FRENIC5000G9S/P9S FRENIC-MEGA Classifi
Contents
1. PON 11038931 JO MA OE 10 MA CC 801195 j nvjoq egue1 801395 eq JO MJ 08 10 MA CC 3111 eguei 801395 eq LL VOHIA OINH34 S6D000 0IN3 Id A 38 ion G Replacement Informati App Fo ate uo Surpuodo q 0 Fuji Electric 13916183699 021 60510862 9104 zz 0s orpo onuoo 103204 omueuAQ 52108 Kouonboj dijs pey T 100W T 100W cvi 0 01 U09 10 99 uonoo 98 JoNUOD uonesueduro 415 gz 01 st uou 1 6 sejod pp os TO 00 Aytoedeo uo Surpuodo q 0 0s orpo uonesueduioo dijs YIM oguoo T dijs uonoe T 0109 Tid Tha 0 uonesueduioo dijs YUM TOUS 0 uonoo cvi 00 0 0 9 6 6 dijs 0 uonoo dooiq 8TH cra pe qesrp 51 10 99A2. 2481 uonoojop J249 eusis Suruuni enur 81 10 uonero ooop Suunp ATUO diy Jomod AQ Qndyno Aejoy uonoun p jeuruuo OSA pue VSA uonoun pA uoroun Euruio A uonoun CA uonoojes uoyoun q uonounyg uonedo oooq Suryeig g 666 ouo poyroeds y SOUT spoooxo enyoe 9035 03 10 o33uoo pung 666 peaa 00 01 00 666 00 01 005 uonoo es opoJA uonedo oooq oneuiogny C c 1eyurT 177 onbsoy 666 Yysty K eoneurojne 1 4 du A Suri 666 angea 195 0 51 eu 005 01 05 Suri 666 angea JOS 0 sr onbzoj eu 00z 01 05 uonedo oooq SULINP Sup e1g Jo
3. GIIS P1IS FRENIC MEGA Remarks Data for F09 F37 F09 0 1 8 096 0 2 9 3 0 3 10 5 11 8 Adjust the torque boost 0 5 0 13 0 using H50 and H51 as 0 6 14 396 ngeded 0 7 15 5 0 8 16 8 0 9 18 0 1 0 8 0 1 1 9 1 1 2 10 2 1 3 11 3 1 4 12 5 Adjust the torque boost 1 using H50 and H51 as 15 13 6 needed 1 6 14 796 1 7 15 896 1 8 16 9 1 9 18 0 2 0 0 0 3 0 0 6 4 0 1 1 5 0 1 7 6 0 2 2 7 0 2 8 8 0 3 3 9 0 3 9 For data values other than 10 0 4 4 those listed at the left use 11 0 1 5 0 the expression given 12 0 5 6 Pelo 13 0 6 196 14 0 6 7 15 0 7 2 16 0 7 8 17 0 8 3 18 0 8 9 19 0 9 4 20 0 10 0 Expression If 209 data of G11S or P11S is 2 0 to 20 0 F09 data of FRENIC MEGA 0 556 x 09 data of G11S or P11S 2 0 70 Glossary This glossary explains the technical terms that are frequently used in this manual Fo Fuji Electric 13916183699 021 60510862 Fo stan Fuji Electric 13916183699 021 60510862 Glossary Acceleration time period required for an inverter to increase its output from 0 Hz to the maximum frequency It should be specified taking into account the inertia of the machinery load Related function codes F03 A01 r01 F07 E10 E12 E14 and H54 Alarm output for any alarm A signal issued when any of the protective functions 15 activated Allowable voltag
4. 195 sr ou 005 01 oc Suppe1g 9 qestiq 666 Sunrun onbor 666 Tee 00 o1 00 1 1 angea JOS st eu 00z 03 OZ onbsoy Ado 50 voc 22015 uy NO 00 voe 2225 ug J40 005 voc reuuouqe yy Aue jndjno uuepy NO 009 voe reuuou NO 50 voe ores peuuouqe uy AAO 50 voe overs peurrou uy NO 00 vog reuuouqe yy 66 Aue jndjno uue y uonoung 9 9 0 reuruuo ado 009 vog puou AYOE JO OF OE JO MA TT 801195 ea MOTEQ JO MA CC eguei 80395 eq Sunes nezed Sumes jntgjoq VOHIA OINH3IA SII2000S DIN3 Id 6 9 52 App G Replacement Information 00 0 00 9 00 0 00 9 00 0 00 9 00 0 00 9 00 0 00 9 00 0 00 9 00 07 00 9 0 0009 01 00 0 0009 91 00 0 0009 01 00 0 0009 91 00 0 5 0009 01 0070 0009 01 000 0009 01 0070 doys 0 22104 0 p oun uoneio pou uoneio L TOEI oun L TOEI T UOLIS dojs SUIT uorounj 6X o1 Tx reuruuer 00c 0 9 00c 0 9 0 0
5. Kouenbogg uonoun ZA euruuer st TA uou 01 63 01 51 pumua o yndur pueuruio c1 01 01 0 1ndur e3e3 oA pesn you st TA 01 OI 21 o 3ndur pueuruio c1 speuruuog 01 0 1ndur ped amp ox uo A O pueuruo uo sKox V suonoung jpjuourepun 10 OE 10 MJ OF 10 MA CC ogue1 Surjos eq MOT9Q 20 CC egue1 801395 eq opo Suros ynejoq 3112 ynejoq VOHIA OINH3J S6D000 0IN3 Id VO3W OIN3 4 SA S69000S2IN3 1 36 ion G Replacement Informati App pue 9 59884 uo so qej uors1oAuoo 0 53841195 15004 104 juonno POI 1030 A speo 8 10 UNI 6 emnrej Jomod e Joye dup 1 0 Jo juaumo PAPI OY JO WCET 01 YT 0007 10 0 Sui ooo 4 10 10 0U1
6. poeds yeys Aq 199195 1031uour peods poeds JOWUOW CAT 5 CHT uuu poeds Aq P s poodg poeds JOWUOW CAT way CHT ur poods 1030 A Aq 129195 103ruour GAT 5 HT 8 dino uio yuan mdo 95 HT juonno pPI 1030 A gc dijs dmo SIS SH Sl SH Sl Ul Sl Aq 129 95 poodg 5 00 S 0 00 0 5 00 S 0 00 0 5 00 01 93 00 0 ZH 0 09 900 ZH 0 0 91 0 0 ZH 07008 91 0 0 juo1mo PLI JO 007 01 9 JO ZH 07008 01 0 0 ZH 07008 01 0 0 ZH 0701900 103ruour JOWUOW GAT 3 350 02 10 203 1ueunsnfpy Sojeuy uejsuoo 1914 c1 10 1uounsnfpy Sojeuy oum Kouenbor4 80131035 1591935 03 uonoojeq 1uaun SurureA pm 1591915 srso1o1sAH uonoojeq Aouenborq pay
7. ue 005 01 091 591195 A 005 10 dmo 01 08 591195 sse o A 00 Jof 8 ue jndino 005 01 091 591195 sse o A 005 101 eSvjo4 ue dmo A Opec 01 08 eSe3 oA ur o3v3 oA 0 ZH 07008 01 0 Sc ZH 07008 01056 ATA 10 CMY peura ped amp ex uo sKox 4 5 ped amp ox uo shox qOLS NIY AgI GALUI euru porroeds 1030JA pedAoy uo 549 4015 ony Asoog oy peoT 901815259 4 OWL 1ndin 4 oseg POWA 9524 amp ouonboj popon uone1edo 0 0 SIID 0 02 0 9 0 0z 0 9 sse A 00 007 582 A 005 005 582 A 00 007 582 A 005 005 00181940 onbzoj JURISUOD 0 0 03 0 Pelqeus st 6 1 03 0 T AS1OUd 01NB uononpoi mej o1enb ety 60 35004 enbzoj 0 0 SutAes 383509 0 0 01 0 7 5
8. 6 1 03 07T 8 4 og 0 0IH mej o1enbs 60 0 35004 enbzoj 0 0 009 91 10 0 009 91 10 0 sse o A 007 08t 01 OZE 582 A 000 A OFZ 0108 sse o 007 08t 01 OZE 582 A 000 A OFZ 0108 eSv3 oA oj 0 ZH 00 01 ST ZH 01 05 Magal pue GA 4 seuru 1 shay a3 uoneiedo 0 3500g 4 y 12 9Sej oA Kouenboaj eseg e8e3 oA POWA 9524 Aouonbery popon 4 9A0Q JO OF JO MA CC 301195 j nejoq 8 801395 eq 9A0Q JO OF Ao 9q JO MA CC 3119 osuel 80395 eq 62 VOHIA OINH3IJ SII2000S DIN3 Id A 49 iO 10 ALTI 0 o oq JO MX SL 0 01 0 5 juonno 10 0 A juonno 10 0 A 5 00701 93 00 0 ZH 0709 900 00 0 01 10 0 99001 01 0 ZH 0 09 01 0 0 9 000 001 93 00 00I 00 005 91 00 0 00 007 91 00 0 ZH 0005 01 0 0 ZH 0700 91 0 0 Aouonbary 80131035 oq ye 3123593 6 pexmooo
9. Kyroedeo yoedeo uo Surpuodoq MA 0001 03 070 powy 91V 100W MA TT dN MA 0057 03 1070 TION sepod o1 z 59104 oN TION y sepod pp Se od C 1010JA JO JO MJ OF JO MJ 0 A 0 9Q JO MA CC oSue1 841195 eq opo ereq 10 cc osuel 80395 eq 301195 j nejoq 3111 VOHW OINSIA SIID000 0IN334 6L ZL A 64 App G Replacement Information 440 9 0qe 10 0 o oq 10 SL OI K oAroodsoi1 TSA 01 06 5 uoroung 0 posn 10jsrso1 ou jo 5 5 pue MA SSO 8 Jo INLA 195 c wwe Suruuns 903 7 uni 03 onunuo 0001 93000 0 05 03 95070 10201024 NIN 0 10203024 esodand e1oueS c pejqeug 1 porqesiq 0 K eoneurojne Aouanbay WE perqeug 1 perqestq 0 5501 eseud jndur 10919 prepuejs 666 angea prepuejs 666 80001 93 10 0 070 010070 401 6666 01 0 401 6666 01 0 5999 010 5999 010 9001 01 940 9001 01 940 9001 01 940 59181515931 sso Sursieyosiq 1051593 Supqerg 10 uonoojo1q oru
10. 101991024 pue uoroojoJd gyep yoq pueuruio A osind ndut 181 Aq Sumas 1 00181940 usoyed Aq 8095 01 352 pentur OUD NAAOGI df Aq 301395 0 04405 NMOA dA ZUS p 07 19 uonezodo 001 A 01 c1 euro 5 ndur Aouonboy 1 pumua 5 A 01 01 01 c 1 5 31 15 reuruo 21 euru 3ndur 3ndur ZUNS 050 10 Sunjeg A 01 010 c 1 Aq 8 195 e Q uonesodo oued ped amp ox Aq 8 196 pesueuo oq au posueyo 941 pueuruio A JO MJ 08 JO MA CC Sumas j nejoq 8195 eq 9A0q JO A OE Ao 9q JO MA CC 8119 j nyjoq egue1 80395 eq 64 4 VOHIA OINH3IA SII2000S 0DIN3 I4 VOAIN SINAYS S SELL9000S2IN3 3 1 A 48 App G Replacement Information
11. 1 Satoru 0 00 03 005 01 01 A 01 121 onbor c 00 01 0 A OT 010 eurer 9AIJO pueuruoo Aq 0 eoneuroiny 666 500 01070 sser A 00 009 01 007 5582 007 00 03 002 S ZH 007001 91 10 0 804 peyoejes eur 2 00 0 50019 1 Ayu 0 4015 01 15205 UOnglo oooqq pue Ieour UuON LOH 0 39S uo dojs oj uoneio ooo 0 1 15004 604 01 19391 SKeA V 1010AUI 0 WOI JUMS je Jo omnyrey Jomod rejuouroui e Joye VISA 9AIJoeur S9ATUUT pue uoreo oooe 1eour rAm dieys uonero ooop pue uonvo oooe odeys s priu uonezo ooop pue uonedo oooe odeys s pue uoneo oooe 1eoui SATORU uonoe es opoJA SAL onuo oum dO SMPH oum 318159 359125 31 91 SUIT OO snoeuegjuejsur PON SurAes KS1oug 31815 207 souanbag aseyg OAd OOV STH
