properties CPs The function code column in the table shows their associated inverter s function codes Modifying function code data can change the associated CP value Some of these CPs have detailed descriptions in Section 7 7 see the page given in the table below CJ Refer to the user s manual of an inverter FUNCTION CODES for supplementary information on the CPs Table 7 5 VSD Object CPs a eae code SCPT_maxSetpoint 0 005 Defines the maximum frequency as a percentage of 100 000 SCPT_nomFreq 60 Hz SCPT_minSetpoint 0 005 Defines the lower limit of the output frequency as a 0 000 percentage of SCPT_nomFreq SCPT_maxSendTime 0 1s Sets the heartbeat send interval A The concerned NV continues transmitting data at this time intervals regardless the data changing Specifying 0 0 s disables this CP SCPT_nomRPM 1 r min Used to enter the nominal speed 100 of the percent speed command in r min Modifying this CP automatically replaces the value of SCPT_nomF reg SCPT_nomFreq 0 1 Hz Used to enter the nominal frequency 100 of the percent speed command in H
80. bit15 bit14 bit13 bit12 bit11 bit10 bit9 bit8 bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 FWD REV X1 xX9 X1 X9 FWD REV FWD REV ALMRST ON OFF SNVT_state 0000000000000000 2 CP SCPT_maxRcvTime 1 X9 UCPT_LinkFunc 2 or 3 y98 2 or 3 4 nv9 nviFreqcmd 0 1Hz SNVT_freq_hz 0 0 6553 5 Hz 0 0 lt 400 0Hz 0 0Hz CP SCPT_maxRcvTime nv1 nviDrvSpeedStpt 2
81. bled Disables the VSD object ignores NV Updates nvoStatus and outputs the input and forbids its output to transmit new object status Updates nvoStatus and outputs the new object status Updates nvoStatus and outputs the new object status Reports supported requests as 1 RQ_UPDATE_STATUS 2 Updates nvoStatus and outputs the new object status RQ_REPORT_MASK 5 Reports supported requests as 1 Updates nvoStatus and outputs the new object status RQ_CLEAR_ALARM 10 Resets alarm Updates nvoStatus and outputs the new object status Resets alarm Updates nvoStatus and outputs the new object status All other requests Returns an invalid request response Updates nvoStatus and outputs the new object status Returns an invalid request response Updates nvoStatus and outputs the new object status All other objectIDs Returns an invalid request response Updates nvoStatus and outputs the new object status Returns an invalid request response Updates nvoStatus and outputs the new object status ENGLISH 2 nvoStatus Table 7 3 lists the status network variables supported and their descriptions Table 7 3 Status Network Variables Supported object_id Returns the object ID designated by the Request Turns 1 when Request is issued to an object with invalid ID Turns 1 for an invalid request response Turns 1 when the VSD object is disab
82. cent This input provides scaling for a low resolution speed setpoint Negative values indicate reverse motor direction nv3 voDrvCurnt SNVT_ This output reports the output current RMS with 0 1 A resolution nv4 voDrvSpeed SNVT_lev_percent ee output reports the output speed as a percentage of SCPT_nomFreq nv5 ODrvVolt SNVT_volt This output reports the output voltage RMS with 0 1 V resolution nv6 oDrvPwr VT_power_kilo This output reports the output power with 0 1 kW resolution oDrvRunHours T_time_hour This output reports the cumulative motor run time Diagnostic reference of the mechanical component service life nviOpeCmd SNVT_state This input provides run commands including run forward command run reverse command and terminal commands assigned to general purpose digital input terminals Functionally equivalent to function code S06 dedicated to inverter communication nviFreqCmd SNVT_freq_hz This input provides frequency command with 0 1 Hz resolution v10 nviReadParamCode SNVT_count This input specifies a target inverter s function code to read out its data to nv33 nvoReadParamVal nv11 nviWriteParaCode SNVT_count This input specifies a target inverter s function code to write data with nv12 nviWriteParamVal v12 nviWriteParamVal SNVT_count This input contains data to write into the inverter s function code specified by nv11 nviWriteParaCode The write result is output to nv34 v13 nviAOcmd T_lev
83. commands entered from the terminal block may be unconditionally validated For details about these events refer to the RS 485 Communication User s Manual MEH448 Chapter 5 Section 5 1 2 3 Operation command data Tip To validate this NV entry on the inverter any of the following settings is required UCPT_LinkFunc 2 or 3 or inverter s function code y98 2 or 3 ENGLISH 11 nv22 nviAlarmReset Setting the ON value to this NV releases the inverter s trip state If any alarm factor persists at the entry of the ON value the trip state cannot be released After the entry of the ON value the NV state automatically reverts to OFF Variable type SNVT_switch Data setting range value 0 0 to 100 0 state 1 0 1 Default setting value 0 0 state 0 CPs for control of the affected network bandwidth None 25 7 5 VSD Object Output Network Variables This section describes VSD object output network variables that need supplemental explanations For variables not found in this section refer to Section 7 3 VSD Object 1 nv4 nvoDrvSpeed This NV outputs the inverter s output frequency as a percentage of SCPT_nomFreq Base frequency Variable type SNVT_lev_percent Data setting range 163 840 to 163 830 0 005 resolution CPs for control of the affected network bandwidth SCPT_maxSendTime SCPT_minSendTime and SCPT_minDeltaLevel Output timing At the time of data change at intervals specified by SCPT_max
84. dingly the inverter s physical terminal Xn can be used as a digital input device having max 5 bits 28 Note Depending on the command assignment to inverter s digital input terminals some ON OFF commands via the LONWORKS network using these NVs may be ignored On the other hand some commands entered from the terminal block may be unconditionally validated For details about these events refer to the RS 485 Communication User s Manual MEH448 Chapter 5 Section 5 1 2 3 Operation command data 9 nv50 nvoAlarm This NV outputs the contents of an alarm that is occurring or has recently occurred Variable type UNVT_alarm_cod 1 byte decimal Data setting range 0 to 255 CPs for control of the affected network bandwidth SCPT_minSendTime Output timing At the time of data change or after the time specified by SCPT_minSendTime if specified Table 7 8 Alarm Code Table Alarm codes Alarm codes in Description in Description M16 to M19 M16 to M19 No alarm Overload of motor 1 Overcurren K Overload of motor 2 during acceleration Overcurren Overload of motor 3 during deceleration Overcurren Overload of motor 4 During running at constant speed Grounding fault 25 194 Inverter overload Overvoltage 27 1By Over speed error during acceleration Overvoltage 28 1Cy Wiring break in a PG during deceleration ENGLISH Overvoltage 29 1Dy Wiring break in a NTC during running at c