12. 801395 eq JO OF Ao 9q JO MA CC 3111 ynejoq Spo osuel 80395 eq 6L VOHIA OINH3IJ SII2000S DIN3 I4 A 50 App G Replacement Information co OV 0 8 sng JPF Od junoure Jamod ynduy 10122 peo T yndjno e8vy o4 mdmo juouno EN dijs Jaye Aouanbay yndjno di s Aouonboy 3ndjn 0 00 OT 05 pexr4 ayer 5 4 yndyng 0 8 ndyno s d 0009 03 cz oer OV essoatuy 0 8 sng yup enjeA JPJ Od junoure Id Jamod ynduy JOJO peo T yndjno e8vy o4 mdmo juouno dmo HINE aeS a uorjesueduroo dijs Jaye Kouenboag yndjno uorjesueduioo di s Aouonboy 3ndjn 0 uoroun 9 00 01 0 Gueunsnfpe 9A0Q 10 MA SL ZEPELOT 9 70 zHJ 91 0 dq amp ouenborg 19110 AO 9q 10 MA SS ZHA ST 01 70 ZH 0709 900 ana nding sa nding Sopeuy punos Kouenboi 401 ces Opti TO suoneorunumuoo BIA rexjmq
13. NMOA AN SPT ALMOG d 1 Sunjos Aouonboay ouo pueuruio Aouenboi q ZH 00 0 St Tonuoo ALM4OG d 1 pueuruoo Sumos Aouonbay petur 04u00 oz oi p 10 o jndur 1 pueuruoo os1oAu EuLION JO uonoo es pueuruio Aouenboi q OSIOAUT OGA 01 91 01 c1 eumu 0 yndur 1 SIAU JO Aouonbo14 T Te odiq Aouonbay amp rer xn y OGA 01 01 c1 eumu 0 yndur o3e3 oA amp ur oq z1 10 1ueunsnfpy uonoun popuojxq ZA eunn yroedeo V 0007 91 000 pU MA OE 005 91 10 0 MA CC MA 00 S 01 10 0 5 00 01000 960 S 01950 960 S 01 960 jndur es nd 3ndur 3181 Aq ZUS TT 1081940 usoyed Aq SUINSS 0 eur 358 ongea onuoo Aq SUS 0 onuoo NMOC dN Aq Sumes p 0102 10 pumua os1oAug
14. pue 9 y seSed uo so qe 80195 15004 104 Aytoedeo uo Surpuoadoq 000 00 peo juejsuo OMY 15004 omy Asoog oinyuorpo egs peoT Kroedeo uo Surpuoadoq x 007 0100 8uump peo 6 3500g uoneed omy Asoog omy peoT T Daq 20v SULINp 15004 ojny Suravs 6 Sures ASIOUq omy Asoog oinyuoroo eg peoT Kroedeo uo Surpuoadoq x 007 0100 onbo juejsuo 1 15004 omy Asoog omy Aytoedeo uo Surpuoadoq x 007 0100 o qeueA 0 1 15004 omy Asoog oy peoT 00 02 00 9 00 09 00 9 59195 55210 A 007 007 59195 sse o A 002 005 591195 55819 A 007 007 59195 sse o A 002 007 35004 7 5 0009 91 000 5 0009 91 000 sores A 007
15. GOT uonoojes 8 7 JOWUOW GOT uonezieniu ejeq uonejrumrT uonoed SOTT soun jo JOQUINN 0 0 00 001 01 10 0 4 oum uonedo oooq 00 0 98900100 ZHY 0 amp ouonbojgj 11 zp 9 YSTH 01 ZH 7 amp ouenboag 0 19591 jesor ojny ayer 4 3723591 ean re POW LISIA 10 MA SL 60 jueunsn py punos 263 L0 1erueo 11 ZY 01 Kouenboj 1911129 01 ZH 7 amp ouenboag 0 MASS 9 0 60 Kouenbejgjerue jueunsn py punos 2 0 Jared HA 0 Ij 291 TAT a TT ZY 1 Aouonbary 1911129 01 ZH 7 Aouonboyy 0 v6 03 18 sepoo uonoung 1 v6 01 18 you oq 0 31H 01 MOT 0 8 1 osouede 0 51 K1039 j 03 ejep opoo ezijeniug 1 uonezr errur o qusiq 0 1 S qesiq 0 1 15004 onbio 0 AO 9q 10 CC 60 Aouanbayy jueu
16. 5 omy peoT 1 Suunp 1500 1081940 SurAes K31ouo ojny 6 uone1od Junes ASIOUq omy soog oY peo T Kyoedeo uo Surpuodoq x 0 07 9900 juejsuo 15004 Sui Aes 5004 omy peo T Kroedeo uo Surpuoadoq x 0 07 0100 o qeueA 0 15004 Junes peoT 1 jsooq z Junes 5004 peo T 0 01 0 5 quano 0 0 SIID 1 0 Q ez 0 S O Jo jua umo PIPI Jo 956 01 950C 1030u1 10 C 103041 10 3AN ST uoreedo Zunes KS1ouo ojne 4 0 3835100 0 0 01 0 C 6 1 01 0 T mej 60 35004 0 0 AYUI SI Sures KS1ouo ojne uym 0 0IH 4 enbioj 31835100
17. JO OF 10198 10 NT CC 311195 ynejoq 801395 eq JO OF 10198 JO MA CC eguei 80395 eq 6 VOHIA OINH3IA SII2000S DIN3 I4 A 60 App G Replacement Information uny 1104 8 54 pueuruioo Aouenbor 3104 S8p SU uny Hod 8 54 pueururoo 4 062 104 uny 204 pueuruioo 3104 687 54 uny 204 pueururoo 0 2 104 ZH 070 01 0 09 A 00 S 01000 527 FILI YIM 913 Apoyerpeuruim 991 214 0006 9100 5 007009 01 000 5 0009 0100 Sout 000 0 91 0000 uonoo es suoneorunuiuo 0 3uo uonoo es opoJA 1030u1 10jsrurieqT eum oun pe13oju T 1013000 junoure Cd cA pue 19 121 seua So euy ssoooud uonounj 10 jeuruue AS gowy junoure Id pue 19 sreurauo So euy ssoooud 5 lt 5590014 ewou oyuoo ssooo4q
18. JO MA CC Sues j nejoq 801395 eq 9A0Q 10 OF AO 9q JO MA CC 3119 nepa osuel 80395 eq VOHIA OINH3IJ SII2000S DIN3 I4 A 61 59195 55210 A 007 007 59195 sse o A 000 005 591195 55819 A 007 007 59195 sse o A 000 007 591195 SSID A 00 Jof eSvy oA ue INdINO 00 01 091 591195 A 005 10 eSej oA pej onuoo wAV jndjnQ 0pz 0 08 591195 sse o A 00 Jof eSej oA pej oguoo wAy 005 01 091 591195 55210 A 005 10 eSej oA pej oguoo wAV jndjnQ 0pz 0108 mdmo 0 ZH 0 00 01 0 55 ZH 0 00S 03 0 S7 50071 010070 509 011 uonoojop 0 1 iq dois 1 Ayed ppo 1 suq c 0 4 1 319 903 Ayued uang suq 403 ouoN 0 suq g sdq 00 sdq 0087 sdq 0096 sdq 00261 0 09 01 0 0 uni 03 onunuo uni 03 onuruoo spoooons JI 11 17 qua diy sprey JT e Aq poued y Suunp 1eum Aq 4 poued Joy Joye 7 7 Wee dug oF dug Apojerpounug SET 03 1 1ndin 5 POWA 9524
19. VOJW OINTAA WM 511000050 Ou Suroedor UJM 39481 y UMOYS suoroung 594 110ddns jou op JO seris 1190006 M L juounsnfpe ules 1 jueunsn pe 3980 3293 1 0 10 Avr 06 c 010 eAnoeur 0 do 0 jueunsnfpy pue 35 VAA 8 pue onbsoy pue 12 ooueproAy JO OF 10198 JO CC Sumas j ngjoq 801395 eq JO MJ 0 JO MA CC eguei 80395 eq 1 nvjeq 61 61 VOHIA OINH3IJ SII2000S DIN3 I4 A 66 App G Replacement Information B Torque boost conversion tables FRENIC5000G9S P9S 22 kW or below vs FRENIC MEGA G9S P9S FRENIC MEGA Remarks Data for 07 F37 F09 0 1 0 0 0 2 2 9 0 3 5 8 0 4 8 6 Adjust the torque boost 0 5 0 11 5 using H50 and H51 as 0 6 14 4 needed 0 7 17 3 0 8 20 0 0 9 20 0 1 0 0 0 1 1 2 6 1 2 5 1 1 3 7 7 1 4 10 2 Adjust the torque boost 1 using H50 and H51 as 1 5 12 896 needed 1 6 15 396 1
20. oiesid uonounj 1 ppuru AS gowy qId 105000 pueuruioo pe qeu pe qesiq pueururoo pe qesiq pueuruoo pejqeug pueuruioo pe qesiq pueuruoo pe qesiq pueururoo Kouenbo ZH 070 01 667 A 00 5 01000 1 ALU 0 009 0100 00701 93000 5 0 009 09100 Soul 00 01 0 10 0 ndur 01 00 10 A 0 01 01 z purua o uo juaumno 0 01 p paeAuoj 9 puua 01 01 0 sdoip Aouonbay jndjno UIM 59511 sos jndjno uou premio 1081940 ON 329125 uonounj 232 ures q ure3 ure3 q Teusts xpeqpeeq 99195 10151090 104000 CId JO MJ 08
21. 001 01 c1 eumu Aouonbog 1 puma Quenmo powy Ayroedv T So od JO Joaquin Jor 2481 Surjes Sojeuy 15 rumor ruwar JO MJ 08 Ao 9q JO MA CC 8119 j nyjoq eSue1 841195 eq IUWEN 9A0Q JO MA OE Ao 9q JO MA TT 8119 j nyjoq eguei 80395 eq 6L LL VOHIA OINH3IJ SII2000S DIN3 Id A 58 App G Replacement Information 21921199009 440 219809 I uonezedo s eM y e qesiq 0 50009 0 S LA jo JOQUINN 01 0 1 1 0 synejop uonoung 2 0 4 Aq 8 Aq ospe dijs poyes Ajyroodg ZH 00 ST 01 000 960 Apoods SI VOGIN pue ZH 1 S SITO Jo 60d JI 8 9 96001 x 30 214 5110 Jo 60d 0 00 91 96000 Kyroedeo uo Surpuodo q Kyroedeo uo Surpuoadoq 4 uo Surpuoadoq 960 Apoods z SI VOGIN 30 pue ZH 1 SI 5110 Jo 60d 8 9 96001 J 214 5110 JO 60d 0 00 03 0 0 00 0 01 00 0 00 05 01 00 0 V 000
22. posueyo oq Zurrun 312359 Jomod Joye Surejso1 0gny Suruuni JOVIOAUT Sunny 3ndjno pe qeuo peddojs 8 AID IQON 4 80815 poods Suruuni AUT 03 CA seuru jo uoneurquioo Aq 20815 19 107987 dug 9 JO uorjeurquioo Aq 20815 3Iq c e YIM y jo Joquinu 2825 oq sjndjno SUI 001 JO osd 0815 045 200 e syndyno pejepduroo st jo UJM SUI 001 JO esjnd oy peusis jous ouo e sjndjno sogueqo 98215 oy UYM posn 0N posn JON Sunjeso1 ojny einjrej Jomod Krejueurour 1 Sur1ejso1 0jn y poddojs Sunu pejqeue 5 IFL opun 16 ees Cos pue sopoo 295 eUsIs uorojop C 8p uonoung 296 815 2181 Suruuni possi VOAWN OIN
23. y 0 6c os 00 0 9 6 6 JO 1 FO Joquinyy 10199A 0 3u0 uoresuoeduio dijg 10 MAJ OF 10 MA CC Sumas j nvjoq asuel 5419 eq 20 OF 10 MA CC Sumas 1 ngjoq osuel Suys eq VOHIACOINH3J S6D000 0IN3 Id A 39 00 0c 00 9 0009 01 000 pedAoy oSueuo ep T uonouny sx EUTULIOT ou 0 YMS 199195 T SurqojAS IVON uonoung sx eww sdeis p eum PAS uonouny sx EUTULIOT 1 uonounj yx Od 0 p 10 oj ndur pueururoo 199195 Aouonbo14 uonouny vx EUTULIO sdas eum PAS uonounj vx EUTULIOT ZH 09 ero1eurmuoo 0 YMS ZH 05 ero1eurmuoo 0 YMS 50215 03 0 499795 uonoung x pueuruoo uni eu Surseo o1 uo pueuruoo A 40d d 1 1527 Tonuoo pueuruoo Aouonbay jndjno NA
24. CC zg ST 01 70 Aouanbay 1erue punos 1030 A sepoo uonoung SurMo oj JO Sues 10 1dooxo 99 03 gp y seSed uo 51 1 O000SOINTAA 10 Jey 03 jue eA bo Aqeorseq st 1140006201 4 OU sepoo uonoung Jo jueureoe dos MOT pue Suryo IMS OAD juo1mo 95 A rqedeo sy yng 8 14 YURI ouo YIM 0j YAUM juaxmo pPI JNO sguuq opour TT ML w Opou ANG AT Tu 91 VOJW OINTAA JO OBA 24 395 VOJW OINTAA OU 40005 8 voy 9A0Q 10 MJ OE 0 29 10 MA CC Sumas 1 ngjoq L L 8 895 eA VOHIA OINH34 0 OE 19202 0 10 Ax OE 19208 0 0 ON ASIA 0 uonoo es epojA Uornoojeq UMOG T J A Ieourp uoN uonoo es Ipo 10 MJ 08 MO 9q 10 MA CC eguei 80395 eq 3111 ynejoq SIId000 0INH314 VO3W OIN3 4J SA STID000 OINHI 9Y 0 Woy urojuoo U VOJW OINTAA sopoo uonoung o qestp 10