85. disconnect detection 254 FEy Mock alarm 59 3By DB transistor failure 65 41 Customizable logic error 66 424 PID1 feedback error 67 43 PID2 feedback error 68 44 USB communications error 81 51 Drought protection 82 524 Control of maximum starts per hour 83 534 End of curve protection 84 54 Anti jam 85 554 Filter clogging error 10 nv51 nvoAlarmLog This NV outputs the history of recent 3 alarms Variable type UNVT_alarm_log Decimal 1 byte x 3 1 byte 1 byte 1 byte Most recent alarm code 2nd recent alarm code 3rd recent alarm code Decimal Decimal Decimal Note LonMaker represents this NV data in the format Most recent alarm code 2nd recent alarm code 3rd recent alarm code Data setting range 0 0 0 to 255 255 255 CPs for control of the affected network bandwidth SCPT_minSendTime Output timing At the time of data change or after the time specified by SCPT_minSendTime if specified 30 76 Reading and Writing from to Inverter s Function Codes 7 6 1 Reading from inverter s function codes Use nv10 nviReadParamCode and nv33 nvoReadParamVal This section summarizes the reading procedure 1 Enter the inverter s target function code into nv10 nviReadParamCode in the 16 bit format shown below This starts the readout process of the inverter s function code Example Reading H30 from the inve
86. dth SCPT_maxSendTime Output timing At the input time of nv10 nviReadParamCode or at intervals specified by SCPT_maxSendTime if specified Ti This NV is issued after input of nviReadParamCode regardless of whether the data has been changed or not 26 4 nv34 nvoAccessErrCode 5 After completion of writing of inverter s function code data with nv11 nviWriteParaCode and nv12 nviWriteParamVal this NV outputs a three byte string Write error code 1 byte Function code accessed 2 bytes If the data has been successfully written the error code value is 00h J For details about error codes refer to Table 7 10 in Section 7 6 2 Writing to inverter s function codes Variable type UNVT_ErrCode 3 bytes 1 byte 1 byte 1 byte Function code Function code Error code group of error number of the error Note detection target detection target LonMaker represents this NV data in the format Error code decimal Function code group decimal Function code number decimal CA For details about the NV format and function code writing procedure refer to Section 7 6 2 Writing to inverter s function codes Data setting range 00 00 00 to FF FF FF hexadecimal CPs for control of the affected network bandwidth None Output timing After the input time of nv12 nviWriteParamVal nv35 to nv37 nvoAlVal_1 to nvoAlVal_3 The nv35 to nv37 output the voltage or current input level applied to inverter s analog
87. emp_1 SNVT_temp This output reports the inverter internal temperature with 1 C resolution v32 nvoDrvTemp_2 SNVT_temp This output reports the heat sink temperature with 1 C resolution v33 nvoReadParamVal SNVT_count This outputs function code data read For the format refer to Section 7 6 v34 nvoAccessErrCode UNVT_ErrCode This outputs the error code and accessed 1byteHex x 3 function code after completion of writing to inverter s function code It updates only when accessed to nv11 and nv12 and outputs to LON 16 Ve nv35 nvoAlval_1 SNVT_lev_percent This output reports the input voltage at terminal 12 100 at 10 V 0 at 0 V nv36 nvoAlval_2 T_lev_percent This output reports the input current at terminal C1 100 at 20 mA 0 at 4 mA or 0 mA nv37 nvoAlval_3 T_lev_percent This output reports the input voltage at terminal v2 100 at 10 V 0 at 0 V nvoPIDFb SNVT_lev_percent This output reports the PID feedback value nv39 nvoYstatus_1 _ Swi This output reports the status of digita erminal Y1 whose function is assign E20 nv40 nvoYstatus_2 _SWi This output reports the status of digita erminal Y2 whose function is assign E21 nv41 nvoYstatus_3 _ Swi This output reports the status of digita erminal Y3 whose function is assign E22 nvoYstatus_4 SNVT_switch Reserved nv43 nvoYstatus_5 _SWi This output reports the status of digital outpu erminal Y5A C
88. he reception of the last data the interface card interprets the state as a LONWORKS communications error Setting the heartbeat time at 0 0 s does not break the connection to the LONWORKS network even if no data is received QO For details about the settings and activities on a LONWORKS connection break refer to Chapter 8 Section 8 1 Specifying an Inverter Reaction to LONWORKS Communications Errors Data setting range 0 0 to 6553 4 s 0 1 s resolution Default setting 0 0 s Ignore connection break Note Writing a value e g 6553 5 exceeding the data setting range to this CP displays the value but does not update the internal value retaining the previously written data Table 7 11 NVs with Receive Heartbeat Time Specified by SCPT_maxRcvTime 2 SCPT_maxSendTime Send heartbeat This CP specifies the constant updating period for all output NVs listed in Table 7 12 below in block Specifying it periodically updates those NVs that include the internal monitor values Setting the send heartbeat at 0 0 s does not cause updating Data setting range 0 0 to 6553 4 s 0 1 s resolution Default setting 0 0 s No periodic updating Table 7 12 NVs with Send Heartbeat Time Specified by SCPT_maxSendTime mon sssmgrn 34 3 4 SCPT_minSendTime Minimum pause period for send This CP specifies the send prohibit time length for all output NVs listed in Table 7 13 in block Until this time has elapsed
89. however only apparent and the inverter runs with its function code settings To make the monitored CP values match the inverter s settings use the LONWORKS integration tool to execute the Synchronize CP command e g ReSync CPs in LonMaker and upload the CP values of this card Modifying CP associated function codes from the keypad does not automatically update the CP values being monitored by the LONWORKS integration tool This is however only apparent and the modification is validated on the associated CPs without any problems To update the monitored CP values use the LONWORKS integration tool to execute the Synchronize CP command e g ReSync CPs in LonMaker and upload the CP values of this card The moment the LONWORKS integration tool sets CP values new or unchanged values all output NVs implemented on this card output the latest data at that time Use this feature to update the NVs on the network with the latest data In addition switching the inverter from offline to online also outputs all output NVs as well 21 ENGLISH 7 4 VSD Object Input Network Variables 1 2 nv1 nviDrvSpeedStpt This NV controls the inverter s run stop and frequency commands via the LONWORKS network Variable type SNVT_switch Table 7 6 Operation of nviDrvSpeedStpt 0 0 Zero speed command No torque generated 0 5 to 100 0 Run at 0 5 to 100 0 frequency IA Default setting state 1 value 0 The interface c
90. inSendTime Output timing At the time of data change at intervals specified by SCPT_maxSendTime if specified or after the time specified by SCPT_minSendTime if specified Note Although the nv42 nvoYstatus_4 exists it does not function since the Inverter does not support terminal Y4 nv44 to nv48 nvoXstatus_1 to nvoXstatus_5 The nv44 to nv48 check whether terminal commands applied to inverter s digital input terminals X1 to X9 are validated or not on the inverter respectively and outputs it in ON OFF state Ti Setting data 0 to inverter s function code y98 or UCPT_LinkFunc makes it possible to monitor the validation status of terminal commands applied to physical terminals Xn respectively In this situation it is also possible to monitor commands assigned by nviXcmd_1 to nviXcmd_5 as well For details refer to the RS 485 Communication User s Manual MEH448 Chapter 5 Section 5 1 2 3 Operation command data Variable type SNVT_switch Data setting range value 0 0 100 0 state 1 0 CPs for control of the affected network bandwidth SCPT_maxSendTime SCPT_minSendTime Output timing At the time of data change at intervals specified by SCPT_maxSendTime if specified or after the time specified by SCPT_minSendTime if specified Ti Assigning Universal DI to a digital input terminal E01 to E05 25 makes it possible to output the physical ON OFF status of terminal Xn onto the LONWORKS network Accor
91. input terminals 12 C1 and V2 in percentage respectively Table 7 7 lists the relationship between terminals and NVs Network variables Analog terminals Analog signal level nvoAlVal_1 12 0 to 100 0 to 10 V nvoAlVal_2 C1 0 to 100 4 to 20 mA or 0 to 20 mA nvoAlVal_3 v2 0 to 100 0 to 10 V Table 7 7 Analog input terminals and NVs ENGLISH EI For details about terminals 12 C1 and V2 refer to the Wiring for control circuit terminals in the Inverter User s Manual Variable type SNVT_lev_percent Data setting range 0 000 to 100 000 0 005 resolution CPs for control of the affected network bandwidth SCPT_maxSendTime SCPT_minSendTime SCPT_minDeltaLevel Output timing At the time of data change at intervals specified by SCPT_maxSendTime if specified Note after the time specified by SCPT_minSendTime if specified or when the data change rate exceeds the value specified by SCPT_minDeltaLevel if specified The NV ignores bias and gain data for each analog input On the LONWORKS network the following relationship is always established regardless of the bias and gain data When 0 V 0 mA or 4 mA is applied to an analog input terminal the NV value is 0 and when 10 V or 20 mA 100 27 6 7 8 nv38 nvoPIDFb When the PID feedback value is assigned to any of analog input terminals 12 C1 and V2 this NV outputs the analog signal level applied to that te
92. ion codes listed in Table 6 2 To enable other functions modify them listed in Table 6 3 Q For details about function codes refer to the user s manual of an inverter and RS 485 Communication User s Manual MEH448 Chapter 5 Section 5 2 Data Formats Tip Function code settings in Tables 6 1 through 6 3 are not essential for LONWORKS communication Those settings can be made either before or after commissioning of the interface card Note IMPORTANT After commissioning of the interface card be sure to restart the inverter or reset it with a LONWORKS integration tool e g LonMaker The card does not operate normally just by turning it online Until it is done the changes made for network variables NVs or configuration properties CPs will not be validated on the inverter Table 6 1 Function Code Settings for Enabling Run Frequency and nviXcmd1 to 5 Commands via LONWORKS Network 5 ee Factory r A default zu Zu 9 y98 Run and frequency commands 3 Setting UCPT_LinkFunc is via LONWORKS network equivalent to setting y98 y99 Run and frequency commands 0 No change is required from via Loader the factory default E01 to E09 Command assignment to Depends on Except the following Even if LE is selected terminals X1 to X9 the target 24 1024 LE selected turning the physical inverter 35 1035 LOC selected terminal ON causes no problem Even if LOC is selected the physical terminal OFF causes no problem E98 Co
93. ive Functional Profile Version 1 1 compliant Network topology Free topology Bus Star Loop and Hybrid Network variables NVs 62 in total Able to read and write all function codes supported in Inverter Note IMPORTANT configuration properties CPs will not be validated on the inverter Chapter 2 Acceptance Inspection Unpack the package and check that A LONWORKS interface card is contained in the package The interface card has not been damaged during transportation no defective electronic devices dents or warp The model name OPC LNW is printed on the interface card See Figure 2 1 A barcode label representing Neuron ID is attached to the interface card Another barcode label not After commissioning of this card be sure to restart the inverter or reset it with a LONWORKS integration tool e g LonMaker Until it is done the changes made for network variables NVs or attached to the card comes with the card If you suspect the product is not working properly or if you have any questions about your product contact your Fuji Electric representative Note recommended tool is Echelon LonMaker None of an XIF file and resource file comes with the LONWORKS interface card These files can be downloaded for free registration required from our website at https felib fujielectric co jp download index htm site global amp lang en A LONWORKS integration tool does not come with the inte
94. led Turns 1 when the inverter is in an alarm state or has not solved an alarm 7 2 4 Configuration properties CPs Configuration properties are not supported for the node object 7 3 VSD Object 7 3 1 VSD object overview The Variable Speed Motor Drive VSD object allows you to control the inverter and monitor its running status Figure 7 2 illustrates an overview structure of a VSD object Letters in parenthesis at the tail of the NV name strings show the names of the inverter s function codes that are involved by the related NVs MEH448 Chapter 5 FUNCTION CODES AND DATA FORMATS VSD Object 1 a aM nv1 nviDrvSpeedStpt nv2 nviDrvSpeedScale nv8 nviOpecmd S06 gt nv9 nviFreqcmd S05 gt nv10 nv11 nviReadParamCode r nviWriteParaCode we gt 2 nv12 nviWriteParamVal gt nv13 nviAOcmd S12 nv14 nviDOcmd_Y1 S07 nv15 nviDOcmd_Y2 S07 nv16 nviFWDcmd S06 nv17 nviXcmd_1 S06 nv21 nviXcmd_5 S06 nv22 nviAlarmReset S14 For details about the function codes in parenthesis refer to the RS 485 Communication User s Manual nv4 nvoDrvSpeed nv6 nvoDrvPwr M10 nv3 nvoDrvCurnt M11 nv7 nvoDrvRunHours W79 nv5 nv