25. Suryerg Od Surre1g Supperg Od sepoo uoroung 8 jo eSuei Sumes 10 34 0 9c y seSed uo 8 S659000SOINI 10 yey 0 juejeAmbo 5 st 640008 jo TT ur 5 OAS y jsureae 95 Ajyprqedeo sy mq Joddn ot peSueuo vorjgurojne YURI IUO so qeuo JUANI ot 58 7 eur J JO MO opoo uomnouny nq q T T oAup qT pue BUMS MOT Tu 9 99 Jo 084 195 vOg A OING3H YM 5640005 9Y 8 uou MJ 0 10 MA OE 10 MA Surgos eq Mo 9q 10 8095 opo 801195 j nvjoq Sumas j nvjoq VOHIA OINH3J S6d4000 0INH314 VOAIN SINAYS S S6d000S2IN3H3 2 47 umnuirxejA ZH 001 x z uondo pred 11 pueuruio pueuiuioo u
26. c 0 8559 010 8559 010 LOLTE 30 LOLTE 010 56659 010 566569 010 SESSO 010 SESSO 010 05 01 6T 0 0 T 05 01 YT joe es uorounq 1ojsiso1 Sup eag uonoo eg JOU Od uonoojeq uonosejeq 8 uonoo eg 0201014 8 5 5507 uone1edo jo je juejsuo SUIT 29314 dijg Surdure q UANO oznousejA Surje1od ue 807009 uo Jojroede peog Od pounseoJA ngea xurT OG uornelo oooq W 9 7 edeus s W odeys s 151 edeus s 9A0Q JO OF JO MA CC Surjos j nejoq 801395 eq JO OF Ao 9q JO MA CC 3111 1 nvjeq osuel 80395 eq 61 81 VOHIA OINH3IJ SII2000S DIN3 Id A 65 10 MJ SL ZHI 01 01 6 0 MASS 91 05 ZH 9T 01 70 eq zppi 91 d 0124 10 MA 681 2 7 ST 93 70 amp ouonboj punog 1030 A 10 MA 06 9 0 6 70 MA SL 910 ZHTOT 91 6 70
27. yndyno ZH uonesueduroo dijs 505000 00 666 91 00 666 00 666 91 00 666 0 09 0 0 0 JUDILINI PAPI JO 00 01 956 ZH 007 01 0 0709 0100 JO 00 0 5 L 91024 03 JOJOY 4015 uonoun s JOWUO GAT CYT uonounj TTO uonound ZTO uonound uonoung TTO uonoung TTO JO MJ 08 AO 9q JO MA CC ZUS j nejoq 801395 eq JO OE Ao 9q JO MA CC Sumas NBA osuel 80395 eA 61 6 VOHIA OINH3IJ SII2000S 0DIN3 Id A 56 App G Replacement Information 0 01 z1 o 01 10 1ueunsnfpy 1nduj pueuruio Aouenboi q 00 0 00 9 00 0 00 9 00 0 10 pue c1 seuru 0 sjndur pue Jo 5a oz oi p 19 Teuruue oj jndur OGA 01 91 01 z1 reuruue 0 ndur ped ox uo shay S V equa 0009 01 0070 0009 01 0070 ZH 00005 01 000 ZH 00 02 0 0 ZH 0 005 01 0 0 ZH 0 00 01 0 0 ZH 0 005 01 0 0 OT MOT 0 uere ystued
28. A 075 01 08 ur oSeypoA v 0 oseg POWA 8 ndur e 0 IFLA POWA 591105 sse o A 007 007 ZH 0008 0050 1 95284 ZH 91 05 S6d ZH 00 030 560 Aouonbary oseg ZH 0 006 01 0 65 Aouonber y ZH OZI 0 06 S6d ZH 00 0930 560 CMH pueunuoo Jo pueuruoo peuruueg uo s amp ox qOLS N Y3 ped amp ox uo s amp ox 4OLS NNA AgW GALI porroeds 10300 pedAoy uo 5104 4015 popon uo 5493 5 popon 0 rejod ZA 10 auseunsnfpy Indu Sojeuy Aouonbay Areyixny uomnoun cA eure 15 pue zt posn st TA uou 10 TA s euruuoj syndur pue jo wng pueuruio c1 sjeuruay sindur uano pue Jo wing 10 pue c1 pesn jou st TA uoym 12 TA S euruuroj syndur juo1mo pue jo wng pueuruio Aouonborq c1 sjeuruuo sindur uano pue Jo wng 0 rejod ZA 1 aueunsnfpy Indu
29. ur uaino yndjno dijs 10 4 dyno 8 uonoourp snjejs 2912 1591935 3581009 asensueq uonoun pueuruio Aouenboiq L 01 98235 0011540 dump dung dump dung dump Aouonbe1 dune COT COT JO OE 10198 JO CC 301195 NPA 8 801395 eq JO MA OE JO MA CC ynejoq osuel 80395 eq 61 01 VOHIA OINH3IJ SII2000S DIN3 I4 A 57 Kyroedeo uo Surpuoadoq Kyroedeo uo Surpuoadoq V000c 91 00 0 0001 01 100 9104 zz 00 01000 00 91000 0 oros 0S 91 0 S Aouonbayy 001 jndur ospa ZI uondo peo mdu 11 pay Kroedeo poyey 5904 jo yuejsuoo 1e3 r4 10 10 1ueunsnfpy 4010 A Quejsuoo 291114 c1 Sojeuy 49580 10 1ueunsnfpy 1nduj Sojeuy 550 c1 107 Sojeuy Aouonbo14 uni Surseo o1 uo Nea
30. 10 p 1 1500g 01 JO MJ 0 O 9q 10 CC 801195 j nvjoq 801395 eq IUWEN JO MA OF 10 MA 2 301155 j nejoq 801395 eq Lue VOHIA OINH3J S6D000 0IN3 Id A 37 iO TOMA TT 0 o oq 10 SL SAAT 0006 9 ed 10151591 9 0 ergesiq 440 ZH 00 005 01 000 00 0 01 10 0 0070 94001 01 950 ZH 0 09 01 0 0 94035 03 uir oyuoo jump Ayigedes Sursieyosiq 10 uonoojoiq PRO IOAG oruogoo q 1015150 1 Sup eug L Kouenbouj ninjq 9 Kouonboj n n A Aouonboj n n A amp ouonbo n n A Aouonboj n n A Kouenboj n n A amp ouenbouj nnjq own Suerg Surre1g Sururejs Sup e1g Suryerg Od uonoe es uonedo oooq 666 9400 01 005 666 900 01 OOE 00 005 91 960070 00 007 91 960070 9 000 001 0 9600 001 ZH 07005 01 0 0 ZH 0700 01 0 0 ouenboug 80131035 je 312359 6 10 pexmooo yor ye oy 318159 lt 1 1 urer 10 10 1ue
31. dejsn njg uonounj 7X 0 jndur 2180 5081552 UMOYS sosoyjuored ur s 0001 JO ZUS 9101 03 0001 9 010 uopoungd VUIL uonoojos uonoun uopoung TX Jomuoo 103094 omueuAG 9 noy eAnoeur uoresueduioo dijs YIM ogu09 OIUOD AY UJ 0 1 10310 10329A enur ouo oq soun sany spoooxo 81 10 Suunp Aquo diy AQ uonedo oooq euim enjoe j1 4015 01 90104 044409 snq oq uoys 4 din AQ 0 8 9 1 poyroeds y sowy spoooxo enjoe Ji 4015 01 o nuoo c uonoojes opoJA 4 duy AQ 0 8 ysty Suu uormeo oooq SULINP 666 Sunrun onbor 666 00 01 005 2 1
32. Classifi cation FRENICS000G9S P9S FRENIC MEGA Symbols Name Symbols Name Transistor output Relay output Transistor output 1 Transistor output 1 Y2 Transistor output 2 Y2 Transistor output 2 Y3 Transistor output 3 Y3 Transistor output 3 Y4 Transistor output 4 Y4 Transistor output 4 Y5 Transistor output 5 Y5A Y5C General purpose relay output CME Transistor output common CMY Transistor output common 30A 30B 30C RUN FAR FDT LU TL RES OL KP STP TU TO STG1 STG2 STG4 ALI AL2 18 TRY Inverter running Frequency speed arrival signal Frequency speed detected Undervoltage detected Inverter stopped Torque limiting Auto restarting after momentary power failure Motor overload early warning Keypad operation enabled Inverter stopped Time up signal for pattern operation Cycle completion signal for pattern operation Pattern operation stage No indication 1 Pattern operation stage No indication 2 Pattern operation stage No indication 4 Alarm indication 1 Alarm indication 2 Alarm indication 4 Alarm indication 8 Auto resetting Alarm relay output for any error 30A 30B 30C RUN FAR FDT LU IOL IPF OL KP RUN TRY Inverter running Frequency speed arrival signal Frequency speed detected Undervoltage
33. Jomod oy ye Aouanbary eq ye 312359 Spero 212098 Jo 10 UNI 0 dojs 03 oje1o ooop Joye dug Jomod dug 0666 10 0 MAA 66 66 91 100 0 440 0006 93 1 ed ur 3pmq 10151501 Sup e1g 0 eL or eo JOJOUW jo ueumo snonumnuoo PARI Jo WCET 01 96 uey Sui ooo poramod JO 1 pore nuoA uou USALID I91I9AUI 104 Z Sui ooo esodund qe1eueS e 104 0070 sum Aouonboi4 8011015 Suryeig Supe1g Aouonboyy Zunes Od pueuruioo Aouonboj4 10 10 yuounsn py Sopeuy z1 10 1ueunsnfpy Jamo IPON LISIA 294835159 301 o qe O V Kipiqedeo Sursieyosiq 1035752 1 Sup eug NUNIA our uonoojop 5 1000 199199 o e uonoojop JOJO 10 uor2ojoi1q JEW 0 01010 0 ZH 0 09 0 0 0
34. uondo pueuruoo poeds 0197 pesn JON uondo AS Dd uornoejes SONSTIAJIVILYO 31835 IG sng uondo cgp S W prepuejs uonoe es uone ooueo o3juoo enbio Joa SUIYOJIMS 95 03juoo oSueqo pueuruioo uorssruued NA OG qf ZH 09 1 03 8 5 ZH 05 03 OUT 8 5 T enbzoy z onbsoy uonoun 6X 01 uonoo es uonoun uonoun euruuom 6X 03 TX 9A0Q 10 AIL OF MOT2Q JO MA CC 301155 j nejoq 8 801395 eq JO OE Ao 9q JO MA CC 3111 ynejoq osuel 80395 eq 69 VOHIA OINH3IJ SII2000S DIN3 Id A 53 apis 104 pue eroyoumuoo INOS ALIP 10301 YMS 71 ero1eurumoo uo JA 104 pue 19A od eroyoumuroo 99 194 INOS Q93IAS T uni 0 JOVIOAU 0T Suruuni 0001 pe qeue
35. Switch motor drive source between commercial power and inverter output Classifi FRENICS000G11S P11S App G Replacement Information FRENIC MEGA cation Symbols SW52 1 Transistor output Y5A Y5C Name Line inverter changeover for 52 1 Motor 1 motor 2 Terminal AX function Time up signal for pattern operation pattern operation Pattern operation stage No indication 1 Pattern operation stage No indication 2 Pattern operation stage No indication 4 Alarm indication 1 Alarm indication 2 Alarm indication 4 Alarm indication 8 Fan operation signal Auto resetting Universal DO Overheat early warning Synchronization completed by synchronous operation card Lifetime alarm Terminal C1 off signal Speed existence signal Speed agreement PG error signal Torque limiting signal with delay Multipurpose signal relay output Symbols Y5A Y5C i Terminal C1 wire break Speed valid Speed agreement Switch motor drive source between commercial power and inverter output Motor 2 selected Select AX terminal function For MC on primary side Cooling fan in operation Auto resetting Universal DO Heat sink overheat early warning Lifetime alarm ddy PG error detected General purpose relay output 30A 30B 30C DX SD m S B E o G 3 Function codes Alarm o
36. load e g a material conveyer and a lift the HD mode inverters are required Control circuit terminals Terminals mainly used to connect to signal lines from a PLC or control relay circuits Inverters with any capacity have these terminals in common These terminals include an analog output terminal for a conventional analog meter and a pulse output terminal Cooling fan ON OFF control A control that automatically turns the cooling fan ON and OFF depending on the temperature detected inside the inverter saving unnecessary cooling fan operations Related function codes H06 Current limiter A control that limits the inverter output current to a specified level by varying the output frequency Related function codes F43 and F44 Current response A performance index under vector control which indicates how often the inverter can change the direction of current to the motor If this index is 100 Hz it means that the current direction change command is applicable 100 times a second DC braking DC current braking that flows a DC current through the motor stator windings to generate a magneto electric loss of the rotor Used to firmly stop the motor when the load has a large moment of inertia and a low friction torque Related function codes F20 F21 F22 A09 A10 A11 b09 b10 b11 r09 r10 and r11 Glossary DC link bus voltage The voltage of the DC link bus that 1s an inverter input circuit to convert
37. 1 din 7 7 esor mogum 0 1 JOJOU oq jo JUaIIND snonuguoo PALI Jo 9560 03 07 1O OUI 104 Z osodund e1eueS e 104 1 0 juejsuo 0 07 01 0 7 peog euorodo1q 61 01 51 1081940 SurAes peog 60 9 1 lt 4 35004 omy 0 0 Kyroedeo uo Surpuodoq x 0 07 0100 juejsuo 15004 Sures ASIOUq omy Asoog oy 41023125 peoT uo gurpuodoq x 0 07 0100 peopenbuojo qeueA 0 15004 omy Asoog omy Lea 1 jsooq 7 omy Asoog oinyuorpo og peoT Lea juejsuo 0 07 01 0 C po qesip st peo 10181940 SurAes 61 01 4 0 lt peor 60 9 35004 oyny 0 0 uonoo es 190g IPON 18359 uonoojop uonoo es opojA
38. 12 input for example is 1 3000 of the maximum frequency Frequency limiter A function that determines the upper and lower limits of the inverter output frequency to protect the motor Accordingly it protects the machinery load from getting unexpected frequency command Related function codes F15 and F16 Auessoj5 HD High Duty mode A mode that applies to the inverter for driving a motor whose capacity is identical to the inverter s one The HD mode inverter withstands 150 of the rated current for a minute and 200 for three seconds Related function codes H80 Interphase voltage unbalance Interphase unbalance of three phase AC input voltage supply voltage that is calculated by the following expression stipulated by the Standard Interphase voltage unbalance Max voltage V Min voltage V Three phase average voltage V x 67 The IEC Standard requires variable speed drives such as inverters to withstand up to 2 of interphase voltage unbalance Inverse operation Inverting the scale ofthe inverter s output frequency to its analog frequency command level Used for applications such as air conditioners that require switching between cooling and heating Related function codes C53 Jogging operation Inching the motor for mechanical positioning in the machinery load The frequency command acceleration deceleration time and dynamic response during the vector control can
39. 440 Teusts NO DSAT VSA NO 120815 430 105 VS A 440 180815 yy Kejop 15 Suny onbio uondo euis 10119 Og uondo 2481 poods 815 oouojsixo poods Teusis euruue 1eo 949 uonoojep Kouenbojg 24815 uonoojop uondo pies snouorqou s Aq pojepduroo uonezruoqou S Suru1eA IAO uondo 1 Suosol oyny 20815 uoneorpur uoneorpur uoneorpur uoneorpur uoneorpur e3ejs uoneorpur ON 28015 uoneorpur ON e3ejs uoneiedo 10 eus 1s 9124 uoneedo usayed 10 eugis dn oung uonoung x y euruue T 1 56 10J 19119AUT 9UT 1591935 19497 1591935 uonoung LAA uonoun AVA AY SA uonoojes uonoun andyno epy uonoung euL OSA pue VSA uonoung pA 03 JO OE 10198 19 CC 301195 8 801395 eq 10 OF
40. 8 juoum peo 19A0 JOJO Jomod Joye Suriejso1 0jn Suny 3ndjno 5 poeds 80815 poods SUIUUNI 0 0 2180 5081552 UMOYS sesequored ur s 0001 JO 8195 SOIT 02 0001 SOT 010 ouo poyroeds sour sary spoooxo enjoe j1 4015 01 90104 104109 8 snq uonoung 5 VSA uonoung pA uonoung A uoroung cA uonoung TA EU TULIO EU TULIO EUTULIOT EUTULIO uonedo oooq Z Z 101 88 10 Apeoy Surddojs epour QVd Ad Quam yndyng ccs SurureA 1eo uonenoqeo peurreq 0 jndjno pue SI y Joye Suunp 91109 2181 jndjno au Sunrejso1 omy onbioy
41. AO 9q JO MA CC 3111 1 nvjeq osuel 80395 eA 61 9 VOHIA OINH3IJ SII2000S DIN3 Id A 55 en eA yndjno porroeds junouie Id peddois Kejdsiqq CAT CAT uonoo es JOWUOW CHT Jomod uonoojes onbioj 2 uonoo es JOWUOW CHT ur poods yeys peoT 199 95 1031uour poods 10jruour uonoo es way JOWUOW CHT poods ourT gpa Aq 199195 4 103ruour 5 JOWUOW CAT JONUOW CAT urua ur peeds 1030 A gpa Aq 199195 10jTuour peods 10jruour 5 JORUN 447 CHT 8 1ndin JOWUOW CHT yuan dmo w JOWUOW CHT ouenbaij oouo19 oq P s 1ojruour peods uonoo es 447 CAT uonesueduiroo dijs 1947y Aouenboag P s 1o3ruour peods uonoo es uro JOWUOW CHT JOWUOW CYT 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 juonno IQON payer 100
42. Bias Bias that is a value to be added to an analog frequency command value e g 0 to 10 VDC to produce the output frequency It applies to the frequency control signal voltage from the upper level controller Related function codes F18 and C50 to C52 Braking torque Generally a motor acts as a generator during a decelerate to stop sequence where the kinetic energy built up in the machinery load is transformed into electric power and returned to the inverter The inverter consumes the returned power to generate a braking torque Carrier frequency Frequency used to determine the modulation period of a pulse width under the inverter s PWM control The higher the carrier frequency the closer to the sinusoidal waveform the inverter output current waveform approaches and the quieter the motor sound becomes However noise emitted from the inverter increases Related function codes F26 Coast to stop command BX A digital terminal command input to one of the control circuit terminals which forces the inverter to immediately shut down its output causing the motor to coast to a stop Used to forcibly stop the motor independent of inverter control Related function codes E01 to E09 E98 and E99 G 2 Constant torque load Machinery load that requires a constant torque independent of the inverter s output frequency motor speed The power consumption increases in proportion to the motor speed For such machinery
43. Enable data change with keypad Cancel PID control Switch normal inverse operation Interlock Enable communications link via RS 485 or fieldbus option Universal DI Enable auto search for idling motor speed at starting Force to stop Switch speed feedback control Pre excitation Analog monitor Analog common Pulse monitor Digital common Transistor output 1 Transistor output 2 Transistor output 3 Transistor output 4 Transistor output common RUN Inverter running FAR Frequency equivalence signal FDT Frequency level detection FDT2 2nd frequency level detection LU Undervoltage detection signal B D Torque polarity TL Torque limiting IPF Auto restarting OL Overload early warning OL2 2nd overload early warning KP KEYPAD operation mode STP Inverter stopping RDY Ready output Line inverter changeover SW88 for 88 Line inverter changeover for 52 2 SW52 2 A 34 Inverter running Frequency speed arrival signal Frequency speed detected Frequency speed detected 2 Undervoltage detected Inverter stopped Torque polarity detected Inverter output limiting Auto restarting after momentary power failure Motor overload early warning Keypad operation enabled Inverter running negative logic setting Inverter ready to run Switch motor drive source between commercial power and inverter output