95. lo E21 E21 Y2 li lg ar DO DO NV R 7 4 VSD 6 3 6 3 LONWORKS 0 15 UCPT_CbILossMode LONWORKS 8 0 0s 60 0s UCPT_CbILossTimer 0 255 030 1 030 0 LONWORKS 10 4 Ver1 42 0142 1 2 3 027 o28
96. mmand assignment to 98 No change is required from terminal FWD the factory default Note The number of function codes and inverter s general purpose input terminals differs depending on the target inverter To enable particular NVs listed below modify the following function codes in addition to the ones listed in Table 6 1 Table 6 2 Function Codes Required for Enabling nviAOcmd and nviDOcmd_Y1 and Y2 Function Bo Factory r De default 9 Be F31 F35 Analog output to terminals FM1 and FM2 or FMA Ka 10 Universal AO and FMP nviDOcmd_Y1 Y2 E20 E21 Signal assignment to terminals Y1 and Y2 27 Universal DO QJ For details about network variables NVs refer to Table 7 4 VSD Object Network Variables To enable other functions modify function codes listed in Table 6 3 Table 6 3 Function Codes Required for Enabling Other Functions Function ated Factory z default ions nae Ba Operation selection at occurrence of 0 0to 15 Can be specified by LONWORKS communications error UCPT_CblLossMode Timer at occurrence of LONWORKS 0 0 s 0 0s to 60 0 s Can be specified by communications error UCPT_CblLossTimer Service button equivalent 0 to 255 Setting 030 to 1 or above is functionally equivalent to the depression of the service button Once 030 data is changed it will automatically revert to 0 LONWORKS card software version Depends 4 digit in decimal notation on cards Only fo
97. n code name cation number Command Data W1 23 Monitor 3 Monitor Data Monitor 4 Fundamental Functions Monitor 5 Extension Terminal Functions Alarm 3 Control Functions Alarm 4 Motor 1 Parameters Alarm 5 H High Performance Functions 2 Keypad Panel Function A Motor 2 Parameters T Clock Timer Function Extension Terminal Functions 1 High Performance Function 1 33 21h Optional Functions 1 Soft relay 2 35 23h Monitor Data 1 Application Function 7 Application Function Application Function J4 Application Function Application Function Application Function Application Function Classifi Function code name cation x N Optional Functions For elevators Motor 4 Parameters Soft relay 1 Application Function 1 Link Functions Monitor Data 2 Alarm Data 1 Alarm Data 2 Motor 3 Parameters 19 20 Application Functions 2 g M F EE LA oe y b 31 ENGLISH Example F26 F Group number 04 wr wo 26 1A 16 notation Ra Example Reading the inverter s function code F23 Starting frequency whose value is 0 5 Hz 1 nv10 nviReadParamCode Enter 417 hex to this NV Function code group F 04h Function code number 23 17h 2 nv33 nvoReadParamVal This NV outputs 5 5 means 0 5 Hz because of the format with 0 1 Hz resolution 32 7 6 2 Writing to inverter s function codes Use nv11 nviWriteParamCode nv12 nviWriteParamVal and nv34 nvoAccessErrCode This section summarizes the writi
98. nd FMP respectively The LONWORKS network cable is not connected to the card but the COMM LED lights Normal operation No problem The speed command is validated on the inverter but the actual motor speed is different from the commanded frequency Refer to the user s manual of an inverter Motor is running abnormally 37 Chapter 10 Specifications 10 1 General Specifications For the items not covered in this section the specifications of the inverter apply Item Specifications Model OPC LNW Operating ambient temperature range 10 to 50 C Temperature around the inverter Operating ambient humidity range 5 to 95 RH There shall be no condensation External dimensions 98 x 40 mm Applicable inverter Check the user s manual of an inverter about an object inverter and a ROM version 10 2 Communications Specifications Item Specifications Transmission speed 78 kbps Communication IC FT3120 Smart Transceiver Transceiver TP FT 10 Free topology Network protocol LonTalk protocol compliant Network variables NVs 62 including inactive NVs Configuration properties CPs 28 including inactive CPs Applicable profile Variable Speed Motor Drive Functional Profile Version 1 1 compliant 38 LONWORKS LONWORKS Interface Card OPC LNW Instruction Manual First Edition August 20
99. ne takes effect on the inverter Last command has priority Tip To validate this NV entry on the inverter any of the following settings is required UCPT_LinkFunc 1 or 3 or inverter s function code y98 1 or 3 nv10 nviReadParamCode This NV specifies a target inverter s function code to read out its data with nv33 nvoReadParamVal Q For details about readout of function code data refer to Section 7 6 1 Reading from inverter s function codes Variable type SNVT_count Data setting range 0000 to FFFF hexadecimal Default 0000 hexadecimal CPs for control of the affected network bandwidth None 23 6 7 8 nv11 nviWriteParaCode nv12 nviWriteParamVal Data contained in nv12 will be written into a function code specified by nv11 LQ For details about writing data refer to Section 7 6 2 Writing to inverter s function codes Variable type SNVT_count Data setting range 0000 to FFFF hexadecimal Default setting 0000 hexadecimal CPs for control of the affected network bandwidth None nv13 nviAOcmd This NV outputs its value onto the inverter s analog output terminal FMA FMP FMI same as universal AO To terminal FM1 the NV outputs 0 to 11 VDC or 4 to 20 mADC To terminal FM2 the NV outputs 0 to 11 VDC or 0 to 20 mADC To terminal FMA the NV outputs 0 to 11 VDC or 4 to 20 mADC To terminal FMP it outputs a square wave pulse train prescribed by the inverter For FMI it output
100. ng procedure 1 Enter the inverter s target function code into nv11 nviWriteParamCode The data entry format is the same as that of the readout on the previous page 2 Enter data to be written into the target function code into nv12 nviWriteParamVal This starts the writing process of the function code data to the inverter The data entry format is the same as that of the readout on the previous page QI For details about the data format of individual function codes refer to the RS 485 Communication User s Manual MEH448 Chapter 5 Section 5 2 Data Formats 3 nv34 nvoAccessErrCode outputs the result of the writing process then the writing process terminates The format of nv34 nvoAccessErrCode is shown below 1 byte 1 byte 1 byte Function code Function code Error code group of error number of the error detection target detection target No LonMaker represents this NV data in the format Error code decimal Function code group decimal Function code number decimal EI Function code groups are the same as those in the readout process See Table 7 9 Table 7 10 Error Codes 00h 0 Normal Link priority error Attempted to write data to a non existing function code Attempted to write data to a write protected function code Attempted to write data to a function code not allowed to change during running Attempted to write data to a function code not allowed to change when the terminal input is alive 08h 8 Out