44. JUIN JO 001 ST poye no e 95 ongea Sues yu Suryesg 94 enje Sumos 1 poods yeys peon peeds our uru peeds snouodqou S A pueururoo mdmo y yndyno zH Aouanbay 6L 91 9 Sopos uonoung ejdsiq 6L 03 9 uonoung y ejdsrp you oq S 00 S 03 10 0 5001 00 ZH 0 09 9 CO ZH 0 010 ZH OZI 00 564 ZH 00 9 0 S69 6 01 sopoo uonoung y 1 65 01 56 sopoo y ejdsrp you oq 0 POLI JO 9560 01 07 ZH 070 0100 ZH 0 0 564 ZH 007 0 0 560 ZH 0 01 91070 uonoo es way SurgoyAs JOO CAT uorjeres 6 01 19 Yor uonounyg sum 51591915 GOT pue uo JO pueururo Aouenboiq Kouenboi4 80131035 0 dump 10123125 65 0 c Yor uonounjg 1591935 19427 ppm 1591915 1043409 Adu Surrey peo 19A uonoojoq amp ouenbo1q ava pany Aouenborq onboaq JO MA OE M019q 10 Sumas j nvjoq 8 801395 eq JO MJ 08 Ao 9q JO MA TZ 311195 8 801395 eq 11 9 VOHIA
45. USALID I91J9AUI 104 uey Sui ooo 5 YIM esodund voueS v 104 uonoo es opojA IPON 1181931 uonoojop T 100W uonoojo1q L JUOVAA sonsuojovaeuo 19199 100W eure oruogoo q bla juonmno PRLI 1030 A uo Surpuoadoq 00 0 x 0 07 01070 Suunp juejsuo Sures Ad1ouo ty uonoojop 1030 A uonoojoiq EWIL 15004 uoneed omy Asoog oiny uoroo og peoT uo Surpuoadoq x 0 07 0100 Burp peor o qerieA SurAvs 6 3500g omy Asoog omy 1 Suunp 15004 omy SurAvs 6 Sures omy Asoog oy uoroo ogs peoT juoLimno JO 001 speo 8 10 AAvoY 10 UNI Joye dug 77 esor OYA
46. 05 poxr4 91 es nd 0 s d 0009 03 S7 x 0 07 0100 onbo juejsuo uoroun Queunsnfpe 3ndino Sopeuy 1ndjno esq ana nding 15004 omy Asoog oy peoT Kroedeo uo Surpuadoq 59195 sse o A 007 007 59195 sse o A 002 005 59195 sse o 007 007 591195 sse o x 0 07 0 0 0 0 5919 sse o A 00 103 eSej oA pej oguoo wAy 006 01 091 591195 sse o A 005 101 eSej oA pej omuoo wAV ue jndjnQ 0pz 0 08 591195 SSID A 00 10 eSej oA pej oguoo wAy 005 01 091 591195 sse o A 002 101 eSej oA pej onuoo wAV ue jndjnQ 0pz 0 08 A 002 005 00 0c 00 9 00 0c 00 9 00 0c 00 9 00 0c 00 9 00 0c 00 9 Beyo e jndjn 0 ZH 0 005 01050 5 0009 01 10 0 00 0 5 0009 91 0070 5 0009 01 10 0 0070 0009 01 000 0009 01 10 0 0070 15004 Sures omy Asoog oy peoT 1ndin amp ouenboi aseg POWA 9524 UOLIS L L 591195 SSe 2 A 00 007 5
47. 54045931 our uonoojop 10119 osuodsa1 o0N 4019 GPP Aye ewa pneg oun 8015590044 10119 suonvorunururo ssoppe uonejs T uoneorunuiuio 68 5 582 A 00 007 582 A 005 005 sse A 00 007 582 A 005 005 sse o 007 087 01 OZE 582 A 000 OFZ 0108 sse o A 007 A 087 01 OTE 582 A 000 A OFZ 0108 1 0 euonjododd 0 ZH 00r 9 ST ZH 00r 01 0 800191000 09 OFT U0T 99 9P ON 0 vqr PPO 1 92 0 T 1 UoAg 198 5 18 0021 SAT 00 SATA 0087 SAT 0096 SATQ 00261 5009 0 0 0 nunuop 11220 uomeorunuruioo v jt diy 7 77 ue oxoaur uoy JOU pue uorje1edo onunuo Joye din 7 own jour onunuo din FF oyerpounug Te OT eSej oA c Kouenbojg eseq T 93v3 oA PLA Kouenboi4 9524 Kouenborq esuodses oum 10 ON suq dois eyo Amed ewa pneg 10119 osuodso1 ou uo 109195 opoJA ssouppy 9A0Q 10 OF JO MA CC 301195 j nejoq 801395 eq JO OE Ao 9q JO MA CC 3
48. 58 Sl Sl SL BLS ola uonesuoduiroo dijs a10yog Aouonbay mdymo gpq Aq 123125 poodg amp 505 000 0666 0070 93 666 00 00c 9 10 0 0666 07 0070 91 666 5 007009 01 10 0 juo1mo JO 007 03 9 JO FUINO ZH 0700 01 0 0 5 007009 0 10 0 juo1mo JO 007 03 9 JO 103ruour CAT JOWUOW GAT ejds q poeds 10 V eqdsiq uonoojeq WANO MOT Z uonoojeq JUALING uonoojoq uonoojeq 1uaun SurureA yuno quano 10 0 A 1 en eA 195 0 junoure yoeqpsej Id ZI 204 ndur 393173 pued peddoy ndur 393173 01 uondunsuo 6 uone no eo 8 1 poeds yeys peon uruw 4 ourT 4 snouorysuds 1030 A pueururoo y Juans ZH amp ouenboyg 195 ZH uonesueduroo dijs 1038
49. JO OF AO 9q JO MA CC 301195 j nejoq 801395 eq JO A OE opo 9I9d 10 MATT 3111 1 nvjeq osuel 80395 eq VOHIA OINH3IJ SII2000S DIN3 Id A 59 666 Kroedeo uo Surpuodo q Aq peuruuojop 666 s0 0t 0100 9119 58 2 A 00 10 009 01 00 seus 558 2 A 005 103 A 00 91 005 pueuiuioo juoxmo MOTO 666 S ZH 007001 91 T0 O 804 our uoneao oooq 00 0 0 0103 qeuq 1 0 9035 03 15809 RULION 0 Qs pue Jomod Joye Hesa Jomod Joye Hesa 5 peirqrqur JeOUTPIAIND 09H LSH 01 8 amp rexqry 5 9A1n2 S TeourT eunprej 4 o qeAo V Suruuni snonunuo amp ouonboij 3723591 IPON 31159 SurrmurT juoxmoJoA snoouejuejsup IPON qo1eos IPON Sun1ejs uonejmurT UO eune oy uorje1o ooo q uone1o o00 V SIH SET 00701 0
50. OINH34 S6D000 0IN3 I4 A 43 IBOUTIAING 7 09H 0 LSH 9 Surpioooe 5 yeaa 2 1 Jeoury uoneio ooeqyuonere ooo y 0 ujojeq y L oun 9 DUIL JOU WIL c oun S 0009 01 00 0 1 49s sej YIM uoneqedo uoy o oAo uojjed uone1edo 903 1240 e uone1edo ewou ur0j1eq uone1odo o qestq 0 uonoejes opo 3ndjno Aouenboug ydess Queumno 3ndjno Aouonboj seg enbzoj pue yndyno 10 seyo yndyno Aouonbay oouoJ9Jos udei3 eg opina pue 1335 SuruUNY 0 GOT 8 snjejs Suruun 0 uonoojes JoWUOW GOT poods pue poeds yeys peoT 00 00 93 10 0 uoneorpug poods 10 poods pvo 0666 03 00 0 01 666 v 1uerorgeo amp ejdstq 00 00c 10 0 uoneorpu peeds juerorgoeo
51. and operating of the FRENIC MEGA series of inverters 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 FA Components amp Systems Co Ltd be liable for any direct or indirect damages resulting from the application of the information in this manual
52. be separately specified Related function codes C20 Jump frequencies Jump frequencies that are used to skip inverter operation in the specified jump frequency bands within the driving frequency band in order to avoid resonance caused by the motor speed and natural frequency of the machinery In the jump frequency bands the specified acceleration deceleration time applies Related function codes C01 to C04 G4 LD Low Duty mode A mode that applies to the inverter for driving a motor whose capacity is one rank higher than the inverter s one The LD mode inverter withstands 12096 of the rated current for a minute Related function codes H80 Line speed Traveling speed of a machine e g conveyor driven by the inverter driven motor The unit is meter per minute m min The speed can be displayed on the keypad Related function codes E43 and E50 Link function A function that starts or stops the inverter through a communications link such as RS 485 interface or other open network without using the keypad or digital input terminal signals Related function codes H30 y98 and y99 Main circuit terminals Power input output terminals mainly used to connect to commercial power lines braking resistors DC reactors and motors The size and other specifications of the terminals differ depending on the inverter capacity Maximum frequency The maximum output frequency of an inverter It equals to the referen
53. detected Inverter stopped Inverter output limiting Auto restarting after momentary power failure Motor overload early warning Keypad operation enabled Inverter running negative logic setting Auto resetting Alarm relay output for any error AXI AX2 Power supply side contactor open command 30 kW or above A 32 Y5A Y5C Select AX terminal function For MC on primary side Fuji Electric 13916183699 021 60510862 App G Replacement Information FRENIC5000G11S P11S vs FRENIC MEGA FRENICS000G11S P11S Classifi cation FRENIC MEGA Symbols Name Symbols Name Main circuit LR 12 8 L3 T Main circuit power terminal L2 S L3 T Main circuit power inputs RO TO Auxiliary control power input terminal RO TO Auxiliary power input for the control circuit U V W Inverter output terminal U V W Inverter outputs P1 P DC reactor connecting terminal Pl P DC reactor connection P NC DC link circuit terminal P NC DC link bus Analog input Digital input DB External braking resistor connecting terminal Up to 22 kW DB Braking resistor Inverter ground terminal Grounding for inverter 13 Potentiometer power supply 13 12 Voltage input 12 Analog setting voltage input CI Current input CI Analog setting current