101. oDrvVolt M12 nv23 nvoDrvStatus M14 nv28 nvoOpeTm_1 W76 gt nv24 nvoOutputFreq M09 nv29 nvoOpeTm_2 W77 nv25 nvoDrvTorque M07 nv30 nvoDCbusCapacity W75 nv26 nvoDrvEnergy W81 nv31 nvoDrvTemp_1 M61 nv27 nvoDrvOpeHours W70 nv32 nvoDrvTemp_2 M62 nv33 nvoReadParamVal nv34 nvoAccessErrCode nv35 nvoAIVal_1 M49 nv37 nvoAiVal_3 M54 nv36 nvoAIVal_2 M50 nv38 nvoPIDFb M72 nv39 nvoYstatus_ 1 M15 nv44 nvoXstatus_ 1 M13 nv43 nvoYstatus_5 M15 nv48 nvoXstatus_5 M13 nv49 nvolnAlarm M14 nv55 nvoAlarmCurrent X21 nv50 nvoAlarm M16 nv56 nvoAlarmVolt M38 nv51 nvoAlarmLog M17 19 nv57 nvoAlarmOpTime M42 nv52 nvoAlarmOpCmd M39 nv58 nvoAlarmPower X35 nv53 nvoAlarmFreq_1 M31 nv59 nvoAlarmTorque M33 nv54 nvoAlarmFreq_2 M35 24 Configuration Properties Figure 7 2 Overview Structure of VSD Object 14 7 3 2 List of VSD object network variables NVs Table 7 4 lists the summary of VSD object network variables NVs The function code column in the table shows their associated inverter s function codes Some of the VSD object input and output NVs are detailed in Sections 7 4 and 7 5 respectively Table 7 4 VSD Object Network Variables Index Variable type Descriptions De nv1 nviDrvSpeedStpt T This input provides start stop commands and a low resolution speed setpoint as a percentage of SCPT_nomFreq nviDrvSpeedScale T_lev_per
102. ode Object 0 3 nviRequest nvoStatus TV1 SNvT obj_request nV2 SNvT obj_status nvoFileDirectory nv8 SNVT_adress a J Figure 7 1 Overview Structure of Node Object 7 2 2 List of node object network variables NVs Table 7 1 lists node object network variables supported on the interface card Table 7 1 Node Object Network Variables nv1 nviRequest SNVT_obj_request This variable is used to request a particular mode for an object Requests supported RQ_NORMAL 0 RQ_ENABLED 7 RQ_DISABLED 1 RQ_UPDATE_STATUS 2 RQ_REPORT_MASK 5 RQ_CLEAR_ALARM 10 nv2 nvoStatus SNVT_obj_status This variable is used to report the status of an object Statuses supported object_id invalid_id invalid_request disabled in_alarm report_mask nv8 nvoFileDirectory SNVT_address This variable is used to provide the starting address of the directory that contains the configuration file 7 2 3 NV details 1 nviRequest Table 7 2 lists responses to the request modes of nviRequest Table 7 2 Responses to nviRequest Node object response VSD object response RQ_NORMAL 0 the normal mode Updates nvoStatus and outputs the new object status Enables the node object and NVs to Enables the VSD object and NVs to the normal mode Updates nvoStatus and outputs the new object status RO_ENABLEIT RQ_DISABLE 1 Stops the motor if running Stops the motor if running Keeps the node object ena
103. of data entry range 09h 9 Attempted to write data to a password protected function code OFh 15 Function code write error Note If a writing process for a function code is interrupted by another writing request error code OFh Function code write error is immediately issued to nv34 nvoAccessErrCode as a response to the interrupting request then the response to the interrupted process will be issued Example Writing 9 5 s to the inverter s function code H13 Restart Mode after Momentary Power Failure Restart time 1 nv11 nviWriteParaCode Enter 80Dh to this NV Function code group H 08h Function code number 13 ODh 2 nv12 nviWriteParamVal Enter 95 to this NV 95 means 9 5 seconds because of the format with 0 1 s resolution 3 nv34 nvoAccessErrCode The written result is returned to this NV as the following strings For normal writing 0 8 13 0 Error code H Function code group 13 Function code number For out of range writing 8 8 13 8 Error code H Function code group 13 Function code number 33 ENGLISH 7 7 VSD Object Configuration Properties CPs This section details VSD object configuration properties CPs that need supplemental descriptions For CPs not found in this section refer to Section 7 3 VSD Object 1 SCPT_maxRcvTime Receive heartbeat This CP specifies the heartbeat receive interval for input NVs listed in Table 7 11 in block If no data is received within this interval after t
104. on impossible due to noise Data entered to NVs or CPs after commissioning cannot be validated on the inverter After commissioning of the card the inverter is not restarted or reset with a LONWORKS integration tool e g LonMaker The network is offline or disabled Output NV cannot be monitored The SCPT_maxSendTime value specified is not greater than the SCPT_minSendTime value specified The SCPT_minDeltaLevel value specified is too large so that the change cannot be recognized The card is in the waiting time specified by UCPT_SendDelayAfterDevRdy The network is offline or disabled Arun or frequency command cannot be validated on the inverter y98 or UCPT_LinkFunc is not set to 3 Any higher priority run or frequency command is enabled by inverter s function codes y99 LE or LOC terminal command After commissioning of the card the inverter is not restarted or reset with a LONWORKS integration tool e g LonMaker The network is offline or disabled Turning nvixXcmd_1 to 5 or nviFWDcmd command ON is not validated on the inverter ENGLISH y98 or UCPT_LinkFunc is not set to 2 or 3 Terminals X1 to X5 and FWD are assigned commands not accessible via the LONWORKS network Turning nviDOcmd_Y1 or Y2 ON or entering data to nviAOcmd cannot output it to the inverter terminal e Universal DO and Universal AO are not assigned to terminals Y1 FMI and FM2 or FMA a
105. onstant speed thermistor or stopped 10 OAn Undervoltage 31 1F Memory error 11 OBy Input phase loss 32 204 Keypad communications error 12 0Cy Power supply frequency error 7 33 211 CPU error 13 0Di AC fuse blown 34 224 Option communications error 14 0E Fuse blown 35 234 Option error 15 OFy DC fuse blown 36 2414 Operation protection 16 104 Charger circuit fault 37 254 Tuning error 17 114 Heat sink overheat 38 261 RS 485 communications error COM port 1 18 External alarm 53 354 COM port 2 19 Inverter internal overheat i 39 271 A D converter defection 20 Motor protection 7 42 29 Out of step detection PTC NTC thermistor 22 Braking resistor overheat 46 2E Output phase loss 29 Table 7 8 Alarm Codes Continued Alarm codes Alarm codes in Description in Description M16 to M19 M16 to M19 47 2Fy Speed mismatching Feedback error Out of speed control 91 5By Exterior PID1 FLA 92 5Cy Exterior PID2 Flo 51 33 Data save error during 93 5Dy Exterior PID3 PLE undervoltage 50 324 Magnetic pole sensor error 52 344 Position deviation error 250 FAy Low battery 54 364 Hardware error 251 FBy Time information loss 56 384 Position control error ra 252 FC Forced operation 57 394 Enable circuit error 253 FDy Password protection 58 3A Current input