54. from the keypad Related function codes E01 to E09 E98 and E99 G 3 Encoder PG pulse generator One type of rotational sensor directly mounted on the output shaft of a vector motor It generally outputs and B phase signals According to these signals the inverter can detect the motor rotational direction speed and amount Using the encoder requires optional PG interface OPC G1 PG on the inverter Filter A filter that smoothens and cleans a signal eliminating unnecessary frequency band Applying a filter will produce a desirable effect in some cases Suppressing fluctuation of unstable hard to read display on the keypad F42 Suppressing noise superimposed on analog input for frequency command C33 C38 and C43 Stabilizing analog speed command and feedback signal d01 d02 d09 d10 and d61 Frequency accuracy An index that indicates the accuracy of inverter output frequency relative to the commanded frequency If the frequency command is given digitally from the keypad the accuracy will be 0 01 of the maximum frequency Frequency command Reference frequency whose sources can be specified by function code F01 In addition it can be given by multi frequency commands and via an RS 485 communications link or other open networks Frequency command resolution Resolution of a frequency command given in an analog input format such as a voltage input The resolution of terminal
55. input 11 Analog input common 11 2 terminals Analog common Forward operation stop command Run forward command Reverse operation stop command Run reverse command Digital input 1 Digital input 1 Digital input 2 2 Digital input 2 Digital input 3 Digital input 3 Digital input 4 Digital input 5 X4 X5 Digital input 4 Digital input 5 Digital input 6 X6 Digital input 6 Digital input 7 X7 Digital input 7 Digital input 8 X8 Digital input 8 Digital input 9 X9 ddy Digital input 9 Common terminal CM 2 terminals Digital input common PLC signal power PLC PLC signal power Hzl Hz2 TL2 TL1 SW60 Multistep frequency selection Acceleration and deceleration time selection 2 steps Acceleration and deceleration time selection 4 steps Self hold selection Coast to stop command Alarm reset External alarm Jogging Frequency setting 2 frequency setting 1 Frequency setting 2 frequency setting 1 Motor 2 motor 1 DC injection brake command Torque limit 2 torque limit 1 Switching operation from line to inverter 50 Hz Switching operation from line to inverter 60 Hz A 33 SSI SS2 SS4 558 RTI RT2 HLD BX RST THR JOG Hz2 Hz1 Hz2 Hz1 M2 DCBRK TL2 TL1 550 SW60 Select multi frequency Select ACC DEC time 2 steps S
56. the input AC power to the DC power It 15 approx 1 4 times the input power voltage and is used as a reference voltage in detecting an undervoltage or overvoltage condition It can be monitored on the keypad Deceleration time period required for an inverter to decelerate its output from the maximum frequency to 0 Hz Related function codes F03 F08 E11 and H55 Droop control A control that reduces the inverter s output frequency depending on the motor s load factor When the machinery load is driven by two or more inverter driven motors this control helps the inverters balance their driving forces Related function codes H28 Dynamic torque vector control A high performance control system in which the inverter calculates the flux and torque vectors based on the real time voltage and current applied to the motor power terminals Its basic control is V f control Electronic thermal overload protection A function that protects the motor from overheating with internal electronic calculation without using a thermistor or any other thermal sensors on the motor Related function codes F50 to F52 Enable data change with keypad WE KP A digital terminal command input to one of the control circuit terminals which protects function code data from accidentally getting changed from the keypad when this command is OFF in order to prevent the motor from unexpectedly running Turning this command ON enables data change
57. 0 0 F09 data of FRENIC MEGA 0 556 x 07 data of G9S or P9S 2 0 A 68 App G Replacement Information FRENIC5000G11S P11S 22 kW or below vs FRENIC MEGA GIIS P1IS FRENIC MEGA Remarks Data for F09 F37 F09 0 1 7 096 0 2 8 396 0 3 9 5 10 8 Adjust the torque boost 0 5 0 12 0 using H50 and H51 as 0 6 13 396 ngeded 0 7 14 5 0 8 15 8 0 9 17 0 1 0 7 0 1 1 8 1 1 2 9 2 1 3 10 3 1 4 11 5 Adjust the torque boost 1 using H50 and H51 as 15 12 6 needed 1 6 13 796 1 7 14 896 1 8 15 9 1 9 17 0 2 0 0 0 3 0 1 3 4 0 2 6 gt 5 0 3 8 o 6 0 5 196 7 0 6 496 8 0 7 7 9 0 8 9 10 0 10 2 For data values other than cm 12 0 12 896 below 13 0 14 196 14 0 15 396 15 0 16 6 16 0 17 9 17 0 19 2 17 6 19 9 18 0 20 0 19 0 20 0 20 0 20 0 Expression If 209 data of G11S or P11S is 2 0 to 20 0 F09 data 96 of FRENIC MEGA 1 278 x F09 data of G11S or P11S 2 0 A 69 FRENIC5000G11S P118S 30 kW or above vs FRENIC MEGA
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64. 7 17 996 1 8 20 096 1 9 20 0 2 0 0 0 3 0 1 3 4 0 2 6 gt 5 0 3 8 6 0 5 1 7 0 6 4 8 0 7 7 9 0 8 9 10 0 10 2 For data values other than in t a 12 0 12 8 below 13 0 14 1 14 0 15 3 15 0 16 6 16 0 17 9 17 0 19 2 17 6 19 9 18 0 20 0 19 0 20 0 20 0 20 0 Expression If 07 data of G9S or P9S is 2 0 to 20 0 F09 data 96 of FRENIC MEGA 1 278 x 07 data of G9S or P9S 2 0 A 67 FRENIC5000G9S P9S 30 kW or above vs FRENIC MEGA G9S P9S FRENIC MEGA Remarks Data for 07 F37 F09 0 1 4 4 0 2 4 496 0 3 4 496 os 44 Adjust the torque boost 0 5 0 5 096 using H50 and H51 as 0 6 6 3 needed 0 7 7 5 0 8 8 8 0 9 10 0 1 0 4 496 11 4 496 1 2 4 496 1 3 4 496 14 4 4 Adjust the torque boost 1 using H50 and H51 as 15 5 6 needed 1 6 6 7 1 7 7 8 1 8 8 9 1 9 10 0 2 0 0 0 3 0 0 6 4 0 1 1 5 0 1 7 6 0 2 2 7 0 2 8 8 0 3 3 9 0 3 9 For data values other than 10 0 4 4 those listed at the left use 11 0 1 5 096 the expression given 12 0 5 6 DEUS 13 0 6 196 14 0 6 7 15 0 7 2 16 0 7 8 17 0 8 3 18 0 8 9 19 0 9 4 20 0 10 0 Expression If 07 data of G9S or P9S is 2 0 to 2
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69. any protective function is activated The number of reset times and interval can be specified with function codes Related function codes H04 and H05 Auto tuning Automatically tuning up the inverter itself by detecting the constants of the connected motor and saving the motor parameters in the inverter Auto tuning is started by the keypad operation Related function codes P04 A18 b18 and r18 Auxiliary power input for the control circuit A general purpose inverter usually supplies its control circuit with power from the DC link bus In a panel that shuts down the power if the inverter trips therefore the panel display disappears with the trip The auxiliary power input is used to keep the panel display AVR Automatic Voltage Regulator Voltage regulator that keeps the inverter output voltage constant regardless of input voltage fluctuations Balanceless bumpless switching To switch the frequency command source to the keypad from any other source in which the inverter inherits the current frequency that has applied before switching This switching provides smooth switching and shockless running Related function codes F01 and C30 Auessoj5 Base frequency The minimum frequency at which an inverter s output voltage becomes constant Related function codes F04 A02 b02 and r02 Output voltage V Rated voltage at base frequency Output 0 4 frequency Hz Base Maximum frequency frequency
70. ce frequency when the 10V input applies on terminal 12 or the 20 mA input applies on terminal C1 if the gain is set at 100 Related function codes F03 A01 501 and r01 Mock alarm Alarm intentionally caused by activating the inverter protective function in order to check whether external sequences function correctly at the time of machine setup Simultaneous keying or using the related function code causes a mock alarm The mock alarm can be reset by the terminal command RST Related function codes H45 Glossary Motor selection A general purpose inverter can drive more than one motor by switching FRENIC MEGA inverter can drive up to four motors by switching with terminal commands M2 M3 and M4 It is also possible to register four sets of motor drive data including base frequencies drive controls and numbers of poles Related function codes 01 to E09 Multi frequency selection Selection from 15 steps of reference frequencies that can be switched by digital terminal command input to the control circuit terminals Those 15 steps of frequencies should be preset with function codes C05 to C19 Related function codes E01 to E09 E98 and E99 Output circuit filter An output circuit filter OFL LILILI L1A that is used to eliminate noise leakages from the inverter main output cable when the cable length between the inverter and the motor is long or when an inverter drives two or more motors so that the to
71. compensation To compensate for decrease in motor rotation that is caused by slip of an induction motor by increasing the inverter s output frequency in proportion to the increase of load torque Related function codes P12 Speed control Motor drive control that applies to a motor equipped with a speed sensor The inverter controls the motor speed based on the actual speed detected by the speed sensor mounted on the motor shaft Ordinarily an inverter controls the motor speed at a frequency Related function codes 401 to 404 Speed control accuracy An index to show the stability of the motor shaft rotational speed relative to a given speed command under speed control It is expressed in percentage 969 of the maximum frequency or the rated rotational speed base speed of the motor Speed control range An index to show the controllable speed range relative to the rated motor speed base speed It 15 expressed by a ratio for example 1 1500 that means the inverter 15 able to control the motor speed to 1 1500 of the rated speed Speed response A performance index in speed control which shows how many times the inverter can change the motor shaft rotational speed with commands in one second If this index 15 100 Hz for instance it means that the inverter can respond to up to 100 speed commands per second Glossary Standard motor Fuji standard motors 8 6 and 9 series which the inverter can drive by j
72. e frequency fluctuation General purpose inverters are designed to be supplied with power from commercial power lines The allowable voltage frequency fluctuation ranges are specified see Chapter 2 Section 2 1 Even power supplied by a private power generator should meet the power requirements Analog input An external voltage or current input to give the inverter a frequency command through any of terminals 12 C1 and V2 Assignment of functions to these terminals can be changed using function codes Related function codes E61 to E63 Anti regenerative control Automatic deceleration A control mode that prevents the inverter from causing an overvoltage trip due to excessive regenerative energy by automatically controlling the deceleration time and output frequency even if no braking resistor is used Related function codes H69 Auto energy saving operation Energy saving operation that automatically controls the output voltage to the motor in order to minimize the total power loss of the motor and the inverter Related function codes F37 A13 b13 and r13 Auto search Automatically searching for the rotational speed and direction of the motor idling without power supplied in order for the inverter to smoothly drive the idling motor again Related function codes H09 H46 and H49 Auto reset function A function that makes the inverter automatically attempt to reset the tripped state and restart even if
73. ed functions so that individual inverters run at different output frequencies Related function codes E61 to E63 Frequency command Main setting a Frequenc n command 100 90 95 Ratio setting ut k TR BM z 8 m bs Le Ratio setting F d Main setti requency comman ain setting x 100 Required power supply capacity The capacity required of a power supply for an inverter This is calculated by solving either of the following equations and is stated in kVA Required power supply capacity kVA 43 x 200 x Input RMS current 200 V 50 Hz Required power supply capacity 43 x 400 x Input RMS current 400 V 50 Hz Servo lock Holding the current position of the motor shaft at the stopped state in servo system under vector control with speed sensor even if any external force is applied to the motor shaft Simultaneous keying To simultaneously press two keys on the keypad which is required for enabling some special keypad operations G 6 SINK or SOURCE To switch the digital input modes between SINK and SOURCE with the hardware switch SINK mode in which short circuiting a digital input terminal with the common CM terminal transmits an input signal SOURCE mode in which externally applying voltage signal 24 VDC to a digital input terminal transmits an input signal Slip
74. elect ACC DEC time 4 steps Enable 3 wire operation Coast to a stop Reset alarm Enable external alarm trip Ready for jogging Select frequency command 21 Select frequency command 21 negative logic setting Select motor 2 Enable DC braking Select torque limiter level 21 Switch to commercial power 50 Hz Switch to commercial power 60 Hz Classifi cation FRENICS000G11S P11S FRENIC MEGA Symbols Name Symbols Name Digital input Transistor output UP command DOWN DOWN command Edit permission command data change permission Hz PID PID control cancellation WE KP IVS Forward inverse switching IL Interlock Hz TRQ Torque control cancellation Link operation selection LE Standard RS 485 Option BUS U DI Universal DI STM Start characteristics selection Forced stop command Forced stop with Deceleration TOE time 4 PG Hz SY PG enable Zero speed command with PG ZERO option Pre exciting command with EXITE PG option Line speed control 2 8 Cancellation LSC HID Line speed frequency memory Analog monitor Analog input common Pulse rate monitor Pulse waveform output Common terminal Transistor output 1 Transistor output 2 Transistor output 3 Transistor output 4 Transistor output common UP Increase output frequency DOWN Decrease output frequency
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81. ontrol the inverter controls the rotational speed of the motor shaft using the speed sensor The Positioning control implies the traveling distance of machinery load driven by the motor Pulse train input Pulse train input that the inverter can use as a frequency command or speed command It is a digital signal enabling control with less thermal drift Related function codes d59 d62 and d63 Rated capacity The rating of an inverter output capacity or the apparent power obtained by multiplying the rated output voltage by the rated output current Rated output current An RMS current that flows through the inverter s output terminals under the rated output conditions that is when the output voltage current frequency and load factor meet the rated conditions The 200 V class series of inverters 1s designed so that the rated output current is higher than that of a 200 V 6 pole motor the 400 V class series is designed so that it 1s higher than that of a 380 V 50 Hz 4 pole motor Auessoj5 Rated output voltage An RMS voltage of a fundamental wave that is generated across the inverter s output terminals when the output frequency is equal to the base frequency Ratio operation Ratio operation in which two or more inverters share a same frequency command main setting and an individual inverter multiplies the given frequency command by the ratio 96 specified by one of the analog input terminal extend