106. peed commands between enable and disable via the LONWORKS network Functionally equivalent to function code y98 Setting y98 data to 3 enables run and speed commands UCPT_multStepFreq1 Sets the frequency to be applied when multistep frequency 1 is selected Multistep frequency Assigning terminal commands to digital input terminals X1 to X5 and FWD with E01 to E05 and E98 and turning those terminals ON OFF can select the multistep frequency PT_PIDsettings 001 Contains an ensemble of four PID parameters specified in the array order shown below P gain time D time and feedback filter time constant PT_StartFreq Sets the starting frequency CPT_StopFreq Sets the stop frequency 0 2Hz UCPT_TorqLimit Specifies an action to follow when a p 35 communications line break error occurs on the LONWORKS network CPT_CblLossMode Functionally equivalent to function code 027 PT_CblLossTimer Sets the timer to determine the issuing timing of Er 5 alarm triggered by a communications line break on the LONWORKS network Functionally equivalent to function code 028 UCPT_FlyingStart Mode Specifies the auto search for idling motor s speed 0 In the auto search mode the frequency can be Disable specified by function code H17 UCPT_momentary Specifies the restart mode after a momentary power Pwr ailure LossMode Functionally equivalent to function code F14 PT_AutoRestart E Specifies
107. r monitor Ex Ver 1 42 is shown as 0142 Count of communications errors between card and inverter Only for monitor Contents of communications errors Contents of the most recent between card and inverter Only for monitor communications error Transmission errors only 2 The error codes are identical with the ones used in the Fuji general purpose inverter protocol 3 1 For details about 027 and 028 refer to Chapter 8 Section 8 1 Specifying an Inverter Reaction to LONWORKS Communications Errors 2 Application errors except transmission errors will be written into the VSD object nv34 nvoAccessErrCode For details about error code contents refer to Chapter 7 Section 7 6 2 Writing to inverter s function codes 3 For error code details refer to the RS 485 Communication User s Manual MEH448 Chapter 4 Section 4 3 Communications Errors ENGLISH 11 Chapter 7 Object Details 7 1 Overview The interface card supports two objects a node object and Variable Speed Motor Drive object VSD object This chapter provides detailed information on these objects 7 2 Node Object 7 2 1 Node object overview The node object processes the system events in LONWORKS network communication for the interface card Usually any intervention of users or integrators is not required Figure 7 1 illustrates the relationship between a node object and network variables NVs a N
108. rCode UNVT_ErrCode 1byteHex x 3 SNVT_lev_percent SNVT_lev_percent j s SNVT_lev_percent nvoP DFb A R i gt nv28 nv29 nv30 nv31 nv32 nv33 nv34 nv35 nv36 nv37 nv38 SNVT_lev_percent nv39 SNVT_switch nv40 SNVT_switch nv41 SNVT_switch nv42 SNVT_switch _ ch ch h nv43 bS aik nv44 nv45 X5 S06 X5 E05 TRUE False M14 0 1Hz 100 0 005 100 1 1C T 7 6
109. rface card Get the one separately The ENGLISH The Neuron ID is printed on the barcode label The barcode symbology is Code 39 Barcode label Neuron ID CN1 LONWORKS terminal block aa gt o Status indicator O LEDs ET e WPT A a Figure 2 1 Front of the Interface Card Figure 2 2 Back of the Interface Card Chapter 3 Basic Functions 3 1 Service Button The service button is used to commission the LONWORKS interface card to the network Pressing the button outputs the Neuron ID to the network Ti Setting inverter s function code 030 to 1 is functionally equivalent to the depression of the service button The function code enables commission from the keypad so as not to require removing the inverter cover making it safe and convenient A WARNING When pressing the service button take extra care not to touch the inverter high voltage section Setting inverter s function code 030 to 1 is functionally equivalent to the depression of the service button so using the function code is recommended for safety Electric shock could occur 3 2 Status Indicator LEDs The four status indicator LEDs show the status of the interface card as listed below Table 3 1 LED Status EE 3 Self diagnostic test running or initialization in This test takes approx 0 5 Blinks in green x POWE
110. rminal as the PID feedback value in percentage LI To use this NV it is necessary to enable the inverter s PID control For details about the PID control of the inverter refer to the J codes and PID Control Block given in the Inverter User s Manual Variable type SNVT_lev_percent Data setting range 0 0 to 163 830 0 005 resolution CPs for control of the affected network bandwidth SCPT_maxSendTime SCPT_minSendTime SCPT_minDeltaLevel Output timing At the time of data change at intervals specified by SCPT_maxSendTime if specified after the time specified by SCPT_minSendTime if specified or when the data change rate exceeds the value specified by SCPT_minDeltaLevel if specified This NV data can be adjusted with analog input gain setting The related inverter s function codes are C32 C34 C37 C39 C42 and C44 Tip nv39 nv40 nv41 nv43 nvoYstatus_1 nvoYstatus_2 nvoYstatus_3 nvoYstatus_5 The nv39 to nv41 and nv43 output the ON OFF status of inverter s digital output terminals Y1 to Y3 and relay contact output terminal 5A C respectively Signal assignments to these terminals are made with function codes E20 to E22 and E24 J For details about function codes E20 E21 E22 and E24 refer to the user s manual of an inverter FUNCTION CODES Variable type SNVT_switch Data setting range value 0 0 100 0 state 1 0 CPs for control of the affected network bandwidth SCPT_maxSendTime SCPT_m