82. ontroller e g PLC using any of the input terminals if free on the inverter The universal DI signal is independent of the inverter operation Related function codes E01 to E09 E98 and E99 Universal DO To relay a digital command signal sent the upper controller e g PLC to the peripheral equipment using any of the output terminals if free on the inverter The universal DO signal is independent of the inverter operation Related function codes E20 to E27 Variable torque load A load whose torque varies in proportion to the square of the motor shaft rotational speed Fans and pumps are typical variable torque loads Using a suitable inverter for them yields energy saving effect characteristics Characteristics of an inverter output frequency f versus voltage V The graph below plots the output frequency along the abscissa and the output voltage along the ordinate Related function codes F04 F05 A02 A03 b02 b03 r02 and r03 Output voltage V Rated voltage at base frequency Output 4 4 frequency Hz Base Maximum frequency frequency 0 G 8 V f control The rotational speed of a three phase induction motor is calculated by the expression given below A general purpose inverter controls the motor speed by varying its output frequency f In proportion to the output frequency f the V f control varies the output voltage V Select the V f control to drive more than one mot
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84. or with a single inverter N 120xf 15 p where Motor speed r min Output frequency Hz Number of poles Slip frequency Vector control without speed sensor Introduced in response to a strong demand from the market for a control mode using no speed sensor PG pulse generator in environments where it 15 difficult to structurally mount a PG near the motor shaft or to suppress inductive noises on the PG signal wiring This control provides lower response and accuracy than the control with speed sensor Vector control with speed sensor A high performance high response control mode in which an inverter processes motor data such as the actual motor speed and motor shaft rotational angle detected by the speed sensor PG pulse generator for optimally controlling the motor rotor flux To achieve an optimal control performance this control mode is usually selected when the inverter drives motors exclusively designed for vector control with the rated voltage of 180 VAC 360 VAC Vector motor A generic term for motors applicable to the vector contro Fuji motors driven by the FRENIC5000V G7 series of inverters are available High Performance Multifunction Inverter FRENIC MEGA User s Manual First Edition June 2007 Second Edition March 2008 Fuji Electric FA Components amp Systems Co Ltd The purpose of this manual is to provide accurate information in the handling setting up
85. reases and that of the NTC thermistors decreases Some regenerative braking resistors cooling fans and motors have a built in thermistor Torque boost The compensation process for a voltage drop in a low frequency region when an inverter drives a three phase induction motor In low frequency range a voltage drop reduces the motor output torque To compensate for the decrease this process raises the output voltage Related function codes F09 A05 b05 and r05 Output voltage V y Torque boost Output frequency Hz Torque control Controlling the motor output torque in vector control with speed sensor using the option card in proportion to the analog input given at terminal 12 It does not control the speed and amount of the motor rotation Transistor output A solid state digital output signals unlike a mechanical contact output such as a relay contact output These signals output via terminals 1 to Y4 and the reference potential terminal CMY Function codes E20 to E23 assign functions to those terminals Auessoj5 Trip An inverter s output shutdown state in which an inverter goes when the protective function is activated due to an overvoltage overcurrent or any other unusual event The inverter cannot run until the trip state is reset The trip factor is displayed on the keypad Universal DI To relay a digital signal sent from the peripheral equipment to the upper c
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87. tal cable length is long Nominal applied motors Three phase induction motors 4 pole that can be normally driven by the inverter The output ratings are expressed in kW as listed in the specification tables Overload capability Index that indicates how much overload conditions the inverter can tolerate It is expressed in a combination of the output current level and the period assuming the rated current as 10096 For instance it is 150 for 1 minute in HD mode and 120 for 1 minute in mode Overload current rating The overload current that the inverter can tolerate expressed in percentage of the rated output current level and its permissible period G 5 Overload prevention control A function that detects inverter s heat sink overheat or overload and lowers the output frequency before the inverter trips thus preventing the protective function from being activated Useful for equipment such as pumps in which a decrease in the output frequency leads to a decrease in the load Related function codes H70 PLC signal power Terminal PLC Name of an external power input terminal that connects to a PLC programmable logic controller output signal power supply Also used to supply power to the load connected to the transistor output terminals Positioning control Positioning control under which the inverter detects the rotational amount of the encoder to control that of the motor shaft Under the speed c
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91. ust configuring function code P99 A39 539 and 139 Starting frequency The initial frequency at which an inverter starts raising its output frequency Related function codes F23 A12 b12 and r12 Starting torque Torque that a motor produces when it starts rotating or the drive torque with which the motor can run a load Stop frequency The output frequency at which an inverter stops its output in decelerate to stop operation Related function codes F25 STOP key priority Giving priority to the STOP key on the keypad which always enables the STOP key during inverter running The STOP key priority can be enabled by function code H96 even if the STOP key is disabled by function code F02 or H30 STOP key Switch to commercial power SW50 SW60 To switch the power source for three phase induction motors between the inverter output and commercial power line The switching sequence 15 integrated in the inverter Related function codes E01 G 7 Thermal time constant The time needed to activate the electronic thermal overload protection when the preset level of motor current continuously has flowed Related function codes F12 A08 b08 and r08 Thermistor A kind of thermal sensors which is classified into two types PTC Positive Temperature Coefficient thermistors and NTC Negative Temperature Coefficient thermistors As the temperature rises the internal resistance of the PTC thermistors inc
92. utput for any fault RS 485 communication input output 30A 30B 30C DX DX SD Alarm relay output for any error RS 485 communications port 2 This section describes the replacement information related to function codes that are required when replacing the conventional inverter series e g FRENIC5000G9S P9S and FRENIC5000G1 1S P11S with the FRENIC MEGA series It also provides the conversion table for the torque boost setting 1 FRENIC5000G9S vs FRENIC MEGA 2 FRENIC5000P9S vs FRENIC MEGA 3 FRENIC5000GI11S vs FRENIC MEGA 4 5 115 vs FRENIC MEGA A 35 p 36 p 47 p 48 p A 66 0009 01 10 0 S 009 07 10 0 00 0c 00 9 0 02 0 9 ES 00 0 904211299 4 9035 03 15809 00 0 1 UNL uoneio ooeq 00 0c 00 9 5 0009 01 000 T eun uongm eoov 0 02 0 9 5 009 91 10 0 T sung 55219 591195 8512 A 00 101 00 007 eSej oA mdmo A 005 0 091 591105 sse o 591195 sse o A 002 101 59105 SOLOS sse o A 00 A 08 O1 OTE 009 005 8 OPT 01 08 eS8e3 oA andin ssep A 007 so11es sse o A 005 A OFT 01 08 1 eSe3 oA mdmo 007 591195 55219 A 000 ooz 591195 A OOP 10 91195 sse o pej oguoo wAV ue 3ndjnQ 00 03 091 00 007 591195 55810 A 005 10 8 pe onuoo wAV jndjnQ
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