111. rter H Function code group 08 081E hexadecimal 2078 decimal 30 1E hexadecimal bit 15 bit 14 bit 13 bit12 bit11 bit10 bit9 bit8 bit7 bit6 bit5 bit4 bit3 bit2 bit1 bitO Inverter s function code group Function code number Inverter s function code group Group of function codes F E C etc See Table 7 9 below Function code number 2 digit number following the function code group For example 98 in E98 2 nv33 nvoReadParamVal outputs the data of the function code specified by nv10 nviReadParamCode then the readout process terminates The value is subject to the format of individual function codes QI For details about the data format of individual function codes refer to the RS 485 Communication User s Manual MEH448 Chapter 5 Section 5 2 Data Formats Tip Input of a non existing function code returns 0 to nv33 nvoReadParamVal Note If a running readout process for a function code is interrupted by another readout request the interrupting request will be ignored This interface card does not support any output NV that identifies whether a readout process is already running To run the read process very frequently therefore it is recommended that the software be so designed that it monitors the input output status of nv10 nviReadParamCode and nv33 nvoReadParamVal confirms the completion of all the previous processes and then starts a new readout process Table 7 9 Function Code Groups Classifi Functio
112. s SCPT_maxRcvTime Skip out on time out No error indication on LEDs NV continues the current state Other than Os Set time out time After time out immediately the motor coasts to a stop and issuing Er I Delay time After_time out the motor coasts to a stop and issuing Er after the time longer than the specified timer 028 period Delay time After time out when the data does not input during the time specified timer 028 period the motor coasts to a stop and issuing 5 If the data input the communication error is disvalued 3 13 to 15 The communication error is disvalued and continues the current behavior no is issued NV continues the current state Minor indication on LEDs flashing red on POWER LEDs After time out immediately decelerates it to a stop and after stopped issuing 4 5 Delay time After time out decelerates it to a stop after the time longer than the specified timer 028 period and after stopped issuing Er I Delay time Even if a LONWORKS communications error has occurred the inverter may not display After time out when the data does not input during the time specified timer 028 period decelerates it to a stop and after stopped issuing Fr 5 If the data input the communication error is disvalued S with the Tip configuration including UCPT_CblLossMode 3 However the POWER LED on the interf
113. s 4 to 20 mADC This allows the inverter to work as an analog output device having a single channel physical analog output LL For details about terminals FMA and FMP or FMI and FM2 refer to the user s manual of an inverter Wiring for control circuit terminals and Overview of Function Codes F31 and F35 Variable type SNVT_lev_percent Data setting range 163 840 to 163 830 Valid range for inverter 0 000 to 110 000 Setting 163 835 invalid for example will be ignored so that the inverter runs with the previous value Default setting 0 000 CPs for control of the affected network bandwidth SCPT_maxRcvTime C Tip To validate this NV entry on the inverter either of the following settings is required For FM1 or FMA inverter s function code F31 10 For FM2 or FMP or FMI F35 10 It is possible to enable both FM1 and FM2 or FMA and FMP however both terminals output the same analog level signals nv14 nviDOcmd_Y1 nv15 nviDOcmd_Y2 The nv14 or nv15 outputs its ON OFF value onto inverter s digital output terminal Y1 or Y2 respectively same as universal DO This allows the inverter s physical Y terminals to work as a 2 bit max digital output device Q For details about Y terminals refer to the user s manual of an inverter Wiring for control circuit terminals and Overview of Function Codes E20 and E21 Variable type SNVT_switch Data setting range value
114. ssued by nviDrvSpeedStpt so turning ON either one of those run commands runs the motor To stop it therefore concurrently turn OFF both of them issued by the two NVs Tip To validate this NV entry on the inverter any of the following settings is required UCPT_LinkFunc 2 or 3 or inverter s function code y98 2 or 3 ala 10 nv17 to nv21 nviXcmd_1 to nviXcmd_5 These NVs control the ON OFF of inverter s digital input terminals X1 to X5 Command assignments to X1 to X5 are made with function codes E01 to E05 respectively L For details about function codes E01 to E05 refer to the user s manual of an inverter FUNCTION CODES Variable type SNVT_switch Data setting range value 0 0 to 100 0 state 1 0 1 Default settings value 0 0 state 0 CPs for control of the affected network bandwidth SCPT_maxRcvTime Note Do not use any of nviXcmd_1 to nviXcmd_5 as a bit array e g multistep speed command This is because in LONWORKS communication two or more variables are never input concurrently so the interface card may miss fetch the bit array at the timing when the data gets validated on the inverter Accordingly the inverter could transmit it as unexpected data To handle them as a bit array use nv8 nviOpecmd instead Note Depending on the command assignment to inverter s digital input terminals some ON OFF commands via the LONWORKS network using these NVs may be ignored On the other hand some
115. t board control PCB The interface card can be connected to the option connection ports on the inverter s control PCB Note Check the user s manual of an inverter about the connection port of the interface card ote EA To remove the front cover refer to wiring in the Inverter Instruction Manual 2 Insert connector CN1 on the back of the interface card Figure 2 2 into the option connection ports on the inverter s control PCB Then tighten the two screws that come with the card Figure 4 2 Check that the positioning cutout shown in Figure 4 1 is fitted on the tab in Figure 4 1 and connector CN1 is fully inserted in Figure 4 1 Figure 4 2 shows the interface card correctly mounted Note 3 Perform wiring on the interface card For wiring instructions see Chapter 5 4 Put the front cover back into place To put back the front cover refer to wiring in the Inverter Instruction Manual ENGLISH SSS z Fit the positioning cutout of the interface card over the tab on the inverter to determine the mounting position Insert connector CN1 on the interface card into the option connection ports on the inverter s control PCB Note Be sure to follow the order of and Inserting CN1 first may lead to insufficient insertion resulting in a contact failure Figure 4 1 Mounting the Interface Card to FRENIC HVAC A port Figure 4 2 Mounting Completed on FRENIC HVAC A port 4 2 Removing the Interf
116. the number of auto resetting times for automatically escaping the tripped state Functionally equivalent to function code H04 HO5 specifies the reset interval UCPT_SendDelay AfterDevRdy Specifies the data transmission start delay time for he LONWORKS interface card The output NV starts data transmission after this delay time has elapsed from when the interface card is powered up or receives a reset command rom the LONWORKS integration tool This CP should be used to strictly manage the starting time of data transmission on the whole network Specifying 0 0 s makes the NV start data transmission upon completion of initialization of the card 2 1 These function codes differ depending on the target inverter For details about the PID control of the inverter refer to the J codes and PID Control Block given in the Inverter User s Manual 20 2 Note Note Tip This LONWORKS interface card needs approx 0 5 second for initialization Therefore specifying less than 0 5 second cannot start data transmission from the output NV until approx 0 5 second elapses When the interface card is powered up it transmits all output NVs to validate the latest inverter settings on the LONWORKS network Immediately after commissioning the LONWORKS integration tool temporarily monitors CP default values so those CP values do not necessarily match the inverter s function code settings This is
117. toring of the inverter configuration as well as writing to and reading from the inverter s function codes This instruction manual does not contain inverter handling instructions Read through this instruction manual in conjunction with the inverter Instruction Manual and be familiar with proper handling and operation of this product Improper handling might result in incorrect operation a short life or even a failure of this product Keep this manual in a safe place Related Publications Listed below are the other materials related to the use of the LONWORKS interface card Read them in conjunction with this manual as necessary RS 485 Communication User s Manual Inverter instruction Manual The materials are subject to change without notice Be sure to obtain the latest editions for use A figure existence of a terminal a function code an alarm code etc which have been written in this manual may change with object inverters How this manual is organized This manual is made up of chapters 1 through 10 Chapter1 Features Gives an overview of the main features of the LONWORKS interface card Chapter 2 Acceptance Inspection Lists points to be checked upon delivery of the interface card and precautions for transportation and storage of the card Also this chapter presents the appearance of the card and provides information on how to obtain an XIF file and LNS plug in Chapter 3 Basic Functions Provides instructions on ho
118. w to use the service button and status indicator LEDs Chapter 4 Installation and Removal Provides instructions and precautions for installing the interface card Chapter 5 Wiring Provides wiring instructions around the Basic Connection Diagram and the terminal blocks on the interface card and the cable specifications Chapter6 Function Code Settings Required for LONWORKS Communication Describes the inverter s function codes to be set for receiving run and frequency commands via LONWORKS network It also lists the related function codes Chapter 7 Object Details Describes the objects supported by the interface card and their network variables NV and configuration properties CP Chapter 8 Inverter Reaction to LONWORKS Communications Errors Describes on how the inverter operates if a LONWORKS communications error occurs Chapter9 Troubleshooting Provides troubleshooting instructions for certain problems e g when the inverter does not operate as ordered or when an alarm condition has been recognized Chapter 10 Specifications Lists the general specifications and communications specifications ENGLISH Icons The following icons are used throughout this manual Note This icon indicates information which if not heeded can result in the product not operating to full efficiency as well as information concerning incorrect operations and settings which can result in accidents Tip This icon indicates information that can prove
119. work wiring is polarity insensitive Connecting the two wires of the network cable to NET A and NET B enables communication without regard to polarity Wire crossing between the interface card and other nodes causes no problem 3 Network termination Free topology wiring requires a single terminating resistor per segment Note No terminating resistor comes with the interface card Prepare resistors separately The recommended terminating resistor is TP FT 10 Channel Terminator Model No 44100 manufactured by Echelon C1 R 52 30 1 1 8W O NET A C1 C2 100 uF 50 VDC min voltage rating ONETB Lo Figure 5 3 LONWORKS Network Termination 5 3 Wiring to Inverter Route the wiring of the LONWORKS communications cable as far from the wiring of the main circuit Note 3 oz as possible Otherwise electric noise may cause malfunctions Note Route the wires taking care not to let them go over the control PCB malfunctions may occur Pass the wires from the interface card between the control circuit terminal block and the front cover In the case of FRENIC HVAC 7 5 kW In the case of FRENIC HVAC 22 kW Figure 5 4 Wiring Examples ENGLISH Chapter 6 Function Code Settings Required for LONWORKS Communication To enable run frequency and nviXcmd_1 to 5 commands via the LONWORKS network the inverter requires setting function codes listed in Table 6 1 To enable particular NVs modify the funct
120. z All percent speed commands refer to this value 0 1s SCPT_rampUpTm Used to enter the ramp up time from the zero to 20 0 s F07 maximum speed Reserved UCPT_rampDown Reserved ii ed 0 1s SCPT_maxRcvTime Sets the heartbeat receive interval p 33 If the concerned NV receives no data within this interval it interprets the transmission as being broken Specifying 0 0 s disables this CP SCPT_minDeltaLevel R Sets the minimum data change rate for an output NV to start data transmission UCPT_rampUpTm2 SCPT_rampDownTm 0 18 Used to enter the ramp down time from the 20 0 s F08 maximum to zero speed ENGLISH If the data change rate exceeds this value the concerned NV interprets the data as being changed starting data transmission Specifying 0 0 disables this CP SCPT_minSendTime Sets the minimum pause time for an output NV to start data transmission Once the concerned NV finishes data transmission it does not start data transmission until this time has elapsed even if the data change rate exceeds SCPT_minDeltaLevel Setting 0 0 s disables this CP UCPT_BaseFreq 0 1 Hz Sets the base frequency of the inverter for motor 1 UCPT_JogFreq Reserved 19 en Be code UCPT_JumpFreq 0 1 Hz x 4 Contains an ensemble of four inverter s function codes specified in the array order shown below Jump frequency 1 2 3 and jump frequency band UCPT_LinkFunc Switches run and s
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